RU2477359C2 - Gate valve body comprising gate valve, and also method of its installation - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: gate valve body comprises a gate valve module, besides, the gate valve body has a hole for a gate valve, besides, the gate valve is arranged as capable of rotation around the axis, in which the gate valve body comprises a frame for retention with capability of rotating the gate valve that rotates around the axis, besides, the frame has the first end and the second end, and the axis is arranged near the first end of the frame. At the same time the gate valve module is installed as capable of displacement in the gate valve body between the first final position, in which the gate valve is pulled out of the gate valve module to the maximum, and the second final position, in which the gate valve is pulled into the gate valve module to the maximum, and the gate valve body has an element for acting at the gate valve module in direction from the second final position of the gate valve module to the first final position of the gate valve module, besides, the gate valve arranged as capable of rotation around the axis has a distal end at the end of the gate valve, facing outside from the second end of the gate valve module. At the same time this distal end protrudes beyond the frame limits; has in the plane perpendicular to the axis at least along the part of the length between the axis and the distal end, a profile meeting at the cone to the distal end, formed by the first side surface and the second side surface; and is arranged as capable of rotation between the first final position and the second final position, besides, in the first final position of the gate valve the first side surface of the gate valve is arranged at the angle to the direction, in which the module of the gate valve may move in the body, which is lower than 15°, and in the second final position of the gate valve the second side surface is arranged at the angle to the direction, in which the gate valve module may move in the body, which is lower than 15°. Besides, the gate valve body has an element for retention of the gate valve alternatively in its first final position and in its second final position. The element, when the gate valve is between its first and second final position, makes the gate valve move towards one of the first and second final position of the gate valve. The gate valve has the second distal end arranged between the axis and the second end of the frame, besides, the specified second distal end is formed by the third and fourth side surfaces. Besides, in the frame between the axis and the second end of the gate valve module there is a blocking gate valve, installed as capable of displacement in the frame, besides, the blocking gate valve has a cone end at the side facing outside from the second end of the gate valve module, besides, in the gate valve body there is an element acting at the blocking valve in direction of the gate valve so that the distal end of the blocking gate valve rests on the side surface of the gate valve, selected from the third and fourth side surface. The frame is equipped with a locking organ for locking of the blocking gate valve, besides, the locking organ is arranged as capable of displacement between the first blocking position, in which the blocking organ acts as a stop for the blocking valve, as a result of which displacement of the blocking gate valve in the frame in direction of the second end of the frame is limited. The distal end of the gate valve facing the second end of the frame may not pass by the distal end of the blocking gate valve, when the gate valve rotates around the axis; the second position of blocking removal, in which the blocking gate valve is unlocked, and the blocking gate valve is made with the possibility of displacement by such distance in direction of the second end of the frame, by which the distal end of the gate valve facing the second end of the frame may pass by the distal end of the blocking gate valve, when the gate valve rotates around the axis.

EFFECT: development of an improved gate valve body.

8 cl, 5 dwg

Description

The present invention relates to a valve body in which a valve is provided.

The valve bodies in which the valve is provided are well known. The valve is a latch and / or deadbolt, unlocked with a key. In both cases, the gate valve prevents rotation of the door, window or the like in the closed position. A bolt unlocked by a key is a bolt that can be locked with a key or the like, which is necessary to insert a valve into the housing or to remove it. Latches can be divided into latches, which allow locking and unlocking under the action of a force that exceeds a threshold value (roller latches), and latches, for which a tool such as a door handle is necessary. For clarity, hereinafter, the description will only concern the invention with respect to doors, but the invention is by no means limited to such an application. The same applies to the placement of the valve body. Depending on preference, it can easily be installed either in the frame or in the door. For clarity, the description will only relate to the device of the valve body of the door, however, the invention is in no way limited to this application.

An object of the present invention is to provide an improved valve body.

