KR102359903B1 - Conductive moving beam - Google Patents

Abstract

The present invention relates to an inverted type moving beam. The inverted type moving beam comprises: a water gate (10) which is erected and inverted as an upper end rotates from a waterway floor around a hinge (H) of a lower end; a support (20) which allows the water gate (10) to be erected and inverted by supporting the water gate (10) when the water gate (10) is erected as the upper end rotates from a rear floor of the water gate (10) around the hinge of the lower end; and a driving body (30) which drives the support (20). According to the present invention, load on the water gate is not transmitted to the driving body.

Description

Conductive moving beam

The present invention relates to an inverted movable beam.

In general, a weir refers to a kind of water barrier that controls the water level of a river, and these weirs play a very important role in securing water for agriculture, industry, and living, and are currently widely used. In addition, if several weirs are installed in a river where a dam cannot be installed, the water quantity can be controlled, so it is often used as an alternative structure for medium and large dams.

The types of beams are broadly divided into fixed beams and movable beams. The fixed beams are configured in a fixed way without opening and closing the sluice gate, and the movable beams are configured to open and close the sluice gate so that the flow of water can be adjusted in various ways.

In general, movable weirs close the sluice gate to trap water in a river, stream or reservoir so that it can be used for various purposes. It is configured to perform the function of preventing the flow of water from flowing back upstream.

In this way, the movable beam installed to control the flow of water in various ways is usually installed with a sluice gate at a certain height from the floor, and the lower hinge of the sluice gate is used as the center of rotation to rotate the upper end of the sluice gate to the rear so that it is inverted. The beam is common.

As in the following prior art documents, most of the conventional conduction-type movable beams support any one of the rear, wall, and floor of the sluice gate and invert the sluice gate using a driving body such as a motor, a cylinder, an airbag, or a wire.

However, the conventional conductive movable beam described above is commonly connected to the driving body in direct connection with the sluice gate or by mobilizing power transmission means. It is transmitted to the power body through the power body, and as a result, parts applied to the power body or power transmission means are damaged by the load or have frequent failures.

For reference, the following prior art literature is a list of 4 recent prior art documents searched for with the keyword "Jeon-do * Gadongbo" through the Patent Information Net Cypris. You will be able to grasp the technical field, background technology, and its development status.

Korean Patent Registration Publication No. 10-2166164 Korean Patent Registration Publication 10-2111616 Korean Patent Registration Publication No. 10-2179404 Korean Patent Registration Publication No. 10-1934407

The present invention has been developed to solve the conventional problems mentioned in the background art, and in particular, it is an object of the present invention to solve the problem in order to prevent the load received from the sluice from being transmitted to the power body.

As a means for solving the problem, the present invention proposes a means for installing a brace that allows the sluice gate to stand and fall while supporting the sluice gate when the sluice gate is standing on the rear side of the sluice gate, and to make the brace stand up and fall with a power body.

According to the means of the present invention, when the sluice gate is standing, the load received from the water flow is transmitted to the brace, but the load received from the brace is not transmitted to the power body. It has the effect of preventing the failure of the power body or the damage of parts applied to the power transmission means.

1 is an exemplary view of the present invention and its operation
2 is another exemplary view employing the driving body as an airbag in FIG. 1 and its operation
Figure 3 is another exemplary view and its operation diagram in which the brace is arranged in the orthogonal direction from the sluice gate in Figure 1;
4 is a side view of the brace in FIG. 3 and its operation
5 is another exemplary view employing the driving body as an airbag in FIG. 4 and its operation

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. However, the accompanying drawings may be exaggerated, omitted, or schematically shown for the convenience of explanation regarding the main parts, and the terms and names used in the description are implicitly defined by the shape, action, role, etc. of the configuration rather than the dictionary meaning. It can be done, and the description of the direction is determined based on the direction first presented from the first presented drawing, and the description of the location is determined based on the center of each component or the center of the circle. In addition, detailed descriptions of pre-registered known technologies and conventional technologies may obscure the gist and are omitted or replaced with simple symbols or names. In addition, the specific structure, shape, shape, arrangement, size, etc. of the configuration that can be identified through the drawings, the operation of the configuration that can be inferred through the drawings, and the effect thereof may also obscure the subject, so detailed description will be omitted. In addition, bolts, welding parts, holes, etc. applied for coupling between components may obscure the point and may be omitted from the drawing. , in this case, the plan view may be omitted.

