RU2699463C1 - Magnetic locking device of crossbar type - Google Patents

Abstract

FIELD: locks.

SUBSTANCE: present invention relates to locking devices, and more particularly to magnetic locking device of crossbar type. Magnetic locking device of crossbar type comprises lock of crossbar type and facility for unlocking of lock. Lock comprises crossbar 1 in form of rod 2, on one end of which there is head 3 and crossbar catcher 4 comprising hollow cylindrical body 5, inside of which there is installed with possibility of axial movement locking unit 6 containing bushing 7, in which side wall there are radial holes, in which locking balls 8 are installed with possibility of radial movement, their movement inside bushing 7 leads to grip and retention of head 3 of crossbar in crossbar catcher 4, and on which constant magnet 20 is fixed. On the wall of the hollow cylindrical body 5, on its inner side, annular projection 21 is formed for radial movement of locking balls 8 into the cavity of sleeve 7. Facility for unlocking of lock comprises permanent magnet 15 made with possibility of action on bushing 7 of locking unit 6, which under action of permanent magnet 15 moves in cylindrical body, causing radial-axial movement of locking ball 8, which leads to release of head 3 of crossbar 1 and its output from crossbar catcher 4. When publishing the abstract, please use the drawing included in the patent application documents.

EFFECT: within the framework of the present invention, the task of creating a magnetic locking device of a crossbar type, the design of which has enabled its installation in any places, including in places located far from the electrical network, eliminating the need to install an additional electrical line and mounting any additional equipment, wherein the locking device is sufficiently small to be used as an invisible lock.

6 cl, 1 dwg

Description

Description of the invention

The present invention relates to locking devices, and more particularly to a magnetic locking device of a bolt type.

A locking magnetic device of a crossbar type is known (see RF patent RU 2493345 C1), which is essentially an electromagnetic lock containing a crossbar in the form of a rod, at one end of which a head is formed, a crossbar catcher containing a hollow essentially cylindrical body inside which is installed with the possibility of axial movement of the locking unit containing the sleeve, in the side wall of which are made radial holes in which are mounted with the possibility of radial movement of the locking balls, the movement of which inside the sleeve leads to the capture and retention of the bolt head in the bolt catcher, and an electromagnet, while on the wall of the cylindrical body of the bolt catcher, on its inner side, an annular protrusion is formed to move the locking balls into the cavity of the sleeve, the sleeve is made of metal and a permanent magnet is fixed to it moving under the action of an electromagnet, thereby causing axial movement of the sleeve and radial-axial movement of the locking balls.

Please note that in the design of the locking device, i.e. An electromagnetic lock, made according to the patent of the Russian Federation RU 2493345 C1, is provided with an electromagnet. But for the regular functioning of such a lock, an appropriate power supply must be connected to the electromagnet, i.e. for its regular functioning, it is necessary to have an electric network or other source of electric energy close to the place of installation, and a separate electric line must be connected to the electromagnet from the electric network. If a standard electric network of 220 - 230 V / 50 Hz is used, then additional equipment must be installed in the electric line, at least a step-down transformer or a pulse voltage converter, an alternating electric current to direct current converter, and an electromagnet on / off device through which translation of the castle into one of the provisions, i.e. to the opening position or to the closing position.

Thus, the presence of an electromagnet in the design of the locking device imposes a restriction on the installation location of the locking device, since the lack of an electrical network near the intended installation location of the locking device makes such installation and use of the locking device according to the RF patent RU 2493345 C1 inappropriate and sometimes impossible.

There is another important aspect to which attention should be paid, namely: our experience of operating the above-mentioned locking device according to the patent of the Russian Federation RU 2493345 C1 has shown that it is not applicable as the so-called invisible locks, i.e. locks, the presence and / or location of which is difficult, such devices are also called hidden installation locks. And the use of invisible locks significantly reduces the likelihood of illegal opening of the locked volume. This drawback is ultimately also due to the presence of an electromagnet in the design of the locking device, since it is for its regular operation that an electrical network, installation of an additional electrical line, and the use of additional equipment are required that unmask the locking device.

In addition, it must be understood that the overall dimensions of the electromagnetic lock are set including the dimensions of the electromagnet, which in turn are interconnected with its power. In other words, there is a relationship - the more powerful the electromagnet, the larger its overall dimensions and the larger the overall dimensions of the electromagnetic lock. Under these conditions, it is practically impossible to make the castle miniature for the purpose of its hidden installation.

