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Operations Manual For Rosengrens LocksmithLocker unit comprising a plurality of lockers Download PDFInfo
various locker systems are already known which consist of a plurality of safe deposit boxes, in which each locker is provided with its own door and which can be closed via a locking device. Such Schlieì fan, also called value accounts, are often set off in banks to allow Badrikkunden the storage of valuables without control of the bank. To achieve the security against unauthorized opening of a locker, these doors are equipped mostly with two mechanical locks, a so-called customer lock and a bank lock. This ensures that the customer passage authorization only for a detection of the Zu¬ to the locker, this can also open and therefore, to prevent unauthorized opening an additional safety is provided in addition to the customer key. This banking lock is unlocked while ac- companying bank officials for an identity check by one, the customer what the customer can open the locker with his key. Troublesome in this context for many customers that the same present in the locker room bank employees can observe the customer's transactions. Accordingly, the banks but not least auf¬ due to high personnel costs trying to automate access to such lockers. There are therefore known lockers can be in which one of the two locks on the door, namely the bank lock, a Fernsteuereinrictotung from a bank official who outside the SciilieÃfachanlage has his work released. Such a lock is known for example from EP-OS 0 096,400th by additional it is ensured that with a missing release by the Bankbe¬ the bank lock servants after a short time vo.llautomatisch incident again so that a subsequent attempt by a customer to enter with a false key in a safe fails. Darüloerhinaus are for securing the position SchlieÃfachan- diverse security measures, such as motion sensors, infrared sensors, and other, arranged, as is usual in other vault systems. A disadvantage of such a locker systems that either the Persoiralaufwand to Bedie- NEN the banking lock is relatively high, or when using the currently known locks, the energy for actuating the elek¬ trisch applied locks is relatively high. This erforder extensive Elekta άnstallationen, so that these systems are not suitable for retrofitting provided with two mechanical locks door of a locker system. would have amounted to such An¬ .in the locker system all the doors ausge¬ exchanges and its own wiring to be installed. The Auf¬ wall it is relatively high and there is also e.in wesentli ches problem is that it is not always possible to call all customers on any given day to outsource stored in lockers valuables, so that the conversion durchge leads are can. The present invention therefore has for its object to provide a locker system of the type mentioned, ± n the particular existing in a simple manner with SchlieÃfachan were mechanically operable locks can be equipped in such a way that the so-called bank lock is remotely actuated without the need for a high energy input is required. DA over also should be able to existing locker systems will rebuilt without the doors need to be replaced and a complicated cabling network must be installed. This object of the invention is achieved in that the device is a Sperr¬ the lock associated comprises auxiliary lock, which has an electric drive for a Sperxeinrichtung and that the SpeιÏe.inrichtung an access to the mechanical lock and African or or its adjustment blocking Rest position and e.ine this access and or or Verstel¬ lung releasing open position comprises. This will now be achieved in an advantageous way that is denied actuation over the auxiliary lock of access to the customer actuatable lock or its loading. Dtirch this relatively simple appearing measure ensures that the energy expenditure for Betäti¬ account the closing device of the auxiliary lock can be kept very small ge, since no 'barrier function' of the castle must be taken vor¬. Moreover, it is possible in a surprisingly simpler Wei.se that any locker system with any lock system can easily be equipped with the new additional closed. According to another embodiment it is provided that the additional processing locks of the individual lockers with a Steuereinrich¬ and or or a central control unit are connected, whereby a central monitoring and operation of the fan and thus Schlieì edLne increased security against a unberechtig¬ tes ' open such deposit is achieved. However, it is also possible that the auxiliary lock is an¬ arranged on the side facing away from an interior of the locker outer side of the door and is connected by fastening means with the latter, whereby on doors with mechanical locks without a zusätz loan structure in the interior and thus without narrowing of the interior the lockers the auxiliary lock can be attached. Furthermore, it is also possible that the auxiliary lock on the loading fixing means on the door of the locker in front of a Keyring selloch of the mechanical lock is attached. This allows the auxiliary lock in a simple manner with a door, even if it was originally equipped with two mechanical locks, to be mounted, and the extra security is enabled by the remote-controlled adjustment of the auxiliary lock. but it is also advantageous if the fastening means is formed by an arranged on the auxiliary lock pressure-sensitive adhesive layer, as this is no mechanical machining of the door of the locker is necessary. but further, it is also mög.lich that the fastening means is formed by a co-operate with the mechanical lock in the door of the retaining element, as a result, the second mechanical lock can be used for attachment of the auxiliary lock according to the invention. but it is also advantageous if the blocking device has a rotary latch which operating knob a projecting from the auxiliary lock Bet ^ and an aperture in a latch plate comprises durch¬ urgent locking lugs which are arranged on the rotating bolt, and that the locking noses an aligned with the aperture open position and having, opposite this twisted closing position that the rotary latch a Arretiervorrich¬ tung with e: Lner spring device which exerts a force directed in SdhlieÃstellung de rotary latch Vörspannkraft and is associated with a locking Glienicke, which cooperates with a bolt and a drive, as with a minimum of effort an additional mechanical security can be achieved, still with a drive which only requires a low energy can be adjusted from the locked to the unlocked position easily. but further, it is also possible that the blocking device has a arranged perpendicular to the door, adjustable locking pin auf¬, the load in an engaged in the locking bolt rest position by a spring device having a directed against a locking bolt of the mechanical lock Vörspannkraft and in that a locking member is held, which is assigned to the locking pin adjustably mounted electrical Antrie a senk¬ right. This makes it for the locker user ein¬ times possible after finishing his manipulations by way e_Lndrücken knob itself in the manner of a push-button even the second security, namely lock the database backup. but further, it is also possible that the Sperreirrichtung has a arranged perpendicular to the door, adjustable locking pin up, the one of a spring device having an effective is locking bolt of the mechanical lock directed biasing force maintained in an engaged in the locking bar Rijhestellung and a locking pin is adjustable by a drive against the action of the spring device, whereby the force required for the release of these additional mechanical lock to pull the Zurück¬ limited and thus not remotely controllable so that manual operation can be replaced e.infach. After e.iner another embodiment variant it is provided that a the auxiliary lock is arranged perpendicularly to a door surface opening passing through the locking device congruent to the keyhole of the mechanical lock, since thereby the key previously used for the mechanical customer lock processed further turns can be. but moreover it is also possible that the auxiliary lock has a relatively zumin¬ least opposite the keyhole adjustable, connected to the drive aperture. This embodiment is characterized especially by the fact that only the to be applied to Ver¬ position of the shield necessary energy with a corresponding design, for example by a central lock, or by a SchlitÏsverschluà according to the embodiment with a camera, only in accordance with massive verer design may represent additional database lock. It is also advantageous when several auxiliary locks of several doors is assigned a drive, which is arranged in a relatively ^ to these adjustable Bet actuating device, since thereby the cost of the additional securing of the doors of the lockers, especially when retrofitting SchlieÃfach.an - were having doors with two locks, is low. Furthermore, it is also possible that the drive is connected to move with a key for the auxiliary lock, which in particular has a temperature within the actuator rest position and an out of the same locking position, thereby an easy mechanization of the activities that have been made by a bank employee can take place. but further, it is also possible that the fastener un bzw.