FI83126B - CENTRALLAOSNINGSSYSTEM. - Google Patents

Abstract

The invention relates to a central locking system including a number of locking units (2a..2n) provided with a bolt member (3) movable into a locking and open position, and a control unit (1) provided with a locking mechanism, said locking units being operated simultaneously by said control unit. For controlling the movements of the bolt member (3) the locking units (2a..2n) include a two directionally operable electric motor (12) arranged to be operated electromechanically from the control unit (1) so that switching on and off of current and choice of the direction of current is achieved by means of a backwards and forwards movable selecting member (14) connected to said locking mechanism. The system also includes an accumulator unit (4) connectable to a power source, preferably to the mains, for increasing the current strength momentarily when current is connected by said selecting member (14).

Description

83126 1990-09-03 FI 1208

CENTRALLASNINGSSYSTEM

The invention relates to a central locking system according to the preamble of claim 1.

There are many types of central locking systems known. The different locking units belonging to the system can be mechanically connected to each other so that all locking units can be locked or unlocked simultaneously from one lock, i.e. from the central or control lock of the system. The solution is well suited, for example, for vehicles in which the doors 10 to be locked are close to each other and in which the system is already provided during the construction and assembly phase of the vehicle itself. In buildings, on the other hand, electric locking systems are known in which the locks of the various doors are equipped with their own electric motor, so that the locks can be opened and closed from the "control room" with one or more switches. Such mains-operated systems require quite powerful electric motors, which require a high voltage, which in turn results in the need to carefully isolate the entire system from the environment. For these reasons, these systems are 20 remarkably expensive as well as cumbersome to install, especially aftermarket.

The object of the invention is to provide a new central locking system with a simple structure and cost-effective, which is particularly suitable for use in office and office environments for various objects such as cabinets, drawers and other doors or hatches, as well as furniture, media and the like. to provide and unlock simultaneously centrally. 30 It is also intended that the system be easy to install afterwards.

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The objects of the invention are achieved as specified in claim 1 and the subclaims. In the system according to the invention for controlling the movements of the block member of each locking unit, the locking unit comprises a two-way electric motor arranged to be controlled electromechanically from the system control unit so that electric current switching and current direction selection is The system 10 further comprises a storage unit connected to a power supply for increasing the current momentarily when the power is switched on by said selection means. When the control unit itself is associated with a locking mechanism, access to the space where the system is applied need not be restricted. Since the movement of the above-mentioned and similar objects, to which the system according to the invention is specifically intended to be applied, does not require much force to move the bar member of the locking unit, quite small electric motors can be used in the locking units. 20 On the other hand, even if the system includes a fairly large number of locking units, the instantaneous power required by such electric motors to achieve or unlock can be easily obtained by utilizing the storage unit. In this case, it is also not necessary to keep the locking units permanently connected to the mains. Due to the low operating voltages, no special attention needs to be paid to the insulation of the system, which makes the system inexpensive and easy to install.

The access rights to the system can be easily arranged and controlled if said locking mechanism is a key-operated rotary disk lock cylinder lock. In this case, said selection member is mounted on the transmission member connected to the lock mechanism, so that turning of the selection member to the position where it causes power to open the locking units 35 can take place only when the cylinder lock mechanism is turned to its released position with the lock key.

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Said cylinder lock may comprise, in a manner known per se, a bi-directional rotating plate hamper mechanism, such as that disclosed in, for example, patent FI-74320. In another preferred embodiment, said cylinder lock 5 comprises, in a manner known per se, a unidirectional rotating plate locking mechanism with a locking body and an inner cylinder rotatable therein, as well as a locking rod which in the locked position of the mechanism is located in a groove on the inner surface of the locking body. In this case, in order to be able to move the selection member 10 in a direction opposite to the operating direction of the locking mechanism, said groove of the locking body is widened in that direction.

Said selection member may be movably arranged to move the switch member having a neutral position in which the power is not switched on, and on either side of the neutral position an extreme position in which it is arranged to switch on the locking units. It is advantageous to select the switch member so that when the switch member is moved from one extreme position to another, it also reverses the direction of the current. Thus, the electric motors can simply be operated with the same switch to both provide and unlock.

Said clutch member may preferably be attached to the lock body of the cylinder lock of the control unit.

A preferred solution is obtained if the clutch is loaded 25 to return from both extreme positions to its neutral position.

In addition, when said selection member is spring-loaded to a neutral position where it does not affect said switch member, it is ensured that the circuit of the locking units is closed only when it is specifically desired to provide or open the locking. Thus, the booking unit practically always has plenty of time to prepare to carry out the said measures.

