KR102080024B1 - Movable beam with low water discharge - Google Patents

Abstract

The present invention relates to a movable beam, and more specifically, to a movable beam with a bottom water discharge function, which discharges bottom water which is a main cause of decomposition and bad smells of a river, thereby purifying water quality. According to the present invention, the movable beam with the bottom water discharge function forms a rotating central part (30) on a floodgate (20) blocking a waterway (10) and rotates the floodgate (20) around the rotating central part (30) to allow a lower portion of the floodgate (20) to be opened, thereby enabling discharge of the bottom water.

Description

Movable beam with low water discharge

The present invention relates to a movable beam, and more particularly to a movable beam having a low-level water discharge function that can purify the water quality by discharging the low-level water, which is the main cause of corruption and odor of the river.

Operational barriers are water barrier structures that contain water in rivers, rivers, or reservoirs and can be used for a variety of purposes, including agriculture, industry, and living water.

Such movable beams are usually provided with a water gate in the waterway, and a conductive movable beam in which the upper end of the water gate is conducted backward with respect to the lower end of the water gate is common.

However, this conducting movable beam has an advantage of easily controlling the water level by draining the upper layer water to the upper end of the hydrology, but it is impossible to discharge the lower layer water, so that various sediments, sludge, and sediment introduced by the flow rate in front of the hydrology Of course, the back is continuously deposited as a result of the corruption of the river, resulting in a bad odor.

As an example of a conventional movable beam that enables the discharge of low-level water to improve the above-mentioned problems, Patent Registration No. 10-1947316 has formed a low-level water discharge channel that extends from the bottom of the water gate to the rear of the upper layer. In the case of the arc, a subsidiary water gate was formed locally at the bottom of the sluice to discharge the bottom water.

However, there was a problem in that the above-mentioned discharge of the low water was not opened and the local water channel was opened so that the low water of the entire front of the water gate was not discharged and only the local water was discharged, and the local water channel was narrow and frequently blocked. .

For reference, the following prior art documents are listed five recent prior art documents searched with the keyword "low-floor * movable news" through the patent information net keyless, and the present invention with reference to the following prior art documents You will be able to grasp the technical field and background and its development.

Publication / Registration: 1019473160000, 1015577440000, 1019009430000, 1020160102936, 1014050960000.

The present invention has been developed to solve the conventional problems mentioned in the background, particularly in the construction of a movable beam, various sediments, sludge, earth and sand in front of the movable beam to prevent the deposition of the river and It is an object of the present invention to solve the problem and to prevent the odor by the discharge of the low-level water, to facilitate the discharge of the low-level water, and to make the discharge of the low-level water in the entire floodgate.

The present invention as a means for achieving the above object, a means for constituting the center of rotation to the waterway blocking the waterway, and the means for enabling the discharge of low-rise water by rotating the waterway around the center of the rotation to open the lower portion of the waterway Suggest.

According to the means of the present invention, by opening the lower part of the water gate while the water gate is rotated, it is not only easy to discharge the low-level water, but also because sediment, sludge, It is effective in preventing sedimentation such as earth and sand, as well as preventing the corruption of the river caused by the sedimentation and eliminating the odor caused by the corruption.

1 is a perspective view showing an example of the present invention
Figure 2 is a cross-sectional view of Figure 1
Figure 3 is another cross-sectional view of the water gate installation of Figure 1
Figure 4 is another cross-sectional view of the water gate installation of Figure 1
5 is an exemplary view of applying a motor by the hydrological drive of FIG.
6 is an exemplary view of applying a cylinder by the hydrological drive of FIG.
FIG. 7 is a cross-sectional view illustrating both the conduction and the conduction of FIG.
8 is an exemplary view of applying a motor by the hydrological drive of FIG.
9 is an exemplary view of applying a cylinder by the hydrological drive of FIG.
FIG. 10 is a cross-sectional view illustrating a local conduction function as the gate of FIG. 1.

