KR102040859B1 - A Roller Contacting Typer of a Water Gate Apparatus - Google Patents

Abstract

The present invention relates to a roller contact type water gate apparatus. The roller contact type water gate apparatus comprises: an inducement frame (11) fixated to a base structure (B); a gate (12) of which side edges facing each other are induced by the inducement frame (11) to open and close a waterway; and at least one roller module (13a to 13d) installed in the inducement frame (11), and configured to come in contact with a gate wedge (22) formed on the side edges of the gate (12) in an opening and closing process.

Description

A Roller Contacting Typer of a Water Gate Apparatus

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a roller contact type hydrological device, and more particularly, to a roller contact type hydrological device in which structural edges are improved by contacting edges of a gate moved up and down along an induction frame by rollers.

Sluice gates having various structures installed in waterways for flow control or for maintaining depth are known in the art. The gate may open and close the waterway while moving up and down along the guide frame installed in the structure, and the guideway may be formed in the guide frame. In the process of moving the edge of the gate along the induction furnace may be in contact with each other, contact blocks may be formed on the edge of the induction furnace and the gate. The contact block causes the gate and the induction frame to be stably coupled while inducing the movement of the gate. Various techniques related to hydrology are known in the art. Patent registration No. 10-1183934 discloses a rotatable floodgate capable of preventing the gate from sagging by mounting an eccentric roller on the lower side of the gate. Also, Patent Registration No. 10-1297715 discloses a roller module and a waterproof door device having the same that allow displacement in the rotational axis direction to realize stable waterproofing without using the force of an operating mechanism such as a cylinder. The prior art discloses a hydrological having a roller moving structure but not a roller contact structure.

The present invention is to solve the problems of the prior art has the following object.

Prior Art 1: Patent Registration No. 10-1183934 (Daecheong Industry & Trade Co., Ltd., 2012.09.18. Announcement) Rotary sluice to prevent sagging of the gate and to control the sagging interval by the eccentric roller Prior Art 2: Patent Registration No. 10-1297715 (Busan National University Industry-Academic Cooperation Foundation, 2013.08.20.) Roller module that allows displacement in the direction of rotation axis and sliding type waterproof door device having the same

An object of the present invention is to provide a roller contact type hydrological device with improved structural stability by contacting the guide surface of the guide frame with the edge of the gate by the roller.

According to a preferred embodiment of the present invention, a roller contact type hydrological device includes an induction frame fixed to a foundation structure; Gates for opening and closing the waterway is guided by the guide frame side edges facing each other; And at least one roller module installed in the induction frame and contacting the induction block formed at the side edge of the gate during the opening and closing process.

According to another suitable embodiment of the invention, each of the at least one roller module consists of a pair of rollers arranged at different heights.

According to another suitable embodiment of the present invention, the guide frame comprises a lower fixed frame which can be installed separately from the upper frame.

The roller contact type hydrological device according to the present invention allows the guide roller formed in the guideway of the guide frame to be in contact with the contact block formed on the edge of the gate, thereby improving contact stability and at the same time increasing durability. In addition, the hydrological device according to the present invention is to improve the construction convenience by allowing the induction frame or the gate is made in a separate form and then coupled during the installation process.

1 illustrates an embodiment of a roller contact type hydrological device according to the present invention.
Figure 2 shows an embodiment of a roller module applied to the roller contact type hydrological device according to the present invention.
Figure 3 shows an embodiment in which the roller contact type hydrological device according to the present invention is applied.
Figure 4 shows the difference between a roller contact type hydrological device according to the present invention and a known hydrological device.
Figure 5 shows an embodiment made of a removable structure of the hydrological device according to the invention.

Hereinafter, the present invention will be described in detail with reference to the embodiments set forth in the accompanying drawings, but the embodiments are provided for clarity of understanding and the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, and thus are not repeatedly described unless necessary for understanding of the invention, and well-known components are briefly described or omitted. It should not be understood to be excluded from the embodiment of.

1 illustrates an embodiment of a roller contact type hydrological device according to the present invention.

Referring to FIG. 1, the roller contact type hydrological device includes an induction frame 11 fixed to the base structure B; Gates 12 which face each other side edges are guided by the induction frame 11 to open and close the channel; And at least one roller module 13a to 13d installed in the induction frame 11 and contacting the induction block 22 formed at the side edge of the gate 12 in the opening and closing process.

