RU93414U1 - WELL COVER (OPTIONS) - Google Patents

Abstract

 1. The well cover, comprising a cover plate with a hole, a support sleeve fixed to the plate with a hole through which a locking screw with a thread at the bottom passes, locking levers, each of which is pivotally connected to the cover plate or a support sleeve rigidly connected to it, and also pivotally connected to the rod, the other end of which is pivotally connected to a running nut screwed onto the screw with the ability to move on the screw when it rotates, the upper end of the screw contains an annular protrusion, a larger diameter socket is made in the hole of the support sleeve compared with the diameter of the hole, an annular protrusion of the screw is located in the socket, the lower surface of the annular protrusion of the screw rests on the surface of the socket in the support sleeve so that the screw can rotate around its longitudinal axis and can deviate from the geometric axis of the support sleeve, characterized in that the supporting sleeve has a larger annular protrusion in the upper part than the hole in the plate, the supporting sleeve is inserted into the plate opening so that the lower surface of the annular protrusion of the sleeve leans on a plate from the top side of a plate. ! 2. The well cover according to claim 1, characterized in that the size and shape of the hole in the plate coincide in size and shape with the cross section of the support sleeve below the annular protrusion. ! 3. The well cover according to claim 1, characterized in that the locking levers are located in planes passing through the axis of the support sleeve. ! 4. The well cover according to claim 1, characterized in that the lower surface of the annular protrusion of the locking screw is in the form of a spherical segment, and the surface of the socket of the sleeve is in the form of a truncated cone, facing a large

Description

This utility model relates to the infrastructure of underground communications, in particular to underground structures, such as manholes, manholes, manholes and other devices, which are mainly used for the installation of communications, cable lines and their inspection.

A well cover of a well with a locking device is known, comprising a plate, a support sleeve pivotally connected to the plate to rotate the latter in a vertical plane, the upper end of the locking screw is fixed in the support sleeve, locking levers pivotally connected to the plate or with the support sleeve and with one end of the rod, the other end of the rod is pivotally connected to a spindle nut screwed onto the lower end of the locking screw, the locking screw is hollow and provided with a means rigidly connected to it located at the bottom for inserting a key, echivayuschego rotation of the locking screw, and a key engaging with a screw [RF patent №2358065, 27.09.2007].

A disadvantage of the known cover is that the hinge connection of the support sleeve with the plate is a weak power element and can be easily destroyed by external force acting on the head of the locking screw. The only version of the hinge connection of the support sleeve with the plate, proposed in the patent of the Russian Federation No. 2358065, consists in fixing on the bottom of the plate two racks with short half shafts that enter from the opposite sides into the holes in the walls of the support sleeve. The vertical force acting on the head of the locking screw leads to deformation downward with simultaneous divergence in the opposite sides of the struts and the exit or breaking out of the axle shafts of the articulated support from the holes of the sleeve, which leads to the separation of the locking mechanism from the plate.

A disadvantage of the known cover is also that the means for engagement with the screw rotation key is located at the lower end of the locking screw. This makes visual control over the coincidence of the key impossible with this tool and, in practice, significantly increases the labor costs for the operation of combining the key and the tool on the locking screw or does not allow it to be performed at all.

Closest to the proposed one is a well cover with a locking device, containing a plate with a key hole, a support sleeve fixed to the bottom side of the plate, through which the screw of the cover locking mechanism passes, the upper end of the screw has an annular protrusion, a socket is located above the hole of the sleeve, and an annular protrusion of the screw is located in this slot, the screw can rotate around the longitudinal axis of the support sleeve and can deviate from the geometric axis of the support sleeve in any direction, the cover plate has Nirni connection with the locking mechanism locking the levers, each of which is pivotally connected with the rod whose other end is pivotally connected with the spindle nut disposed on the screw for movement along the screw as it rotates, the lock levers are arranged symmetrically around the circumference of the screw. In this case, the working surface of the nest is made spherical, and the surface of the annular protrusion of the screw resting on it is rounded [Patent for the utility model of the Russian Federation No. 88034, July 24, 2009].

A disadvantage of the known lid is that the fastening of the support sleeve on the underside of the plate is not mechanically strong enough to peel off, as a result of a blow to the locking screw or force pressing it through an opening in the plate, the fastening (for example, a weld or screw-clamp elements fastening), the separation of the support sleeve from the plate, the failure of the locking device and unauthorized entry into the well.