In addition, it must be understood that if the electric power of the electromagnet in the locking device according to the patent of the Russian Federation RU 2493345 C1 is interrupted for one reason or another, for example, as a result of disconnecting an electric circuit or breaking an electric line connecting an electric network to an electromagnet, or as a result of breakdown of one of of the aforementioned devices of additional equipment installed in the electric line, then the regular operation of the locking device becomes impossible, i.e. the locking device fails, and if this happened at the moment when the protective device is in the closed position, then opening the locking device becomes very difficult until the problem is fixed, which is very inconvenient for the user.

The basis of the present invention is the creation of a magnetic locking device of the crossbar type, the design of which would allow its installation in any places, including places that are far from the electrical network, would eliminate the need for an additional electrical line and the installation of any additional equipment At the same time, the locking device must be small enough to be used as an invisible lock.

This problem is solved in a magnetic bolt-type locking device containing a bolt-type lock and means for unlocking the lock, the lock containing a bolt in the form of a rod, at one end of which a head is formed, and a bolt catcher containing a hollow cylindrical body inside which is installed with axial movement of the locking unit containing the sleeve, in the side wall of which there are radial holes in which the locking balls are installed with the possibility of radial movement, the movement of which x inside the sleeve leads to the capture and retention of the bolt head in the bolt catcher, and on which a permanent magnet is fixed, while on the wall of the cylindrical body, on its inner side, an annular protrusion is formed for the radial movement of the locking balls into the cavity of the sleeve, and means for unlocking the lock contains a permanent magnet, made with the possibility of impact on the sleeve of the locking unit, which, under the influence of a permanent magnet, moves in a cylindrical body, causing radial-axial movement of the locking x balls, which leads to the release of the bolt head and the bolt out of the catcher.

Please note that, in fact, the claimed magnetic locking device consists of two separate mechanically unrelated means, namely a bolt-type lock and a means for unlocking the lock. In this design of the locking device, the electromagnet is not used at all and all problems associated with it automatically disappear, i.e. there is no need for an electric network near the installation site of the locking device, there is no need for an additional electric line to power the electromagnet, and there is no need for any additional equipment. To unlock the lock, only a means for unlocking the lock is required, containing a permanent magnet, periodically acting on the structural element of the lock, the movement of which ultimately leads to the release of the bolt and its exit from the bolt catcher, i.e. to transfer the lock from the closing position to the opening position. In this design of the lock, such an element is the sleeve of the locking assembly, since it is precisely its movement caused by the action of the permanent magnet that ultimately leads to the release of the bolt, as a result of which the lock goes into the open position. It is clear that the indicated action of the permanent magnet on the sleeve is usually of a periodic and very short-term nature, since it takes a very short exposure time equal to fractions of a second to open the lock.

Since the electromagnet is excluded from the design of the lock, as well as there is no need to install a separate power line for the electromagnet and to use any additional devices, the lock can be used as an invisible lock and it can be made more miniature compared to a lock containing an electromagnet.

Negative factors such as the failure of the electric network, breakage of the power line, breakdown of additional equipment no longer affect the operation of the claimed magnetic locking device, since for its regular functioning there is no need for an electric network, electric line and additional equipment.

The sleeve of the locking assembly can be made in different ways, for example, it can be made entirely of magnetically conductive material, for example, magnetically conductive metal, in particular steel. This embodiment of the sleeve guarantees the impact on it of a permanent magnet means for unlocking the lock.

A permanent magnet fixed to the sleeve is necessary, first of all, for pulling the sleeve into the closing position, in which the balls capture the crossbar head. In addition, the effect of the permanent magnet of the means for opening the lock on the sleeve is enhanced. In this case, the permanent magnets, the first on the sleeve and the second in the tool for opening the lock, will mutually attract, which will cause the sleeve to move in the locking assembly towards the permanent magnet in the tool for opening the lock, as a result of which the bolt is released from the bolt catcher and the lock transitions from closing position to opening position.

Another embodiment of the sleeve is possible, in our opinion the most appropriate, namely to make a sleeve of plastic and attach a permanent magnet to it. In this case, the production of the lock will be more technologically advanced in comparison with the metal sleeve. In addition, the implementation of the plastic sleeve reduces the weight and metal consumption of the lock.

The execution of a hollow cylindrical body made of plastic is also very useful, since such a case leads to an improvement in the manufacturability of the castle, its weight and metal consumption are also reduced.

It would be reasonable for the unlocking means to comprise a hollow plastic casing, while the permanent magnet of the unlocking means would be fixed in the cavity of the plastic housing.