- or the aperture and or or the auxiliary lock and respectively or with the control device Betetigtjngsvorrichtung ver¬ Thematic transmitter are assigned. The transmitter ermög¬ union the approval of the respective .SchloÃzustandes and kön¬ nen simultaneously to an increase in security against unbe¬ unauthorized opening of the lockers are used, wodurc in addition to the simpler and less expensive operation Locker unit can also be increased gleichzeitig.der safety standard such locker system. It is advantageous in this respect if the locking device insbesαn, particular of the diaphragm in the rest position, a transmitter is supplied arrange which is fourth akti¬ at VersteUung de visor from the rest position, since thereby the position of the shield to both the Ãber¬ monitoring whether the opening is the bank lock footing, he follows it or not, as can also be monitored for monitoring the correct function of the bank latch of a conscious opening by an operator of the bank. but further, it is also possible that the side of the auxiliary lock associated transmitter is activated at a distance from the door of the locker. By arranging a MeÃwert¬ encoder, it is possible in a simple manner, the location of the Zusatz¬ lock relatively to monitor the door, so that a sufficient safety against unauthorized removal of, the Bank¬ without aufwen ended mechanical fasteners joined forming auxiliary lock, achieved can be. According to another embodiment it is provided that the control device or the locker computer via Umsetzbauteile, for example modulator or demodulator, with a KcÏmunikationssystem for energy and or or signal transmission between the computer and the Fach¬ Stexjervorrichtung and the energy source and or or central control unit is connected. This kan the cost of energy supply and Nachrichtenübertragun in such a locker system can be reduced. It is advantageous if the communication system with the Steuereinri obligations by an associated, insulated against the tank wall, the tank wall of the conduit and is formed .SchlieÃfachan¬ location, since thereby the necessary with a single wire or a single line energy and the Steuersig¬ nal can be transmitted for e.ine variety of locks. According to another embodiment it is provided that the Lei¬ tung ung an insulating layer disposed conductor track is formed by a switching on the doors of the lockers under intermediate ^, whereby the installation of additional lines in be¬ standing locker units can be saved. Here, it is possible that the conductor consists of an electrically conductive, in particular semi-conductive, plastic, can be prepared by the wo¬ applied line in the manner of a design or a painting, so that the actual functional for an outsider is not immediately apparent , but further, it is also possible that the connection of the conductor track between the doors and or or the corpus takes place via devices Köntakt- to give a compound of a plurality of supplementary locks a locker unit to an entire Netz¬ factory is facilitated. After eiLner another variant, it is provided that the line is formed by a light conductor and between the doors and or or the armored wall bond transmission elements for wireless Ver¬ disposed of optical fibers, whereby even when OEF a door with a auxiliary lock NEN seamless verb. can be done indung between the adjoining .Lichtleiterteilen. Moreover, the Quer¬ required for such light cable is cut low and powerful, so that both higher energies, as well as a wealth of information can be transmitted simultaneously. can, it is advantageous here if the transfer elements are provided with a swiveling optic, as this supply a Ãbertra¬ in the hinge region of the door between the door and the body take place. According to another Aι_sführungsform it is provided that two conductor tracks are provided and disposed on the door conductor is interconnected with the door closed with the one and ge door is open with the other conductor path, whereby both in open as well as the door is closed a perfect connection is ensured supply system for energy and Nachrichtenver¬. but further, it is also possible that the Kontaktvoirricht-ung-is formed by on the door and a body-forming tank wall or between the doors each arranged aligned contacts, thereby unication concerning the interruption of Kαn connection immediately the condition of the door, whether closed oder.of¬ fen, can be displayed after an energy and Nachrich- tenversorgung anyway, is manoeuvrable not¬ only in the closed state of the door so that the door is only allowed during an interruption or may have been tampered with. It can be stated as cleared by the bank official, however auf¬ reason, whether the opening deal or not deal done. Another advantage is the an embodiment in which the KoÏsÏunikationssystem between the auxiliary locks and the energy source and respectively or the central control unit is wireless, since this can be spared completely the production of conductor tracks in the area of ââKorpuses or lockers, wherein when using a corresponding energy storage in the auxiliary lock the Ge can interfere unit even brief interruptions in the power and communication transmission from customers samtfunktion the auxiliary lock is not. According to a further embodiment it is provided that the con- zerwand taktvorxicÎtung by on the door and on the corpus or its Pan¬ arranged, inductive or capacitive Ãbertragungsvor¬ formed directions, as this is a simple, non-contact transmission of the information is possible and Engerie , According to another development it is provided that the KorÏÏunikationssystem, verbun¬ which receiver and a distanced with a control device one of these, connected to the power source and respectively or the ZentralsteuereLnheit transmitter for carrier radiation and or or and or or vibes force fields, such as heat, light, sound, magnetic or the like., whereby the supply of which is arranged on the einzel¬ NEN doors auxiliary locks can be effected from a central location, but this supply is not disturbed by the opening of individual doors in the locker system. Operations Manual For Small BusinessIt is advantageous here if the Kcxnmunikationssystem zwi¬ rule of the power source and the auxiliary lock a light transmitter and a light receiver, .insbesondere to infrared light, um¬ construed as this can be used for energy and Nadir layer transfer the already existing in such plants the light source and while also undergone a relatively inconspicuous and for the customer not immediately apparent supply unit Han, who in addition requires little effort in the retrofitting of such lockers. It is advantageous in this case if the translation component of the KomrÏuni- cation system between the central control unit and the supplementary closed tftnsetzglieder for superimposing the carrier beams of information and for screening out the information has gerstrahlen from the Trä¬ as this different frequencies in the light spectrum for or energy transfer at the same time can be used, and e ^ another medium for this task is not required. it is furthermore advantageous if the auxiliary lock hole, the key for the lock arranged in the door and, optionally, covering the auxiliary lock, as this set lock after removing the Zu¬ the second lock can be used as Nötbetätigung for the bank. However, it is also possible that the auxiliary lock or a group of auxiliary locks with an input and / or reading device is connected, as this can be kept low for additional control circuitry for managing the lockers which are provided locks with retrofitted Zusatz¬. but it is also advantageous if the lines of the Kcmmuni- cations systems are arranged in a housing of the auxiliary lock, as this compartment system, the wiring complexity in the field of Schlieì can be reduced to a minimum. Finally, it is also possible that the housing of the Zusateschlösser of adjacent doors through Köntaktvor- directions are connected to each other, whereby the Zusatzschlös¬ ser not only the Sicherheitsfu.nktion for the bank lock sαn- the same time, the necessary facilities and equipment for kön¬ absorb energy supply and communication nen. For a better understanding, the invention will be explained in more detail with reference to the subsequent shown in the drawings embodiment. Download driver acer aspire 4349 network controller. Show it: Fig. 1 shows a part of the inventively embodied SchlieÃfach¬ plant with lockers, TresorÏaumtüre, operating table and control electronics in simplified schematic Dar¬ position; Fig. 2, the locker system is cut in an end view according to the lines II-II in Fig.l; Figure 3 shows a part of the locker system on a larger scale with closed compartment doors. Figure 4 cut the locker in a front view according to the lines IV-IV in Figure 3. Figure 5 cut the locker in a front view according to the lines VV in Figure 3. Figure 6 is a formed according to the invention auxiliary lock in Vorder¬ view, partly in section. Figure 7 shows another embodiment of the auxiliary lock algebildeten in Fig.6. Figure 8 is a Kcmmunikationssystem between the lockers and a central unit in a simplified schematic Dar¬ position. Figure 9 is a supply attached to the safe door coil for Signalübertra¬. 10 is a secured to the tank wall to the coil Signalülaertragung; Figure 11. a erfindungsganäÃes auxiliary lock in a front view, overall cut; 12 shows a .An arrangement of the conductor tracks for the supply of the auxiliary lock; 13 shows the arrangement of the conductor tracks in section, according to lines XIII-XIII in Fig.12; 14 shows the transition region between safe door and safe block in plan view; 15 shows the bonded circuit traces view according to Fig.13 in Stirnan¬ cut; 16 is a variant of the invention for data transmission between auxiliary locks; Fig.17 a Betjätigurigsvorxichtung for unlocking mechanically operated locker doors in front view; 18 shows the Betätigungsvorricht-ung Fig.17 in side view; Figure 19 another embodiment of the Betätigiingsvorrichtung in end view; 20 shows the actuator according to Figure 19 in side view; 21 shows a locker with marking points for the shown in Figure 17 to 20 BeÏ_ätigungsvorrichtungen; 22 shows an antenna arrangement according to the invention for Datenüber¬ transmission via electrical or electromagnetic fields in top view and simplified representation schematiseher lung; Fig.23 an antenna arrangement for the invention Datenüber¬ transmission via elekt_rcmagnetische or magnetic fields in a simplified representation schematiseher; 24 shows a block diagram of an inventive control device; Fig.25 is a block diagram of a specialized computer module; Fig.26 is a diagram showing the pulse waveform 'of clock pulses in a line leading to the Fachrecbnern line; Figure 27 is a diagram showing the pulse waveform with computer through the Fach¬ modified clock pulses; Fig.28 is a diagram showing the pulse waveform with the Fach¬ by computer and network controller altered clock pulses; Fig.29 is a block diagram of a network controller; Fig.30 is a block diagram of a specialized computer; Fig.31 is a block diagram of an embodiment for Ãber¬ averaging of energy and data to e.inem locker computer; Figure 32 a further embodiment of the auxiliary lock and a variant for desen mounting on a door of a Locker in a plan view, partially sectioned and simplified view schematiseher. In Fig.l a locker unit 1 having a plurality of safe deposit boxes 2 is shown in a simplified diagrammatic representation schematiseher. The locker unit 1 is arranged for example in a bank e.inem vault 3. 