KR100803739B1 - Method to construct oil pressure piping system of water gate - Google Patents

Abstract

In the present invention, when a plurality of cylinders or hydraulic mechanisms are connected to the water gate, a plurality of hydraulic pipes applied to the cylinders or hydraulic mechanisms are piped through the shaft portion of the water gate and the inner space of the water gate to clean the exterior of the water gate, as well as foreign substances. The present invention relates to a method of constructing a hydraulic piping system of a hydrogate for minimizing a jamming phenomenon and extending the service life of the hydraulic piping.

The present invention accommodates the hydraulic pipes for providing hydraulic pressure to each cylinder or hydraulic mechanism connected to the water gate at the water gate outer portion and the water gate contact portion of the support shaft to the rim of the support shaft, respectively, and the hydraulic pipe inside the water gate of the water gate It is accommodated in the inner space, and each hydraulic pipe is drawn out to the outside of each cylinder or hydraulic mechanism position of the sluice and connected to each cylinder or hydraulic mechanism, so that most of the hydraulic pipe is supported by the sluice. It is housed inside the shaft and the sluice, so that the exterior of the sluice is not only clean, but also the damage of the hydraulic pipe by external force can be minimized, and the hydraulic pipe is not entangled so that the operation of the cylinder or hydraulic mechanism can be made smoothly, as well as the hydraulic pipe. There is no fear of foreign substances in the water, which has the advantage of preventing contamination of river water. .

Sluice gate, cylinder, hydraulic mechanism, hydraulic piping, hook

Description

Method of construct oil pressure piping system of water gate

1 is a perspective view showing a hydraulic piping system of the water gate according to the present invention.

Figure 2 is an embodiment of the support shaft portion of the hydrologic according to the present invention.

Figure 3 is another embodiment of the support shaft portion of the sluice in accordance with the present invention.

4 is a perspective view of an automatic beam gate having a locking net according to an embodiment of the present invention.

5 is a front view of the automatic floodgate according to FIG. 4;

Figure 6 is a side cross-sectional view of the latching network closed state when opening the automatic guard gate according to FIG.

Figure 7 is a side cross-sectional view of the latching network open state when opening the automatic guard gate according to FIG.

*** Explanation of symbols for the main parts of the drawing ***

1: Support structure 10: Sluice

11: support shaft 12: hydraulic piping receiving groove

13: protective tube 14: filling material

20: cylinder 21: hydraulic piping

30: hanging net 31,43: hinge tube

40: working cylinder 41: piston rod

42: support bracket

The present invention relates to a method for constructing a hydraulic pipe system of a sluice, and more particularly, when a plurality of cylinders are connected to the sluice, a plurality of hydraulic pipes applied to the cylinder are piped through the shaft portion of the sluice and the inner space of the sluice. It is to clean the exterior of the gate, as well as to minimize the phenomenon of foreign matter jamming, and to extend the life of the hydraulic pipe.

As is well known, in order to store water for farming or industrial use, or to purify polluted water quality, the waterway or the waterway of rivers, reservoirs, etc. Will always be maintained at a constant height.

Since conventional underwater beams are mostly installed in a fixed manner, the inflow water is discharged in an overflowing manner to the upper part of the underwater beams, so that contaminants contained in the stored water continuously accumulate at the bottom of the reservoir side, and sedimentary sludge accumulates. This causes problems of secondary pollution, such as the occurrence of pathogenic bacteria or pests.

In view of this, a water gate selectively opens and closes between waterways, and recently, a number of automatic water gates are automatically installed to open and close automatically by driving a power means such as a cylinder according to the water quantity or water pressure of the water reservoir.

Such automatic beam sluice includes a conductive sluice which discharges the stored water to the upper part of the sluice while the supporting shaft of the sluice is located on the lower side of the supporting structure and is inverted along the water level. There is a floating gate that discharges the stored water to the bottom of the gate.

