RU2539947C1 - Engagement mechanism for door locks with lock bolt - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: engagement mechanism for door locks with a lock bolt driven by a handle or a rotary head, which may find application in housekeeping, industry, hotels, public organisations, offices, etc. The mechanism performs a pull-in motion, which is sent to a lock bolt (8A) in a lock (8), and connects a shaft (7) of square cross section passing via a lock (8), one end of which is continuously engaged with the inner handle (5), and also an electric motor (10), the shaft of which is connected to a worm shaft (10A). The other end of the shaft (7) of the square cross section is fixed on a guide bushing (20). A profiled bore (20A) is in permanent engagement with a profiled slider (19), arranged coaxially with an outer handle (4). During activation the mechanism by means of the electric motor (10) and a spring (12), fixed with the worm shaft (10A), moves the slider (19) in axial direction towards the hole (4A) of engagement of the outer handle (4), thus connecting it with the shaft (7) of the square cross section, which drives the lock bolt (8A).

EFFECT: improved operational reliability.

5 cl, 5 dwg

Description

FIELD OF THE INVENTION

The present invention relates to an engagement mechanism for door locks with a gate valve, actuated by a handle or a rotary head, which may find application in the household, industry, hotels, government agencies, offices, etc.

BACKGROUND OF THE INVENTION

The clutch mechanism described in EP 1881135 (A1) is located in a housing mounted under an external protective plate in a standard socket outside the door, the shutter of which is actuated by turning the handle or head. Through this mechanism, the pulling movement of the constipation is transmitted or not transmitted externally. The specified mechanism consists of two meshing elements that rotate relative to each other, the first element being connected inseparably to a square shaft that passes through the lock and connected to the internal handle, and the second meshing element is connected to a second square shaft, which in turn connected to an external handle. The mechanism is engaged by activating the electric motor, which causes the worm shaft to rotate, which, through the rotary pushing lever, controls the radial movement of the pushing pin located in the hole of one element so that it enters the slot of the other element, as a result of which both meshing elements are mutually engaged and rotate , providing joint movement of constipation in the opening position.

The disadvantage of the described mechanism is that the kinematic diagram of radial engagement selected in this technical solution by radially moving the pin makes it necessary to use auxiliary parts, such as a second engagement element, a second square shaft, a rotary pushing lever, and others mounted between the external handle and the shaft rectangular section to transfer the pulling force to constipation, which complicates the mechanism and increases its cost.

SUMMARY OF THE INVENTION

The present invention provides a structurally simple gearing mechanism with a minimum number of parts, which is a part of the security elements located in the lock with a lock activated by a rotary handle or head and capable, when the mechanism is not activated, to provide free rotation of the external handle without rotating the square shaft, which drives the constipation, and when the mechanism is activated, it allows you to rotate the square shaft and transfer the pulling motion to the lock molecular weight valve, wherein in both instances constipation may be internally cleaned inner handle.

Thus, a clutch mechanism has been created that is installed in door locks with a locking latch, which is actuated by turning the handle or head, while this mechanism is made as part of the protection elements, in which there are respectively internal and external handles with coil springs enclosed in limiters. The mechanism is housed in an outer casing with an outer cover embedded in the outer plate to be placed on the door, the mechanism comprising a square-shaped shaft passing through the lock, one end of which is constantly fastened to the inner handle, and an electric motor whose shaft is fastened to the worm shaft.

According to the present invention, the mechanism also includes a profiled slider, the rear of which is in constant engagement with the profiled groove of the guide sleeve, mounted on the outer cover by means of a spring ring. The slider is located coaxially with the external handle, in which the profiled meshing hole is made, and the guide sleeve is constantly fixed on the other end of the square shaft so that its axis of rotation coincides with the rotation axes of the square shaft and the inner handle. A spring is engaged with the worm shaft, one end of which is rotatably rotatable around the axis, while the second end of the spring is connected to the slider so that when the worm shaft is rotated, the spring pushes the slider along the axis towards the profiled engagement hole of the external handle until it is fully gearing the front of the slider. According to the present invention, the end of the spring that the slider pushes is made in the form of a loop covering the slider in the groove provided therein. Through the axial movement of the slider, this loop makes contact with the front surfaces of the guide sleeve and the external handle, thus limiting its axial movement.

In addition, according to the present invention, the front surface of the guide sleeve forms a cylindrical sector, and the remaining elongated part of the slider with the existing groove is made in the form of a square section profile, the walls of which are rounded and form a circle with a diameter smaller than the diagonal of the square. The dimensions of the cylindrical sector are selected so that it rotates freely in the profiled meshing hole of the outer handle when the mechanism is in a disconnected position.