4 Access to the vault 3 is connected via an access door 5, for example, forms through a screen door or during the night by a reinforced door overall be, can be. In order to allow access to the locker unit 1, .in the antechamber 6 of the vault is arranged 3 or in another room of the bank a control body. 7 This comprises a workstation 8, and optionally a card reader 9. The workstation 8, and the card reader 9 are connected, for example via a data line 10 with a Zenttalsteuereinheit. 11 At this Zentralsteuer¬ unit 11, a report printer 12 and an additional card reader 9 is further connected in the area of ââthe access door. 5 Via a bus system 13 or at kle.ineren plants a corresponding data cable locker unit 1 is also connected to the central control unit. 11 Each of the boxes 2 is closed with a door 14, the locking means 15 is ordered zu¬. This Sperxeinricfrtung 15 has a mechanical lock sixteenth Now wants a user or owner of a locker 2 go to his locker, he must, for example, when image schixmarbeitsplatz 8, identify, by introducing a provided to him Verfügun control card in form of a check card or the like. Into the card reader or one of fills teller vorbe¬ reitetes form and signed. The clerk then has the option of entering the respective customer number or name of the user of the BildscMrmarbeitsplatz what are to him on the screen, the corresponding signature or personal information, such as a photograph or the like. Presented so that it can vor¬ take a personality control , If the check is run to the safety regulations in accordance with positive, the bank officials can provide information about the workstation and the central control unit 11, the je¬ stays awhile locker 2 for access by the user frei¬. The user then goes to the field of Zugangs¬ door 5, where he possibly after further review of the supply trit_tsberechtigung under use of the card reader 9 Zu¬ transition to the vault 3 is. * In the vault 3, he can now with his key, which belongs to him Safe-2 whose schematically represented by a box auxiliary lock has been unlocked 17 via the Zentralsteuere.inheit 11 or from the workstation 8 open. This Zusatzsdhloà 17 is as customarily referred to as the Bank barrier. In Fig.2 an embodiment of a locking device 15 is shown for a door of a locker 18. 2 These lockers built Saind 2 in a body, which is armored fabric walls 19, between which the doors are eingeset.zt 18, which in turn are fixed to the tank walls 19 by hinges 20th This locking means 15 comprises a mechanical lock 16. To Be¬ actuation of the mechanical lock 16, a key hole 21 is arranged, through which a key can be inserted into a locking mechanism 23 of the door 22 in the eighteenth The Schlieì mechanics is moving connection with a locking bolt 24th The closing movement of the locking bolt 24 may optionally be supported Pieter a spring 25th An auxiliary lock 26 has a lock pin 27 which is mounted perpendicular to the door 18 and the adjustable door 18, and a folded area of ââthe tank wall 19 passes through and engages in a bore 28 in the locking bolt 24th The locking pin 27, which acts as a lock, is connected to a drive 29, which is formed for example as Elektoomagnet. The locking pin 27 is against the action of the actuator 29 biased by a spring device 30, so that it engages securely in the locking bolt 24th The auxiliary lock 26 is connected via fastening means 31 such as an adhesive layer 32, fixedly connected to the door 18th The drive 29 is connected via lines 33 to a control device 34th The control device 34 associated with transducers 35 and 36 with which the Lages of the auxiliary lock re¬ tively to the door 18 26 can constantly be monitored or with which the ambient temperatures or vibrations can be detected to determine if an unauthorized person tries to provide access to a closing oh 2 to comparable by Gewciltanwendung. These transducers 35 and 36 are mounted on a preferably overlapping, the Steiaiervorrichtung 34 printed circuit board 37 or a computer disk. The computer disk can selbstverständ¬ Lich by a molded block which is provided with standardized plugs be formed. It is connected via a translation component 38, for example with a proper Solarzellenan¬ 39, in turn, a part of a Kαmiunikationssystens 40 - imaginary - Fig.3. As better seen in Figure 3, the KCmmunikations- system consists of radiators 41, which are connected to a power source 42 and the central control unit 11 or any other Steuerxechner. The drive for the .Aktivierung of An¬ 29 energy required is indicated symbo¬ lisch by light rays 43, wherein the signals 44, which are schematically indicated by a wavy line in the drawing, rays Licht¬ these may be superimposed on the 43rd This superposition can so¬ well done for signal transmission from the emitters 41 to Umsetzbau¬ part 38, and in the opposite direction. The signal transmission between the translation component 38 and the radiator 41 for transmission of signals to the central control unit 11 is important in order to give in the case of disturbances or opening attempts of unauthorized third party as quickly as possible an alarm or an indication to the operator or the Bank so that eventually a wrongful opening of a locker 2 can be prevented as soon as possible. In Figure 4 is furthermore shown that the solar cell array 39 may be equipped with solar cells arranged in an imbricated manner 45th It is particularly advantageous if the individual Solar¬ cells are inclined at an angle 46 relative to a vertical line corresponding to an angle of incidence of the light beams 43, so that the best possible energy yield from the light beams 43 can be achieved or e.in good Sigralempfang the signals ensures 44th Of course, it is also possible that the solar cells 45, as shown in Figure 3, arranged parallel to the doors or that the angle is 4690 degrees. In 5 shows a different embodiment of a Zusatz¬ is closed shown 26th The door 18 is, as written be¬ reference to Figure 2, rotatably disposed gela¬ Gert via hinges 20 on tank walls 19th On the side facing away from the operator .pages the TUE- IS a mechanical lock 16 is arranged, which is fixedly connected to the door 18th For actuating the lock 16 is a key 22 is provided which can be inserted through a keyhole 21 in the lock sixteenth For the lock 16, any known mechanical lock can be used with a sufficient degree of safety for such purposes. This mechanical lock 16 came - as indicated schematically - also with a parallel to Sperreiririchtung 15 Z- usatzschloà 47 be provided. If now, in order to facilitate the operation according to the invention, this auxiliary lock 47 are replaced by a Ferr-operation, a housing 48 of the lock 26 Zu¬ set vorgebaut for example, before the key hole 21 of the auxiliary lock 47th The housing 48 may - as indicated schematically schema¬ attached - with fastening means 31, for example mechanically by means of fastening screws 49 connectedness with the door 18 may be the. The auxiliary lock 26 comprises a locking device 50. This has, inter alia a perpendicular to the door 18 angeord¬ Neten turning bolt 51. With the door closed 18 enforce locking lugs 52, the tank wall 19 and can be pivoted ver¬ opposite an opening 53 in the position shown in full line position in which a distance of the vonein¬ on wide test other distant points of the two locking tabs 52 is greater than a width of the opening 53. ent A height of the opening 53 corresponds essentially this distance of the most widely from each other remote points of the locking lugs 52 or is slightly larger. Of the locking tabs 52 overlying rotary latch is further connected to a projecting beyond the housing 48 operating knob 54, so that the rotary bolt can be operated from outside the fold Schlieì 2 51st By turning bolt 51, a locking member 55 is furthermore rotatably connected, as is schematically indicated by SchweiiJnähte between the pivot bolt 51 and the locking member 55, which may be formed by a Sche be. As further more apparent from Figure 6, the locking member 55 is pivotally connected to a spring device 56 which is mounted with its end facing away from the rotary latch 51 in the housing 48th This spring device 56 in the closed position a wir¬ kende exerted by an arrow schematically indicated biasing force on the rotary latch 51st Therefore, the spring device 56 is always trying to keep the locking lugs 52 in its closed position ent speaking and shown in solid lines in Figure 5 position. I now only to allow actuation of the rotary bolt 51 when an authorized user to open the door 18 of its locker 2 .11 is a Arxetiervorrichtung 57 is provided. This consists in the example shown in Figure 6 Example of a drive 58, zBeinem piezo drive and cooperating with the bolt 59, ge in its full lines in the rest position drawn engages in a recess of the disc-shaped locking member 55th now attempts an unauthorized user with the operation button 54 and locked in 51 to twist the opening direction, this is not possible because a rotation of the disc-shaped locking member 55 is prevented by the latch 59th If, however, by the bank, access to the locker 2 is released, is supplied via stream 59, the control device 34 to the latch, that is, this deformed auf¬ due to the inherent material properties in the direction indicated by broken lines direction. He therefore moves out of the Umfang.sbereich the disc-shaped Sperxgliedes 55, and the rotary latch 51 can now be opposite to the through - be adjusted indicated Vörspannkraft into an open position in which the locking noses 52 can pass through the opening 53 - arrow. Has the authorized user before being unlocked with the key 22, the mechanical