The induction frame 11 may be U-shaped as a whole and may be fixed to the foundation structure. The induction frame 11 may be made of cast iron, stainless steel, synthetic resin, general steel, or similar material, and may be made in various shapes according to a water channel, a gate, or a base structure, and the present invention is not limited thereto. The induction frame 11 may have a suitable structure capable of inducing the gate 12, and the gate 12 may open and close the water channel while a part thereof contacts the induction frame 11 and moves along a predetermined direction. . The gate 12 may have a shape according to the structure of the channel to be opened and closed, for example, may be a rectangular plate shape. Both side edges 121a and 121b of the rectangular plate-shaped gate 12 may be moved up and down or in other suitable directions along the induction path formed in the induction frame 11. The side edges 121a, 121b of the gate 12 can be moved up and down along the induction frame 11, the gate 12 being for example an induction frame 11 by means of a motor, a pressure cylinder or similar drive means. Can be moved up and down or in other suitable directions. For example, a hinge module 15 may be installed at an upper edge of the gate 12, and an induction stem 16 may be coupled to the hinge module 15. The induction stem 16 may have a member structure or a wire structure and the gate 12 may be moved up and down along the induction frame 11 by the induction stem 16.

The gate 12 may be guided along an induction furnace or induction portion formed inside the boundary wall BW of the induction frame 11. The side edges 121a and 121b may be located in the induction furnace, and as shown in the side view of FIG. 1, the induction block 22 may be formed in the side edges 121a and 121b, and the induction block 22 may be formed. The top surface may be inclined rectangular box shape. The upper surface of the induction block 22 may be an inclined surface whose upper portion has a relatively high height compared to the lower portion. In addition, at least one roller module 13a to 13d contacting the induction block 22 may be installed in the induction frame 11 during the movement of the gate 12. For example, two roller modules 13a to 13d may be installed at different heights of the induction members facing each other forming the induction frame 11. Each roller module (13a to 13d) has a fixing bracket 131, one end of which is coupled to the guide frame (11); A pair of rollers 133a and 133b coupled to the other end of the fixing bracket 131; And fixing means 132 such as fixing bolts for fixing the pair of rollers 133a and 133b to the fixing bracket 131. The pair of rollers 133a and 133b may be disposed along the moving direction of the side edges 121a and 121b, and may be disposed adjacent to each other along the extending direction of the guide member of the guide frame 11, for example. . Each of the rollers 133a and 133b may have a rotatable structure, and the pair of rollers 133a and 133b may have different heights, for example, each of the rollers 133a and 133b may have a different contact. May have a height.

In the process of moving the gate 12 along the induction frame 11, the induction block 22 may contact each roller module 13a, 13b, 13c, 13d, and the upper surface of the induction block 22 By being inclined, the guide block 22 can be easily guided below the rollers 133a and 133b. Pressure may be applied to the inclined surface formed above the guide block 22 by the roller modules 13a to 13b. As a result, the gate 12 may be stably guided along the induction frame 11, and the gate 12 may be stably fixed to the induction frame 11. Optionally, the induction frame 11 may be coupled to the coupling roller module 14 to the lower edge member, the coupling roller module 14 is the lower edge of the gate 12 is stable in the opening and closing process of the induction frame 11 Make sure to touch the bottom edge. In addition, as the friction force is reduced while the gate 12 is moved upward, the coupling state is maintained stably.

The induction frame 11 may be composed of an upper frame 111 and a lower fixed frame 112. In order to install the hydrological device, the induction frame 11 may first be installed in the foundation structure B, and then the gate 12 and the gate operating means may be installed. It may be difficult to install the guide frame 11 according to the structure of the foundation structure (B). In such a case, the guide frame 11 may be installed by removing a part of the foundation structure B, or the guide frame 11 may be installed by installing an intermediate structure. However, the construction period becomes longer, and at the same time, the construction cost increases. can do. In order to solve this problem, the induction frame 11 is manufactured by separating the upper frame 111 and the lower fixing frame 112, and the lower fixing frame 112 may be first installed in the base structure B. Since the upper frame 111 is coupled to the lower fixing frame 112 may be fixed to the base structure (B). Gate 12 can also be made in such a structure. Thereby, the construction period and the construction cost can be reduced.

The induction frame 11 or the gate 12 can be made in various structures and is not limited to the embodiments shown.