To this end, the present invention has developed a valve body in which a valve module is provided, wherein the valve body has an opening for the valve, wherein the valve is a valve that can rotate about an axis, and in which:

- the valve module includes a frame for holding rotatably with a valve that can rotate around an axis, the frame having a first end and a second end and an axis located near the first end of the frame,

- the valve module is mounted to move in the valve body between the first end position in which the valve is maximally extended from the valve module and the second end position in which the valve is maximally moved into the valve module,

- the valve body has an organ for influencing the valve module in the direction from the second end position of the valve module to the first end position of the valve module,

- a valve that can rotate around an axis,

- has a distal end at the end of the valve facing outward from the second end of the valve module, and this distal end extends beyond the frame;

- has in the plane perpendicular to the axis, at least along part of the length between the axis and the distal end, a profile that converges on a cone to the distal end formed by the first side surface and the second side surface;

- has the ability to rotate between the first end position and the second end position, and in the first end position of the valve, the first side surface of the valve is angled to the direction in which the module of the valve can move in the housing less than 15 °, and in the second final position of the valve the lateral surface is at an angle to the direction in which the valve module can move in the housing, less than 15 °, and

- the valve body has an organ for holding the valve alternatively in its first end position and in its second end position, and the organ, when the valve is between its first and second end position, causes the valve to move to one of the first and second end position of the valve.

The valve body forms an appropriate principle for the operation of the valve, which offers many possibilities, as will be explained in detail later in this application. Better than the roller shutter according to the prior art, the shutter can keep the door closed when the shutter latches into the plate of the door frame. Where the term door frame plate is used in this application, this also means a hole in the door frame plate. The second organ is, for example, a curved leaf spring that rests on the second distal end of the gate valve, which faces the second end of the gate module, the leaf spring being located between the second distal end of the gate and the second end of the gate module, and in the absence of the gate is convex in the axis direction gate valves. Alternatively or additionally, a curved leaf spring may be provided in the gate valve, which faces the second end of the gate module when the gate is between the first and second position of the gate, and the frame comprises a barrier, such as a pin, which is parallel to the axis of rotation of the gate, and the leaf spring can pass through the pin only when the leaf spring is bent. The body for influencing the valve module may be the same body as the body that holds the valve alternatively in the first final position of the valve and in the second final position of the valve. In practice, the gate valve module may have its own body, referred to herein as the second body, for holding the gate alternatively in the first end position and in the second end position of the gate.

An advantageous embodiment of the valve body is characterized in that the valve has a second distal end located between the axis and the second end of the frame, said second distal end being formed by third and fourth side surfaces, wherein a locking valve is provided in the frame between the axis and the second end of the valve module, which installed with the possibility of movement in the frame, and the locking valve has a tapered end on the side that faces outward from the second end of the valve module, and The valve body is provided with an element that acts on the lock valve in the direction of the valve so that the distal end of the lock valve rests on the lateral surface of the valve selected from the third and fourth side surface.

Thus, the valve can be effectively held in the first or second final position of the valve. The organ may be a partially wound wire spring, which on the one hand engages, for example, with a lock plate, and on the other hand with a locking bolt. According to one practical embodiment, a second body is provided in the frame for influencing the interlock valve in the direction of the valve.

According to a very interesting preferred embodiment, a locking member is provided for locking and unlocking the valve module.

Thus, depending on the needs, the valve can act as a latch (the valve module is not blocked) and as a bolt unlocked by a key (the valve module is blocked). To lock everyone can choose to block the movement of the valve module in the valve body and / or the rotation of the valve in the valve module.

According to a preferred embodiment, a locking member is provided in the frame for locking the locking bolt, the locking member being movable between

- the first, locking position, in which the locking body acts as a stop for the locking valve, as a result of which the movement of the locking valve in the frame towards the second end of the frame is limited and the distal end of the valve facing the second end of the frame cannot pass the distal end of the locking valve, when the valve rotates around an axis;

- a second unlocking position, in which the interlocking valve is unlocked and the interlocking valve is movable to such a distance in the direction of the second end of the frame that the distal end of the gateway facing the second end of the frame can extend the distal end of the interlocking valve when the valve rotates about an axis .

Thus, locking can be performed in an efficient manner.

An advantageous embodiment is characterized in that the locking member acts as an abutment for the interlocking valve, restricts the rotation of the valve around the axis in the first locking position by less than 10 ° and preferably less than 5 °.

The narrow angle makes it difficult or even impossible to overcome blocking by the action of a large force on the valve.

To reduce friction, especially in order to negate the force that should exert an influence on the locking member, when the force acts by pushing the valve into the valve body, it is preferred that the locking member moves between the first locking position and the second unlocking position based on bearings.

In such a case, it is preferable that a bearing is provided in the locking bolt at the end facing outward from the first end, which in the first locking position is supported by the locking member. A suitable bearing is, for example, a ball bearing.

Although the gate valve in the gate valve module can also act as a bolt unlocked by a key, it is preferable if the gate valve body further comprises a gate valve opened by a key and a gate release mechanism is provided in the gate body that is designed to bring the locking element after the gate valve unlocked by the key will be inserted at least partially into the valve body from the first locking position to the second unlocking position and vice versa.