lock 16, he now has free access to his locker 2. The supply of the control device 34 can take place via lines, or it is also possible that .Energie- and signal transmission by means of the durchzxiführen chtstrahlen -43, as has been described with reference to Figures 3 and 4 in more detail. In this case, the solar cell 48 would have to be arranged on the housing 45. In order to prevent the auxiliary lock 26 is un¬ allowed away from the door 18 and to monitor the desired position of the disk-shaped locking member, a plurality of transducers 60 to 62 are arranged. The transducer 60 monitors the position of a control pin 63 on the disc-shaped blocking member 55. If the Köntrollzapfen 63 rotated from the position shown, as can be enabled with the transmitter 60 which can examples be playing formed scÏhalter by a elekttomagnetisch acting proximity, and are e ^ enteprechen- of the control signal to the control device 34th The MeÃwert¬ encoder 62 may be formed similar to the transmitter 60 to monitor for example, whether the auxiliary lock 26 retains its voreingestelTte position opposite the door 18th If the auxiliary lock 26 without authorization from the door 18 so the magnetic field and the control device 34 changes can be informed to a corresponding monitoring signal, so that an external alarm can be triggered. In the transmitter 61 can be combined to provide a vibration sensor or ge separated by a Temperaterfühler act, so that when not zu¬ casual shocks, for example, as schremmen during ascent and would result Stjemmen a locker or above the permitted temperatures, which are temperature values ââdue a welding operation or the like., also a signal is transmitted to the control device 34, which leads to an external alarm. Of course, any other appropriate can ratur- by Tempe¬ or current action adjustable element, for example, from bimetal or memory metal in place of the piezo actuator can be used. In Figure 7 a variant of the locking device 57 is shown. In this embodiment the disc-shaped blocking member 55 is a Arxetierzapfen 64 is associated with the ent via a solenoid 65 radially of the disk-shaped locking member 55 against the action of a spring is adjustable 66th The Arretier¬ pin 64 can at the same time the movable core of the electron tromagneten form 65th Is now in front of an authorized opening of the door 18, the electromagnet 65 is activated, the Arretier¬ is tap in the electromagnet against the action of the spring 66 drawn and released the movement of the rotary latch 51st This makes it possible, the rotary latch 51 - as described with reference to the 5 and 6 - in an opening position against the Wir¬ the spring device â 56 effect to adjust. In the Figure 8 to 11 another embodiment of an auxiliary lock 26 is shown. Also in this embodiment, the auxiliary lock is on the door of a locker 18 2 builds aufge¬ 26th Each door of a locker 18 is connected by hinges 20 to the tank wall 19th The tank walls are formed abgew.inkelt and are engaged from behind by the locking bolt 24 of the mechanical lock sixteenth This allows wer¬ locked in its closed position relative to the tank wall 19, 18 to the door. Strcmversorgung to the auxiliary lock 26 are printed conductor tracks 67,68 on the tank wall 19 or the side facing the door 18. The conductor track 67 on the door 18 is connected via lines 69 with the auxiliary lock 26 and the presence therein slave controller 34th the mechanical Lock 16 can be formed by any known mechaiiische concluded from the prior art, so that the closed Zusatz¬ 26 especially doors 18 of lockers 2 downstream can be upgraded with a normal Dqppelschloà for a so-called 'bank key' and a 'Kijndenschlüssel' are fitted. The originally planned to operate the 'Bank¬ castle' keyhole 21 is preferably covered by the auxiliary lock 26th An opening 70 for the Be¬ actuation of the 'customer lock' is passed through the auxiliary lock 26, so that the bank customer record lock 26 therethrough after the attachment of the Zu¬ with its previously used key by the auxiliary lock 26, the lock can block the sixteenth The loading attachment of the auxiliary lock 26 can be achieved on the door 18 by screws, gluing or welding. In the Figure 9 and 10, the construction and arrangement of the conductor tracks is more nuri shown in greater measure-rod 67 and 68th Each of these conductor tracks 67 and 68 forms a coil, said coil made of a conductive tape or sprayed onto an insulating film 71 having Leit¬ paint can be. This film 71 may be adhered directly to the wall 19 of the tank side facing the door 18 Seto and with which the door 18 passes through lines 69 contacted. However, it is also possible that the conductor strip - as schenatisch indicated by dashed lines in Be¬ rich of the auxiliary lock - is wound around the door 18 herumge¬, so that a puncture of the door can be avoided 18 and the control device 34 directly on the outside of the door 18 can be contacted with the conductor track 67th In order now to supply the coil formed by the track 67 by induction of energy, the conductor track 68 also forms on the tank wall 19, a coil gebil¬ det via lines 72, the sheets also by applied to self-adhesive sheets printed conductor or by self-adhesive formed conductor foils can be supplied with an energy system. By corresponding actuation of the gebil¬ by the conductor track 68 Deten coil with alternating current in the conductor track 67 and the coil formed therefrom induces a voltage to Power supply of the auxiliary lock 26 can be used. 'With appropriate modulation of the AC voltage also information or control signals from a central control unit to the Steuervor¬ device 34 can be transmitted via this path in addition to the energy. In Figure 11, the structure of the auxiliary lock 26 in detail ones shown, is up. A locking member 73 is formed by a diaphragm 74 which is provided at least over a part of its circumference with a toothing 75 miles. The aperture 74 is superimposed rotatable about an axis ge 76th In addition, it has a recess 77 which in situated in the open position aperture 74 - is arranged congruently to the keyhole 21 - as shown in Fig.l. On the SperÏglied 73 is further provided a control pin 63 which can seiLn formed by a glued-on metal foil or a built-in, the locking member 73 of metal part is provided which is associated in the illustrated position of the locking member 73 to the transducer 60 is monitored by means of which the position of the aperture 74 can be. The transmitter 60 is as well as other MeÃwert¬ encoders 61, 62 - which may have the same or similar function, as they were described with reference to Figure 5 to 7, - connected to the control device 34th The control device 34 is supplied via the ten .Remove 69 of the ausgebil¬ as a receiving coil Deten track 67 with power and signals or Nachrich¬. The lines 69 are for this purpose inserted through an opening of the door 18th With the control device 34, a drive 78 for a gear 79 is further connected. This drive-can ausgebil¬ by a Schrittschaltjmotor or scheiben¬ shaped linear motor or any other motor be det. It is advantageous, when this motor has a very ge rings height, because then the auxiliary lock 26 can also be produced with a low overall height .very. The function of the auxiliary lock 26 is now such that, upon a release of the lock 16 with the drive 78, the diaphragm 74, for example from a position in which the recess 77 is a .in dashed line position shown in which the access to the keyhole 21 through the aperture 74 is closed, is pivoted to the drive 78 into the position shown in full line position of the recess 77th Achieving this end position is monitored in cooperation between the control pin 63 and the transducer 60th Furthermore, in addition in the area of ââthe Be¬ Ausnebmung 77 also, a transmitter may be arranged 80th By Zusanirtenwirken the transducer 60 and 80 it is then possible to monitor the respective position of the diaphragm 74 exactly by the closed or the locking position of the diaphragm is signa¬ lisiert for occupancy of the output of the transmitter 80 74 while bef when in the open position. indlicher aperture 74 of the output of the transmitter 60 is occupied by a signal. Simultaneously, the transmitter can be used 80 to be that the in-Vorhanden¬ in open position aperture 74 of a key can be monitored. This would th bedeu¬ that the diaphragm is at the same time signal output of the transmitter 60 and 80 74 in the open position, and a key inserted into the key hole 21st At the same time, this monitoring could be used to that after the Closing of the lock 16 and removing the key from the keyhole 21, the key hole 21 can be closed by the diaphragm 74 immediately automatically. Thus the Zeit¬ would space in which an unauthorized user could manipulate the lock, additionally shortened. When using a flat construction actuator 78 it is therefore possible to form the auxiliary lock 26 in the manner of a slightly thicker check card. This can then be easily applied by a gluing process on the door 18th Instead of the motor 78, and of course a drive can be provided by a rotary magnet or can be Schlüs¬ selloch blocked by locking pins operated by a solenoid 21st In Figures 12 and 13 show a different embodiment for an auxiliary lock 26 is shown. This auxiliary lock 26, as better seen from Figure 13, again mounted on the side facing the user side of the door 18th The embodiment of the auxiliary lock 26 may be substantially to the embodiment of the auxiliary lock 26 correspond in accordance with the Figure 8 and 11, so are used for identical parts the same reference numerals. The doors 18 are consolidates be¬ via hinges 20 to the tank walls 19 and tank in the skeleton. On the side facing the inside of the locker 2 side of the door 18, a mechanical lock 16 is arranged WEL ches is lockable via a key which can be inserted through a hole Schlüssel¬ 21 through the door 18 into the lock sixteenth Access to the keyhole 21 can be prevented by a plate Sperr¬ 81st This lock plate 81 is formed as a movable armature 82 of a linear motor 83 in a portion of its range, the stator are associated 84th The Iiinearmotor 83 forms the drive 