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 illustrated for convenience of description regarding the main parts, and the terms and names used in the description may be implicitly defined by shapes, operations, roles, etc., of the components, rather than the dictionary meanings. The direction description may be determined based on the first direction from the first drawing, and the description about the location may be determined based on the middle of the configuration or the center of the circle. Detailed descriptions of the well-known technology and the conventional technology registered in advance may obscure the gist, and may be omitted or replaced with simple symbols or names. In addition, the detailed structure, shape, shape, arrangement, size, and the like of the configuration identifiable through the drawings, the operation of the configuration that can be inferred through the drawings and the effects thereof, etc. can also obscure the subject matter and will not be described in detail. And bolts, welds, holes, etc. applied for coupling between components may obscure the gist, and may be omitted in the drawing, and the shape of the plane may be round or square, unless the shape of the configuration is specially specified. In this case, the floor plan may be omitted.

Below, See FIGS. 1 and 2 The present invention will be described as follows.

As shown in the present invention, the rotation center 30 is formed on the water gate 20 that blocks the waterway 10, and the water gate 20 is rotated around the rotation center 30 to lower the water gate 20. It is characterized in that to enable the discharge of the low-rise water to be opened.

In this case, the lower part of the water gate 20 is opened while the water gate 20 is rotated, so that the low-level water is easily discharged, and the low-water discharge is entirely open to the entire water gate 20 so that the water gate 20 can be discharged. In addition to preventing the deposition of sediment, sludge, and soil in front of the), it is effective to prevent the decay of the river caused by the sedimentation and to eliminate the odor caused by the decay.

The present invention for implementing the above-described configuration is a water channel 10 to form a discharge path of water as shown; A water gate 20 installed to block a water discharge path of the water channel 10; A rotation center shaft 31 fixed integrally with the middle rear portion of the sluice 20; The rotation center shaft 31 may be configured to be rotated by drawing out the outer wall 40 of the waterway 10.

That is, the rotation center portion 30 may be formed of a rotation center shaft 31, and the rotation center shaft 31 may be fixed integrally with the water gate 20 at an intermediate rear portion of the water gate 20, and the rotation center thereof. The shaft 31 can be drawn out of the outer wall 40 of the waterway 10 and rotated by the drive unit to achieve the above-described configuration.

In this way, not only the implementation of the above-described configuration is possible, but also the structure is simple, the operation is smooth, there is an effect that the production, installation and use is convenient, especially when the water gate 20 is made horizontally the waterway 10 There is an effect that can open completely.

In addition, as shown, the step 11 is formed on the ground of the channel 10 so that the lower end of the sluice 20 is caught by the step 11, and the sluice 20 is rotated in a counterclockwise direction. There is an effect that it is easy to discharge the deposit when opening (20).

Hereinafter, the present invention will be described with reference to FIG. 3.

As shown in the present invention, the top of the water gate 20 may be installed to be inclined rearward, wherein the ground of the waterway 10 may be formed in parallel without the step 11, wherein the water gate 20 is Lower water may be discharged by rotating the lower end of the water gate 20 forward, that is, by rotating the water gate 20 in the clockwise direction so that the lower part of the water gate 20 is opened.

In this way, it is possible to easily withstand the water pressure of the water channel 10 due to the inclination arrangement of the water gate 20 as well as it is not necessary to form the step 11 on the ground of the water channel 10, the effect of the construction of the water channel is convenient have.

Hereinafter, the present invention will be described with reference to FIG. 4.

As shown in the present invention, the top of the sluice 20 may be installed to be inclined forward, wherein the ground of the waterway 10 may be formed in parallel without the step 11, the sluice 20 is Lower water may be discharged by rotating the lower end of the water gate 20 backward, that is, by rotating the water gate 20 counterclockwise in the drawing so that the lower part of the water gate 20 is opened.

In this way, due to the inclined arrangement of the water gate 20 can easily withstand the water pressure of the waterway 10, of course, there is no need to form the step 11 on the ground of the waterway 10, the construction of the waterway is convenient have.

Hereinafter, the present invention will be described with reference to FIG. 5.