In special situations, a person who wants to leave a room that is closed by a door, such as a prison cell in case of fire, may inadvertently prevent the centrally controlled deadbolt being unlocked by the key from unlocking, as the electromagnet that should unlock the deadbolt unlocked by the key may not have sufficient power, because the bolt opened by the key is pushed to the plate of the door frame, which includes the valve (or to the hole in the plate) by the prisoner. In the case of the valve body described above, in this case, the valve, and not the deadbolt opened by the key, is pushed to the plate of the door frame into which the valve enters. As a result, the bolt unlocked by the key can be retracted in the usual way. After the bolt, opened with a key, will be pulled far enough into the valve body, the difficulty in moving the blocking valve will disappear. Accordingly, the door can be opened because an external force acting on the valve (by the prisoner) causes the valve to rotate, as a result of which the surface of the valve, which is located essentially perpendicular to the force, is angled after rotation, causing the valve to be pushed into the valve body so that so that the door opens.

The invention also relates to a method for installing a valve body, which comprises a valve and a deadbolt, which can be opened with a key, in which:

- the valve body is installed in an element selected from i) a frame and ii) an organ that can rotate around an axis;

- the valve body is installed in the element in such a way that the valve and the bolt opened by a key along at least part of their length can be inserted into another element from elements i) and ii);

- the valve body is designed in such a way that if the bolt opened by the key is in the position protruding from the valve body in order to be able to block the movement of the element relative to another element, the valve is also in the position protruding from the valve body to block moving an element relative to another element,

- the shape and design of the recesses and recesses for inserting the valve and the bolt opened by the key is selected in such a way that when the force of another element acts on the valve body, the force acting on the valve is greater than the force acting on the bolt opened by the key, and the valve body has a locking member that restricts the insertion of the valve into the valve body until the bolt opened by the key is inserted to a large extent in the valve body.

This method, for example, is useful for prison cell doors, as discussed in this application. The phrase “the force acting on the bolt is greater than the force acting on the bolt opened by the key” also includes a situation in which an external force (for example, the force with which the arrestor acts) acts only on the bolt and does not act on the bolt opened by a key. This external force will mainly be essentially tangential to the axis of rotation of the element. An organ that can rotate around an axis is, for example, a lid, door or window.

The present invention will be illustrated below with the aid of the drawings, in which:

on each figa-d shows a part of the housing, which provides a rotating valve in its various positions;

figure 2 shows a cross section through a valve, which is suitable for the valve body according to the invention;

on figa-e schematically shows the various positions of the rotary valve when closing the door;

in each figa-h shows a part of the housing containing a rotary valve, and the rotary valve may be in a locked position; and

on figa-c shows an alternative valve body, which contains both the valve and the bolt, opened by a key.

On figa shows a part of the housing 1 of the valve containing the front plate 2 of the castle and the plate 3 of the castle, which is perpendicular to the front plate 2 of the castle. The front plate 2 of the lock has a through hole 4 (Fig. 1d), from which the valve 5 protrudes. This valve 5 is part of the valve module 6, which contains a frame, which in this case consists of two parallel strips 7, 8, which are interconnected and located on distance from each other. The valve module 6 has a first end 9, which is located near the hole 4, and a second end 10, which is located at a distance from the hole 4. The valve 5 is located at the first end 9 of the valve module 6 and can rotate around an axis that runs substantially parallel to the front plate 2 locks and 3 plate locks. In the present case, round cams 11 are provided in the valve 5, which are located in the recesses 12 at the first end 9 of the valve module 6. On fig.1b and 1C, the plate 8 of the frame is shown in the remote position, that is, at a distance from its actual position (as seen in figa and 1d), in order to show the recess 12 in the plate 8 and show a view of the leaf spring 13, whose function will be described later.

It should be noted that the valve module 6 is mounted to move in the valve body 1 between the first end position (in Fig. 1 left), in which the valve 5 is maximally extended from the valve body, and the second end position (in Fig. 1 on the right), which valve 5 is maximally pushed into the valve body. In the valve body 1, a first element 40 is provided, in this case a spiral push spring, which acts on the valve module 6 in the first end position. The first element 40 is not shown in the other figs. 1b-1d.

In order to be able to carry out elastic movement back and forth of the valve module, a guide device of the valve module is provided in the housing according to the invention, in this case in the form of four cams 70-73 (shown only in FIG. 1d).