Figure 2 shows an embodiment of the roller module (13a, 13b) applied to the roller contact type hydrological device according to the present invention.

Referring to FIG. 2, each of the at least one roller module 13a consists of a pair of rollers 133a and 133b arranged at different heights. Roller module (13a, 13b) has a fixed bracket 131, one end of which is coupled to the guide frame (11); A pair of rollers 133a and 133b coupled to the other end of the fixing bracket 131; And fixing means 132 such as fixing bolts for fixing the pair of rollers 133a and 133b to the fixing bracket 131. The fixing bracket 131 may have a plate-like structure in which one end is coupled to the outside of the induction frame 11 and is bent at least once inward, and the engaging surface to which the roller is coupled is parallel to the plane of the gate 12. have. Optionally, the fixing bracket 131 may have a structure that can move along the guide frame or a height adjustable structure. The pair of rollers 133a and 133b may be coupled to the engaging surface by the fixing means 132 so as to be adjacent to each other, and the pair of rollers 133a and 133b may have different contact heights. The branches can stably contact the induction block 22. The sealing sheet 21 may be disposed on a surface where the induction frame 11 and the gate 12 contact each other. A supporting member 114 may be formed below the guide frame 11, and the supporting member 114 may be fixed to the foundation structure by, for example, an anchor bolt AB.

The roller modules 13a and 13b may be disposed at various positions of the guide frame 11, and at least one guide block 22 contacting the roller modules 13a and 13b may be formed at the edge of the gate 12. Can be. In addition, the roller module (13a, 13b) is made of a height-adjustable structure can be installed at different heights of the induction frame. The induction block 22 may be made into a box shape protruding from the side edge of the gate 12, and an inclined surface may be formed on an upper surface thereof. As the gate 12 moves up and down, the guide block 22 may be in contact with the pair of rollers 133a and 133b to stably guide the gate 12. The pair of rollers 133a and 133b may be made of, for example, polyurethane, polycarbonate, ABS resin, or similar synthetic resin material, or may be made of a metal material, but is not limited thereto. The roller modules 13a and 13b and the induction module 22 can be applied to a water gate having various structures.

Figure 3 shows an embodiment in which the roller contact type hydrological device according to the present invention is applied.

Referring to FIG. 3, when the induction frame 11 is installed in the base structure B, the gate 12 may be installed to move up and down along the induction frame 11. The hinge module 15 may be coupled to the edge of the gate 12, and one end of the induction stem 16 may be fixed to the hinge module 15. The induction stem 16 may have a linear member or a wire structure and may extend upward through the stand 31 installed in the upper portion of the foundation structure B. In the upper part of the stand 31 an actuation module 32 for actuation of the gate 12, for example a gearbox or actuation handle, may be installed. The actuation module 32 can be operated manually or automatically, and the actuation of the actuation module 32 allows the gate 12 to be moved up and down along the induction frame 11, whereby the channel can be opened or closed. Can be. The induction frame 11 may be U-shaped as a whole, and the gate 12 may be quadrangular in shape. The gate 12 may be coupled to the induction frame 11 such that both side edges of the gate 12 contact or face the induction path or induction portion formed in the induction frame 11. At least one roller module 13a, 13b, 13c, 13d may be disposed in the induction furnace or the induction part of the induction frame 11, and a gate wedge may be formed at the side edge of the gate 12. have. In the process of moving the gate 12 up and down, the induction block is in contact with the roller module (13a, 13b, 13c, 13d) so that the gate 12 is moved stably. Optionally, a coupling roller module 14 is installed below the guide frame so that the bottom portion of the gate 12 is in stable contact with the bottom edge member of the guide frame 11.

In the illustrated embodiment, the gate 12 has a rectangular plate shape and moves up and down, but the hydrological device according to the present invention includes a gate 12 having various structures, and is not limited to the presented embodiment.

Figure 4 shows the difference between the roller contact type hydrological device according to the present invention and a known hydrological device, the left side of Figure 4 shows an embodiment of the roller module 13, the middle portion is a known hydrological device As shown, the right side shows an embodiment of a hydrological device according to the present invention.