As shown, the present invention is configured to rotate the center of rotation shaft 31, an example of using a motor (M), the center of rotation shaft 31 outside the outer wall 40 of the waterway 10 Worm wheel (M3) is integrally installed on; A worm gear M2 installed to be engaged with the worm wheel M3; A motor (M) for driving the worm gear (M2) by supporting the bottom or wall surface of the outer wall (40) of the waterway (10); And a speed reducer M1.

In this way, the water gate 20 can be rotated according to the driving of the motor M, and the opening range of the low-floor water can be easily adjusted according to the rotation angle thereof, and the structure for the implementation of the above-described configuration is simple and operation. This smooth, easy to manufacture, install and use, the worm gear (M2) and the worm wheel (M3) employed as the power transmission means of the motor (M) described above by limiting the reverse drive intention of the water gate 20 There is an effect that can prevent the rotation.

Hereinafter, the present invention will be described with reference to FIG. 6.

As shown, the present invention is configured to rotate the center of rotation shaft 31, an example of using a cylinder (C), the center of rotation shaft 31 outside the outer wall 40 of the waterway 10 An operating arm (C1) integrally installed in the; It may be made of a configuration of; a cylinder (C) that is linked to the bottom or wall of the outer wall 40 of the waterway 10 from the end of the operating arm (C1) to be coupled.

In this way, the water gate 20 can be rotated according to the driving of the cylinder C, and the opening range of the low-floor water can be easily adjusted according to the rotation angle thereof, and the structure for implementing the above-described configuration is simple, and the operation This smooth and effective production, installation and use, in particular, the rotation method of the center of rotation shaft 31 by the cylinder (C) by mobilizing the operating arm (C1) by rotating in a lever method motor (M) Compared to the method by, there is an effect that can be easily driven with a small force.

Hereinafter, the present invention will be described with reference to FIG. 7.

As shown, the present invention constitutes a conduction center 50 at the lower end of the sluice 20, and the rotation guide unit 60 allows the rotation center 30 to rotate about the conduction center 50. It may comprise, to rotate the sluice 20 to the rear of the waterway 10 along the rotation guide portion 60 around the conduction center 50 to serve to serve as conduction of the sluice 20. .

In this way, when the discharge of the lower floor water is unnecessary, the upper water can be overflowed like the original conducting movable beam, so that the water level of the stream can be easily adjusted. There is an effect that can be used, there is an effect that can open more fully the waterway 10 of the water gate 20.

The present invention for implementing the above-described configuration is a conductive center shaft 51 is installed to support the bottom or wall surface of the outer wall 40 of the waterway 10 as shown; A guide groove 61 formed on the outer wall 40 of the water channel 10 so that the rotation center shaft 31 can rotate about the conduction center shaft 51; It may be configured to rotate the rotation center shaft 31 along the guide groove 61 from the conduction shaft.

That is, the conduction center 50 may be formed of the conduction center shaft 51, and the rotation guide part 60 may be made of the guide groove 61, and may be rotated by rotating the conduction center shaft 51 by the driving unit. The central axis 31 is rotated along the guide groove 61 to achieve the implementation of the above-described configuration.

In this way, not only the above-described configuration can be implemented, but also the structure is simple, the operation is smooth, and the production, installation, and use are convenient.

Hereinafter, the present invention will be described with reference to FIG. 8.

As shown, the present invention is configured to rotate the rotation center shaft 31 from the conduction center shaft 51. As an example of using the motor M, the center of the water gate 20 A conduction center shaft 51 installed to support the bottom or wall surface of the outer wall 40 of the waterway 10; A worm wheel (M3) integrally installed on the conduction center shaft (51); A worm gear (M2) which is installed to engage the worm deflection; A motor (M) for driving the worm gear (M2) by supporting the bottom or wall surface of the outer wall (40) of the waterway (10); And a reducer M1; On the conduction center shaft 51, the configuration for driving the rotation center shaft 31 may be configured to be integrally connected.

