RU2776540C1 - Method for construction of trench box and trench box - Google Patents

Abstract

FIELD: construction industry.

SUBSTANCE: invention relates to protective fences to ensure work below ground level, and, in particular, to a pre-erected system to ensure the safety of workers within a protected work area. The method for constructing a trench box consists in the fact that to form a protected working area on the excavation site, a trench box is erected in the form of a box structure, providing transportation of the box elements to the excavation site, while at least a pair of longitudinal elements and a pair of transverse elements are used to form a box structure, where the longitudinal elements are placed in the form of the protective walls are opposite each other, and the transverse elements are used to connect the mentioned walls. Before transporting the elements of the trench box to the excavation site, the longitudinal elements of the box in the form of protective walls and the transverse elements of the box are pivotally connected, the box is placed in the transport position due to the relative rotation in the hinge joints, ensuring that at least the walls approach each other when folding. The box in the transport position is delivered to the excavation site, and the construction of the trench box on the excavation site is carried out by transferring the box from the transport position to the working position due to its opening before the formation of a box structure and placing the resulting box structure on the excavation site with the formation of a protected working area in the inner space of the box structure. The opening of the box with the formation of a box structure is ensured by the relative rotation of the box elements in the hinges, for which the box is stretched in at least one of the directions, and the placement of the box structure in the opening area with the formation of a protected working area is carried out until the accommodation of the personnel in it.

EFFECT: reducing the costs of storing and transporting the device, reducing the time for deploying the device and preparing for the start of work, while increasing the safety of work by installing a protective device before moving workers to the work area in the trench.

13 cl, 9 dwg

Description

SUBSTANCE: group of inventions relates to protective barriers for providing work below ground level, and, in particular, to a pre-fabricated system for ensuring the safety of workers within a protected working area.

A known method of constructing a protective trench structure, which consists in the fact that for the formation of a protected working area at the excavation site, a structure is erected in the form of a box-shaped structure, providing transportation of the elements of the structure to the excavation site, while at least a pair of longitudinal elements is used to form the box-shaped structure , and a pair of transverse elements, where the longitudinal elements are made in the form of protective walls placed opposite each other, and the transverse elements are used to connect the said walls (see US 4685837A. publ., 11.08.1987).

From the same source of information, a protective trench structure is known, containing at least one pair of opposite protective walls, and at least one pair of transverse elements connected to the walls, forming a protected working area limited by the walls.

When using the known technical solution, a protected working area is created by connecting the elements of the trench structure directly in the trench, that is, by workers who are still in unprotected conditions under the threat of soil collapse. The assembly of the elements of the structure directly at the site leads to an increase in the preparation time for the start of work in the trench, in particular, due to the poorer provision of working conditions, while the preservation of the environment is not fully ensured.

The task to be solved by the described group of inventions is to reduce the time for preparing a protective device for working in a trench, to increase safety in preparing and carrying out work in a trench, to increase the safety of the environment in the area of work by eliminating construction debris when preparing the device for work. , as well as in ensuring the convenience of storage and transportation of a pre-assembled trench structure.

The technical result is to reduce the cost of storing and transporting the device, reducing the time for deploying the device and preparing for the start of work while improving the safety of work by installing a protective device before moving workers to the work area in the trench.

The problem is solved and the technical result in terms of the method is achieved by the fact that in order to form a protected working area at the excavation site, a trench box is erected in the form of a box-shaped structure, ensuring the transportation of the box elements to the excavation site, while at least a pair of longitudinal elements, and a pair of transverse elements, where the longitudinal elements are made in the form of protective walls placed opposite each other, and the transverse elements are used to connect the said walls, while, according to the invention, before transporting the trench box elements to the excavation site, the longitudinal elements of the box protective walls and transverse elements of the box are pivotally connected, the box is placed in the transport position due to the relative rotation in the hinge joints, ensuring, when folding, that at least the walls come closer to each other, the box in the transport position is delivered to the rupture site, and the The trench box is driven in the excavation area by transferring the box from the transport position to the working position by opening it until a box-shaped structure is formed and placing the resulting box-shaped structure in the excavation area with the formation of the last protected working area in the internal space, and the opening of the box with the formation of a box-shaped structure is provided for due to the relative rotation of the box elements in the hinges, for which the box is stretched in at least one of the directions, and the placement of the box-shaped structure in the opening area with the formation of a protected working area is carried out until the moment the working personnel is placed in it.