Below, Figure 1 inside Figure 2 The present invention will be described with reference to the following.

As shown, the present invention is a sluice gate (10) that allows the upper end to rise and fall while rotating around the lower hinge (H) from the bottom of the waterway; A brace 20 that allows the sluice gate 10 to stand up and fall while supporting the sluice gate 10 when the sluice gate 10 is erected while the upper end rotates from the rear bottom of the sluice gate 10 around the hinge H at the bottom. ); It may consist of a driving body 30 for driving the brace 20 .

More specifically,

The brace 20 is equipped with a hinge bracket (HB) on the bottom of the waterway as shown, and the rear side of the sluice gate (10) is rotated around the hinge (H) of the hinge bracket (HB). It may be configured such that the sluice gate 10 stands up and falls by sweeping up.

As shown in the figure, the brace 20 is installed to support the sluice gate 10 obliquely from the rear bottom of the sluice gate 10 on the rear side of the sluice gate 10 when the sluice gate 10 is erected, and when the sluice gate 10 is inverted, the sluice gate 10 It is located at the bottom of the sluice gate 10 and the brace 20 are superimposed, and the sluice gate 10 may be installed so as to be flat with the waterway.

In addition, the driving body 30 for driving the brace 20 may be a cylinder Sy or an airbag Ar as shown, and although not shown, may be a motor, a wire, or the like.

When the driving body 30 of the brace 20 is configured as a cylinder Sy in the above, the axis of the hinge (H) of the brace 20 is protruded to the side of the brace 20 as shown in the figure, and the hinge (H) Install the operating arm 31 so as to be integrally connected with the axis of the support 20, install the cylinder (Sy) on the front bottom of the hinge (H) of the brace 20, link the cylinder (Sy) and the operating arm 31 It may be installed in a manner that drives the brace 20 by combining with.

In the above configuration, as shown, when the cylinder Sy is driven, the operating arm 31 is driven to rotate the axis of the hinge H, whereby the brace 20 stands up, and when the brace 20 stands up The sluice gate 10 is operated in a standing manner, and is operated in reverse of the above-described manner when it is inverted.

In the above configuration, as shown, when the sluice gate 10 is erected, the brace 20 supports the rear side of the sluice gate 10 in a “s” shape, so the load of the sluice gate 10 is fully supported (20) However, the load of the brace 20 is hardly transmitted to the driving body 30 .

On the other hand, when the driving body 30 of the brace 20 is configured as an airbag Ar in the above, the airbag Ar is positioned at the bottom of the brace 20 as shown, and the airbag Ar is It may be installed in a manner that drives the brace 20 while inflating.

In this way, as described in the effects of the invention, when the sluice gate 10 stands up, the load received from the water flow is transmitted to the brace 20, but the load received from the brace 20 is not transmitted to the driving body 30, so as in the prior art, the sluice gate There is an effect that can prevent failure of the driving body 30 or damage to parts applied to the power transmission means caused by the load received by (10) being transmitted to the driving body 30 or the power transmission device.

In addition, there is an effect that the configuration is simple, the operation is smooth, and manufacturing, installation, use, handling and maintenance are easy.

Below, Figure 3 inside Figure 5 The present invention will be described with reference to the following.

As shown, the present invention may be installed so that the brace 20 is disposed in a direction perpendicular to the sluice gate 10 on a plane.

That is, FIG. 1 is a case in which the brace 20 is installed in a plane parallel to the sluice gate 10, and FIG. 3 is a 90 degree view from FIG. 1 so that the side of the brace 20 supports the rear side of the sluice gate 10. It can be installed by rotating at an angle.