A disadvantage of the known cover is also the fact that, as shown by our experimental studies, the execution of the working surface of the socket is spherical, and rubbing against this surface of the annular protrusion of the screw is rounded, not optimal from a technological and operational point of view. This is due to the fact that in this conjugation, when the screw axis deviates from the axis of the support sleeve, the contact of the mating surfaces ceases to be continuous, the local load on the rubbing surfaces increases, material is destroyed in the area of the contact spot, fracture products occur, which leads to additional substantial wear of all rubbing surfaces, to clean the node requires disassembly.

A disadvantage of the known cover is also a decrease in the reliability of its attachment to the hatch body due to a decrease in the force required to tear off the cover plate from the hatch body of the well in which it is installed at a high height of the neck of the well. The reason for this is that this force is inversely proportional to the height of the neck of the well (the distance from the plate to the lower edge of the neck, where the points of contact between the levers and the well are located), since the greater the depth of the neck, the greater are the moments of forces acting on the locking levers during separation covers from the well.

A disadvantage of the known cover is also that in the place of contact of the locking levers with the lower edge of the neck of the well in concrete, contact stresses occur that destroy the edge, which reduces the reliability of the pressure of the levers against the wall of the well.

A disadvantage of the known cover is also the fact that the scope of covers with symmetrically arranged three or more levers is limited to wells with an average neck height (for example, in the range of 330-450 mm) or with a large distance between the walls. This is due to the fact that the wells in the plan have the shape of a rectangle or an elongated regular polygon, for example, an octagon, and in most wells, the distance between the side walls in the neck area is comparable to or less than the distance between the ends of the levers in the open position. In such wells, when the levers are extended, one of them rests with its end against the wall of the well, without reaching the lower edge of the neck, the lead screw deviates to the maximum angle (which allows the design of the joint of the screw head and support sleeve), and one or two other levers hang without touching the neck. There are wells with additional designs in the neck, in which one of the levers can rest, and one or two others hang. In some wells, cables run along the side wall almost close to the upper ceiling and one of the levers can press against the cable and damage it when the locking screw is tightened further. All this leads to unreliable fastening of the cover with a locking device.

A disadvantage of the known cover is also the low secrecy of the device, due only to the shape of the screw head, shown as the only one in the form of two eccentrically arranged cylinders.

The objective of the claimed utility model is to increase the reliability of the protection of underground utilities from unauthorized entry into the inspection well of underground utilities by tearing the cover off the hatch by strengthening the connection of the locking mechanism with the cover plate, as well as the locking mechanism with the well structures.

The problem is solved in that in the lid of the well, containing the lid plate with a hole, a support sleeve with a hole fixed to the plate, through which a locking screw with a thread in the lower part passes, locking levers, each of which is pivotally connected to the cover plate or rigidly connected a support sleeve, and also pivotally connected to a rod, the other end of which is pivotally connected to a driving nut screwed onto the screw with the ability to move around the screw when it rotates, the upper end of the screw contains an annular protrusion, in the hole of the first sleeve, a nest of a larger diameter is made as compared with the diameter of the hole, an annular protrusion of the screw is located in the nest, the lower surface of the annular protrusion of the screw is supported on the surface of the nest in the support sleeve so that the screw can rotate around its longitudinal axis and can deviate from the geometric axis of the support bushings, the support sleeve has a larger annular protrusion in the upper part than the hole in the plate, the support sleeve is inserted into the hole of the plate so that the lower surface of the ring Sleeve protrusion rests on the plate with the upper side of the plate.

The problem is also solved by the fact that the size and shape of the holes in the plate coincide in size and shape with the cross section of the support sleeve below the annular protrusion.

The problem is also solved by the fact that the locking levers are located in planes passing through the axis of the support sleeve.

The problem is also solved by the fact that the lower surface of the annular protrusion of the locking screw has the shape of a spherical segment, and the surface of the socket of the sleeve has the shape of a truncated cone, with the large base facing up, the diameter of the spherical segment is smaller than the large base of the truncated cone and larger than the smaller base of the truncated cone.