In the case of conducting hydrology, the siphon passage is provided in the hydrologic gate so that it cannot discharge the subsurface water such as sedimentation sludge before it is completely discharged because the water cannot be discharged to the lower part of the hydrologic gate. Or, it may form a drain to selectively open and close on the lower side of the water gate, but in this case, the amount of drainage is very small, and foreign substances having a width larger than the width of the siphon passage or the drainage port may not be discharged. If the water level rises rapidly due to various factors, it is not able to cope quickly, causing damage to the floodgate and flooding of the river. In addition, in the case of a fish having a regression to find the place where they were first born to go up the river to lay eggs, there is also a problem that the ecosystem is destroyed because the fish can not go up the river in the closed gate.

In the case of floating floodgates, the bottom drainage system can be used to purify polluted river water by draining the bottom water of the reservoir, and the open spaces can form fish when the fish moves upstream, thus restoring the ecosystem or Although there is an advantage in maintenance, these floating hydrologic gates also do not discharge water from the reservoir until the gate is opened, so in order to purify the contaminated river water, it was inadequate to consume much power and open and close the gate.

In view of this point, the present applicant has disclosed a hydrology composed of various shapes according to the purpose and function. For example, as shown in Patent Application No. 2006-137727, the applicant forms a siphon operation plate on the reservoir side of the hydrology 10. By connecting the cylinder between the water gate 10 and the siphon operating plate may be configured to change the width of the siphon passage formed between the water gate and the siphon operating plate according to the expansion and contraction of the cylinder, as in Patent Application No. 2006-98542 The sluice gate 10 may be composed of a plurality of compartments and may be configured to adjust the spacing between the compartments by a cylinder. As shown in Patent Application No. 2003-41782, a plurality of openings may be formed in the sluice 10 and each opening may be formed. Opening and closing doors that are opened and closed by a cylinder may be rotatably installed, and a plurality of openings may be provided in the water gate 10 as in Patent Application No. 2006-104825 or Patent Application No. 2006-110027. As the forming and elevating by a cylinder which will be configured by installing opening and closing door for selectively opening and closing the respective openings.

However, in the case of mounting a plurality of cylinders in the water gate according to the purpose or function as described above, the hydraulic pipe line of each inlet and discharge pipe is required for each cylinder, so the hydraulic pipe lines are arranged in a messy manner on the outside of the water gate. Inevitably, the appearance is badly bad, and foreign matter may be caught in these hydraulic pipe lines, causing contamination, and foreign matter may be damaged by pressing the hydraulic pipe lines.

In addition, in the case of a general hydrological gate, when it is opened, foreign matter floating with water is discharged as it is through the open space, so that these foreign matters continue to float in the river and contaminate the river water. If a person falls into the reservoir, he may be left floating through the open space of the gate and lose valuable lives.

The present invention has been proposed in view of this point, and has a plurality of opening and closing doors, siphon operation plates, hooking nets, etc. in the water gate, and each hydraulic pressure for applying hydraulic pressure to each cylinder when mounting a plurality of cylinders for operating the same. It is intended to provide a method of constructing a hydraulic hydraulic piping system for cleaning the exterior of the gate, preventing foreign substances from being caught, and extending the life of each hydraulic pipe by allowing the pipe to be accommodated in the support shaft of the gate and the interior of the gate. .

In another aspect, a locking net is rotatably installed on the water storage side of the gate, and a working cylinder is connected between the locking gate and the gate so that the locking net blocks the channel even when the gate is opened. To do the function.

Hereinafter, the present invention will be described in detail with reference to the disclosed embodiments and accompanying drawings.

1 is a perspective view showing a hydraulic piping system of a hydrologic gate according to the present invention, Figure 2 is an embodiment of the support shaft portion of the hydrologic gate according to the present invention, Figure 3 is another embodiment of the support shaft portion of the hydrologic gate according to the present invention 4 is a perspective view of an automatic walkway gate having a locking net according to an embodiment of the present invention, FIG. 5 is a front view of the walkway gate according to FIG. 4, and FIG. 6 is a view of the walkway gate according to FIG. 3. Figure 9 is a side cross-sectional view of the hook network closed state when opening, Figure 7 is a side cross-sectional view of the hook network open state when opening the automatic guard according to FIG.