In addition, according to the present invention, the profiled bore of the guide sleeve and the profiled meshing hole of the outer handle correspond to the profile of the slider and both are sized to allow free axial movement of the slider.

An advantage of the proposed mechanism according to the present invention is the consequences of the selected rational scheme of its engagement, namely axial and direct engagement with an external handle and a shaft of square cross section when moving along its axis of rotation, while the handle is designed to directly connect the handle with it.

Thus, it is possible to avoid additional placement of other parts transmitting movement from the external handle to the square shaft, which controls the shutter, and also helps to obtain economic benefits when using the device.

BRIEF DESCRIPTION OF THE DRAWINGS

The present invention is more fully and in detail described with reference to the accompanying drawings, where:

Figure 1 is a partial view of the profile of a door equipped with a standard lock equipped with an engagement mechanism - an object of the present invention, located in region (A), an electronic control unit in region (B) and a power supply in region (C);

Figure 2 is a partial view of the mechanism in areas (A), (B) and (C);

Figure 3 is a partial view of the outer plate in region (A) with a mechanism integrated in it in the form of detail;

Figure 4 is a partial view of the outer plate in region (A) with a mechanism integrated therein with the slider disconnected;

5 is a partial view of the outer plate in region (A) with a mechanism integrated therein with a slider connected.

DETAILED DESCRIPTION OF THE INVENTION

According to the examples, one preferred embodiment of the mechanism is shown in the drawings of Figures 1, 2, 3, 4 and 5.

The specified mechanism is made as part of the plates 2 and 3, on which the external handle 4 and the internal handle 5 are placed between the coils 17 of the coil spring located between the stops 18. The mechanism is placed in the outer case 9 with the outer cover 15 integrated in the outer plate 2, superimposed on the door 1. The mechanism also includes a shaft 7 of square cross-section passing through the lock 8, one end of which is constantly engaged with the internal handle 5 and also an electric motor 10, the shaft of which is connected to the worm shaft 10A.

The activation of this mechanism in this particular case occurs from the receiver / keyboard antenna 6, located on the outer plate 2 and connected by a cable 23 to the electronic control unit 14 and the electric motor 10, powered by batteries located in the power supply unit 22, located under the inner plate 3. The electric motor 10 is housed in the housing 11 inside the outer housing 9, and the electronic control unit 14 is located on the outer cover 15.

According to the present invention, the mechanism also includes a profiled slider 19, the rear part 19C of which is constantly engaged with the profiled groove 20A in the guide sleeve 20 fixed to the outer cover 15 by means of a coil spring 16. The slider 19 is aligned with the outer handle 4, in which the hole is made 4A engagement. In this particular case, the guide sleeve 20 at the other end is in constant engagement with the shaft 7 of square cross section by screws 21, and its axis of rotation coincides with the axis of rotation of shaft 7 of square cross section and internal handle 5. One end of the helical shaft is fixed to the worm shaft 10A springs 12, and the spring 12 is configured to rotate around the axis 13, and the second end of the coil spring 12 is engaged with the slider 19 so that when the worm shaft 10A is rotated, the spring 12 then bends the slider 19 in the axial direction directly to the meshing hole 4A of the outer handle 4 until the front of the slider 19 is fully engaged.

In this embodiment, the end of the spring 12, which pushes the slider 19, is made in the form of a loop 12A, covering the slider 19 through the groove 19B made therein.

In addition, this loop 12A also serves as a limiter of the axial movement of the slider 19 by contacting the front surfaces of the guide sleeve 20 and the outer handle 4 during the axial movement of the slider 19. A cylindrical sector 19A is made in the front of the slider 19, and the rest of the elongated slider with an existing groove 19B is made in the form of a square section profile, the walls of which are rounded and form a circle with a diameter smaller than the diagonal of the square.

Also, the dimensions of the cylindrical sector 19A of the slider 19 are selected so that it freely rotates in the profiled meshing hole of the external handle when the mechanism is in the disconnected position. The profiled bore 20A of the guide sleeve 20 and the profiled bore 4A of the engagement of the outer handle 4 correspond to the profile of the slider 19 and both are sized to allow free axial movement of the slider 19.