4, the control plates 411 and 412 may be coupled to the coupling plate 131a coupled to the fixing bracket by the fixing means 132. The roller socket 421 may be coupled to each of the adjustment plates 411 and 412, and the rotation shaft of the roller 133a may be rotatably coupled to each roller socket 421. The coupling plate 131a may be integrally formed with the fixing bracket, and the adjustment plates 411 and 412 may have different heights or thicknesses. The roller socket 421 may be coupled to the coupling plate 131a, and a pair of adjustment plates 411 and 412 may be coupled to one coupling plate 131a. And control plates 411 and 412 having different heights or thicknesses may be coupled, and the contact heights of the rollers 133a and 133b may be adjusted by height adjustment of the adjustment plates 411 and 412. As described above, the fixing bracket may have a height adjustable structure, and thus the roller module may be installed at various heights of the guide frame.

Referring to the middle portion of FIG. 4, a block bracket 43a may be formed in the induction frame 11 to which the contact block 431 is coupled, and the contact block 431 may be in contact with the induction block 22. . The contact block 431 may have a shape similar to that of the induction block 22, and may have a structure in which the upper surface thereof is inclined in a different direction from the upper surface of the induction block 22. In the known hydrological device, the induction frame 11 or the gate 12 is easily damaged due to the damage caused by the friction between the surface and the surface while the noise is generated during the opening and closing of the gate 12 due to the contact between the surfaces. It became. As a result, the durability of the hydrological device was reduced, which caused a problem of increasing the maintenance and repair cost of the hydrological device. In contrast, the hydrological device according to the present invention shown on the right side of FIG. 4 allows the gate module 12 to be moved while the roller module 13 is in contact with the induction block 22 so that the problems of the known technology can be solved. . As already described above, at least one coupling roller module 14a, 14b may be installed at the lower edge of the guide frame 11. The lower edge of the gate 12 may be stably contacted with the bottom edge of the induction frame 11 by the coupling roller modules 14a and 14b. The engaging roller modules 14a and 14b can be made in various structures and are not limited to the embodiments shown.

Figure 5 shows an embodiment made of a removable structure of the hydrological device according to the invention.

Referring to FIG. 5, the guide frame may be composed of an upper frame 111 and a lower fixing frame 112, and the lower fixing frame 112 may be manufactured separately from the upper frame 111. The lower fixing frame 112 may include a bottom edge of the guide frame, and may include a vertical extension part extending upward by a predetermined length to both ends of the bottom edge according to the structure of the guide frame. In the process of installing the guide frame to the base structure (B), the lower fixed frame 112 may be first coupled to the base structure (B). Thereafter, the upper frame 111 may be transferred so that the coupling end portion 511 may be coupled to the lower fixing frame 112 by welding or bolting. Since the upper frame 111 is fixed to the base structure (B) may be completed the installation of the guide frame. The lower fixing frame 112 may be made of various structures including the bottom portion of the induction frame and is not limited to the embodiments shown.

The roller contact type hydrological device according to the present invention allows the guide roller formed in the guideway of the guide frame to be in contact with the contact block formed on the edge of the gate, thereby improving contact stability and at the same time increasing durability. In addition, the hydrological device according to the present invention is to improve the construction convenience by allowing the induction frame or the gate is made in a separate form and then coupled during the installation process.

Although the present invention has been described in detail above with reference to the presented embodiments, those skilled in the art may make various modifications and modifications without departing from the technical spirit of the present invention with reference to the presented embodiments. . The invention is not limited by the invention as such variations and modifications but only by the claims appended hereto.

11: induction frame 12: gate
13a to 13d: roller module 14: combined roller module
15: hinge module 16: induction stem
21: sealing sheet 22: induction block
31: stand 32: operating module
111: upper frame 112: lower fixing frame
114: support member 121a, 121b: side border
131: fixing bracket 132: fixing means
133a and 133b: rollers 411 and 412: adjusting plate
421: roller socket 431: contact block

Claims (3)

An induction frame 11 fixed to the foundation structure B;
Gates 12 which face each other side edges are guided by the induction frame 11 to open and close the channel; And
It is installed in the induction frame 11 and includes two or more roller modules (13a to 13d) in contact with the induction block (gate wedge) 22 formed on the side edge of the gate 12 in the opening and closing process,
The two or more roller modules (13a to 13d) are each disposed at different heights, the roller contact type hydrological device, characterized in that consisting of a pair of rollers (133a, 133b) having a different contact height with the guide block. delete The roller contact method of claim 1, wherein the guide frame (11) includes a lower fixing frame (112) that can be installed separately from the upper frame.

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