DE4041094A1 - Magnetically operated security lock - has integral magnets to slide bolts into lock, release magnets being in key - Google Patents

Abstract

The key has a cross-sectional profile to match the keyway in the lock and has a pattern of magnets embedded inside the shaft. The magnets (21, 22) operate on sliding magnets (24, 25, 26) inside the lock, sprung loaded to push locking pins (33) into locking recesses in the lock mounting. The key shaft has stops (18) to align the key axially and to lock the key in the lock if the lock is released. The magnets operate on both repulsion and attraction, with the former effect releasing the pins via yoke levers. ADVANTAGE - Foolproof security code; lock cannot be drilled to release pins.

Description

The invention relates to a security lock with a locking lever attached to a pivot bearing, the Rotary bearing in a housing block using a Key is rotatably arranged and in the closed position at least one locking pin in a locking hole intervenes.

The need for security is in the cradle of people placed. Over the past few decades, there have been many Countries formed a broad middle class, many of them became a buyer of high-end products. The idea of an investment plays an accompanying role important role. With this development of well-being stood and takes crime in the form of Burglaries in the private and business sector too.  

For this reason, locking devices must be used today be developed using the latest security Er correspond to knowledge and on the other hand highly offer possible protection. They should do it at the same time can be mass-produced and an individual Allow lock number.

In this context, safe is especially known Unit cylinder locks, which with corresponding Interact with locking pins. For this purpose are then on Key contours or holes provided. The disadvantage of these locks is that one can copy the keys and to others when drilling out these locks appropriate pins in the middle, so that Lock is unlocked.

The inventor's goal is to be sure to develop a safety lock of the type mentioned above, which has an increased level of security and permits high locking numbers.

The locking pin leads to the solution of this task with at least one push and / or pull magnet in Connection is established, which is movable in the pivot bearing is stored and at least one magnet in the key assigned.  

Thus, the inventor breaks new ground by he takes advantage of the property of the magnets that other magnets or magnetic materials are attracted or be repelled. As a result, the supply or Unlocking process causes. Such a magnet security lock has a very high number of locks and locking numbers of up to 800,000. What is essential here the exact assignment of the magnets to each other. The Magnets should only work properly together can work if they are exactly aligned are, d. H. only the key causes an opening process that also leads to the corresponding safety safety lock fits.

For the assignment of magnets in the key and There are a variety of magnets in the pivot bearing Opportunities. In order to increase these possibilities the key shaft is not just a square but it can also be rectangular in cross-section, be hexagonal or polygonal. The correspond Appropriate magnets in the pivot bearing should also not only opposite, but can also be radial and offset axially and around the key shaft be, so that this results in a variety of assignments the magnets to each other that ultimately result affects the number of locks.  

First, it is possible that a pole of the magnet in Key shaft an opposite pole of the train magnet is assigned. As is known, drag opposite poles, d. H. the assignment north / south, so that here the unlocking process by tightening of the pull magnet is effected.

In another exemplary embodiment, on the other hand a pole of the magnet in the key shaft is the same Pole of the pressure magnet can be assigned. This will repelling the pressure magnet causes so that this then unlocks when pushing off.

A combination of both is preferred Possibilities, which in turn increases the number of locks and improves the security of the security lock becomes.

The key is preferably made of non-magnetic Material. The cavity is in its shaft, which holds the above magnet.

In a particularly preferred embodiment cam lugs formed on the shaft, which in Reach behind the corresponding abutment, see above that the key is only in the closed position from the Security lock can be taken. This brings the Security with you that the security lock always is locked when the key is removed.  

The actuation of the locking pins by the pull magnets can be done in a simpler way than that of the locking pins on the pressure magnets. It is sufficient if the pull magnet in a recess in the Pivot bearing slides. The pull magnet should preferably still be in be embedded in a leadership block that spans Can support springs against the bottom of the recess. The locking pin is then on the other hand this Feathers. The locking pin is engaged in the closed position with a corresponding bolt hole in the housing block of the security lock. To unlock the Latch pin through the guide block or the train magnets against the force of the springs from its latch position pulled.

For the printing magnet are somewhat more complicated ones directions necessary. A seesaw is available for this or rocker parts, which on the one hand with the pressure magnets and on the other hand connected to the locking pin is. The rocker or rocker parts has one pivot point around the rocker or the Turn the rocker parts and pull the locking pin out of the Pull the latch position.