The problem is also solved by the fact that the locking device contains three locking levers, the nodes of the hinged connection of which with the running nut are located at the vertices of an isosceles triangle, the ratio of the sides and the base of which lies in the range from 1.5: 1 to 3: 1.

The problem is also solved by the fact that the locking device contains three locking levers, the nodes of the hinged connection of which with the running nut are located at the vertices of an isosceles triangle, while the cross-section of the locking lever at the apex of an isosceles triangle in which its sides intersect is larger than the cross-section of the locking levers at the vertices isosceles triangle, in which its sides and base intersect, 1.5-2 times.

The problem is also solved by the fact that the locking device contains 4 locking levers, the nodes of the articulation of which are located at the vertices of the rectangle, the ratio of the sides of which lies in the range from 1.5: 1 to 3: 1.

The problem is also solved by the fact that the levers are made of adjustable length, hooks are made at the lower ends of the levers, directed from the axis of the locking screw so that in the working position of the levers the upper surface of the hook forms an acute angle with the lower surface of the overlap, and the end of the hook is in contact with the lower surface overlap.

The problem is also solved by the fact that the outer side surface of the head of the locking screw and the inner side surface of the supporting sleeve facing each other are made with an individual turn-key profile for turning the screw.

The problem is solved in that in the lid of the well, containing the lid plate with a hole, a support sleeve with a hole fixed to the plate, through which a locking screw with a thread in the lower part passes, locking levers, each of which is pivotally connected to the cover plate or rigidly connected a support sleeve, and also pivotally connected to a rod, the other end of which is pivotally connected to a driving nut screwed onto the screw with the ability to move around the screw when it rotates, the upper end of the screw contains an annular protrusion, in the hole of the first sleeve, a nest of a larger diameter is made as compared with the diameter of the hole, an annular protrusion of the screw is located in the nest, the lower surface of the annular protrusion of the screw is supported on the surface of the nest in the support sleeve so that the screw can rotate around its longitudinal axis and can deviate from the geometric axis of the support bushings, the dimensions of the holes in the plate on the upper surface of the plate are larger than on the lower surface of the plate, the dimensions of the upper part of the body of the supporting sleeve are larger than the lower part, the body of the supporting sleeve and disposed within the plate hole and rests on the internal surface of the hole in the plate.

The problem is also solved by the fact that the hole in the plate has the shape of a truncated cone with a large base on the upper surface of the plate and a smaller base on the lower surface of the plate, the upper part of the support sleeve located in the dimensions of the plate has the shape of a truncated cone with a large base on top and a smaller base from below, the truncated cone of the support sleeve in shape and size coincides with the truncated cone of the hole in the plate.

The problem is also solved by the fact that the locking levers are located in planes passing through the axis of the support sleeve.

The problem is also solved by the fact that the lower surface of the annular protrusion of the locking screw has the shape of a spherical segment, and the surface of the socket of the sleeve has the shape of a truncated cone, facing up with a large base, the diameter of the spherical segment is smaller than the large base of the trimmed cone and larger than the smaller base of the trimmed cone.

The problem is also solved by the fact that the locking device contains three locking levers, the nodes of the hinged connection of which with the running nut are located at the vertices of an isosceles triangle, the ratio of the sides and the base of which lies in the range from 1.5: 1 to 3: 1.

The problem is also solved by the fact that the locking device contains three locking levers, the nodes of the hinged connection of which with the running nut are located at the vertices of an isosceles triangle, while the cross-section of the locking lever at the apex of an isosceles triangle in which its sides intersect is larger than the cross-section of the locking levers at the vertices isosceles triangle, in which its sides and base intersect, 1.5-2 times.

The problem is also solved by the fact that the locking device contains 4 locking levers, the nodes of the articulation of which are located at the vertices of the rectangle, the ratio of the sides of which lies in the range from 1.5: 1 to 3: 1.

The problem is also solved by the fact that the levers are made of adjustable length, hooks are made at the lower ends of the levers, directed from the axis of the locking screw so that in the working position of the levers the upper surface of the hook forms an acute angle with the lower surface of the overlap, and the end of the hook is in contact with the lower surface overlap.

The problem is also solved by the fact that the outer side surface of the head of the locking screw and the inner side surface of the supporting sleeve facing each other are made with an individual turn-key profile for turning the screw.