78 for the lock plate 81. By UÏpolung of the stators 84, the lock plate 81 can turn in the direction of the key hole 21 or moved away from it. In order for a release or a closing of the keyhole 21 can be achieved with simple means, which also offer the advantage that they require only a small installation depth. A Kömnm_rιi_kationssystem 85 between the central control unit 11 and the individual auxiliary locks 26 associated Steuer¬ devices 34 is formed by conductor tracks 86,87. These conductive paths 86,87 for example consist of an electrically conductive material, in particular an electrically semiconductive Kunst¬ which is applied to an insulating 88th This application of the insulating layer 88 and the Leiterbeahnen 86.87 on 'the doors 18 can dera t, done that the individual Schich¬ th are sequentially sprayed on the doors or aufge¬ deposited or it is also possible for the insulating layer 88 and the conductor track 86 form a preferably self-adhering foil tape, which is then applied only to the fronts of the doors as well as on their front edges 89,90. Between the individual doors 18 of the conductor tracks are arranged zwi¬ 86 rule the individual doors or for connection of the conductor tracks 86 with a tank wall 19, which forms the body of the locker system, contact means 91 for connection. These IContaktvorrichtungen, for example, spring-loaded contacts 92 Kon¬ have to come into contact with the conductor track 86 in the region of the end edge 89th This ensures an undisturbed connection 18 between the tracks 86 and a sufficient safety in the energy storage and communication between the individual doors. As schematically indicated in Fig.12, the Leiterbalrn in the area of ââthe auxiliary lock 26 is coupled to an energy storage 93rd This energy storage 93 which may be formed by a battery or the like. Is used as a so-called buffer memory, so that certain functions Funk¬ of the auxiliary lock 26 can be guided durch¬ also in the open state. In Fig.14 is shown how a sufficient supply of the individual control devices can be secured in the auxiliary locks 26 34 even when opening a door 18th 19 by conductive traces 94 are disposed on the body or to the struts or tank walls, which under, for example in the field of doors 18 Interposition of an elastically deformable support layer can be arranged on the tank wall 95 nineteenth This parallel connection, which is arranged on the tank wall printed conductor track 94 and the circuit traces 86 on the doors 18 may even if one of the doors 18 is opened, a connection and power supply to the other doors are maintained 18th but of course it is also possible for the conductor tracks 86 and 87 perform multiple lanes, so that the energiser and Versor¬ account the individual Steuervorrichtungäh 34 of the doors 18 from any side can take place or it is also possible, by an appropriate control logic in the central control unit 11 to prevent that for example in a series of unter¬ superimposed lockers 2 more than one locker 2 is released for access. In Figure 15 a line 96 is shown, which can be used for the production of the conductive paths 86,87. are introduced this line consists of a backing layer forming a insulating layer 88, on the one hand on the side of the pressure sensitive adhesive layer 97 and on the opposite side DIE ser conductor tracks 98,99 and 100 aufge¬. Of course, a plurality of printed conductor tracks can also be parallel to one another on this insulating layer 88 angeord¬ be net. This makes it possible to separate the signal lines from the power lines and build different circuits over which the e.inzelnen doors beispiels¬ as alternately be supplied. In Figure 16 a different kind of a cation-KOTirriuni system 85 for supply is shown at the doors 18 of untere.inander or adjacent lockers 2 of a locker unit. 1 On the doors 18 each auxiliary locks 26 are arranged, which may for example be designed in accordance with the above-described exemplary form. For the energy supply of the individual auxiliary locks 26 the .Kcιr 'is executed Ïαjnikationssystem 85 now wirelessly. The transfer of energy and information and news .Between the auxiliary locks 26 is effected via the auxiliary locks 26 each zugewen- det arranged transfer elements 101,102. This Ãbertragungs¬ members 103 may be formed in the simplest embodiment by transmitting and receiving optics for these subsequent light guide. but it is also possible, of course, that this is light or laser diodes as transmitter unit and to corresponding light sensitive elements as Empfangsein¬ units. This makes it possible to follow different Signal¬ and transfer energy. The energy transfer can be carried by light waves, magnetic waves or by .Induktion. In the latter case, the transmission members 101,102 are formed by correspondingly shaped coils. The transmission members 101 and 102 are switched to the zusammenge- disposed in the respective auxiliary lock control device 34, on the example, a keypad 104 may be concluded reasonable. About di.eses keypad 104 can be input to the control device 34 unter¬ schiedliche information. The advantage of such an arrangement is that a double safety for the user of a locker 2 is given, since in addition to its 'customer key' also a personal code in the control device 34 can be input, without which, for example, the lock plate 81, the Schlüssel¬ hole 21 not freig.ibt. In the Fig.17 and 18 another embodiment for automation of an existing locker system is illustrated. The existing plant is composed of Sc ± ιlieÃfächern 2, the doors are locked 18 via a mechanical lock sixteenth The lock 16 has two mechanical locking mechanism, the so-called additional 17 closed and the locking means 15. This locking mechanism can be either two separate or a common key hole be¬ sit. In this way, almost all existing non elek¬ tronic deposit locker are built. A group of doors 18 is associated with only one common Bete actuating device 106 which is controlled remotely from the operator station of the bank and the closed Zu¬ set 17 of S.chlösser can actuate sixteenth To operate the banking closure is on the actuator 106, a .An¬ drive 107, for example, a rotary drive, exist. The rotary drive is connected in rotation with a key 108th The .An¬ drive 107 with the key 108 is in a guide track 109, which is aligned perpendicular to the door fronts of the doors 18, connected to a feed drive 110th With this Zustellan- drive 110, the drive 107 with the key 108 into the keyhole 21 of the auxiliary lock 17 are inserted. If the key 108 engaged in the auxiliary lock 17 so as to be pivotable with the drive 107 in an open position. Da¬ is unlocked with the auxiliary lock 17th Then the Schlüs¬ sel can be removed 108 with the feed drive 110 from the keyhole 21 and 106 2.anfahren Bete the actuating device has a rest position away from the openable locker. A method along guide tracks 111 and then into a position to permit Ruhe¬ when, during this movement Verfahr¬ open doors 18 - as shown in Figure 17 - to PAS Sieren are, a support arm 112 of the actuator 106 from a, the doors are pivoted 18 closely adjacent position to a position away from that position. For this purpose, the arm is arranged Trag¬ 112 on pivot shafts 113 of ver¬ in the guide tracks 111 wheeled carriage 114th For pivoting of the supporting arm 112 about the Sάhwenkaciisen 113 a pivot drive 115 is provided which is coupled for rotation with one of the two pivot axes 113th This central Betätigungsvorxichtung 106, it is now possible to automate existing locker units 1 having a plurality of safe deposit boxes 2 which are secured by two mechanical locks, so that no bank personnel is necessary, which has to accompany the customer at an opening of its locker. The opening of the bank lock can now take place via the central actuator 106 before the customer enters the locker room, after which he can unlock the locker key with his Kunden¬. The 'bank lock', which is formed by the auxiliary lock 17 engages either during closure of the 'customer lock', namely, the lock 16 automatically, or can, after the customer has left the vault, closed by the actuator 106 again voll¬ automatically become. In the Figure 19 and 20 another embodiment of a spectral zen¬ BeÏ ^ is tigungsvorxichtung 116 demonstrated for a variety of arrayed in doors 18 of lockers 2 additional locks 17th This consists essentially of a movable guide track along e.iner robot 111 to 117. A process along the guideway 111 of the robot with e.inem traction drive 118 is provided which consists for example of e.inen electric motor with e.inen flanged gear, which in one on the guide track 111 disposed rack 119 engages. https://skieyindependent.weebly.com/where-are-the-drawing-tools-in-acrobat-reader-dc-for-mac.html. A work head 120 of the robot 117 is about a, formed for example by a telescopic cylinder, the vertical adjustment drive 121 adjustable on the auxiliary lock to each öffindenden door 18th The positioning of the operating head 120 along the guide track 111 via the drive mechanism 118. In the working Kopf, a drive 107 for the key 108, which in a Keyhole 21 of the auxiliary lock 26 engages disposed. After the work head 120 to the keyhole 21 of the lock Zusatz¬ 17 is centered, it may be introduced via e.inen feed drive 110 into the key hole 21 and then rotated to the drive 107 in its open position. Thus, the closed Zu¬ set 26, which forms the 'bank lock', open, the key can be pulled out of the key hole 21 of the robot 108 and can be adjusted into an end position 117 by means of the ZuStellantriebes 110th By the design of the robot 117 and the height adjustment actuator 121 it is possible to lock or the work head 120 by the Ver¬ lower unlocking of the auxiliary lock 26 in an area below the locker system 1, so that the latter without any danger of collision with an open door 18 can be moved .in a vor¬ defined rest position. Under certain circumstances it is also possible to arrange the working head 120 on a pivot arm 122, so that the robot 117 can maintain its position it occupied for opening of the auxiliary lock 26, and the Work head 120 only - as indicated by arrow 123 - in the line position can be