SUMMARY OF THE INVENTION

According to the present invention, the gearing mechanism with a gate valve, applicable in door locks, driven by a handle or a rotary head, operates as follows:

The activation of the mechanism of FIGS. 1, 2, 3, 4 and 5 in this particular case occurs by supplying an opening signal from the control unit 14 based on data received from the receiver / keyboard antenna 6. These data can be encoded on a card, transponder or another medium and can be received via the receiver antenna or be an alpha-digital code typed on the keyboard, while the electronic control unit 14 provides a turn signal in the opening direction to the electric motor 10, which rotates the connected the 10A worm shaft with it. As a result of rotation, the worm shaft 10A moves one end of the spring 12 fixed therein, and the spring 12 rotates around the axis 13. Also, the other end of the spring 12 is made in the form of a loop 12A, covering the slider 19 through the groove 19B made therein, pushes the slider 19 in the axial direction directly to the engagement hole 4A of the outer handle 4 until the front part is fully engaged, and the rear part 19C of the slider 19 is constantly engaged in the profiled hole 20A of the guide sleeve 20, which is permanently fixed to the square shaft 7 cross-section and thus the external handle 4 is directly connected to the shaft 7 of a square cross-section, which passes through the lock 8 and is in constant engagement with the internal handle 5.

Therefore, by pressing the external handle 4, it rotates around its axis together with the slider 19 connected to it, the guide sleeve 20 and the square cross-section shaft 7, as a result of which the square cross-section shaft 7 pulls the shutter bolt 8A in the lock 8, and the door 1 may be open.

When the closing signal comes from the control unit 14 to the electric motor 10, its shaft rotates in the locking direction and, by means of the worm shaft 10A connected to this axis, moves the end of the spring 12 attached to it, and its second end, made in the form of a loop 12A, pushes the slider 19 in the axial direction, freeing it from the external handle 4, thereby disconnecting the handle 4 and the shaft 7 of a square cross section.

When there is no signal to open the mechanism is not activated, the slider 19 is not engaged with the meshing hole 4A of the outer handle 4 and the outer handle 4 rotates freely without turning the shaft 7 of the square cross section.

Meanwhile, inside, when the internal handle 5 is pressed, it rotates around its axis and pulls the shutter bolt 8A in the lock 8 by means of a shaft 7 of square cross section, which is in constant engagement with it, and the door can be opened without a signal to open.

The coil springs 17 mounted on the handles 4 and 5, enclosed in the stops 18, serve to return the handles 4 and 5 to the initial position after pressing them, and the stops 18 limit the rotation angle and prevent the removal of the handles 4 and 5.

Claims (5)

1. The engagement mechanism installed in the door locks, with a locking bolt, which is actuated by turning the handle or head, while this mechanism is made as part of the protection elements, in which there are respectively internal and external handles with coil springs enclosed in limiters, wherein the mechanism is housed in an outer case with an outer cover embedded in the outer plate to be applied to the door, the mechanism comprising a square shaft passing through the lock, one end which is constantly bonded to the inner handle, and the motor, the shaft of which is bonded to the worm shaft, it also contains a profiled slider, the rear of which is constantly engaged with the profiled groove in the guide sleeve fixed to the outer cover by means of a spiral spring, and the slider is located coaxially relative to external handle, and the guide sleeve is in constant engagement with the other end of the square shaft in such a way that its axis of rotation coincides with rotation of the square shaft and the internal handle, while one end of the spring is constantly engaged with the worm shaft, the specified spring is rotatable around the axis, and the second end of the spring is engaged with the slider so that when the worm shaft rotates, the spring pushes the slider in the axial direction directly to the outer handle, characterized in that an engagement hole (4A) is made in the outer handle (4), the end of the spring (12) that pushes the slider (19) is made in the form of a loop (1 2A), enclosing the slider (19) through the groove made therein (19B), and pushes the slider (19) in the axial direction directly to the engagement hole (4A) of the outer handle (4) until the front of the slider (19) is fully engaged. 2. The engagement mechanism according to claim 1, characterized in that said hinge (12A) also serves as a limiter for axial movement of the slider (19) by contacting the front surfaces of the guide sleeve (20) and the external handle (4) during axial movement of the slider ( 19). 3. The engagement mechanism according to claim 2, characterized in that a cylindrical sector (19A) is made in the front of the slider (19), and the remaining elongated part of the slider with an existing groove (19B) is made in the form of a square section profile, the walls of which are rounded and form a circle with a diameter smaller than the diagonal of the square. 4. The engagement mechanism according to claim 3, characterized in that the dimensions of the cylindrical sector (19A) of the slider (19) are selected so that it rotates freely in the engagement hole (4A) of the outer handle (4) when the mechanism is in the disconnected position. 5. The engagement mechanism according to claim 4, characterized in that the profiled bore (20A) of the guide sleeve (20) and the profiled bore (4A) of the engagement of the outer handle (4) correspond to the profile of the slider (19) and both have such dimensions as to ensure free axial movement of the slider (19).

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