In one embodiment, the rocker is parallel to Longitudinal axis of the pivot bearing arranged and over a Angle connected to the pressure magnet. On the other hand there is a connection from the seesaw to one Guide angle with the locking pin, this Guide bracket in its own recess in the pivot bearing slides.  

If the pressure magnet is repelled by the Magnet in the key causes this pressure to slide magnet outward, with the rocker around the fulcrum turns. She pulls the latch bolt inwards, whereby an unlocking takes place. The repatriation the lead angle is done via corresponding Springs, over which the guide angle against the Bottom of the recess supports.

The rocker parts, on the other hand, should be transverse to the longitudinal axis be arranged. This allows the size of the entire security lock significantly reduced be, so that this castle is especially for Offers small containers. Those are preferred Rocker parts curved in a crescent shape in a quarter circle educated. They also have a fulcrum around that the rocker parts can rotate to a certain extent. One end of a seesaw part is possibly over one Angle with the pressure magnet and the other end over a mounting bracket connected to the locking pin. Corresponding pivot pin enough play own space, the rocker parts are both long holes formed. Furthermore, the mounting tab still be acted upon by the pressure of a spring, so that the corresponding latch pin in its latch position is feasible.

Other advantages, features and details of the Er Find out from the following description preferred embodiments and based on the Drawing; this shows in

Figure 1 is a plan view of a security lock according to the invention.

Fig. 2 shows a longitudinal section through the safety lock according to Figure 1 along line II-II in the use position.

Fig. 3 is a further longitudinal section through the safety-lock according to Figure 1 along line III-III in Fig. 2.

4 is a cross-sectional view of the safety lock along the line IV-IV in Fig. 3.

Fig. 5 shows a longitudinal section through a further exporting approximately example of a safety lock;

Fig. 6 shows a cross section through the security lock of FIG. 5 along line VI-VI.

An inventive safety lock has, according to Fig. 1 an approximately cylindrical housing block 1 which is used in a rotary bearing 2. This rotary bearing 2 has an axis of rotation A, which coincides with the section line III-III shown in FIG. 2. The rotation is effected via a key 3 , which can be inserted into a keyhole 4 . The direction of rotation z is indicated by a double arrow in FIG. 1.

The key 3 consists of a key ring 5 and a key shaft 6 . The key shaft 6 is designed as a hollow body and is preferably made of alloyed, anti-magnetic material. Cross-sectionally, it is square, rectangular, hexagonal or the like. Its main tasks are described below.

Beyond an entry opening 7 for the key 3, the pivot bearing 2 is covered with a disk 8 which is connected to a pressure disk 10 via a countersunk screw 9 . Disc 8 and pressure disc 10 take up a locking lever 11 between them, which engages in the closed position in an opening 12 which is only indicated and thereby engages behind a corresponding wall part 13 . When the key 3 is turned in the direction z, the locking lever 11 moves into the open position, as is indicated by the broken line in FIG. 1.

Frontwärtig the housing block 1 is embraced by a generally rectangular mounting flange 14, which has bores 15 °. About these holes 15 , through which corresponding screws are inserted, the lock R can be fixed to a corresponding mounting wall.

Preferably, the lock R a clothing 16 is placed in the use position. This panel 16 also has an opening 17 in the contour of the keyhole 4 . The key shaft also has 6 cam lugs 18 . After a rotation of the rotary bearing 2 in the direction z, these cam lugs 18 engage behind the panel 16 , so that the key 3 cannot be removed in this open position. This ensures that in any case the security lock R must first be locked before the key 3 can be pulled out of the keyhole 4 or the opening 17 .

In Fig. 3 it is shown that 6 permanent magnets 21 and 22 are inserted into a cavity 20 of the key shaft. These permanent magnets 21 and 22 fit exactly into the cavity 20 and are fixed exactly there. After the insertion of the permanent magnets 21 and 22 , the cavity 20 is closed by a plug 23 ver.

The magnets 21 and 22 interact with a pressure magnet 24 and two pull magnets 25 and 26 . Here, the north / south training of the magnets 21 and 22 is used, as described below. The pressure magnet 24 is mounted in a recess 27 of the rotary bearing 2 and is connected to a rocker 29 via an angle 28 . The connection is made in an articulated manner via a pivot pin 30 .

The rocker 29 in turn forms a pivot point 31 with the pivot bearing 2 , about which the rocker 29 can rotate. Here, the pivot point 31 is arranged approximately centrally in the rocker 29 and is preferably also formed by a pivot pin.