pivoted with stridhlierten lines, so that the access to that door 18 in which the auxiliary lock has been unlocked 17, is free. In Figure 21 a portion of a door 18 is shown with two keyholes 21 for mechanical e ^ lock 16 and a closed Zu¬ set 17 is provided. In order to center the Arbeits¬ head 120 and the key 108 with the Betätigungsvorrich¬ tung to allow 106 and 116, respectively, related to the key hole 21 are arranged markings reasonable 124 adjacent to the key hole 21, with the sensors in the work head 120 and on both sides can be scanned of the key 108 in order to enable a correct insertion of the key 108 into the keyhole 21 of the Schlos¬ ses. In the Fig.22 and 23, the possibility of wireless is shown power transmission via electrical, magnetic or elektro¬ magnetic fields. Of particular importance, this principle is in the automation of existing, purely mechanical SchlieÃfcachanlagen as little intervention in the existing system are necessary. In Fig.22 a locker unit 1 in plan view represents darge, are located along the walls of the boxes 2. In the Raumrnitte the preparation of antennas 125 is indicated, the ab¬ both radiate energy to supply the auxiliary locks 26, as well as to radiate control of the locks necessary signal data received or the response signals of the Zusatz¬ locks. These antennas are in turn tralsteuereinheit 11 is connected to the Zen. The lines 126 indicate the irradiated area by the antennas. In Figure 23 another variant of the solution according to the invention is shown. The picture shows a wall of the locker unit 1 with the lockers 2. On the doors 18 are the Zu¬ set locks 26. To this block of lockers is now a Ratimenantenne set 127, which in turn control unit with the Zentral¬ communicates and both energy and data at the same time radiates and receives data from the auxiliary locks. The auxiliary locks 26, which may be implemented in one of the previously registered be¬ variants, as well as have a built-in antenna, for example in the form of a coil similar to Figure 9 that interacts with the loop antenna 127 in interaction, and thus accomplished the data and energy transmission. 24 shows a block diagram of a control device 128, as has been indicated schematically in Fig.l, is shown. This control device comprises one of a screen 129 and a keyboard 130 formed Bildsc_hi_rmarbeitsplatz 8, a mass memory 131 and one or more Protokoll¬ printer 12 for logging of the individual control operations; linking the Bildscäiirme 129, the EingabetastaÏuren 130, the mass storage 131, as well as the report printer 12 and the waste would be the appropriate control commands to e.inen network controller 132 via the central control unit 11. At this network controller 132 are each locker 2 supplied ¬ arranged locker computer, one of which is designated 133, connected via lines 134th At each network controller up to 2048 locker computers may be an¬ closed with an appropriate design. The Verb.indung the network controller 132 with the locker computers 133 may be followed by a four-wire Safe bus 135 with power supply and Halbduplexdatenübertraguing such as RS 422, er¬. The connection of the central control unit 11 with the image screen 129 and the input keyboard 130, and the Massen¬ memory 131 and the log printer 12 may be 232 or RS 422, or via a standard serial interface such as RS according to a freely definable protocol program. Furthermore, it is also possible to frequency-the connection between the network controller 132 and their associated locker computers 133, as described with reference to the above figures, over optical links, such as modulated infrared light, optical fibers or via magnetic fields, for example, inductively or by Hoch¬, including in particular the representations and Erläu¬ Chippings to Figure 3, 9 and 10 and Fig.22,23 by reference. These additional ÃberÏj_agungsmöglichkeiten were indicated ange¬ schenatisch by thinly represented wavy lines between the network controller 132 and associated therewith locker computers 133rd Furthermore, it is possible zusaÏÏrtenzuschalten via a serial interface or a further bus system 136, the Zentral.Steuereinheit with a mainframe computer 137th In Figure 25, the basic structure of a locker computer module 138 is shown. About the safe bus 135 or an optical or mag¬ netic Kcmmunikationssystem 40 - which is indicated schenatisch by wavy lines - to an energy converter 139, and a data transmitter and receiver 140, each forming a translation component 38, supplied with power or information. These are appropriately added and brought into a processible form the downstream locker computer 133, wherein the energy via a line 141 and the information on a line 142 are supplied to the locker computer 133rd IGT to the locker computer optionally a drive 144 for an auxiliary lock 26 with the interposition of an amplifier 143 arranged. Furthermore, transmitter 133 60,61,62 and 80 are connected to the locker computer. With the transmitter 60 can be determined whether the lock gelt verrie¬ or opened. With the transducers 61, it is possible to determine whether, for example, an undesirably high or un¬ allows high Ternperatur occurs and accordingly spielsweise a violent attempt at opening takes place. With the transmitter 62 can be determined whether the door 18 is opened or closed. The transmitter 80 may be formed by a capacitive sensor that acts as a protection against vandalism. The .kommenden by the individual transmitters signals are checked in the locker computer 133, possibly validated and on the line 142 and the data transmitter receiver 140, respectively. There, they are reformatted in accordance with the protocol je¬ weiligen in the safe bus 135 and transmitted via the safe bus 135 of the central control unit. 11 This transmission of the signals from the central control unit 11 to the data transmitter and receiver 140 and from this back to the central control unit 11 can be achieved by a corresponding change Ver¬ of clock pulses. The sequence of such control and monitoring process is illustrated in Figure 26 bise28 to the signal sequence in a safe bus. 13 In Figure 26, a pulse waveform is shown, wherein on the abscissa the voltage is registered in volts, and the ordinate represents time in milliseconds. The voltage level on the line 142 is, for example 15 volts, wherein the locker computer 133 in. A distance ms for approximately 0.25 ms is reduced via an open collector output voltage to 0 volts. This results in consecutive clock pulses 148th This theoretical SpannungΣsverlauf on the line 142 will be when the network controller 132, a plurality of computers Fach¬ 133,145,146 and 147 - Figure 24 - are connected, modified as described in Fig.27 and Fig.28 form. To distinguish between the locker computer they are provided with a system-internal address. Thus, the address for the Fachrech¬ ner 133, for example, '0' for the locker computer 145,146,147 '1,2,3' .In both figures, the voltage waveform on the line 142 is shown correspondingly the representation in Figure 26. Here, the voltage curve in Fig.27 shows the changes that are caused by the specialized computer 133, while the voltage curve in Fig.28 in addition, the changes in the voltage waveform, which may be caused by the network controller 132 shows. As below with reference to block diagrams of the network controller 132 and the Fac_hrechner is shown 133, anyone skilled in computer counts 133 clock pulses 148, it being understood for explaining the control method thereof that a Steuer¬ sequence begins at time tO, that is, by the increase of the voltage on the line 142 from 0 volts to 15 volts white of the locker with the address '0' assigned locker computer 133, - as shown in Figure 24 with reference to the right-hand group of the locker computer - that it is addressed. If the locker nijnmehr ord¬ voltage according closed, which considered in the present case, the voltage level on the line 142 is controlled by the locker computer 133 already after 0.5 ms, not only like with dot-chain lines shown after 0.75 ms, lowered to 0 volts. Since the network controller 132 is also applied to the line 142, he notes that premature voltage drop and therefore this notice as a confirmation of the locker computer 133, after which the door of the locker is closed properly. After the lapse of a ms, the voltage rises in the line 142 back to 15 volts, whereby a Fa <Îhrechner 145 - is approached - Fig.24. Is now assumed that this Locker with the .internen address '1' is opened, the voltage waveform remains in the line 142 unchanged, that is, the voltage of 15 volts higher than 0.75 ms. Thus the Netz¬ can determine factory kontroller 132 that the door is open when locker with the address '1'. A Taktiinpuls 149 is unchanged by da¬ from that shown in Figure 26 clock history. Once after the clock pulse 149, the voltage on the line 142 is again risen to 15 volts, thereby e.in locker computer 146 of a third locker with the internal address '2' enabled. It is assumed here that the computer 146 Fach¬ the assigned locker is defective. Accordingly, 150 sets a clock pulse, for example, already after 0.25 ms and the voltage on the line 142 falls after this time loading ride back to 0 volts back. Thus the Netzwerkkontrol¬ ler 132 can now see that the locker with the address '2' is faulty. After the end of TaJtimpulses 150, the voltage then rises again to 15 volts, whereby a further locker computer 147 is activated with the address '3'. In this case, just as in the locker computer 133 assumed that the door of the locker is open. Accordingly, 151 sets a clock pulse after 0.5 ms. It is designed for working in this field skilled in the art readily apparent that pulse by such a change of the voltage curve Taktim- or in line 142, more than the different states described above can be represented. Thus, it is inter alia possible beispiels¬, at a reduction of the clock pulse at 0.1 ms Netz¬ the drive controller 132 indicating that an unauthorized opening of the compartment is present. On the other hand it is also possible that one skilled in computer 133 or 145 or 146 or 147 .in the event of unauthorized opening only one, of the