The problem is solved in that in the lid of the well containing the plate of the lid with a hole, a support sleeve is fixed in the plate with a hole through which a locking screw with a thread in the lower part passes, locking levers, each of which is pivotally connected to the cover plate or rigidly connected a support sleeve, and also pivotally connected to a rod, the other end of which is pivotally connected to a driving nut screwed onto the screw with the ability to move along the screw when it rotates, the upper end of the screw contains an annular protrusion, in the supporting sleeve on a hole is made in the hole, in which an annular projection of the screw is located, the lower surface of the annular projection of the screw rests on the surface of the socket in the support sleeve so that the screw can rotate around its longitudinal axis and can deviate from the geometric axis of the support sleeve, a thread is made in the plate hole , a thread is made on the outer surface of the support sleeve, the sleeve is screwed into the hole in the plate with its threaded portion.

The problem is solved in that in the lid of the well the support sleeve is fixed from unscrewing.

The problem is also solved by the fact that the locking levers are located in planes passing through the axis of the support sleeve.

The problem is also solved by the fact that the lower surface of the annular protrusion of the locking screw has the shape of a spherical segment, and the surface of the socket of the sleeve has the shape of a truncated cone, with the large base facing up, the diameter of the spherical segment is smaller than the large base of the truncated cone and larger than the smaller base of the truncated cone.

The problem is also solved by the fact that the locking device contains three locking levers, the nodes of the hinged connection of which with the running nut are located at the vertices of an isosceles triangle, the ratio of the sides and the base of which lies in the range from 1.5: 1 to 3: 1.

The problem is also solved by the fact that the locking device contains three locking levers, the nodes of the hinged connection of which with the running nut are located at the vertices of an isosceles triangle, while the cross-section of the locking lever at the apex of an isosceles triangle in which its sides intersect is larger than the cross-section of the locking levers at the vertices isosceles triangle, in which its sides and base intersect, 1.5-2 times.

The problem is also solved by the fact that the locking device contains 4 locking levers, the nodes of the articulation of which are located at the vertices of the rectangle, the ratio of the sides of which lies in the range from 1.5: 1 to 3: 1.

The problem is also solved by the fact that the levers are made of adjustable length, hooks are made at the lower ends of the levers, directed from the axis of the locking screw so that in the working position of the levers the upper surface of the hook forms an acute angle with the lower surface of the overlap, and the end of the hook is in contact with the lower surface overlap.

The problem is also solved by the fact that the outer side surface of the head of the locking screw and the inner side surface of the supporting sleeve facing each other are made with individual profile surfaces on a turn-key basis for turning the screw.

The essence of the utility model is illustrated Fig.1-3.

Figure 1 shows a variant of the well cover, in which the support sleeve has an annular protrusion in the upper part, resting on the plate from the upper side of the plate.

Figure 2 shows a variant of the well cover with a support sleeve fixed inside the plate, in which the hole and the upper part of the sleeve body are in the form of a truncated cone with a large base at the top and a smaller base at the bottom.

Figure 3 shows the well cover having levers with extensions and hooks.

The following notation is used:

1 - plate;

2 - supporting sleeve;

3 - locking screw;

4 - locking lever;

5 - thrust;

6 - a running nut;

7 - hatch housing;

8 - overlap of the well;

9 - the body of the support sleeve;

10 - annular protrusion of the locking screw with a spherical lower surface of the protrusion;

11 - socket supporting sleeve with a conical surface;

12 - a key to turn the locking screw;

13 - the upper part of the support sleeve;

14 - extension of the locking lever;

15 - hook;

16 - lower surface of the overlap;

The well cover according to embodiment 1 (FIG. 1), placed in the hatch body 7, comprises a plate 1 with an opening for a support sleeve 2, a support sleeve 2 with an opening, the body 9 of which has an annular projection in the upper part 13 larger than the hole in the plate 1, the support sleeve 2 is inserted into the hole of the plate 1 so that the lower surface of the annular protrusion of the sleeve 2 rests on the plate 1 from the upper side of the plate. The locking screw 3 passes through the hole of the supporting sleeve 2, the locking levers 4, each of which with a rod 5 is pivotally connected to the spindle nut 6 screwed onto the locking screw 3, and pivotally connected to the supporting sleeve 2. When the locking screw 3 is turned with a key 12, the annular protrusion 10 the locking screw 3 with a spherical lower surface rests on the conical surface of the socket 11 of the supporting sleeve and, rotating, moves the lead nut 6. When moving the lead nut 6, connected through rods 5 with locking levers 4, the levers 4 are pressed against the lower surface 16 hinge 8, on the upper surface of which the hatch housing 7 is mounted and fixed. The levers can be made of adjustable length using extension cords 14, at the lower ends of which hooks 15 are made.