At this time, as shown, it is preferable to install the brace 20 as a pair to face each other, and the upper edge of the brace 20 in contact with the sluice gate 10 is formed by chamfering, as shown, or formed by rounding. It can be, and the edge portion of the front upper end of the brace 20 sweeps up the rear side of the sluice gate 10 to make the sluice gate 10 stand up and fall.

In the above, the driving body 30 may be composed of a cylinder Sy and an airbag Ar as shown, and the principle and operation method of the configuration are the same as those of FIGS. 1 to 2 .

In this way, as shown in FIG. 3, the side of the brace 20 is arranged to support the rear side of the sluice gate 10, as compared to FIG. There is an effect that the sluice gate 10 is amplified and rotated just by rotating the In addition, there is an effect of further reducing the load transmitted to the driving body 30 compared to 1 degree.

On the other hand, in the case of the brace 20 proposed in the present invention, as shown in FIG. 1, one brace 20 may be long disposed on the rear side of the sluice gate 10, or may be divided into several, and the driving body ( 30) is employed as the cylinder (Sy), it may be installed inside the waterway, or the axis of the hinge (H) may be drawn out of the outer wall of the waterway and driven, and in the case of FIG. 3 , the sluice gate 10 It is preferable to adopt a method in which a pair of braces 20 are divided into several and arranged on the rear side of the .

In the above, the description of the present invention is finished, and the present invention is to help the understanding of the principle of the construction to be pursued in the present invention and the specific components included in the construction and the configuration of the present invention, and the drawings The structure, form, shape, arrangement, direction, and quantity are determined in consideration of the principle to be pursued, and the structure, form, shape, arrangement, direction, and quantity of the configuration included in the present invention and its specific components are determined and can be variously changed as needed. There will be. The configuration and specific components thereof presented in the present invention illustrate the effects that those of ordinary skill in the art want to achieve in the present invention and what principle is most preferable to apply in order to obtain better effects from the effects. did it Accordingly, the present invention is most preferably completed by including all of the above-described configurations, but it can be completed by selecting or excluding some of the configurations described above according to cost reduction, manufacturing convenience, environmental conditions or needs, and , it is also possible to separate one or a part of a component and merge it with another component to complete it. In addition, each configuration described above may be independently applied to other technical fields other than this technical field in consideration of principles, uses, functions, roles, actions, effects, and the like. Based on this, the scope of the present invention is specified in the scope that encompasses the claims of the present invention as follows, and claims are made in order from the claims having broad rights. It seems that the gist to be pursued in the present invention can be sufficiently grasped through one specific content and the claims to be described below, and the effects of the parts that are illustrated but not described will be sufficiently inferred from the drawings. Accordingly, those skilled in the art will be able to apply various modifications and changes in this technical field based on the contents mentioned in the present invention, thereby further increasing the efficiency of use as well as the development of this technical field.

Claims (2)

A sluice gate (10) that allows the upper end to rise and fall while rotating around the lower hinge (H) from the waterway floor;
From the bottom of the rear side of the sluice gate 10, the sluice gate 10 is raised and inverted while the upper end rotates around the hinge H at the bottom, and when the sluice gate 10 stands, the sluice gate 10 is supported while being inclined. Install the hinge bracket (HB) on the bottom of the waterway, and sweep up the rear side of the sluice gate 10 while the top rotates around the hinge (H) of the hinge bracket (HB) Braces 20 to be rotated;
The operating arm 31 is installed so that the shaft of the hinge H of the brace 20 is protruded to the side of the brace 20 to be integrally connected with the axis of the hinge H, and the hinge H of the brace 20 ) Installing a cylinder (Sy) on the front floor, and combining the cylinder (Sy) and the operating arm 31 with a link to drive the brace 20,
The brace 20 is installed in a direction orthogonal to the sluice gate 10 on a plane, and a pair of braces 20 are installed to face from the rear side of the sluice gate 10, and the edge of the front upper end of the brace 20 Reversible movable beam, characterized in that the part sweeps up the rear side of the sluice gate (10) to make the sluice gate (10) stand up and fall. delete

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