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Said locking unit comprises a lock body surrounding the electric motor, which is provided with limiting means for limiting the rotational movement of the electric motor spindle or the control member acting on the bogie member connected to it in each of the 5 directions of rotation. In this way, all the movement movements of the bogie member can simply be achieved with the same electric motor.

Said storage unit preferably comprises a plurality of capacitors connected in parallel.

When switching on the interlocking units, the storage unit is preferably arranged to momentarily supply to the circuit a considerable overvoltage with respect to the nominal voltage of the electric motors of the interlocking units. In this way, electric motors provide significantly higher power than when using their 15 rated voltages. Thus, quite small and cheap electric motors can be used in the locking units. However, there is virtually no risk of damage to the motors because the overvoltage is only momentary.

In practice, said electric motors of the locking units are preferably selected so that their nominal voltage is in the range of 1 to 15 volts, preferably 3 to 12 volts.

The invention will now be described in more detail with reference to the accompanying drawing, in which Fig. 1 shows a schematic diagram of a central locking system according to the invention, Fig. 2 shows a circuit diagram of the central locking system according to Fig. 1, Fig. 3 shows a control lock from the rear. with some parts removed, Fig. 5 shows an embodiment of the locking unit according to the invention, Fig. 5 shows an arrangement made on the body of the locking unit, Fig. 7 shows another embodiment of the locking unit according to the invention.

In the drawing, reference numeral 1 denotes a control lock of the central locking system 10, from which it is simultaneously possible to centrally cause the bogie members 3 of the locking units 2a ... 2n located in different locking objects to be moved to the locking position or to the release position. The control lock can be a conventional kiertolevyhaitoilla 15 preferably provided with a cylinder lock, it is possible to rotate the key (not shown in the figures) the insertion position of each side, at least for some distance. The locking units are opened by turning the key in the control lock in direction A and locked accordingly by turning the key in direction B. The operation of the locking units 20 is controlled electrically, and for this purpose the system includes a storage unit 4 and a transformer 5 through which the system is connected to the mains.

Three LEDs are arranged in the control lock to indicate the operating status of the control lock and the system. The LED 7 lights up 25 when the control lock switching elements (see Fig. 2) are connected to voltage. The LED 8 lights up when the locking units 2a..2n move to the open position, and the LED 9 lights up when the locking units 2a ... 2n move to the locking position.

The electrical wiring diagram of the central locking system is shown in Figure 2. An essential component for controlling the electric motors 12 of the locking units is a switch 6 operated by the control lock 1, which has a neutral position to which it is mechanically loaded and in which the locking units are not energized. In the position shown in Figure 2, the switch 6 is in its neutral position. In addition, the switch 6 has an operating position on both sides of the neutral position to control the operation of the locking units 2a ... 2n.

When the switch 6 is turned via its control lock 1 from its free position to the open position of the locking units in one of the two directions according to what has been selected, i.e. clockwise in the direction A according to Fig. 1, the switch 6 connects terminals 29/29 and 10 31/32. The electric motors 12 then rotate in the direction in which they cause the bogie members 3 to move to their unlocking position. Correspondingly, when the switch 6 is turned to the position where it connects the terminals 29/30 and 32/33, the direction of the current changes and the bogie members 3 move to their locking position under the action of the electric motors 12.

The storage unit 4 comprises a number of capacitors 10 connected in parallel, the capacitance of which can be, for example, 0.04 F. When using, for example, 3-volt electric motors in the locking units, more than 20 locking units can be easily connected to the system. The accumulator unit also enables the use of large overvoltages in the system, which gives the electric motors better power than their nominal voltage. 25 At the same time, this ensures the trouble-free operation of the locks of the locking units. However, since the overvoltage is only momentary, the electric motors cannot be damaged despite the fact that their freedom of rotation is limited by fixed limiting members (cf. the limiting members 26 in Fig. 30 6).

Figure 3 shows the control lock 1 from the rear. The transmission piece 13 connected to the lock mechanism is arranged to rotate the selector member 14 having control members 15 and 16 acting on the switch 6. Thus, when the selector member 14 is rotated by the steering lock key 35, one of the actuators 15 or I: 7 83126 16 pushes the switch 6 thereby starting the electric motors 12. As a result, the bar members 3 of the locking unit move to either their locking or unlocking position. When the key 5 is turned back to its initial position or the grip on the key is removed, the selection member 14 turns back towards the initial position by the action of the spring 17 out of the reach of the switch 6. In this case, the switch 6 can also return to its neutral position, to which it is loaded to move, whereby the power 10 is switched off.