That is, the structure which rotates the conduction center shaft 51 by the motor M, and the structure which makes the rotation center axis 31 rotate by the motor M on the conduction center axis 51 By implementing in a double configuration, the implementation of the above-described configuration can be achieved.

In this way, not only the above-described configuration can be implemented, but also the structure is simple, the operation is smooth, and the production, installation, and use are convenient.

In addition, as shown, the configuration for rotating the rotation center shaft 31 from the conduction center shaft 51 is the rotation center shaft 31 from the motor table M4 supporting the motor M of the rotation center shaft 31. The wheel M8 is formed on the lower support leg M6 of the motor table M4 and the front support M7 of the motor table M4 while constituting the connecting table M5 for connecting the motor table M4. By providing a support guide M9 for supporting the wheel M8 along the rotation radius of the M4, the rotation of the configuration for rotating the rotation center shaft 31 when the conduction center shaft 51 is rotated is performed. It can of course be made easier.

In addition, although not shown, the above-described configuration is preferably configured to alternate between a configuration for rotating the rotational center axis 31 in a plane and a configuration for rotating the conduction center axis 51 to avoid mutual interference. Do.

In addition, as shown, the outside of the outer wall 40 of the water channel 10 may be configured to be lower than the lower end of the water channel 10 in order to secure a space for installing a configuration for rotating the conduction center shaft 51.

Hereinafter, the present invention will be described with reference to FIG. 9.

As shown in the present invention is configured to rotate the rotation center axis 31 from the conduction center shaft 51, an example of the case of using the cylinder (C), the center of the water gate 20 A conduction center shaft 51 installed to support the bottom or wall surface of the outer wall 40 of the waterway 10; A conduction operation arm C2 rotatably installed from the conduction center shaft 51; A cylinder (C) which is linked and supports the bottom or wall surface of the outer wall (40) of the waterway (10) from the end of the conduction operation arm (C2); The cylinder C for driving the rotation center shaft 31 from the end of the conduction operation arm C2 may be configured to be link-coupled.

That is, the link coupling of the cylinder (C) for rotating the rotation center shaft 31 around the conduction center shaft (51), the cylinder (C) for rotating the rotation center shaft 31, the conduction center shaft The implementation of the above-described configuration can be achieved by constructing a configuration in which the cylinder 51 is rotated around the center in double.

In this way, not only the implementation of the above-described configuration is possible, but also the structure is simple, the operation is smooth, the production, installation and use are effective, and in particular, the rotation of the conduction center shaft 51 by the cylinder C The method has an effect that can be easily driven with a small force compared to the method by the motor M by mobilizing the conduction operation arm (C2) in a lever manner.

On the other hand, although not shown, the above-described driving means can drive the motor M and the cylinder C in parallel. For example, the driving means for rotating the rotary center shaft 31 adopts the method by the cylinder (C), and the driving means for rotating the conduction center shaft 51 adopts the method by the motor (M). It can reduce the installation space and maximize the driving force.

Hereinafter, the present invention will be described with reference to FIG. 10.

As shown, the present invention constitutes a local conduction center 70 at the upper portion of the sluice 20, and branches the upper portion of the sluice 20 around the local conduction center 70 from the lower portion thereof. The upper portion of the water gate 20 may be rotated to the rear of the channel 10 around the local conduction center 70 to serve as a local conduction of the water gate 20.

In this case, when the discharge of the low-rise water is unnecessary, there is an effect that the water level of the river can be easily adjusted by acting as a local opening only the upper portion of the water gate 20.

In order to implement the above-described configuration, the present invention includes a hinge 71 formed on the center of rotation axis 31 of the inner sluice 20 of the waterway 10 as shown; A hydrologic upper part 21 which is branched up and down about the hinge 71; And hydrologic lower portion 22; A support bracket 72 installed on one side of the lower part of the sluice 22; A link support 73 provided on one side of the moisture upper portion; It can be made of a configuration of; a cylinder (C) that is coupled between the link support 73 from the support bracket (72).

That is, the local conductive center portion 70 may be formed of a hinge 71.