The well cover according to option 2 (FIG. 2), placed in the hatch housing 7, comprises a plate 1 with an opening for a support sleeve, a support sleeve 2 with an opening, the dimensions of the hole in the plate 1 on the upper surface of the plate are larger than on the lower surface of the plate. The housing 9 of the support sleeve 2 is larger in the upper part 13 than in the lower part, located inside the hole of the plate 1 and rests on the inner surface of the hole in the plate 1. The locking screw 3 passes through the hole of the supporting sleeve 2, locking levers 4, each of which the rod 5 is pivotally connected to the spindle nut 6 screwed on the locking screw 3, and pivotally connected to the supporting sleeve 2. When the locking screw 3 is turned with a key 12, the annular protrusion 10 of the locking screw 3 with a spherical lower surface rests on the conical surface of the support socket 11 of the sleeve and, rotating, moves the driving nut 6. When moving the driving nut 6, connected through rods 5 with locking levers 4, the levers 4 are pressed against the lower surface 16 of the overlap 8, on the upper surface of which the hatch housing 7 is mounted and fixed. The levers can be made of adjustable length using extensions 14, at the lower ends of which hooks 15 are made.

The well cover according to embodiment 3, placed in the hatch housing 7, comprises a plate 1 with an opening for the support sleeve, an internal thread is made in the hole of the plate 1, a support sleeve 2 with an opening, a thread is made on the outer surface of the housing 9 of the support sleeve 2 in its upper part 13 , the sleeve is screwed into the hole with its threaded part. The locking screw 3 passes through the hole of the supporting sleeve 2, the locking levers 4, each of which with a rod 5 is pivotally connected to the spindle nut 6 screwed onto the locking screw 3, and pivotally connected to the supporting sleeve 2. When the locking screw 3 is turned with a key 12, the annular protrusion 10 the locking screw 3 with a spherical lower surface rests on the conical surface of the socket 11 of the supporting sleeve and, rotating, moves the lead nut 6. When moving the lead nut 6, connected through rods 5 with locking levers 4, the levers 4 are pressed against the lower surface 16 hinge 8, on the upper surface of which the hatch housing 7 is mounted and fixed. The levers can be made of adjustable length using extension cords 14, at the lower ends of which hooks 15 are made.

The proposed well cover (options 1-3) works as follows.

Enter the key 12 (figure 1) with the profile surfaces through the profile hole of the support sleeve 2 and then until it engages with the profile surface of the head of the locking screw 3. Turn the key to the levers 4 to the axis of the locking screw 3 so that they can be inserted into the neck of the well . Lower the plate 1 of the cover on the body 7 of the manhole. Turn the locking screw 3 in the corresponding direction and thereby move the spindle nut 6 up. In this case, the rods 5 move the locking levers 4 to the sides until they come into contact with the lower edge of the neck of the well. In the case of a misaligned location of the cover and the well or in the case of a difference in the heights of the elements of the well or the presence of additional elements inside the well after touching the elements of the well with one of the levers, the locking screw 3 deviates from the axis of the supporting sleeve 2 with a turn of the annular protrusion of the locking screw with a spherical lower surface 10 along the conical the surface of the socket 11 of the supporting sleeve until the remaining levers come into contact with the overlap 8 of the well, that is, the levers are self-installing. As a result, all locking levers 4 are in contact with the elements of the well. Next, tighten the locking screw 3 with the maximum allowable torque (for example, indicated in the instructions), create the necessary force to press the cover to the hatch body 7.