The control lock 1 can be a conventional two-way cylinder lock with turntable defects. A similar one-way cylinder lock, for example modified as shown in Fig. 4, is also excellently suitable for the purpose. The lock in Fig. 4 otherwise corresponds to that shown in Fig. 3, but the selection element 14 and the switch 6 have been removed. As shown in Fig. 4, for the baffle bar 20 belonging to the conventional rotary baffle plate mechanism, the groove 21 in the lock housing 18 is widened in the opposite direction to the normal operating direction of the lock 20 so that the inner cylinder 19 and the associated transmission 13 can be rotated that the switch 6, under the action of the selection member 14, turns on the electric motors 12 of the locking units to provide locking. Otherwise, the operation of the lock mechanism is completely normal. The arrows A, B shown in Fig. 4 correspond to those shown in Fig. 1.

Figure 4 also shows a groove 22 in the lock body for the return spring 17 of the selection member 14, provided with abutment surfaces 23.

Fig. 5 shows an embodiment of the locking unit 2, in which the bar members are two steel balls which are pressed into the protruding position by the control member 24 fixed to the spindle of the electric motor by a screw 25 in order to achieve locking. Correspondingly, when the control member 24 is rotated in the second direction of rotation, thereby

Claims (13)

A central reading system, comprising a plurality of reading units (2a ... 2n), provided with a pivot element (3) slidable in reading and opening position and a two-way electric motor (12) for controlling the piston element 30 ( 3) movements, and with a reading mechanism equipped with a reading mechanism in 11 83126 (1) for simultaneous central control of the function of said reading units, characterized in that the connection of electric current for the electric motors (12) and the choice of the direction of the current is achieved by means of a forward and eating slidable selector member (14) which is directly connected to said reading mechanism, and furthermore that said system includes an accumulating unit (4) for coupling said system to said power source and for instantaneous raising of said current when said current is coupled to said selector member ( 14). Central reading system according to claim 1, characterized in that said reading mechanism is a key-operated cylinder reading with rotatable locking discs, and that said selector element (14) is mounted on a power transmission means (13) coupled to the reading mechanism, so that the selector element 14 In a position where the current for opening the reading units (2a ... 2n) is switched on, can only take place after the cylinder reading mechanism with the key of the reading is turned to its releasing position. Central reading system according to claim 2, characterized in that said cylinder reading (1) comprises a two-way method known per se in two directions, with a readable mechanism with rotatable locking discs. Central reading system according to claim 2, characterized in that said cylinder reading (1) comprises a method known per se in only one direction, with a readable mechanism with rotatable locking discs comprising a reading housing (18) and a rotatable inner cylinder (19). and a reading bar (20) which, in the reading position of the mechanism, is partially located in a lock (21) located in the inner surface of the reading housing, and for moving the selector element (14) 1 relative to the reading housing lock (21) relative to the direction of operation of the reading mechanism. ) is expanded in the said direction. Central reading system according to any of the above-mentioned claims, characterized in that said selector element i2 83126 (14) is arranged to move through its movement a clutch member (6) having a free position in which the current is switched on, and on the bed. switches on the front position one end position, 1 which is arranged to switch the current to the reading unit (2a ... 2n), and that the desired movement of the coupling means (6) fr from one end position to the other is all arranged to reverse. the direction of the current. Central reading system according to any of the above claims, characterized in that said coupling means 10 (6) is attached to the reading housing (18) to said cylinder reading. Central reading system according to any of the above claims, characterized in that the coupling means (6) is loaded to be retracted from each end position to its free position. Central reading system according to any of the preceding claims, characterized in that said selector element (14) is spring loaded (17) to a neutral position, where it does not affect said coupling means (6). Central reading system according to any one of the preceding claims, characterized in that said reading unit (2) includes a said reading motor (12) surrounding reading housing, which is provided with limiting means (26) for limiting in each direction of the rotation of the electric motor. shaft or of a control means (24) connected thereto which actuates the piston element 25 (3). Central reading system according to any of the preceding claims, characterized in that said accumulating unit (4) comprises a number of parallel coupled capacitors (d0). Central reading system according to any of the preceding claims, characterized in that when pointing the current to the reading units (2a ... 2n) the accumulating I! The unit (4) is arranged to momentarily input into the circuit a significant overvoltage relative to the nominal voltage of the reading units' electric motors. Central reading system according to any of the above claims, characterized in that the electric motors (12) of said reading units are selected so that their nominal voltage lies within the range of 1 ... 15 volt, preferably 3 ... 12 volt.