RU2668686C1 - Collapsible divider of multiple use for fixing temporary walls of excavations - Google Patents

Abstract

FIELD: construction.SUBSTANCE: invention relates to the construction of subways, tunnels and other structures. Collapsible divider of multiple use for fixing temporary walls of excavations includes a body consisting of interconnected central and lateral sections, and a support unit for fixing the divider to the temporary wall of the excavation on the longitudinal support belt at the places of installation of the divider. Support unit is a spacer installed in the end part of the housing and is intended to interact with it a counter support unit mounted on the longitudinal support belt of the temporary wall of the excavation at the locations where the divider is mounted. Spacing device is made in the form of a cylindrical body, in the inner cavity of which there is a spring-loaded stop and a wedge mechanism consisting of two support wedge-shaped washers and a two-sided rectangular wedge placed between them, the spring-loaded stop of the spacer is arranged to reciprocate along the axis of the cylindrical body and one end located on the side of the wedge mechanism is supported by a washer on the inner surface of the cylindrical body, and the other end passes through an opening in the lid fixed at the end face on the other side of the cylindrical body. One of the wedge-shaped support washers of the wedge mechanism with a rectangular end adjoins the flange mounted at the end of the side section of the shell of the divider, and the other wedge-shaped support washer with a rectangular end adjoins the end face of the spring-loaded stop of the spacer, the reciprocal support assembly is in the form of a support bracket constituting a vertical steel sheet, which is rigidly connected to a horizontal shelf made of a concave shape with an internal radius equal to the outer radius of the cylindrical housing of the spacer and intended for mounting a cylindrical body thereon in the operational state of divider. Support bracket includes adjusting pads and a support plate with a concave spherical surface designed to contact the convex spherical surface on the end part of the spacer stop.EFFECT: technical result consists in improving the design of the support unit to ensure repeated use of the divider.1 cl, 4 dwg

Description

The invention relates to the field of construction of subways, tunnels and other structures.

The prior art known shooting, installed to mount temporary vertical walls of the pits. The executions can be made of wood or metal and of various sections. In places of emphasis of executions on the vertical walls of the pit, longitudinal metal support belts of I-beams are installed to distribute the spacer force from the lateral pressure of the soil.

Mounting gaps between the longitudinal belts and the end sections of the shootings are wedged and scalded along the entire contour of the contiguity (see "Tunnels and Undergrounds", VP Volkov et al., "Transport", 1975, pp. 494, 495).

A shooting is also known, including a housing consisting of central and side sections interconnected, and a support unit for attaching the shooting to the temporary wall of the pit on the longitudinal support belt, made in the form of a sliding part (emphasis), which, using inserts and wedges, fixes the shooting on longitudinal zones of the temporary wall of the pit (see. "Construction of tunnels and subways", Velichkin EA, Lenets PT, "Transport", 1971, p. 349, 350) - the closest analogue to the proposed technical solution.

The design of known executions allows for the fastening of temporary walls of foundation pits.

However, the attachment of the end sections of the execution to the longitudinal belts of the temporary foundation pit with a welding joint determines the cutting of the support units of the execution after the construction is completed and thereby eliminates the subsequent (repeated or even multiple) use of executions, which significantly increases the cost of construction.

In executions carried out with retractable stops, the retractable stops are placed inside the execution itself (pipe). With a long shot length and a large pipe diameter, the length of the stops increases, the total mass of the shot increases, and the vertical force on the extended stops increases accordingly.

Shots with retractable stops are used only with a small length of execution (in the case of a small pit width) and a small axial load. Therefore, such executions are practically not used in the construction of subway structures.

Achievable when using the proposed invention, the technical result is the reuse of the execution by improving the design of the support node for mounting the execution on the temporary walls of the pit.

The technical result is achieved by the fact that in the shooting of collapsible reusable for fastening the temporary walls of the pits, including a housing consisting of interconnected central and side sections, and a support unit for attaching the shot to the temporary wall of the pit on the longitudinal support belt in the places of installation of the shooting , the support node is a spacer installed at the ends of the housing, and designed to interact with it, the response support node mounted on a longitudinal support n belt of the temporary wall of the pit in the places of installation of the shooting, the spacer device is made in the form of a cylindrical body, in the inner cavity of which there is a spring-loaded stop and a wedge mechanism consisting of two supporting wedge-shaped washers and a double-sided rectangular wedge placed between them, the spring-loaded stop is installed with the possibility of a translational movement along the axis of the cylindrical body and one end located on the side of the wedge mechanism, by means of a washer rests on the morning surface of the cylindrical body, and the other end passes through the hole fixed in the end on the other side of the cylindrical body, one of the wedge-shaped support washers of the wedge mechanism with a rectangular end face adjoins the flange of the side section of the firing case, and the other wedge-shaped support washer with a rectangular end adjoins the end the spring-loaded stop of the spacer device, the mating support assembly is made in the form of a support bracket, which is a vertical steel sheet with which it is rigidly there is a single horizontal shelf made of a concave shape with an internal radius of concavity equal to the outer radius of the cylindrical body of the spacer device and designed to be mounted on it with a cylindrical body during the operating state of the shot, on the support bracket are placed shims and a base plate with a concave spherical surface for contact with a convex spherical surface made on the end part of the stop of the spacer device.