No less reasonable would be the implementation of a hollow plastic body in the form of a cylindrical body, at the end of which a disk-shaped element is formed. This embodiment of the means for unlocking the lock makes it possible to use it as a furniture handle when the lock is in the open position, which is very convenient for the user.

All parts of the lock, with the exception of the hollow cylindrical body and the sleeve, are made of metal, usually made of steel.

The cylindrical body and sleeve, as noted above, are usually made of plastic, namely high density polyethylene.

Permanent magnets are samarium-cobalt (SmCo) magnets.

In the future, the claimed invention, namely the magnetic locking device of the crossbar type, will be described in more detail with reference to the accompanying drawing, showing a longitudinal section of the device, while the lock is in the closed position, i.e. the bolt head is located in the sleeve of the locking assembly of the bolt trap and the lock release means is brought to the lock, the drawing shows the device with an increase of about three times.

The bolt-type magnetic locking device described below is intended for concealed installation in a movable wooden door of the secretary, it contains a bolt-type lock, mechanically unconnected, and means for unlocking the lock.

The bolt-type lock contains a bolt 1 in the form of a rod 2, at one end of which a head 3 is formed. In addition, there is a bolt catcher 4 in the lock containing a hollow essentially cylindrical body 5, inside of which it is mounted with the possibility of axial movement, i.e. along the axis A-A ', the locking unit 6.

The locking unit 6 includes a sleeve 7, in the side wall of which there are radial holes in which the locking balls 8 are mounted with the possibility of radial movement, the movement of which inside the sleeve 7 leads to the capture and retention of the head 3 of the crossbar in the catcher 4 of the crossbar.

The bolt catcher 4 is fixed in the door 9 of the secretary, for which purpose a blind hole is made in the door 9 of the secretary, on its inner side, corresponding to the dimensions and shape of the cylindrical body 5, and a mounting plate 10 is provided in the design of the lock, made as a unit with the hollow cylindrical body 5. The cylindrical body 5 is installed in the blind hole of the door 9 of the secretary and the mounting plate 10 is attached to the door 9 of the secretary on its inside with furniture screws 11, as shown in the attached drawing. The crossbar 1 is installed in the mounting flange 12, which is attached to the stationary part 13 of the secretary. To prevent the sleeve 7 from falling out of the cylindrical body 5 during the installation of the catcher 4 of the bolt in the door 9 of the secretary, a locking ring 14 is provided in the cavity of the cylindrical body 5. The means for unlocking the lock contains a permanent samarium-cobalt (SmCo) magnet 15 mounted in a hollow plastic case 16 The hollow plastic housing 16 is made in the form of a hollow cylindrical body, on the end of which an annular element 17 is formed. The cavity of the plastic housing 16 is closed by a disk-shaped plastic plug 18. Between A permanent magnet 15 and a disk-shaped plastic plug 18 are provided with a shock absorbing spacer 19 for securely fixing the permanent magnet 15 in the plastic housing 15. In this particular embodiment, the sleeve 7 is made entirely of magnetically conductive metal, namely steel 3. Permanent samarium-cobalt is fixed to the sleeve 7 (SmCo) magnet 20.

As previously noted, the sleeve 7 can be made both of a magnetically conductive material and of plastic.

In the considered embodiment of the magnetic locking device of the crossbar type, the hollow cylindrical body 5 and the mounting plate 10 are made of high density polyethylene plastic. They can also be made metal, but such a manufacture will increase the weight and metal consumption of the lock, which is undesirable.

As noted above, on the wall of the hollow cylindrical body 5 of the bolt catcher 4, on its inner side, an annular protrusion 21 is formed for radially moving the locking balls 8 into the cavity of the sleeve 7. The annular protrusion 21 is formed by increasing the wall thickness of the hollow cylindrical body 5 in the radial direction . In other words, by changing the wall thickness of the hollow cylindrical body 5, the desired profile of the annular protrusion 21 is achieved. The profile of the annular protrusion 21 is made so that during axial movement (i.e., movement along the axis A-A ') of the locking unit 6, the locking balls 8, when contact with the annular protrusion 21, move in both axial and radial directions, which causes the capture and retention of the head 3 of the crossbar in the catcher 4 of the crossbar. It should be noted that the device of the annular protrusion 21 on the inner surface of the hollow cylindrical body 5 is not the subject of discussion in the framework of this patent application.

The inventive magnetic locking device of the crossbar type operates as follows.