Beyond the pivot pin 30 , the other end of the rocker 29 is connected via a guide bracket 32 with a locking pin 33 . The connection is again articulated via a pivot pin 34 , the guide bracket 32 being supported by springs 35 against a base 36 of a further recess 37 in the pivot bearing 2 .

In the closed position shown in Fig. 3, the locking pin 33 engages in a locking hole 38 in the housing block 1 .

The pull magnets 25 and 26 are also mounted in corresponding recesses 39 in the rotary bearing 2 . Each pull magnet 25 or 26 is embedded in a guide block 40 , which is supported by springs 41 against a bottom 42 of the recess 39 .

At the other end of each projecting from the guide block 40, a further locking pin 43 which engages in the closed position in a entspre sponding locking hole 44 in the housing. 1

The functioning of the security lock according to the invention is the following:
To open the lock R, ie the locking lever 11 , the key 3 is inserted into the keyhole 4 until the insertion depth is limited. In general, this should be the case when the key shaft 6 strikes the disc 8 . In this end position of the key 3 , the magnets 21 and 22 lie exactly opposite the push or pull magnets 24 , 25 and 26 . A pressure is exerted on the pressure magnet 24 so that the pressure magnet 24 is repelled and moves outward in the recess 27 . As a result, the rocker 29 rotates about the pivot point 31 , so that the locking pin 33 is pulled out of the locking bore 38 .

At the same time, however, a tension is exerted on the pull magnets 25 and 26 by the north / south orientation of the magnets 21 and 22 against the force of the springs 41 , which causes the locking pins 43 to slide from the locking holes 44 . The pivot bearing 2 is thus free and the key 3 can be rotated in the direction of rotation z in the open position.

To close the security lock R, the key 3 is turned again until the locking lever 11 assumes its closed position in the opening 12 . Then the key 3 can be pulled out of the keyhole 4 so that the forces acting on the pressure or tension magnets 24 , 25 and 26 are canceled. Under the pressure of the respective springs 35 and 41 , the locking pins 33 and 43 are then brought back into their locking position.

In FIGS. 5 and 6 a further embodiment of a safety lock R 1 in a relatively small configuration is shown. This version enables use in small containers or, for example, safety safes. Here is located in a cavity 20 a of a key shaft 6 a only a magnet 45 , which serves a pressure magnet 24 a and a pull magnet 25 a. In this embodiment, the pull magnet 25 a, as described above, is embedded in a guide block 40 a, which slides in a recess 39 a of the rotary bearing 2 a. This guide block 40 a is supported against springs 41 a. With a locking pin 43 a it engages in a corresponding locking hole 44 a in the housing block la.

The pressure magnet 24 a slides in a corre sponding recess 27 a in the pivot bearing 2 a. He takes the angle 28 a. This angle 28 a has two fastening strips 45 and 46 arranged in parallel, which each receive one end of a rocker part 29 a or 29 b between them.

The ends of these rocker parts 29 a and 29 b are held by a pivot pin 47 , which extends through corresponding elongated holes 48 in the ends of the rocker parts 29 a and 29 b and the fastening strips 45 and 46 .

Each rocker part 29 a or 29 b has the shape of a quarter-circle sickle and has a fixed pivot point 49 with the pivot bearing 2 a. Thus, when the mounting angle 28 a under the pressure of the pressure magnet 24 a moves in the recess 27 a to the outside, so rotate the rocker portions 29 a and 29 b about their pivot points 49th The other ends of the rocker parts 29 a and 29 b are moved inwards towards the key shaft 6 a. Here they take 50 locking pins 33 a with appropriate mounting tabs. The rocker parts 29 a and 29 b are fastened to the fastening straps 50 by bolts 51 which engage in correspondingly shaped elongated holes 52 .

Moreover, the mounting tabs 50 are supported against corresponding springs 35 a, so that they move the locking pins 33 a back into their locking position when lifting a pressure on the pressure magnet 24 a.

After the key 3 has been closed and removed, a suitable decorative fitting may cover the keyhole 4 .

The entire security lock R is intended to be a modular system system must be built so that it can be easily can also be expanded. As a result, high closing numbers can be achieved. Furthermore, the ent speaking magnets arranged in certain systems, so that every single buyer is individually secured can be.