The invention is illustrated by drawings, where in FIG. 1 shows a general view of the execution, in FIG. 2 - assembly A, support assembly (spacer and response support assembly), initial position, in FIG. 3 - assembly A, support assembly (spacer and response support assembly), in the operating position, in FIG. 4 - section BB, reciprocal support node (bracket with support shelf for installing the body of the spacer device).

The proposed execution includes a main body, consisting of a central section 1 and side sections 2 and 3, interconnected by detachable flanges 4. On each side of the execution body there is a support assembly for attaching the execution to a longitudinal support belt mounted on a temporary vertical pit wall. The firing support assembly is a spacer device 5 and a mating support assembly 6. The firing support device 5 of the firing support assembly is connected by a flange 4 to each of the side sections 2 and 3 of the housing. In this case, the response support node 6, designed to interact with the shooting spacer, is mounted on the longitudinal support belt of the temporary wall of the pit in the places where the execution was shot.

The spacer device 5 consists of a cylindrical body 7, in the inner cavity of which there is a stop 8, spring-loaded with a spring 9, and a wedge mechanism. The stop 8 inside the housing 7 of the spacer device 5 is mounted with the possibility of reciprocating movement along the axis of the housing 7 and with one end located on the side of the wedge mechanism, by means of the washer 10 it is supported on the inner surface of the housing 7, and the other end passes through the hole in the cover 11, fixed on the other side of the housing 7 at its end, and thus also rests on the housing 7. The wedge mechanism is made in the form of two supporting wedge-shaped washers 12 and 13 and a double-sided rectangular wedge 14 placed between them and is located inside the housing 7 from the side adjacent to the flange 4. In this case, the wedge-shaped support washer 13 with its rectangular end adjoins the flange 4 of each of the side sections 2 and 3, and the other wedge-shaped support washer 12 with its rectangular end adjoins the end of the spring-loaded stop 8. For bringing the wedge mechanism to the working position and back (to the initial position) use a bolt 15 (see Fig. 3), which determines the position of the bilateral rectangular wedge 14, and the firing pin 16, interacting with the bilateral rectangular wedge 14 cut a hole in the housing 7 of the spacer device 5.

To set the execution in a working position (at a regular place) in the pit, longitudinal support belts are fixed on temporary vertical walls (or on piles), on which reciprocal support nodes 6 are mounted, designed to interact with the shooting spacer 5.

The response support node 6 is made in the form of a support bracket 17 (Fig. 4). The base of the support bracket 17 is a vertical steel sheet (wall) 18, with which a horizontal concave shelf 19 is rigidly connected with an internal radius of concavity equal to the outer radius of the housing 7 of the spacer 5 to ensure a snug fit of the housing 7 of the spacer 5 to the support arm 17. In the upper part of the sheet 18 of the support bracket 17, a grip 20 is fixed with a fixing bolt 21.

When the execution is set to a working position in the space between the movable stop 8 of the spacer device 5 and the steel sheet 18 of the support bracket 17 of the reciprocal support node 6, the shims 22 (see FIG. 2 and FIG. 3) and the base plate 23 with a concave spherical surface are placed, the radius of which corresponds to the radius of the convex surface made on the end part of the movable stop 8, designed to interact with the stop 8 of the spacer device 5.

The proposed execution works as follows:

1. Installation of execution.

At the construction site, side sections 2 and 3 are attached to the central firing section 1. Spacer device 5 is attached to the free ends of each of sections 2 and 3.

The execution is ready for installation in the pit.

Simultaneously with the assembly of the execution or earlier, on the longitudinal support belts of the vertical walls of the pit, at the points of installation of the shooting, the counter support unit 6 is mounted for each spacer device 5 by installing and fixing the support bracket 17 on the longitudinal support belt of the vertical wall of the excavation.

The assembled shooting for the eyes on the central section 1 is lifted by a crane and installed in the pit so that the housing 7 of the spacer device 5 of the firing got up (came into interaction) with the horizontal shelf 19 of the support bracket 17 of the reciprocal support unit 6 mounted on the longitudinal support belt of the vertical wall of the pit . In each spacer device 5, the wedge mechanism bolt 15 is unscrewed and a double-sided rectangular wedge is lowered by striking the striker 16. The wedge-shaped support washer 12 is then moved towards the flange 4 and then, using the spring 9, the movable stop 8 also moves along the body 7 of the spacer device 5 towards the flange 4. The spacer device 5 is brought to its original position (see Fig. 2).