In the initial state, the bolt lock sleeve 7 can be in any position. When locking the lock, the bolt rod 2 with the head 3 passes into the inner cavity of the sleeve 7, the head 3 abuts against the permanent magnet 20 from the side of the inner cavity of the sleeve 7, as a result of which the entire locking assembly 6 moves towards the locking ring 14 and abuts against it, i.e. e. the locking ring 14 is the stopper of the stop of the locking unit 6. In this case, the locking balls 8 come off the annular protrusion 21 and freely pass the head 3 of the crossbar 1 into the cavity of the sleeve 7. The head 3 of the crossbar is inside the sleeve 7 between the balls 8 and a permanent magnet, in other words, the crossbar 1 it is caught by the bolt catcher 4, since the return stroke of the bolt 1 becomes impossible due to the fact that the sleeve 7 moves slightly from the locking ring, the balls roll onto the annular protrusion 21 and the balls 8 move into the cavity of the sleeve 7, as a result of th bolt head 3 during the back rests against the balls 8. Therefore locking moves to the closed position.

For a regular unlocking of the lock, it is necessary to bring the unlocking means of the lock to the place of installation of the lock so that the permanent magnet 15 of the unlocking means acts on the sleeve 7 of the locking assembly 6 and on the permanent magnet 20 fixed on the sleeve 7. In this case, the magnetic flux of the permanent magnet 15 means the unlocking of the lock and the permanent magnet 20 on the sleeve 7 interact with each other and the entire locking assembly 6 moves to the locking ring 14. As a result, the locking balls 8 roll off the annular protrusion 21 and free the head taste 3 crossbars. Due to this, the crossbar 1, under the action of an external force, freely leaves the cavity of the sleeve 7, i.e. 4 bolts are released from the catcher. Thus, the lock moves to the open position.

In the event of an abnormal attempt to open the lock (i.e., when breaking), initially under external influence, the bolt 1 together with the locking assembly 6 starts to move axially from the sleeve 7 until the locking balls 8 are rolled onto the annular protrusion 10. As soon as the locking balls 8 are rolled onto the annular protrusion 10, then the locking balls 8 are moved through the holes of the sleeve 7 into its internal cavity and clamp the head 3 of the crossbar 1, preventing the crossbar 1 from leaving the catcher 4 of the crossbar. Moreover, the greater the external force applied by the attacker to the crossbar 1, the stronger the head 3 of the crossbar 1 is clamped by the locking balls 8.

Please note that the sleeve 7 in this case does not carry a mechanical load, but only plays a role similar to that of a ball bearing cage. In other words, we want to emphasize that the replacement of the sleeve manufacturing material from metal to plastic did not lead to a decrease in the reliability of the lock in both standard and emergency situations.

Claims (6)

1. A magnetic bolt-type locking device comprising a bolt-type lock and means for unlocking the lock, wherein the lock contains a bolt (1) in the form of a rod (2), at one end of which a head (3) is formed, and a catcher (4) of the bolt comprising a hollow cylindrical body (5), inside which a locking assembly (6) is mounted for axial movement, comprising a sleeve (7), in the side wall of which are made radial openings in which locking balls (8) are mounted with the possibility of radial movement which inside the sleeve (7) leads to the capture and retention of the head of the bolt (3) in the catcher (4) of the bolt, and on which a permanent magnet (20) is fixed, while an annular ring is formed on the wall of the hollow cylindrical body (5) the protrusion (21) for the radial movement of the locking balls (8) into the cavity of the sleeve (7), and the means for unlocking the lock contains a permanent magnet (15), made with the possibility of impact on the sleeve (7) of the locking unit (6), which under the influence of a constant magnet (15) moves in a cylindrical housing, causing flax-axial movement of the locking balls (8), which leads to the release of the head (3) of the crossbar (1) and its exit from the catcher (4) of the crossbar. 2. The device according to claim 1, in which the sleeve (7) of the locking assembly (6) is made of a magnetically conductive material. 3. The device according to claim 1, in which the sleeve (7) of the locking assembly (6) is made of plastic. 4. The device according to claim 1, in which the hollow cylindrical body (5) of the catcher (4) of the crossbar is made of plastic. 5. The device according to claim 1, in which the means for unlocking the lock comprises a hollow body (16) made of plastic, and a permanent magnet (15) of the means for unlocking the lock is fixed in the cavity of the plastic hollow body (16). 6. The device according to claim 5, in which the hollow plastic housing (16) is made in the form of a cylindrical body, at the end of which a disk-shaped element (17) is formed.

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