Reference symbol list

1 housing block
2 swivel bearings
3 keys
4 keyhole
5 key ring
6 Key shaft 7 Entry opening
8 disc
9 countersunk screw
10 pressure plate
11 locking lever
12 opening
13 wall part
14 mounting flange
15 hole
16 cladding
17 opening
18 cam lugs
20 cavity
21 magnet
22 magnet
23 plugs
24 pressure magnet
25 pull magnet
26 pull magnet
27 recess
28 angles
29 seesaw
30 pivot pins
31 fulcrum
32 guide angles
33 locking pin
34 pivot pins
35 spring
36 floor
37 recess
38 bolt hole
39 recess
40 guide block 41 spring 42 base 43 locking pin
44 bolt hole
45 fastening strips
46 fastening strips
47 pivot pins
48 slot
49 fulcrum
50 fastening tab
51 bolts
52 slot
A axis of rotation
R lock
z direction of rotation

Claims (16)

1. Security lock with a locking lever attached to a pivot bearing, the pivot bearing being rotatably arranged in a housing block by means of a key and engaging in the locking position at least one locking pin in a locking hole, characterized in that the locking pin ( 33 , 43 ) with at least one pressure and / or pull magnet ( 24 , 25 , 26 ) is connected, which is movably mounted in the rotary bearing ( 2 ) and to which at least one magnet ( 21 , 22 ) is assigned in the key ( 3 ). 2. Security lock according to claim 1, characterized in that one pole of the magnet ( 21 , 22 ) is assigned an opposite pole of the pull magnet ( 25 , 26 ). 3. Security lock according to claim 1 or 2, characterized in that a pole of the magnet ( 21 , 22 ) is assigned the same pole of the pressure magnet ( 24 ). 4. Security lock according to one of claims 1 to 3, characterized in that the key ( 3 ) consists of antimagnetic material and has a shaft ( 6 , 6 a) with a cavity ( 20 , 20 a) in which at least one magnet ( 21 , 22 , 21 a) is used. 5. Security lock according to claim 4, characterized in that the shaft ( 6 ) has cam lugs ( 18 ). 6. Security lock according to at least one of claims 2 to 5, characterized in that the pull magnet ( 25 , 25 a, 26 ) is optionally embedded in a guide block ( 40 , 40 a) which is in a recess ( 39 , 39 a) in the pivot bearing ( 2 , 2 a) slides. 7. Security lock according to claim 6, characterized in that the guide block ( 40 , 40 a) is supported by springs ( 41 , 41 a) against the bottom ( 42 ) of the recess ( 39 , 39 a) and on the other hand the locking pin ( 43 , 43 a) for engagement in the locking bore ( 44 , 44 a). 8. Security lock according to at least one of claims 3 to 7, characterized in that the pressure magnet ( 24 , 24 a) via a rocker ( 29 ) or rocker parts ( 29 a, 29 b) with the locking pin ( 33 , 33 a) connected is. 9. Security lock according to claim 8, characterized in that the rocker ( 29 ) is arranged parallel to the longitudinal axis (A) and has a pivot point ( 31 ) fixed to the pivot bearing and one end, if necessary, connected via an angle ( 28 ) to the pressure magnet ( 24 ) is. 10. Security lock according to claim 9, characterized in that the rocker ( 29 ) at the other end via a guide angle ( 32 ) with the locking pin ( 33 ) is connected, the guide angle ( 32 ) in its own recess ( 37 ) in the pivot bearing ( 2 ) slides. 11. Security lock according to claim 10, characterized in that the guide angle ( 32 ) is supported by springs ( 35 ) against the bottom ( 36 ) of the recess ( 37 ). 12. Security lock according to claim 8, characterized in that each rocker part ( 29 a, 29 b) has a pivot point ( 49 ) and is curved approximately sickle-shaped in a quarter circle. 13. Security lock according to claim 12, characterized in that in each case one end of a rocker part ( 29 a, 29 b) via an angle ( 28 a) with the pressure magnet ( 24 a) and the other end via a fastening tab ( 50 ). is connected to the locking pin ( 33 a). 14. Security lock according to claim 13, characterized in that both ends of the rocker parts ( 29 a, 29 b) to be connected to one another are arranged transversely to the longitudinal axis (A) and have an elongated hole ( 48 ) which is provided by a pivot pin ( 47 ) sets is. 15. Security lock according to claim 13 or 14, characterized in that the connection between the rocker part ( 29 a, 29 b) and mounting bracket ( 50 ) via a bolt ( 51 ) which has an elongated hole ( 52 ) in the other end of the rocker part ( 29 a, 29 b) interspersed. 16. Security lock according to one of claims 13 to 15, characterized in that the fastening tab ( 50 ) is under the pressure of a spring ( 35 a).