The technical result is also achieved by the fact that transverse spacer elements can be used as transverse elements of the box.

The technical result is also achieved by the fact that each spacer element can be made of two successive parts pivotally connected to each other, while adjusting the distance between the opposite ends of the element, and after adjusting the distance, the parts are fixed from relative translational and angular movement one relative to the other.

The technical result is also achieved by the fact that a pair of opposite walls connected to the protective walls to form a closed working area can be used as the transverse elements of the box.

The technical result is also achieved by the fact that at least one pair of opposite walls can be made in the form of hinged parts.

The technical result is also achieved by the fact that they can additionally install transverse struts in contact with opposite walls.

The technical result is also achieved by the fact that they can install corner struts, contacting their ends with hingedly interconnected walls.

The technical result is also achieved by the fact that in a pre-folded trench box, one of the ends of the additional transverse strut can be attached to one of the walls.

The technical result is also achieved by the fact that in a pre-folded trench box, one of the ends of the corner brace can be attached to one of the walls.

The problem is solved and the technical result in terms of the device is achieved by the fact that in a trench box containing at least one pair of longitudinal opposite protective walls, and at least one pair of transverse elements connected to the walls, forming a protected working area limited by the walls zone, according to the invention, each transverse element is pivotally connected to both longitudinal walls, the box is made with the possibility of folding the longitudinal walls and transverse elements into a transport position due to their relative rotation in the hinges, ensuring, when folding, that at least the walls come closer to each other.

The technical result is also achieved by the fact that the transverse elements can be made in the form of transverse spacer elements, made with the possibility of adjusting their length and provided with means for fixing the length after adjustment.

The technical result is also achieved by the fact that each spacer element can be made of two parts, the ends of which are pivotally connected to each other, and the spacer element is provided with a lock for the angular movement of the parts one relative to the other before using the box.

The technical result is also achieved by the fact that the transverse elements can be made in the form of a pair of opposite transverse walls pivotally connected to the longitudinal walls to form a closed working area.

The technical result is also achieved by the fact that it can be provided with corner spacers installed between adjacent walls.

The technical result is also achieved by the fact that it can be provided with transverse struts hinged to longitudinal opposite walls, with each strut laid in a transport position between the walls of the box and fixed at least at one end to the wall.

The technical result is also achieved by the fact that each wall of at least one pair can be made in the form of hinged panels, while in the folded transport position one pair of opposite walls can be located between the walls of another pair of opposite walls.

The technical result is also achieved by the fact that each wall of at least one pair can be made in the form of a solid panel.

The group of inventions is illustrated with the help of drawings.

In FIG. 1 shows the assembled trench box before it was put into use;

In FIG. 2 - trench box in the assembled state;

In FIG. 3 shows the process of unfolding the box;

In FIG. 4 shows the process of installing a ready-to-use box in a trench;

In FIG. 5 shows a variant of a trench box with transverse walls having a cutout for a pipe;

In FIG. 6 shows a variant with transverse walls having an enlarged cutout according to the shape of the serviced object in the trench;

In FIG. 7 shows a trench support (trench box) with transverse expansion elements;

In FIG. 8 is the same, with two pairs of transverse spacers;

In FIG. 9 shows the devices in FIG. 7 and 8 with different sizes of elements in the transport position.

The described trench box contains at least one pair of longitudinal elements, which use opposite protective walls 1, and at least one pair of transverse elements, for example, transverse spacer elements 2 or transverse walls 3, connected to the longitudinal walls 1 , forming a protected working area limited, at least by walls 1. Each transverse element (spacer 2 or wall 3) is connected to both longitudinal walls 1 by means of hinges 4.

The transverse spacer elements 2 can be made with the possibility of adjusting their length and provided with means for fixing the length after adjustment. For example, they can be made of parts in the form of telescopic tubes of various cross sections, inserted one into the other and fixed with pins or pins (not shown in the drawings) inserted into the holes of both parts.

Each spacer element 2 can be made of two parts, the ends of which are interconnected by means of a hinge 5, which is fixed from the angular movement of the parts one relative to the other before using the box.

When using walls 3 as transverse elements, the box can be equipped with corner spacers 6 installed between adjacent walls 1 and 3, as well as transverse struts 7 hinged to opposite longitudinal walls 1. In this case, in the transport position, each strut 7 can be is laid between the walls 1 of the box and is hinged to it at least at one end. Possible option and separation of spacers 7 from the walls 1 during transportation. It is also possible to separate the corner spacers 6 from the walls 1 during transport.