Figure 2 shows a cross section through the valve 5 and the leaf spring 13 of figure 1. The valve 5 has a distal end 14 at the end of the valve, which faces outward from the second end 10 of the valve module 6, the distal end 14 protruding from the frame. In addition, the valve 5 has a profile that converges on a cone to the distal end 14 formed by the first side surface 15 and the second side surface 16. The valve 5 can rotate between the first end position and the second end position, that is, between the first end position of the valve 5 ( figa and 1b) and the second end position of the valve 5 (figs and 1d), and in the first end position, the first side surface 15 will be essentially perpendicular to the front plate 2 of the castle and in the second end position, the second side surface nce 16. Referring now to Figure 3 will be illustrated by the rotational movement around the axis that can be performed valve 5.

Figure 3 schematically shows a part of door D and profile P constituting a door frame, against which door D can be closed. A hole O is provided in the profile P, which acts as a door frame plate for entering the distal end 14 of the valve 5.

On figa you can see that the valve 5 is located in the second final position. When closing the door D, the force acts on the second side surface 16, as a result of which the bolt 5 rotates to its first end position. After it is in its first final position, the valve 5 acts as a regular latch and enters the valve body 1 under the action of force (Fig. 3c), and the valve module 6 thus moves from the first end position in the direction of the second end position. As soon as the valve 5 reaches the hole O, the valve module 6 again moves by force to its first end position and the valve 5 enters the hole O of the profile P. Since in this situation the valve 5 is in its final position or almost in its final position, the door D can be held without rumbling.

The leaf spring 13 is shaped to hold the valve 5 either in its first end position or in its second end position, and if the valve 5 is not in these positions, the leaf spring 13 causes the valve 5 to move to one of these positions. In principle, any element that can fulfill this function is suitable for the valve body according to the invention. The valve 5, shown in figure 1, has a second distal end 17 and a third and fourth side surface, respectively (see figure 2). In order to hold the valve in a specific end position, the leaf spring 13 rests either on the third side surface 18 or on the fourth side surface 19. When the force from the valve P acts from the profile P or, more precisely, from the edge of the opening of the door frame plate, which the valve enters, the lateral surface 18, 19, on which the leaf spring 13 rests, will push the leaf spring in and / or out, allowing the valve 5 to move to the other end position of the valve 5.

Figure 4 shows an alternative valve body 101 comprising a front lock plate 102 and a valve plate 103. The front lock plate 102 has an opening 104 from which the valve 105 protrudes. The valve 105 is part of the valve module 106 in the same manner as described for FIG. 1, and the valve module 106 comprises a frame that comprises flat parallel bars 107, 108, which are interconnected. The valve module 106 has a first end 109, which is located near the hole 104, and a second end 110, which is located at a distance from the hole 104. The valve 105 is located at the first end 109 of the valve module 106, all the same as in FIG.

To move the valve 105 to the first or second end position, a blocking valve 130 is provided in the valve module 106, having a tapered end 131 from the side facing outward from the second end 110 of the valve module 106 (as shown in FIGS. 4c, 4e, 4g, on which the plate 108 has been omitted in order to show the inside of the valve module 106). In the shown embodiment, cams 150 are provided in the locking valve 130, which are mounted to move in the valve module 106 by the guides 132 in the plates 107, 108. The wire spring 133 acts on the locking valve 130 in the direction of the first end 109 of the valve module 106. Thus, the combination of the wire spring 133 and the lock gate 130 plays the same role as the role played by the leaf spring 13 for the valve body 1.

According to a very interesting feature of the present invention, the valve 105 can act not only as a latch, but it can also function as a deadbolt, unlocked with a key. To this end, a locking member 134 is provided in the gate valve body 101 in the embodiment shown in FIG. 4, and more specifically, in the gate module 106. This locking member 134 may be in a first position in which the locking gate 130 is unlocked, in which the locking valve 130 as a result of the force acting on the valve 105 can move towards the second end 110 of the valve module 106. This situation is shown in figa-4C. Alternatively, the locking member 134 may also be in a second position in which the locking gate 130 is locked, and as a result of the force acting on the valve 105, the locking gate 130 cannot move toward the second end 110 of the valve module 106. This situation is shown in FIGS. 4f-4h. In this embodiment, the valve body according to the invention shown in FIG. 4, the locking member 134 is in the form of a bar with a rectangular cam 135. In the locked position, it engages with the semicircular cam 136 of the locking valve 130.

