KR20100090895A - A grating for heavy load - Google Patents

Abstract

PURPOSE: A heavy load grating for preventing slipping is provided to support a load of a vertical direction and an inclined direction using a heavy load body and to prevent slipping using a curved surface. CONSTITUTION: A heavy load grating for preventing slipping comprises a body(100), heavy load bodies(200), reinforcing members(300), support members(400), and a cross bar(500). A space(120) in which the top and bottom are opened is formed inside the body. The heavy load bodies are arranged in the horizontal inner walls of the space. The reinforcing members are vertically positioned at the inner center of the heavy load bodies. Both ends of the support members are fixed to the horizontal inner walls of the space and are arranged between the heavy load bodies. The cross bar penetrates through the support members and the heavy load bodies.

Description

Anti-slip combined heavy load grating {a grating for heavy load}

The present invention relates to a grating that is installed in the drainage to guide the fluid, such as rain water, and more particularly, the grating mainly used as a cover of the drainage (grating) is provided with a structural rigidity as well as an anti-slip function to increase the stability Anti-slip combined heavy load grating.

In general, the grating is used as a cover of a rainwater drainage channel installed so that rainwater can be moved around dense residential complexes, roads, airports, harbors, etc., and usually forms a rectangular case. A plurality of diaphragms having a rectangular lattice structure inside the body are arranged at equal intervals to cover the upper side of the water collecting passage.

The grating consists of a plurality of beams and crossbars installed in a rectangular case body.

In other words, a plurality of beams are arranged at equal intervals so that fluid such as rainwater can be drained up and down on the inner wall of the body, and the beams are connected to the crossbars.

Accordingly, it is possible to drain the fluid through the beams, it is possible to perform a non-slip function with the structural rigidity increase through the crossbar.

However, there is a problem in that the beams are bent when a relatively heavy vehicle wheel passes over the beams forming the grating.

In order to solve this problem, a plurality of beams are used by narrowing the spacing of the beams. In this case, there is a problem in that economic costs are added, as well as a problem that foreign matters are not easily moved in and out of the beams. In addition, there is a problem that slippage occurs when the interval between the beams is narrow and moisture is applied to the upper surfaces of the beams.

In addition, the conventional method for configuring the beam in the cross section with a height to support the above-mentioned heavy load, but in this case there is a problem in that high cost is added due to the high weight.

Accordingly, the present invention was made to solve the above problems, the object of the present invention is

first; The grating is designed to support the load in the vertical and inclined directions through a heavy load body having a hexagonal cross-sectional frame shape and to prevent slippage through surface bending.

second; Compared with the existing grating, the weight is lighter and the appearance is more robust.

third; The surface of the grating is to be able to remove the moisture generated.

In order to achieve the above object, the present invention, in the grating to cover the upper open end of the drainage,

A body having an upper and lower open spaces formed therein and having a flat cross section having a rectangular frame shape; Both ends of the hollow type are fixed to the inner wall in the width direction of the open space and are arranged in a plurality in the longitudinal direction, the upper and lower sides of the hexagonal frame-shaped heavy load symmetrically forming the upper and lower inclined portions respectively on the left and right sides Wow; Reinforcing members which are erected and fixed perpendicularly to the respective inner middle portions of the heavy loads; A support member having both ends fixed to the inner wall in the width direction of the open space and arranged in plural between the heavy load body and the heavy load body; It may be configured to include a plurality of crossbars coupled through the support member and the heavy load body and both ends of which are arranged and fixed to an inner wall surface of the open space.

Here, a plurality of perforations may be formed in the upper and lower planar portions of the heavy load body.

In addition, at least one non-slip surface having protrusions and grooves may be formed in an upper plane portion of the heavy load body.

The groove may be filled with an elastic body protruding from the embossing protrusion, and the elastic body may be provided with a heating wire supplied from a power supply unit provided at one side of the body.

In the non-slip combined heavy load grating according to the present invention, the cross section of the heavy load supporting body has a hexagonal cross-sectional shape, and a vertical reinforcing member is erected and supported in the middle thereof so that the slope in the inclined direction due to the vertical load or the traveling vehicle is supported. When heavy is generated, the inclination angle of the heavy load body controls the external force, thereby having the effect of withstanding heavy loads.

In addition, by supporting the load through the heavy load of the hexagonal cross-sectional structure can not only reduce the weight of the grating but also reduce the cost accordingly.

In addition, the slip is prevented through the non-slip surface has the effect of preventing the pedestrian or vehicle accident in advance.

In addition, the heating wire is provided on the non-slip surface has the effect of preventing the slip problem of the pedestrian or the vehicle by removing it when moisture occurs.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, and in describing the present invention, if it is determined that the related well-known technology may blur the gist of the present invention, the detailed description thereof will be omitted. do.

The present invention relates to a non-slip combined heavy load grating to cover the upper open end of the drain.

The present invention is a rectangular frame-shaped body 100 is placed in the frame 10 provided at the open end of the drainage by the illustration of Figures 1 to 6, and the inner open space 120 of the body 100 In the longitudinal direction is arranged a plurality of heavy loads 200, the reinforcing member 300 for reinforcing the rigidity of the heavy loads 200, the heavy loads 200 and heavy loads 200 It comprises a support member 400 arranged between, and a plurality of crossbars 500 for connecting the heavy load body 200 and the support member 400.

The body 100 is made of a metal material, the flat section is made of a rectangular frame having a rectangular cross section. And inside the open space 120 is formed to penetrate up and down like the known grating.