When used as transverse elements of the walls 3, each of them can be made in the form of panels 8 pivotally connected to each other. one.

Each wall 1 and 3 can be made in the form of a solid panel.

The described inventions are used in the following way. When earthworks are carried out below ground level, a protected working area is formed at the excavation site to prevent collapses of the earth inside the protected area in order to prevent injury to workers and damage to equipment. To protect the working area, a trench box is erected in the form of a box-shaped structure. At the same time, the box elements are transported to the cutting area. Before transporting the elements of the trench box to the excavation site, the longitudinal elements of the box in the form of protective walls 1 and the transverse elements of the box, in particular the walls 3, are pivotally connected to each other and the box is placed in the transport position due to the relative rotation in the hinges 4, providing convergence when folding, in in particular, the walls 1 to one another. When making the walls 3 in the form of hinged panels 8, folded and close to one another adjacent panels 8 are placed inside the assembly between the walls 1, which, when folded, also approach each other as close as possible. The connection of the elements of the box and its placement in the transport position is carried out in a room prepared for such work on a flat surface, which greatly speeds up and simplifies the process of preparing for earthworks. Folded in this way in the transport position, the box is delivered to the excavation site along public roads, without requiring special escort. That is, the dimensions of the transported box are within the specified restrictions. The erection of the trench box at the excavation site is carried out by transferring the box from the transport position to the working position by opening it until a box-shaped structure is formed. As shown in the drawing, the folded box is pulled up behind one of the walls 1 using a lifting device, which is unfolded due to the relative rotation of the walls 1 and 3 in the hinges 4. The rigidity of the elongated open structure is ensured, for example, by connecting at least corner spacer elements 6 with adjacent walls 1 and 3. In this case, the elements 6 in the transport position of the box are also laid between the walls 1 and one end of each element 6 is already pre-connected to one of the walls 1 or 3. After opening the box, it is rotated, setting it on the ground or prepared site. The stiffening operation described above can be carried out both immediately after the opening of the box, and after the rotation of the already opened structure. The obtained box-shaped structure of the box is placed by means of a lifting device in the area of excavation with the formation of a protected working area in the internal space of the formed box-shaped structure. Such a sequence of actions in the formation of a protected working area allows you to refuse any actions of workers in the hazardous area before placing the box in it. That is, the working personnel are placed in the already protected working area after the box is ready for use.

In the option of using a box with walls 1 and 3, in addition to the corner spacer elements, transverse struts 7 are also installed, which are pivotally connected to opposite walls 1. Moreover, one of the walls 1 is pre-connected to the spacer 7, and in the transport position of the box, the spacer 7 is laid between the walls 1 For assembly, only one end of the spacer 7 remains to be connected to the wall 1. It is possible to connect each end of the spacer 7 to the wall 1 in the transport position, but in this case the spacer 7 is made of two parts connected by a hinge 5. Then, when the box is folded, the parts of the spacer 7 are also are folded due to the hinge 5 between the walls 1. To prevent the loss of rigidity of the folding spacer 7, when using the box, the specified spacer 7 is fixed in various ways, preventing it from folding in the hinge 5.

In the option of using the box with spacers 2, the order of preparation for transportation and its unfolding do not change. That is, the longitudinal walls and transverse elements 2 are pre-pivotally connected to each other. In this embodiment, it is preferable to use elements 2 with regulation of their length, which makes it possible to place the walls 1 at different distances from one another and to ensure that the walls 1 are installed in the spacer as close as possible to the earth slope of the trench. Elements 2 can also be made of two parts articulated with a hinge 5. At the same time, the elements 2 are provided with means for fixing their length and means for preventing folding in the hinge 5. When using the specified version of the box, the length of the elements 2 can be adjusted both before installing the box in the trench and after installation. In any case, the use of workers at the excavation site is carried out in an already protected area.

Since the design is modular, the choice of the size of the working area, as well as its shape, is carried out by using elements with different sizes and the number of pairs of elements, forming protected zones in the form of polygons in plan with sides of different sizes. For the manufacture of structural elements, light and durable composite materials are used, which simplifies the delivery and assembly of the structure, and also allows it to be reused. The shape and dimensions of the cutout in the transverse walls are selected depending on the type of object located in the rupture zone. The attachment points of the corner spacers 6 and spacers 7 are selected both in the longitudinal direction and in height, depending on the specific conditions of use of the box. The modularity of the design allows it to be used in trenches with different depths by stacking the boxes one on top of the other.