The locking element 134 can be moved from its first position to its second position (and vice versa) in a manner known per se, for example using a latch, key or electrically (using an electromagnet). 5 shows such a valve body 301 that can be used for a prison cell door.

The valve body 301 includes a front lock plate 302, in which a hole (not shown) for the valve 305 is provided, a lock plate 303, a valve module 306 comprising slats 307, 308, which comprise guides for the lock valve 330. The lock valve 330 is pushed to the first end the position of the wire spring 333 and can be fixed in this position by the locking body 334. All of these parts are essentially similar to the parts described above, and essentially work similarly to the parts described above. The valve body 301 further comprises a bolt 350 opened by a key, which may be in a first end position, in which a bolt 350 opened by a key protrudes as much as possible from the valve body 301, and in a second end position in which a bolt 350 opened by a key, maximally or almost as much as possible enters the valve body 301. The bolt 350, which is opened by a key, is a gate valve of the usual type and has a mainly and substantially rectangular cross section (parallel to the front lock plate 302) in the first position. The bolt 350, which is opened by a key, has a plate element 351, in which, in fact, a guide is provided. The movement of the deadbolt 350 opened by the key is related to the movement of the bolt module 306 in such a way that when the deadbolt 350 opened by the key is in its second end position, the bolt module 306 can freely move from its first end position to the second end position and vice versa. However, when the deadbolt 350, which is opened by the key, is in the first end position, the blocking valve 330 of the valve module 306 is blocked. In the shown embodiment, this locking of the gate valve module 306 occurs by locking the locking gate valve 330 of the locking member 334, which has a rectangular cam 335.

The bolt 350, which is opened by the key, and the locking body 334 are operatively connected with the L-shaped shoulder 335 and the lever 336.

The lever 336 can rotate around an axis that is perpendicular to the lock plate 303 at the end, which is located near the second end 310 of the valve module 306. At this second end 310, a half-wound wire spring 337 is provided in the gate valve module 306, which acts on the locking member 334 in the direction of the lever 336. Accordingly, the locking member 334 affects the lever. The L-shaped arm 335 can rotate about an axis 338 and has two shoulder portions 360 and 361. The shoulder portion 360 is slidably supported on the end 363 of the lever 336, which is located in the direction from the second end 310 of the gate valve module 306. In the shown embodiment, a guide slot 341 is provided in the shoulder portion 361. A cam 342 on the plate member 351 is located in the guide slot 341.

The valve body shown in FIG. 5 is capable of unlocking the bolt 350 opened by the key, and any lateral forces acting on the valve body 301 are absorbed by the valve 305 until the bolt 350 opened by the key is inserted (enough) deep into valve body 301. This operation will now be explained. Fig. 5a shows a valve body 301 in a position in which the bolt 350 opened by the key is in the first end position and the valve 305 is also in its first end position, which is locked by the locking element 334. The valve module could be moved against the force springs 340, but this is not possible because of the force that acts perpendicular to the valve 305. A force perpendicular to the valve 305 can cause it to rotate, but the locking body blocks the movement of the locking valve 330 to the second end of the 310 mode for 306 gate valves.

When the deadbolt 350, which is opened by the key, moves inward by any method known per se, such as electromagnetic (an electromagnet is not shown), the L-shaped arm 335 will rotate and the shoulder portion 360 will allow the distal portion 362 of the lever 336 to rotate as a result of the force of a half-wound wire spring, acting on the lever 336 through the locking body 334 (Fig.5b). Accordingly, the locking of the locking valve 330 is removed by the locking element 334.

Further, the lateral force acting on the valve 305 can cause the valve 305 to deviate, as a result of which the lateral force will no longer act perpendicular to the valve 305, but will act on its inclined surface. Therefore, the valve module 306 will move inward, and the chamber door can be opened.

It should be noted that when the camera is locked, deflecting the valve and pushing it inside the valve body 301 has no effect. The humeral portion 360 will not be rotated, and the bolt 350, opened by the key, will continue to block the chamber door. The importance of the valve 305 is not to keep the camera locked, but to prevent a situation where a prisoner who pushes the camera door violently in the event of a fire could act on the deadbolt 350, which is opened by the key, with a lateral force such that the electromagnet that controls the deadbolt 350 being unlocked with a key, not being so powerful, he could not have overcome such an external force, and this would not have made it impossible for a prisoner to leave the camera. Therefore, according to the invention, the valve body 301 is installed in such a way that the lateral force is absorbed by the (blocked) valve 305 and the camera leaves in this situation is guaranteed.