For wells with a neck height greater than, for example, half of its diameter, type 14 extension cords with hooks 15 are used, connected to locking levers 4 (Fig. 3). Before installing the cover, mark the approximate contact points of the hooks 15 with the overlap of the 8 wells, measure the distance from the center of the cover to the estimated contact points of the hooks with the overlap of the well, based on these measurements, adjust the total length of each lever 4 with the extension 14. Enter the key 12 with the profile surfaces through the profile the hole of the support sleeve and then until it engages with the profile surface of the head of the locking screw 3. Turn the key to the levers 4 to the axis of the locking screw so that they can be inserted into the neck of the well. Lower the cover plate 1 onto the hatch body 7. The cover is installed so that the hooks 15 are located opposite the places of subsequent contact with the surface of the floor 16. Rotate the locking screw 3 using a key 12 to move the levers to the stop of the hooks in the lower surface 16 of the floor 8. At the same time, errors of preliminary installation of the total length of the levers 4 with extensions 14 are compensated when the ends of the hooks are self-installing due to the displacement of the actual points of their contact with the lower surface 16 of the overlap 8 from the originally measured points. Next, tighten the locking screw 3 with the maximum allowable torque (for example, indicated in the instructions), thereby creating the necessary force to press the cover to the well.

In the proposed design of the locking mechanism of the cover, the lower surface of the annular protrusion of the locking screw 3 has the shape of a spherical segment, and the surface of the socket 11 of the sleeve has the shape of a truncated cone facing up with a large base, and the diameter of the spherical segment is smaller than the large base of the truncated cone and larger than the smaller base of the truncated cone, the rotation of the locking screw in the process of locking the lid and the self-installation of levers and the locking mechanism as a whole, the spherical surface of the protrusion protrudes the screw 3 on the conical surface of the socket 11 of the supporting sleeve with a uniform load along the entire contact line, which ensures minimal abrasion of the rubbing surfaces.

When attempting to break the cover by impacts or other limited force acting on the screw head 3, the load is transferred through the upper part of the support sleeve 2 to the plate 1. Moreover, the strength of the locking mechanism and its resistance to failure is determined by the relatively low tensile strength of the weld or bolt connection, and the shear strength of thick monolithic parts made of steel or cast iron sleeve or cover, which is incommensurably greater.

Prevention of unauthorized entry into the well is also due to the individual profile of the key 12, the corresponding profile of the hole in the support sleeve 2 and the profile of the head of the locking screw 3. The end profile of the head of the locking screw 3 is hidden from direct access by the profile of the upper part of the hole in the sleeve corresponding to the profile of the key, which prevents the locking screw from being turned off by an abnormal tool, and the diameter and shape of the head of the locking screw 3, its protrusions and grooves (outer profile of the head of the locking screw 3) and inside The early profile of the inner side surface of the upper part of the hole of the support sleeve is made of individual shape and size for each product or batch of products, which in combination provides increased secrecy.

The use, according to the proposed utility model, of three levers, the nodes of the hinged connection of which with the running nut are located at the vertices of an isosceles triangle, the ratio of the sides and the base of which lies in the range from 1.5: 1 to 3: 1, with the thickness ratios proposed in the utility model levers, or four levers, the hinge nodes of which are located at the vertices of a rectangle, the ratio of the sides of which lies in the range from 1.5: 1 to 3: 1, provides reliable locking in those many well designs s, in which the distance between the side walls in the neck area is commensurate with or less than the distance between the ends of the levers in the working open position, or there are additional structures in the neck, or cables run along the side wall close to the upper ceiling, since it allows all the levers to stop with proper force , while none of them will touch the additional structures, cables.

Improving the reliability of locking wells is also ensured by the implementation of levers of adjustable length, with hooks 15 at the lower ends of the extension arms 14 of the levers directed from the axis of the locking screw 3 so that in the working position of the levers the upper surface of the hook forms an acute angle with the lower surface of the overlap 16, and the end of the hook in contact with the lower surface of the floor 16. Thus, additional resistance to vertical force and bending moment acting on the levers when pulling the plate is realized, and raschaetsya opportunity slipping levers from the well cap.

