SU1141139A1 - Design of overpass above pipelines - Google Patents

Abstract

DEVICE DLZ MOVING THROUGH PIPING, containing articulated interconnecting ramps with opposite inclines, characterized in that, in order to facilitate the construction of the device, each ramp is made of a composite of spring-loaded plate elements, side walls and U-shaped (Zy edging, embracing the spring-loaded plate of the spring, side walls and U-shaped) and the end of the slab, the hinges of the joint of the ramps are located on the end faces of the slabs and the ends of the U-shaped fringes facing one another, and each slab is mounted with the possibility of moving corresponding to its U-shaped edging and provided with protrusions on the end facing the edging, and in the latter about (A grooves for protrusions are open. Ci

Description

The invention relates to the construction and operation of pipelines and can be used to move machinery through pipelines.

A device for temporary relocation through pipelines, consisting of reinforced concrete slabs or wooden plank flooring with mineral soil 01, is known.

The disadvantages of moving are the unsuitability for repeated use and the laboriousness of assembling and dismantling temporary moving is high.

The closest to the invention to the technical essence and the achieved result is a device for moving through the pipeline, containing articulated ramps and opposite ramps (.2.

A disadvantage of this device is that it is intended mainly for the transition of pipes of small dia: meter when they cross the existing road with a hard surface, and when using it to move through the pipelines in use, large labor costs are required, since to be laid under the pipeline, and the pipeline is placed in the gutter of this device.

The aim of the invention is to facilitate the construction of a device for moving through pipelines.

The goal is achieved by the fact that in a device for moving through pipelines containing articulated and ramping ramps with opposite inclinations, each ramp is made up of a slab of spring-loaded elastic elements, side walls and an IP-shaped border that surrounds the side walls and the end of the plate, and the hinges the connections of the ramps are located on the end faces of the plates and the ends of the U-shaped fringes facing one another, and each plate is mounted for movement relative to its corresponding U-shaped edging and provided with protrusions on the end facing the edging, and in the latter grooves formed under the tabs of the plate.

FIG. 1 shows the proposed device assembled before laying in the working position, axonometric; FIG. 2 - the same in the working position, longitudinal section; in fig. 3 is the same, axonometric V in FIG. 4 - the same, with the passage of transport on the movable planes of the device, a longitudinal section.

0 The device for moving through pipeline 1 consists of ramps 2, having opposite slopes. Each ramp 2 is made of composite plate 3, spring-loaded elastic elements 4, side triangular walls 5, rear wall 6, base 7, and U-shaped border 8, covering the side walls and the end face of plate 3.

0 Each plate 3 is mounted for movement relative to its corresponding U-shaped edging 8 and is provided with protrusions 9 at the end facing the edging 8,

5 and in the latter grooves are formed

10 pod ledges 9 plates.

The rear walls of the 6 ramps 2, forming in the working position of the gutter

111, are made shorter than the sides of the side walls 5 that are in contact with them, and

form a ledge from the top of the side wall 5 to the rear wall 6. The pipeline 1 is placed in the chute 11. The ramps 2 are interconnected by a hinge 5 with a hinge 12 located on the facing ends of the plates 3 and the hinges 13 located at the ends of the U-shaped border B. The hinge 12 is located coaxially with the hinges 13 between them. The plates 3 have a length shorter from the upper peaks of the side walls 5 to the slots 10 in the fringes. 8, which provides movement of the ends of the plates 3 along the bases of the 7 ramps 2.

The elastic elements 4 can be made, for example, from spring steel, and have a width equal to the width of the plate 3.

In the absence of transport on the movable plates 3, the latter are tightly pressed to the edging 8 and occupy a position in which the alignment of the hinges 12 and 13 is ensured, and the movable plates 3 have the ability to move downward on the backs of the transport when driven over them 6. 3 In this position ramps 2 can rotate freely relative to each other. When transporting vehicles to the movable plates 3 last, compressing the elastic elements, they move down by an offset equal to the difference in height from the base 7 to the ramps 2 to the upper tops of the side faces (up to the axis of the hinges 13 and from the base 7 ramps 2 to the upper edge The rear wall 6), moreover, at the junction of the hinge 12, the plates 3 move vertically downwards and rest on the rear walls 6, and the ends of the movable plates 3 with the projections 9 move along the base 7 to the grooves 10 in the edges 8. In this case, the projections 9 enter grooves 10 .. With the hinge output 12 of alignment with the hinges 13 and the rigid support of the plates 3 on the rear walls 6, and so 1 k

.8 394 when the protrusions 9 are pinched in the slots 10, the device becomes a static unchangeable system, as a result of which the ramps 2 are not turned when the transport is on the plates 3 above the hinge 12. At the same time, the plates 3, resting on the rear walls 6, do not touch the upper generatrix of pipeline 1 and the load from the weight of the transport are not transmitted to the pipeline. After the exit of the transport from the movable plates 3, the latter, under the action of the elastic elements 4, return to their original position, i.e. tightly pressed to the U-shaped fringing 8, and the hinge 12 is again aligned with the hinges 13, which provides free rotation of one ramp 2 relative to another, as well as the assembly of the device for transportation to the next crossing pipeline.

Claims (1)

DEVICE FOR MOVING THROUGH PIPELINES, containing ramps pivotally connected to each other and having opposite slopes, characterized in that, in order to facilitate the construction of the device, each ramp is made up of a plate spring-loaded with elastic elements, side walls and a U-shaped border covering the side the walls and the end face of the plate, and the hinges for connecting the ramps are located on the ends of the plates facing one another and the ends of the U-shaped fringes, and each plate is mounted with the possibility of moving relatively about the corresponding U-shaped edging and is equipped with protrusions at the end facing the edging, and in the latter grooves are formed for the protrusions of the plate.