In order to reduce the friction of the locking element 370, ball bearings 334 may be provided.

Claims (8)

1. A valve body comprising a valve module, wherein the valve body has an opening for the valve, wherein the valve is rotatable about an axis in which
- the valve module comprises a frame for holding rotatably a valve rotating around an axis, the frame having a first end and a second end, and the axis is located near the first end of the frame,
- the valve module is installed with the possibility of movement in the valve body between the first end position in which the valve is maximally extended from the valve module and the second end position in which the valve is maximally moved into the valve module, and
- the valve body has an element for influencing the valve module in the direction from the second end position of the valve module to the first end position of the valve module,
- a valve made with the possibility of rotation around an axis,
- has a distal end at the end of the valve facing outward from the second end of the valve module, and this distal end extends beyond the frame;
- has in the plane perpendicular to the axis, at least along part of the length between the axis and the distal end, a profile converging on a cone to the distal end formed by the first side surface and the second side surface; and
- configured to rotate between the first end position and the second end position, wherein in the first end position of the valve, the first lateral surface of the valve is angled to a direction in which the valve module can move in the housing less than 15 ° and in the second end position the second side surface is located at an angle to the direction in which the valve module can move in the housing, less than 15 °, and
- the valve body has an element for holding the valve alternatively in its first end position and in its second end position, while the element, when the valve is between its first and second end position, causes the valve to move to one of the first and second end position of the valve, this
- the valve has a second distal end located between the axis and the second end of the frame, and said second distal end is formed by the third and fourth side surfaces, moreover, in the frame between the axis and the second end of the valve module is a blocking valve installed with the possibility of movement in the frame, and the blocking the valve has a tapered end on the side that is facing outward from the second end of the valve module, and in the valve body there is an element that affects the locking valve spigot in the direction of the valve so that the distal end of the locking valve rests on the side surface of the valve selected from the third and fourth side surface, while
- the frame is equipped with a locking body for locking the locking bolt, and the locking body is arranged to move between
a first locking position in which the locking member acts as an abutment for the locking valve, whereby the movement of the locking valve in the frame towards the second end of the frame is limited, and the distal end of the valve facing the second end of the frame cannot pass the distal end of the locking valve when the valve rotates around an axis;
- a second unlocking position in which the interlocking valve is unlocked and the interlocking valve is movable to such a distance in the direction of the second end of the frame that the distal end of the gateway facing the second end of the frame can extend the distal end of the interlocking valve when the valve rotates around axis. 2. The valve body according to claim 1, wherein a locking member is provided for locking and unlocking the valve module. 3. The valve body of claim 1, wherein the locking member, which acts as a stop for the locking valve, limits the rotation of the valve around the axis in the first locking position by less than 10 ° and preferably less than 5 °. 4. The valve body according to claim 1 or 3, wherein the locking member moving between the first locking position and the second unlocking position is supported by bearings. 5. The valve body according to claim 4, in which a bearing is located in the locking valve at the end facing outward from the first end, which rests on the locking member in the first locking position. 6. The valve body according to one of claims 1, 3 or 5, further comprising a deadbolt unlocked by a key, wherein a locking release mechanism is arranged in the valve body, adapted to bring a locking element after the deadbolt opened by the key is inserted, at least partially into the valve body from the first locking position, to the second unlocking position, and vice versa. 7. The valve body according to claim 4, further comprising a deadbolt unlocked by a key, wherein a lock release mechanism is arranged in the valve body, adapted to bring a locking element after the deadbolt opened by the key is inserted at least partially into the valve body from the first blocking position to the second blocking release position, and vice versa. 8. The method of installation of the valve body, which contains the valve and the bolt, opened with a key, in which
- the valve body is installed in an element selected from i) a frame and ii) an organ configured to rotate around an axis;
- the valve body is installed in the element in such a way that the valve and the bolt opened with a key along at least part of their length can be inserted into another element from elements i) and ii);
- the valve body is designed in such a way that if the deadbolt opened by the key is in the position protruding from the valve body in order to be able to block the movement of the element relative to another element, the valve is also in the position protruding from the valve body to block movement element relative to another element,
- the shape and design of the recess and recesses for inserting the valve and the bolt opened by the key is selected so that when the transverse force of another element acts on the valve body, the force is perceived by the valve so that the force acting on the valve is greater than the force, acting on the bolt, which is opened by the key, and the valve body has a locking body that restricts the insertion of the valve into the valve body until the bolt opened by the key is inserted to a large extent in the valve body.

Images