RU191709U1 - Corrugated Metal Road Culvert Protector - Google Patents

Abstract

The utility model relates to the field of transport construction and is intended for arrangement of the road, in particular, water drainage from the base of the road through a corrugated metal culvert operating in a different pressure mode. The protective device of the road culvert metal corrugated pipe (1), installed in the upper pool at the inlet head of the pipe, is made in the form of an open container (3) with an inlet window (4) and an outlet window (5) corresponding to the hole of an adjacent pipe link, and installed in the middle of the tank across the movement of the watercourse with a gap relative to its bottom of the bootstrap partition (6), mounted to move in a vertical plane along the guides. The width of the tank is twice the width of the pipe. The technical result is to prevent the formation of whirlpools, preserving the throughput of the pipe and its reliable operation under various hydraulic conditions. 2 ill.

Description

The utility model relates to the field of transport construction and is intended for arrangement of the road, in particular, water drainage from the base of the road through a corrugated metal culvert operating in a different pressure mode.

Known culvert construction (RF patent No. 79896, IPC E01F 5/00, publ. 01/20/2009) containing a road culvert from corrugated metal, laid in an embankment.

A disadvantage of the known device is that on the surface of the natural flow floating debris is sent to the culvert, and often clogs and blocks the cross section of the pipe, often damaging the inlet head.

A protective anti-vortex device of a road culvert metal corrugated pipe is also known, containing a visor located and secured by a bolt connection to a support fixture connected by at least one collar to the inlet pipe head, while the visor is made of metal in the form of a flat plate in the form of a regular hexagon inscribed in a circle with a radius equal to the diameter of the corrugated pipe, and the support mount is made of a U-shape in cross section (see PM No. 145030, IPC E01F 5/00, publ. 09/10/2014).

A disadvantage of the known device is the lack of effectiveness in protecting the inlet head of the culvert from clogging and damage under various pressure conditions of the water flow. During the operational period, the level of the watercourse in the upper pool at the inlet head of the culvert is subject to changes due to snowmelt and precipitation and ranges from pressureless to pressure conditions of the current watercourse and there is a danger of whirlpools.

The problem the utility model aims to solve is to prevent whirlpools, preserve pipe throughput and operate reliably under various hydraulic conditions, while protecting the inlet head from clogging and damage by floating debris.

The problem is solved due to the fact that the protective device installed in the upper pool at the inlet head of the pipe is made in the form of an open container with inlet and outlet windows on its parallel side surfaces perpendicular to the existing watercourse, and a shandorny partition mounted to move in a vertical plane along the guides, and with a gap relative to the bottom of the tank, while the width of the tank is two times the width of the pipe.

In FIG. 1 shows a longitudinal section through a protective device of a road culvert corrugated metal pipe; FIG. 2 is a view along AA in FIG. one.

The protective device of the road culvert metal corrugated pipe 1, laid in the mound 2, installed in the upper pool at the inlet head of the pipe, is made in the form of an open tank 3 with an inlet window 4 and an outlet window 5 corresponding to the hole of the pipe link adjacent to it and installed with a gap relative to the bottom of the container of the chest wall 6 mounted with the possibility of movement in the vertical plane along the guides made in the walls of the container (not shown). The width of the tank 3 is twice the width of the pipe. Sandor wall 6 is mounted in the middle of the tank 3 across the movement of the watercourse. The protective device is made of wood, plastic, metal, etc.

The device is mounted as follows.

Initially, the channel flow is diverted. Then, in the area of the inlet head of the culvert, the pit is excavated. Next, a container with windows and a partition oriented perpendicular to the channel of the watercourse is installed in the pit. At the end of the installation of the tank, restores the natural flow of the watercourse.

The device operates as follows.

During the action of the watercourse, water through the inlet window 4 enters the tank 3 and interacts with the chandan partition 6. The water flow velocity slows down while the watercourse is stratified. The surface layer of water calms down, and therefore, floating debris and floating objects are held afloat. The lower layer of water is discharged into a buried tank 3, the width of which is 2 times the width of the culvert 1. Water gradually fills the cistern 3, bypasses the sandwich wall 6, and then gradually rises up and goes through the outlet 5 to the culvert 1. 3 water is regulated by the size of the gap between the lower end of the screw wall 6 and the bottom of the tank 3. This makes it possible to apply the proposed design of the device for various hydraulic pressure conditions. For streams with different intensities of water movement, the gap value is established experimentally. The volume of water flowing out of the tank is equal to the design volume of the water flowing into the culvert. In order for the water to flow smoothly into and out of the culvert, the dimensions of the container compartments separated by a partition are chosen equivalent to the transverse dimensions of the pipe.

Using the described design of the protective device allows you to establish a smooth and quiet movement of purified from debris water in the culvert and thereby maintain its original condition.

Claims (1)

Corrugated metal road culvert protective device installed in the upper pool at the inlet head of the pipe is made in the form of an open tank with inlet and outlet windows on its parallel side surfaces, perpendicular to the existing watercourse, and installed in the middle part of the tank across the movement of the watercourse, the boot bridge installed with a gap relative to the bottom of the tank, with the ability to move in a vertical plane, while the width of the tank is two times the width of the pipe.

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