Claims (27)

1. The well cover, comprising a cover plate with a hole, a support sleeve fixed to the plate with a hole through which a locking screw with a thread at the bottom passes, locking levers, each of which is pivotally connected to the cover plate or a support sleeve rigidly connected to it, and also pivotally connected to the rod, the other end of which is pivotally connected to a running nut screwed onto the screw with the ability to move on the screw when it rotates, the upper end of the screw contains an annular protrusion, a larger diameter socket is made in the hole of the support sleeve compared with the diameter of the hole, an annular protrusion of the screw is located in the socket, the lower surface of the annular protrusion of the screw rests on the surface of the socket in the support sleeve so that the screw can rotate around its longitudinal axis and can deviate from the geometric axis of the support sleeve, characterized in that the supporting sleeve has a larger annular protrusion in the upper part than the hole in the plate, the supporting sleeve is inserted into the plate opening so that the lower surface of the annular protrusion of the sleeve leans on a plate from the top side of a plate. 2. The well cover according to claim 1, characterized in that the size and shape of the hole in the plate coincide in size and shape with the cross section of the support sleeve below the annular protrusion. 3. The well cover according to claim 1, characterized in that the locking levers are located in planes passing through the axis of the support sleeve. 4. The well cover according to claim 1, characterized in that the lower surface of the annular protrusion of the locking screw has the shape of a spherical segment, and the surface of the socket of the sleeve is the shape of a truncated cone facing up with a large base, the diameter of the spherical segment is smaller than the large base of the truncated cone and larger than the smaller base truncated cone. 5. The well cover according to claim 1, characterized in that the locking device contains three locking levers, the nodes of the articulated connection of which with the driving nut are located at the vertices of an isosceles triangle, the ratio of the sides and the base of which lies in the range from 1.5: 1 to 3 :one. 6. The well cover according to claim 1, characterized in that the locking device contains three locking levers, the nodes of the hinged connection of which with the running nut are located at the vertices of an isosceles triangle, while the cross-section of the locking lever at the top of an isosceles triangle in which its sides intersect, more than the cross section of the locking levers at the vertices of an isosceles triangle, in which its sides and base intersect, by 1.5-2 times. 7. The well cover according to claim 1, characterized in that the locking device comprises 4 locking levers, the articulation joints of which are located at the vertices of the rectangle, the ratio of the sides of which lies in the range from 1.5: 1 to 3: 1. 8. The well cover according to claim 1, characterized in that the levers are of adjustable length, hooks are made at the lower ends of the levers, directed from the axis of the locking screw so that in the working position of the levers the upper surface of the hook forms an acute angle with the lower surface of the overlap, and the end of the hook is in contact with the lower surface of the overlap. 9. The well cover according to claim 1, characterized in that the outer side surface of the head of the locking screw and the inner side surface of the supporting sleeve facing each other are made with an individual turn-key profile for turning the screw. 10. A well cover, comprising a cover plate with a hole, a support sleeve fixed to the plate with a hole through which a locking screw with a thread at the bottom passes, locking levers, each of which is pivotally connected to the cover plate or a support sleeve rigidly connected to it, and also pivotally connected to the rod, the other end of which is pivotally connected to a running nut screwed onto the screw with the ability to move on the screw when it rotates, the upper end of the screw contains an annular protrusion, a larger diameter socket is made in the hole of the support sleeve compared to the diameter of the hole, an annular protrusion of the screw is located in the socket, the lower surface of the annular protrusion of the screw rests on the surface of the socket in the support sleeve so that the screw can rotate around its longitudinal axis and can deviate from the geometric axis of the support sleeve, characterized in that the dimensions of the holes in the plate on the upper surface of the plate are larger than on the lower surface of the plate, the dimensions of the upper part of the body of the supporting sleeve are larger than the lower part, the body of the supporting sleeve is located inside three holes of the plate and rests on the inner surface of the hole in the plate. 11. The well cover of claim 10, wherein the hole in the plate has the shape of a truncated cone with a large base on the upper surface of the plate and a smaller base on the lower surface of the plate, the upper part of the support sleeve located in the dimensions of the plate has the shape of a truncated cone with a large base from above and a smaller base from below, the truncated cone of the support sleeve in shape and size coincides with the truncated cone of the hole in the plate. 12. The well cover of claim 10, characterized in that the locking levers are located in planes passing through the axis of the support sleeve. 