open door corresponding Sig¬ 148 or 151 emits nal or e.inen Takt.impuls, wherein by the can be determined network controller 132 due to an internal comparison whether a certification authorization is present, that the locker can be opened or not. In the absence of such a release, then the network controller 132 is able to deliver to the overall system a signal-generating an alarm signal. It is just possible that the triggering of the clock pulse not alone by the Closing or opening position of the door indicating transmitter, but also by the other transducers 60,61 and 80 can be four akti¬. Finally, as shown in Fig.28, as the respective compartment computer 133,145,146 and 147 the information to open the bank lock can be transmitted from the network controller. This fact that the supply voltage 148 to 151, located between two clock pulses carries only 10 volts loading instead of 15 volts as zwi.schen er¬ follows the Taltimpuls at time tO, and the clock pulse 148 and the clock pulse 150 and the clock pulse 151 in Figure 28 is shown. In Figure 29 the block diagram of a network controller 132 is shown. The network controller is applied to a power source, for example, +24 volts, on the under circumstances of corresponding voltage converter or a microprocessor controller 152 is supplied with power. From the power source line 142 is supplied through a Schutzwider¬ 153 was supplied with a Referenzspamung of 15 volts via a voltage converter. To generate the clock pulses is a clock control section 154, a 155 and a Ãffnerglied Einpfangsglied 156, which are simultaneously connected to the line 142nd Accordingly, the commands of microprocessor 152 is now at a distance of spielsweise 1 ms, but this distance may be also smaller or larger and be, for example 5 ms, the clock pulse control member 154, for example a transistor, controlled, of the one open collector has output 157 which reduces the voltage on the line 142 to 0. After the fix preset cycle length, the loading of the clock control element 154 is interrupted, whereupon the voltage on the line 142 rises again to 15 volts. If now the übermit¬ reasonable sprochenen locker command or message between two clock pulses are telt that the compartment is to be opened, the voltage across a can via a Ãffnerglied 155, which also has an open-collector output 157, voltage limiting member 158, such as a Z-diode, which is set to a threshold value of 10 volts, the voltage on the line 142 will be limited to 10 volts. This makes it possible that showed ge in Figure 28 to achieve the form of the voltage curve, which can be seen by the lower voltage on the line, one skilled in computer 133 that is a drive 144 to open. In Fig.30 e ^ block diagram of the specialized computer 133 is shown connected to the conduit 142nd For evaluating the ein¬ individual information is also seen vorge 159 a microprocessor. The entire locker computer 133 is supplied via line 142 with power, for which a filter element 160 and a controller 161 Spannungs¬ is provided. Furthermore, the microprocessor 159 via two threshold ver¬ 162,163 with the line 142 connected. This can also order comparators Han yours, which are supplied voltage via a respective input 164 with a Referenz¬. Depending on the an¬ lying on the line 142 voltage across the now w.ird Sctfiwellwertschalter 162 and given a signal to the micro-processor 159 the threshold 163rd After the applied at the input 164 https://seriesclever.weebly.com/samsung-gear-360-download-mac.html. Reference value at the threshold 162 to greater than 10 volts and bedLm Sc_hwellwertschalter 163 is set to greater than 5 volts, three different voltage states in the line 142, namely, voltage 0 volts corresponds to no signal at the input of the Sc_hwellwertsc ± age 162, and 163, 15 volts, at least the output of 162 is applied and .Schwellwertschalters even¬ TULLE the output of the threshold 163 and 10 volts, only the output of the threshold 163 is occupied by a signal to be detected by the microprocessor 159th According to the states defined by means of the Figure 26 to 28 input now e ^ e acting on the vo Schwellwert¬ switch means 163 carrying line with a signal that the drive 144 if necessary, to act on through an amplifier 143rd By retracting the bolt to the drive 144 of the transmitter 60 is activated and transmitted to the processor 159 Mikro¬ the message 'Bank lock or locking open'. is Dem¬ accordingly be ^ same or the reference voltage of 15 volts with the clock pulse 148 and 151 lowered prematurely to 0 with longer response time of the actuator 144 at the next polling cycle. This is done using one-Open Collektor- output 157 and a ange¬ arranged between it and the capacitor line 142 165.Desweiteren can then be detected after opening the door of the locker with the transmitter 80 that the door is opened, whereupon the voltage drop on the line 142 at 0 volts in accordance with the clock pulse 149, without change over the Nörmaltaktinpuls take place. With such a relatively simple design unit, it is therefore possible a Vielzall of specialized computers without high schal¬ trative costs, especially with a low Auf¬ wall of lines to supply power and information. The additional interposition of the capacitor 165 between the M: ikorprozessor 159 and the line 142 is provided sicher¬ in that the further multiple computers are 145,146 and 147 is not blocked even in failure of the locker computer 133 and the operation of the system can be maintained. In Fig.31 is another block diagram of a specialized computer 146 is shown. To transmit the information of d.er line 142 to the locker computer 146 are indultive loops 166,167 ein¬ other associated, as has already been shown for example with reference to the exemplary embodiment in Figure 9 to. 11 Of the inductive loop 167 lead lines 69 to the locker computer 146. For the energy supply of a microprocessor 159 is a filter element 160, such as a rectifier, is provided, to which a voltage regulator is connected downstream of the 161st Parallel to a connecting line between the voltage regulator 161 and the Mikropro.zessor 159, an energy storage can be provided 168th This is preferably formed by a battery. The Mikro¬ processor includes a clock control element 169, which are controlled internal calculations. For supplying the microprocessor 159 with information, the lines 69 with a receiver 170 and a translation component 171 are connected, in turn, is interconnected with the microprocessor 159th An output of the microprocessor 159 is connected to a translation component 172 and a transmitter 173rd Furthermore, an encoder can be connected to the microprocessor 159, as shown schenatisch connected 174 s ^, with which it is possible to enter the Facimummer or program. Furthermore, the microprocessor 159 is connected to a transmitter 61, for example a capacitive sensor, that abuts an oscillator 176 to the microprocessor 159 via a Auswertglied 175 and. In addition, it is also possible to connect a ring line 177 as a vandalism protection on the microprocessor 159th can then be determined via the transmitter 60 and 80 if the Bar is open or closed and the door of the locker 2 to or open. A switching member 178, such as an open-collector output, a drive can be 144 or 78 applied for actuating a diaphragm 74 having a recess 77 so that a key hole 21 for operating with a key f eigegeben or is concluded comparable. In Figure 32 a befestig¬ on the door of a locker 18 2 tes lock 16 and an auxiliary lock 17 is shown. The Be¬ fastening the door 18 takes place, as has already been explained with reference to the forward standing figures, zerwand example, at a Pan¬ 19. The lock 16 has a lock bolt 24 with which the door 18 can be locked against the tank wall 19 , The originally planned auxiliary lock 17, which serves as a database lock in a mechanical two-lock system, has a locking bolt 179, which is now used to in the present case, in order to fix in position on the door 18, an auxiliary lock 26th By turning a key 22 of the lock 17 Zusatz¬ the locking bolt can be withdrawn 179 and thus e.in headband 180, with the auxiliary lock is fixedly connected 26 to be released. Thereby, it is for example in the case of a defect possible to replace the auxiliary lock 26, must be without the deposit box owner present. a guide pin is 181 for fixing the rate Zu¬ castle 26th The auxiliary lock 26, which is now a remotely Frei¬ gift of the locker allows 2, comprises a locking pin 27 which is pushed by a spring 182, locking bolt 24th If the locker customer uses the locker 2, it pushes the locking pin 27 against the action of the spring 182 in the position shown in full line position in which it is fixed by a likewise be¬ loaded locking pin 183 so that the the locking bar 24 facing the end in engaging these and Ver¬ adjusting movement thereof impossible. then will the SchlieÃfach¬ customer use his locker again, the lock will pin 27 by the retraction of the locking pin 183, beispiels¬ as a formed by a solenoid actuator 184 in the drawn in sttichlierten line position drawn zurück¬, after which the locking pin 183 also einnnimmt the dotted position and the locking bolt 24 can be moved with the lock be¬ sixteenth With this configuration, as the Bank lock no longer needed by the remote control can be used as NoÏbetjätigung for the remotely actuated lock in the bank Nach¬ armor of lockers, which are equipped with two mechanical locks. ClaimsP atentanspr ü che
1. locker system having a plurality of lockers, each equipped with its own door, which has a Sperreixurichtung with a mechanical lock, characterized in that the locking device (15) comprises a lock (16) associated with the auxiliary lock (17) having an electrical drive (29) for a Sperxeinrichtung (15) and in that the blocking device (15) has a access to the mechanical lock (16) and respectively or its adjustment blocking rest position and such access and or or the adjustment of releasing open position comprises ,
2. Sc_hlieÃfachanlage according to claim 1, characterized in that the auxiliary locks (17) are connected to the individual lockers (2) with a control device (128) and or or a Zentralsteuer¬ unit (11).