The heavy load body 200 is a core technology element of the present invention, and both ends of the hollow type are fixed to the inner wall in the width direction of the open space 120, respectively, and are arranged along the longitudinal direction. In addition, the outer shape has a hexagonal frame shape, the upper and lower sides of the flat portion 210, 220 and the left and right sides of the upper and lower inclined portions 230, 240 are formed symmetrically.

The reinforcing member 300 is to be vertically fixed to each of the inner middle portion of the heavy load body 200 may be installed one or more as necessary.

Both ends of the support member 400 are fixed to the inner wall in the width direction of the open space 120 and are arranged in plural numbers between the heavy load body 200 and the heavy load body 200.

Upper and lower ends of the support member 400 maintain the same plane as the upper and lower planar portions 210 and 220 of the heavy load body 200.

The crossbars 500 are provided along a plurality of longitudinal directions inside the open space 120, are coupled through the support member 400 and the heavy load body 200, and both ends of the crossbars 500 are opened. It is arranged and fixed to the inner wall surface of the space 120.

As another example, a plurality of perforations 260 may be formed in the upper and lower planar portions 210 of the heavy load body 200 to prevent drainage or slippage.

7 is a further example of the heavy load according to the present invention, the upper flat portion 210 of the heavy insect body 200 has a protrusion 252 and the groove 253 has a non-slip surface of the non-slip surface 250 It has been shown that at least one can be formed.

This, when the load in the vertical and inclined direction is generated in the heavy load body is to be supported through the protrusion 252 and the groove 253, as well as to prevent the sliding phenomenon.

8 is another embodiment of the heavy load according to the present invention, the groove portion 253 is filled with an elastic body 270 protruding embossing projections, the elastic body 270 on one side of the body 100 It is shown that the heating wire 280 supplied from the power supply unit 282 is provided can be provided.

This, when moisture is generated on the surface of the grating can be removed to prevent slippage due to moisture.

Figure 9 is another example of a heavy load according to the present invention, the heavy load 200 can be made of a plate-like member is bent, the bent coupling end 321, 322 is in a symmetrical close contact with each other It will be shown that it is possible to be welded in a fixed or fixed state in a form wrapped by a coupling part 320 having a coupling groove provided to be opened outwardly at the upper or lower end of the reinforcing member 300.

Accordingly, in the heavy load body 200, when the load of the vertical or inclination angle is generated, the upper plane portion 210 of the heavy load body 200 absorbs the primary shock, and in the case of the vertical load continuously, the reinforcing member The 300 and the load in the inclined direction are absorbed by the upper and lower inclined portions 230 and 240 provided on both sides of the heavy load body 200 to withstand the heavy load.

It covers drainage tracks and is applied to drainage roads, bridges, and sidewalks.

1 is a plan view of a non-slip combined heavy load grating according to the present invention,

2 is an enlarged view illustrating main parts of FIG. 1;

3 is a front sectional main view of FIG. 2;

4 is a perspective view of FIG. 2 or 3;

Figure 5 is an installation state of the anti-slip combined heavy load grating according to the present invention,

Figure 6 is an enlarged cross-sectional view showing an enlarged heavy load in Figures 1 to 5,

7 is another embodiment of FIG. 6,

8 is another embodiment of FIG.

Figure 9 is another embodiment of the heavy weight shown in Figures 1-5.

<Description of the symbols for the main parts of the drawings>

10: framework

100: body 120: open space

200: heavy load 210,220: upper and lower plane

230,240: upper and lower slope 250: non-slip surface

260: perforation 270: elastic body

280: heating wire

300: reinforcing member

400: support member

500: crossbar

Claims (5)

In the grating to cover the upper open end of the drainage, An upper and lower open space 120 is formed at an inner side thereof, and a body 100 having a flat cross section having a rectangular frame shape; Both ends of the hollow type are fixed to the inner wall in the width direction of the open space 120, respectively, and are arranged in a plurality in the longitudinal direction. A heavy frame body 200 having a hexagonal frame shape symmetrically forming 230 and 240; Reinforcing members 300 which are erected and fixed perpendicularly to the respective inner middle portions of the heavy load body 200; A support member 400 having both ends fixed to the inner wall in the width direction of the open space 120 and arranged in plural numbers between the heavy load body 200 and the heavy load body 200; A plurality of crossbars 500 coupled through the support member 400 and the heavy load body 200, both ends of which are fixed to an inner wall surface of the open space 120; Anti-skid combined heavy load grating characterized in that it comprises a. The method according to claim 1, Anti-slip combined heavy load grating, characterized in that a plurality of perforations 260 are formed in the upper and lower planar portions 210, 220 of the heavy load body 200. The method according to claim 1, The non-slip combined heavy load grating, characterized in that at least one non-slip surface (250) having a protrusion 252 and the groove portion 253 is formed on the upper flat portion 210 of the heavy insect body 200. The method according to claim 3, The groove 253 is filled with an elastic body 270 protruding embossing projection, The non-slip combined heavy load grating, characterized in that the elastic body 270 is provided with a heating wire 280 supplied from the power supply 282 provided on one side of the body (100). The method according to claim 1, The heavy load body 200 is formed of a plate-like member is bent, the bent coupling end 321, 322 is provided to be opened downward to the lower end of the reinforcing member 300 in a symmetrical close contact with each other. Anti-skid combined heavy load grating, characterized in that the welded in a fixed or fixed state to be wrapped by a coupling portion having a coupling groove 320.

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