13. The well cover according to claim 10, characterized in that the lower surface of the annular protrusion of the locking screw has the shape of a spherical segment, and the surface of the socket above the bore of the sleeve has the shape of a truncated cone, with the large base facing up, the diameter of the spherical segment is smaller than the large base of the truncated cone and more smaller base truncated cone. 14. The well cover of claim 10, characterized in that the locking device comprises three locking levers, the nodes of the articulated connection of which with the running nut are located at the vertices of an isosceles triangle, the ratio of the sides and the base of which lies in the range from 1.5: 1 to 3 :one. 15. The well cover according to claim 10, characterized in that the locking device comprises three locking levers, the nodes of the articulated connection of which with the running nut are located at the vertices of an isosceles triangle, while the cross-section of the locking lever at the top of an isosceles triangle in which its sides intersect, more than the cross section of the locking levers at the vertices of an isosceles triangle, in which its sides and base intersect, by 1.5-2 times. 16. The well cover according to claim 10, characterized in that the locking device comprises 4 locking levers, the articulation joints of which are located at the vertices of the rectangle, the ratio of the sides of which lies in the range from 1.5: 1 to 3: 1. 17. The well cover of claim 10, characterized in that the levers are of adjustable length, hooks are made at the lower ends of the levers, directed from the axis of the locking screw so that in the working position of the levers the upper surface of the hook forms an acute angle with the lower surface of the overlap, and the end of the hook is in contact with the lower surface of the overlap. 18. The well cover of claim 10, characterized in that the outer side surface of the head of the locking screw and the inner side surface of the supporting sleeve facing each other are made with an individual turn-key profile for turning the screw. 19. A well cover comprising a cover plate with a hole, a support sleeve fixed to the plate with a hole through which a locking screw with a thread in the lower part passes, locking levers, each of which is pivotally connected to the cover plate or a support sleeve rigidly connected to it, and also pivotally connected to the rod, the other end of which is pivotally connected to a running nut screwed onto the screw with the ability to move on the screw when it rotates, the upper end of the screw contains an annular protrusion, a larger diameter socket is made in the hole of the support sleeve compared to the diameter of the hole, an annular protrusion of the screw is located in the socket, the lower surface of the annular protrusion of the screw rests on the surface of the socket in the support sleeve so that the screw can rotate around its longitudinal axis and can deviate from the geometric axis of the support sleeve, characterized in that a thread is made in the plate hole, a thread is made on the outer surface of the support sleeve, the sleeve is screwed into the hole with its threaded part. 20. The well cover according to claim 19, characterized in that the support sleeve is fixed from unscrewing. 21. The well cover according to claim 19, characterized in that the locking levers are located in planes passing through the axis of the support sleeve. 22. The well cover according to claim 19, characterized in that the lower surface of the annular protrusion (head) of the locking screw has the shape of a spherical segment, and the surface of the socket above the bore of the sleeve has the shape of a truncated cone facing up with a large base, the diameter of the spherical segment is smaller than the large base of the truncated cone and larger smaller base of the truncated cone. 23. The well cover according to claim 19, characterized in that the locking device contains three locking levers, the nodes of the articulated connection of which with the driving nut are located at the vertices of an isosceles triangle, the ratio of the sides and the base of which lies in the range from 1.5: 1 to 3 :one. 24. The well cover according to claim 19, characterized in that the locking device contains three locking levers, the nodes of the hinged connection of which with the running nut are located at the vertices of an isosceles triangle, while the cross section of the locking lever at the top of an isosceles triangle in which its sides intersect, more than the cross section of the locking levers at the vertices of an isosceles triangle, in which its sides and base intersect, by 1.5-2 times. 25. The well cover according to claim 19, characterized in that the locking device comprises 4 locking levers, the articulation joints of which are located at the vertices of the rectangle, the ratio of the sides of which lies in the range from 1.5: 1 to 3: 1. 26. The well cover according to claim 19, characterized in that the levers are of adjustable length, hooks are made at the lower ends of the levers, directed from the axis of the locking screw so that in the working position of the levers the upper surface of the hook forms an acute angle with the lower surface of the overlap, and the end of the hook is in contact with the lower surface of the overlap. 27. The well cover according to claim 19, characterized in that the outer side surface of the head of the locking screw and the inner side surface of the supporting sleeve facing each other are made with an individual turn-key profile for turning the screw.