3. Locker unit according to one of .Ansprüche 1 or 2, da¬ by in that the auxiliary lock (17) arranged facing away on from an interior of the locker (2) outside of the door (18) and is connected via fixing means (31) with this is.
4. Sc_hlieÃfachanlage according to any one of claims 1 to 3, da¬ by in that the auxiliary lock (17) via the fastening means (31) on the door (18) of the locker (2) in front of a keyhole (21) of Ïiechanischen lock (16 ) is moun- ted.
5. Locker unit according e.inem or more of claims 1 to 4, characterized in that the fastening means (31) arranged by one at the auxiliary lock (17) self-adhering adhesive layer (32) is formed.
6. Locker unit zu¬ according to one or more of claims 1 to 5, characterized in that the fastening means (31) by the mechanical lock (16) in the door (18) sammenwirkendes retaining member is formed.
7 has Locker unit according to one or more of claims 1 to 6, characterized in that the locking device (15) comprises a rotary bolt (51), the one from the auxiliary lock
(26) protruding operating knob (54) and an opening (53) in a locking plate dur-chdringende Spermasen (52) on the rotary latch (51), and in that the locking noses (52) aligned one with the opening (53) open position and a have opposite die.ser twisted closed position and that the rotary latch (51) has a ArretieirvorricÎtung (57) with ng a spring device (56) which exerts a locking bar in the closed position of the Dreh¬ (51) directed Vörspannkraft and a locking â * associated member (55) which cooperates with a latch (59) and a drive (58).
has 8. Locker unit according to one or more of claims 1 to 7, characterized in that the locking means (15) arranged in a perpendicular to the door (18), adjustable Sperr¬ pin (27) via a spring device (30) having a direction a locking bolt (24) of the mechanical lock (16) is loaded directed biasing force in a in the locking bar (24) engaging rest position and held in this by a blocking member which is associated with a perpendicular to the locking pin (27) adjustably mounted electric drive (29) ,
9. Locker unit according to one or more of the .Ansprüche 1 to 8, characterized in that the locking means (15) arranged perpendicularly to a door, adjustable locking pin
(27), which via a Federvorrichtting (30) having a against a locking bar (24) of the mechanical lock (16) ge directed Vörspannkraft in a in the locking bar (24) one cross-rest position healed and by a drive (29) is adjustable against the action of spring means (30).
Operations Manual For A Company
10. Locker unit according to one or more of claims 1 to 9, characterized in that the auxiliary lock (26) perpendicularly to a door surface diirchsetzende opening of the locking device (15) (21) of the mechanical lock (16) is disposed congruently to the keyhole.
having 11. Locker unit according to one or more of claims 1 to 10, characterized in that the auxiliary lock (17) zu¬ least relatively with respect to the keyhole (21) verstell¬ bare, with the drive (78) connected to the diaphragm (74).
12. locker system arranged according to one or more of claims 1 to 11, characterized in that there is assigned to several auxiliary locks (17) of several doors (18), a drive (107), the processing in an adjustable relative to these Betätigungsvorrich¬ (106) is.
13. Locker unit according to one or more of claims 1 to 12, characterized in that the drive (107) with a key (108) for the auxiliary lock (17) is .bewegungsverbunden, the rest position lying in particular an inside of the actuating device (106) and has a constricting outside thereof lie¬ blocking position.
14. Locker unit according to one or more of claims 1 to 13, characterized in that the fastening means (31) and respectively or the diaphragm (74) and or or the auxiliary lock (17) and respectively or the with the St_euervorxichtung (34) associated transmitter (61,62) are assigned.
15. Locker unit according to one or more of claims 1 to 14, characterized in that the Sperxvorrichtung (50), in particular the aperture (74) in the rest position a MeÃwert¬ encoder (60) is associated, which upon adjustment of the diaphragm (74 ) is activated from the resting position.
16. Locker unit according to one or more of claims 1 to 15, characterized in that the the auxiliary lock (17) associated with the transmitter (61,62) at a distance from the door (18) of the locker is enabled.
17. Locker unit according to one or more of claims 1 to 16, characterized in that the control device (34) or the locker computer (133) via Umsetzbauteile (171,172), for example modulator or Denodulator, with a Kcrnrnmikationssystem for energy and or or is connected to signal transmission between the Fach¬ computer (133) or the control device (34) and the Energie¬ source and or or a Zentral.steuereinheit (11).
18. Locker unit (according to one or more of claims 1 to 17, characterized in that the Kc) mmunikationssystem (85) wall by means connected to the control devices, negative (above the tank wall 19) insulated wire (72) and the Panzer¬ 19) of the SchlieÃfacha ^ age (1) is formed.
19. Locker unit according to one or more of claims 1 to 18, characterized in that the line (72) through an on the doors (18) of the lockers (2) under Zwisc_henschaltung an insulating layer disposed (88) conductor path (86,87) formed is.
20. Locker unit according to one or more of claims 1 to 19, characterized in that the conductor track (86,87) consists of an electrically conductive, in particular semi-conductive, Kunst¬ material.
21. .SchlieÃfachanlage according to one or more of claims 1 to 20, characterized in that the connection of the printed conductor path (86,87) is carried out between the doors (18) and respectively or the body via contact devices (91).
22. Locker unit according to one or more of claims 1 to 21, characterized in that the line (96) by a Iichtleiter (103) is formed and .Between the doors (18) and respectively or (the tank wall (19) transfer members 101,102 ) are arranged for wireless connection of light guides (103).
23. Locker unit according to one or more of claims 1 to 22, characterized in that the transmission members (101,102) are provided with a swiveling optic.
24. locker system arranged according to one or more of claims 1 to 13, characterized in that two conductor tracks (86,94) are provided, one on the door (18) conductor path (86) with the door closed (18) with the one and is interconnected open door (18) with the other conductor track (94).
25. Locker unit according to one or more of claims 1 to 24, characterized in that the Kontektvorrichtung (91) through to the door (18) and a body forming armored wall (19) or between the doors (18) in alignment ange¬ together Strip Contacts (92) is formed.
26. Locker unit according to one or more of claims 1 to 25, characterized in that the Körmtunikaticnssystem (85) between the auxiliary locks (26) and the energy source (42) and respectively or the central control unit (11) wirelessly er¬ follows.
27. Locker unit according to one or more of claims 1 to 26, characterized in that the Köntektvorxi arranged <_ihtung (91) through to the door (18) and on the corpus or its armored wall (19), inductive or capacitive Ubertragungsvorrichtungen is formed.
28. Locker unit according to one or more of claims 1 to 27, characterized in that the Kömrmjnikationssystem (85) a, with a control device connected to the receiver (128) (170) and a distanced therefrom, with the power source and respectively or the central control unit associated transmitter (173) for carrier radiation and or or and or vibes or force fields, such as heat, light, sound, magnetic or the like., has.
29. Locker unit according to one or more of claims 1 to 28, characterized in that the Komriunikationssystem (40) between the power source (42) and the auxiliary lock (26) comprises a light transmitter and a light receiver .insbesondere for mfrarotlicht comprises.
30. Locker unit according to one or more of claims 1 to 29, characterized in that the translation component (38) of KcjÏmunikationssystens (40) between the central control unit (11) and the auxiliary lock (26) converting members for superimposing the carrier beams of information and for screening of the Infor¬ mation from the carrier beam comprises.
31. Locker unit according to one or more of claims 1 to 30, characterized in that the auxiliary lock (26) the
Keyhole (21) arranged for in the door (18) lock (16) and optionally the auxiliary lock (47) covers.
32. Locker unit according to one or more of claims 1 to 31, characterized in that the auxiliary lock (26) or a group of auxiliary locks with an input and / or Iesevorrichtung is connected.
33. Locker unit according to one or more of claims 1 to 32, characterized in that the lines (33) of the
Kömmunikatiαnssysteme (40) are arranged in a housing (48) of the additional lock (26).
34. Locker unit according to one or more of claims 1 to 33, characterized in that the housing (48) of the Zusatz¬ locks (26) of adjacent doors (18) clock con- ^ rarrichtungen (91) are connected together.
Priority Applications (2)
Operations Manual For Rosengrens LocksleyApplications Claiming Priority (2)
Publications (1)
Country Status (7)
Citations (2)
Family Cites Families (23)1988
Patent Citations (2)* Cited by examiner, â Cited by third party
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