In this way, according to the operation of the cylinder C, the hydrologic upper portion 21 can be rotated around the hinge 71, and the water level can be easily adjusted according to the rotation angle thereof. The structure for implementation is simple, smooth operation, and easy to manufacture, install and use.

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As described above, the present invention has been completed, and the present invention is intended to help the understanding of the principle and the principle of the configuration to be pursued in the present invention, the drawings and specific components included in the configuration and the drawings As described based on the configuration, the structure and specific components included in the present invention is determined in consideration of the principle to seek structure, form, shape, arrangement, direction, quantity can be changed in various ways as necessary There will be. The configuration and specific components presented in the present invention exemplify what effect is most desirable for those skilled in the art to obtain the present invention and to obtain a better effect from the effect. It is. Accordingly, the present invention is most preferably completed by including all of the above-described configuration, but can be completed by selecting or excluding some of the configuration described above according to cost reduction, convenience of manufacturing, environmental conditions or needs It is also possible to separate one or some components separately and merge them with other configurations. Each configuration described above may be applied independently to other technical fields other than the technical field in view of the principle, use, function, role, function, effect, and the like. Based on this, the scope of the present invention has been set forth in order from the claims having broad rights by specifying the claims of the present invention as broadly as possible, as described above. It will be understood that the specific points and claims to be described below can fully understand the gist of the present invention, and the effects on the parts which are not illustrated but can be sufficiently inferred through the drawings. Therefore, those skilled in the art will be able to apply various modifications and changes in the art based on the contents mentioned in the present invention, which may further increase the efficiency of use as well as the development of the art.

Claims (4)

In the movable beam,
A rotation center shaft 31 integrally installed at the middle rear portion of the water gate 20 installed to block the waterway 10; A worm wheel M3 which draws the rotation center shaft 31 to the outside of the outer wall 40 of the water channel 10 and is installed on the rotation center shaft 31 thus drawn out; A worm gear M2 installed to be engaged with the worm wheel M3; A motor (M) for driving the worm gear (M2) by supporting the conduction center shaft (51) to be described below; And a reducer M1;
A conduction center shaft 51 installed to support the bottom or wall surface of the outer wall 40 of the waterway 10 with the lower end of the water gate 20 as the center; A guide groove 61 formed on the outer wall 40 of the water channel 10 so that the rotation center shaft 31 can rotate about the conduction center shaft 51; A worm wheel M3 installed on the conduction center shaft 51; A worm gear (M2) which is installed to engage the worm deflection; A motor (M) for driving the worm gear (M2) by supporting the bottom or wall surface of the outer wall (40) of the waterway (10); And a reducer M1;
A motor table (M4) connected to the conduction center shaft (51) and installed to support the motor (M) of the rotation center shaft (31); A connecting table M5 provided to connect the rotational center shaft 31 from the motor table M4; A wheel M8 mounted on a support leg M6 provided at the lower end of the motor table M4 and a support table M7 provided at the front of the motor table M4; And a support guide (M9) installed to support the wheel (M8) along the rotation radius of which the motor table (M4) rotates.
Hinge (71) configured on the rotation center axis 31 of the water gate (20); A hydrologic upper part 21 branching up and down about the hinge 71; And hydrologic lower portion 22; A support bracket 72 installed on one side rear surface of the lower gate body 22; Link support 73 is installed on one side rear of the sluice upper portion 21; Including; the cylinder (C) which is coupled between the link support 73 from the support bracket (72),
In accordance with the operation of the motor (M) installed on the rotation center shaft 31 to rotate the rotation center shaft 31 so that the water gate 20 is rotated to discharge the low-rise water of the water channel 10, the conduction center shaft In accordance with the operation of the motor (M) installed on the 51 rotates the conduction center shaft 51 and rotates the rotation center shaft 31 along the guide groove 61 around the conduction center shaft 51. To serve as the conduction of the sluice 20, and to act as a local conduction of the upper sluice 21 from the lower sluice 22 around the hinge 71 according to the operation of the cylinder C. Movable beam with low water discharge function. delete delete delete

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