Thus, the use of the described inventions makes it possible to ensure the safety of workers by eliminating the need for them to be in an unprotected area, significantly reduce the preparation time for earthworks, which is especially important in case of emergency, reduce storage and transportation costs by reducing the dimensions of the pre-assembled product, ensure compliance with environmental standards during the construction of the box due to the rejection of assembly operations directly at the digging site. At the same time, the operations of preparing the box for use do not require advanced personnel qualification, which also reduces production costs.

Claims (13)

1. A method for erecting a trench box, which consists in the fact that in order to form a protected working area at the excavation site, a trench box is erected in the form of a box-shaped structure, providing transportation of the box elements to the excavation site, while at least a pair of longitudinal elements and a pair of transverse elements, where the longitudinal elements are made in the form of protective walls placed opposite each other, and the transverse elements are used to connect the mentioned walls, characterized in that before transporting the elements of the trench box to the excavation site, the longitudinal elements of the box in the form of protective walls and transverse the elements of the box are pivotally connected, the box is placed in the transport position due to the relative rotation in the hinge joints, ensuring, when folding, that at least the walls are brought closer to each other, the box in the transport position is delivered to the excavation site, and the construction of the trench box on the site openings are carried out by transferring the box from the transport position to the working position by opening it until a box-shaped structure is formed and placing the resulting box-shaped structure in the opening area with the formation of a protected working area in the inner space of the box-shaped structure, and the opening of the box with the formation of a box-shaped structure is provided due to relative rotation elements of the box in the hinges, for which purpose the box is stretched in at least one of the directions, and the placement of the box-shaped structure in the opening area with the formation of a protected working area is carried out until the moment the working personnel is placed in it. 2. The method according to claim 1, characterized in that transverse spacer elements are used as the transverse elements of the box. 3. The method according to p. 2, characterized in that each spacer element is made of two successive parts hinged to each other, while adjusting the distance between the opposite ends of the element, and after adjusting the distance, the parts are fixed from relative translational and angular movement one relative to the other . 4. The method according to claim 1, characterized in that a pair of opposite walls connected to the protective walls to form a closed working area is used as the transverse elements of the box. 5. The method according to p. 4, characterized in that at least one pair of opposite walls is made in the form of hinged parts connected to each other. 6. The method according to claim 4, characterized in that the transverse struts are additionally installed in contact with opposite walls. 7. The method according to p. 4, characterized in that the angular struts are installed, contacting their ends with the walls hinged to each other. 8. The method according to claim 6, characterized in that in a pre-folded trench box, one of the ends of the additional transverse strut is attached to one of the walls. 9. The method according to claim 7, characterized in that in a pre-folded trench box, one of the ends of the corner brace is attached to one of the walls. 10. A trench box containing at least one pair of longitudinal opposite protective walls, and at least one pair of transverse elements connected to the walls, forming a protected working area limited by the walls, characterized in that each transverse element is pivotally connected to both longitudinal walls, the transverse elements are made in the form of transverse spacer elements or transverse walls connected to the longitudinal walls, forming a protected working area limited by at least the longitudinal walls, the spacer element is made of two parts, the ends of which are connected to each other by means of a hinge , fixed from the angular movement of the parts one relative to the other before using the box, when used as transverse elements of the transverse walls, each of them is made in the form of panels pivotally connected to each other, while the box is made with the possibility of folding the longitudinal walls and transverse elements into the transport position at the expense of their relative rotation in the hinges, ensuring, when folding, at least the walls approach each other, and is also provided with transverse struts hingedly connected to opposite longitudinal walls, with each strut laid in a transport position between the walls of the box and fixed, at least one end with a longitudinal wall. 11. The box according to claim 10, characterized in that the transverse elements, made in the form of transverse spacer elements, are made with the possibility of adjusting their length and are provided with means for fixing the length after adjustment. 12. The box according to claim 10, characterized in that it is equipped with corner spacer elements installed between adjacent walls. 13. The box according to claim 10, characterized in that in the folded transport position one pair of opposite walls is located between the walls of another pair of opposite walls.

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