Then, in the space between the end face of the spacer device 5 and the steel sheet 18 of the support bracket 17 of the reciprocal support unit 6, shims 22 are installed and fixed on the horizontal shelf 19. The base plate 23 is mounted on the shim 22.

After installing the gaskets 22 and the base plate 23 between the supporting surfaces of the movable stop 8 of the spacer device 5 and the base plate 23 of the supporting bracket 17 of the reciprocal supporting unit 6, a gap of 10-15 mm should remain.

To bring the shooting into working position, the bolt 15 of the wedge mechanism is screwed to the stop. Under the action of pressure from the side of the bolt 15, the double-sided rectangular wedge 14 begins to move between the wedge-shaped support washers 12 and 13. The wedge-shaped support washer 12 moves to the housing 7 and, in turn, acts on the spring-loaded stop 8. Inside the case 7, the wedge-shaped support washer moves and stops in the center of the housing 7. At the same time, the movable emphasis 8 will also move and come into interaction with the base plate 23 of the reciprocal support node 6. The shooting is engaged. These operations are carried out at both ends of the execution.

In this position, the execution will be until the end of construction.

2. Removing the execution.

After completion of construction work, backfilling of the pit with soil is carried out. At the same time carry out the shooting.

For this, the shooting is suspended on slings to a load-lifting crane, the bolt 15 of the wedge mechanism of the spacer 5 is unscrewed and, by striking the striker 16, lower the double-sided rectangular wedge 14 to its original position. Automatically, by the force of the spring 9, the movable stop 8 together with the washer 10, the wedge-shaped support washer 12 and the double-sided rectangular wedge 14 are returned to their original position (see Fig. 2). In this case, a gap is formed between the end face of the movable stop 8 of the spacer device 5 and the end face of the base plate 23 of the counter support unit 6. Shooting through the housing 7 of the spacer device 5 lies freely on the horizontal shelf 19 of the reciprocal support node 6. Such actions are carried out at both ends of the execution.

The execution is released from the mount.

Then they give a command to rise and raise a shot. At the same time, the base plate 23 and the shims 22 are removed from the horizontal shelf 19 of the reciprocal support unit 6, the bolt 21 is unscrewed and the support bracket 17 is lifted.

At the construction site, the side sections 2 and 3 of the firing case are disconnected from its central section 1.

All elements of the execution are cleaned, preserved and sent for storage. The execution kit is ready for reuse.

Reuse of the execution can take place as follows.

If the estimated load on the execution and the width of the pit at the next construction site correspond to the previous one, then the execution kit is sent to the construction site in the form as described above, without changes.

If the width of the pit differs from the width of the pit at the previous construction site, then it is possible to change the total length of the execution by changing only the length of one or two side sections 2 and 3 of the execution body, for which you can change the length of existing sections or make new ones. With this reconstruction, all other components of the execution remain unchanged.

Thus, the cost of reconstruction of the execution will amount to no more than 10-15 percent of the total cost of the execution kit.

With the current practice of using executions after dismantling, one hundred percent of the design of the execution goes to scrap.

Moreover, if you also take into account all the costs of installation and dismantling of the execution (welding during installation and cutting during removal (dismantling) and take into account that the proposed design of the execution can be used repeatedly, then the positive effect of the application of the proposed design of the execution and the technology of its installation and dismantling is obvious .

Thus, the use of the proposed technical solution ensures the achievement of the claimed technical result.

Claims (1)

A reusable collapsible shot for mounting temporary pit walls, including a housing consisting of central and side sections connected to each other, and a support unit for attaching a shot to a temporary pit wall on a longitudinal support belt in the places of shooting, characterized in that the support unit is a spacer installed in the end of the housing, and designed to interact with it, the response support node mounted on a longitudinal support belt of the times on the wall of the pit in the places where the shot was installed, the spacer device is made in the form of a cylindrical body, in the internal cavity of which there is a spring-loaded stop and a wedge mechanism, consisting of two supporting wedge-shaped washers and a double-sided rectangular wedge placed between them, the spring-loaded stop of the spacer is installed with the possibility reciprocating movement along the axis of the cylindrical body and one end located on the side of the wedge mechanism, by means of a washer o extends to the inner surface of the cylindrical body, and the other end passes through an opening in the cover fixed at the end on the other side of the cylindrical body, with one of the wedge-shaped support washers of the wedge mechanism with a rectangular end face adjacent to the flange mounted on the end of the side section of the firing case, and the other wedge-shaped the support washer with a rectangular end adjoins the end of the spring-loaded stop of the spacer device, while the reciprocal support unit is made in the form of a support bracket, representing there is a vertical steel sheet with which a horizontal shelf is made rigidly concave in shape with an inner radius equal to the outer radius of the cylindrical body of the spacer device and designed to be mounted on it with a cylindrical body when the shot is in working condition, shims and a base plate are installed on the support bracket with a concave spherical surface, intended for contact with a convex spherical surface on the end part of the stop of the spacer device.

Images