As shown, the automatic guard gate to which the present invention is applied has a water channel formed between the support structures 1 on both sides, and the support shafts 11 of the water gate 10 have respective support structures (11) to open and close the water channel. It is rotatably installed between the 1), the support shaft 11 is connected to the power means is configured to open and close according to the water pressure or the water pressure of the reservoir side in contact with the water gate (10).

At this time, the sluice 10 is configured in a variety of shapes according to the purpose and function, for example, to form a siphon operating plate on the reservoir side of the sluice 10, such as patent application No. 2006-137727 and the sluice 10 and The cylinder may be connected between the siphon operating plates so as to change the width of the siphon passage formed between the water gate and the siphon operating plate according to the expansion and contraction of the cylinder, or the water gate 10 may be configured as in Patent Application No. 2006-98542. It is also possible to configure a plurality of compartments and to configure the interval between each compartment by a cylinder, and as shown in the patent application 2003-41782 to form a plurality of openings in the water gate 10, each opening and closing by a cylinder The opening and closing door may be rotatably installed, and a plurality of openings may be formed in the water gate 10 as in Patent Application No. 2006-104825 or Patent Application No. 2006-110027, and may be lifted by a cylinder. As may also be configured to install a closing door for selectively opening and closing the respective openings are the foregoing.

According to the present invention, when the support shaft 11 is divided into a hydrologic outer portion, a hydrologic contact portion, and a hydrologic inner portion with respect to the hydrologic barrier 10, the hydrologic outer portion and the hydrological contact of the support shaft 11 are shown in FIG. At the site, the hydraulic pipes 21 for supplying hydraulic pressure to each cylinder 20 connected to the water gate 10 are respectively accommodated at the edges of the support shaft 11, and at the inner position of the water gate 1, the hydraulic pipes ( 21 is respectively accommodated in the inner space of the sluice 10, and each hydraulic pipe 21 is drawn out to the outside at each cylinder installation position of the sluice 10 to connect to each of the cylinders 20, respectively. It is characterized by.

In this case, a plurality of hydraulic pipe receiving grooves 12 may be formed in the edge of the support shaft 11 to accommodate the hydraulic pipes 21 therein, and the inner diameter of the support shaft 11 may be accommodated. The protective tube 13 and the supporting shaft (13) are inserted in a state in which a protective tube (13) larger than the diameter of the supporting shaft (11) is inserted and the hydraulic pipes (21) are installed between the supporting shaft (11) and the protective tube (13). 11) may be configured by filling the filler 14 in the space between, and any structure can be applied as long as it can accommodate each hydraulic pipe 21 in the edge portion of the support shaft (11).

In addition, each hydraulic pipe 21 may be drawn 1: 1 as it is when discharged to the outside of the water gate 10 in the state accommodated in the rim portion of the support shaft 11 and the inner space of the water gate 10. In the state of being accommodated in the rim portion of the support shaft 11 and the internal space of the sluice 10, when discharged to the outside of the sluice 10 may be branched into a plurality of strands and withdrawn, each inlet pipe 21 When connected to each cylinder 20, each cylinder 20 can be controlled individually, when branching from one strand to a plurality of strands, each cylinder 20 connected thereto can be operated simultaneously As such, it is apparent that the structure of the hydraulic pipe 21 can be selected and installed according to the operating characteristics of each cylinder 20.

In addition, the reservoir side of the sluice 10 is rotatably connected to each other through the hinge pipe 31, the hooking network 30 having a width that can block the entire channel, the opposite side of the slugging network rotation center of the sluice 10 At the position, the actuating cylinder 40 is rotatably fixed by the support bracket 42, and the tip of the piston rod 41 of the actuating cylinder 40 is connected to the intermediate portion of the catching net 30 via a hinge tube 43. It is configured to be rotatably connected to prevent the water channel through the catching network according to the expansion and contraction of the operation cylinder 40 even when the water gate 10 is opened, in this case, although not shown, the hydraulic pipe applied to the operation cylinder 40 Are respectively accommodated in the longitudinal direction at the edge of the support shaft 11 of the sluice 10 and withdrawn from the adjacent position of the operation cylinder connection position of the sluice 10 are configured to connect with the operation cylinder 40 respectively.

In the above description, the cylinders 20 and the working cylinders 40 are given the respective codes, but strictly speaking, the working cylinders 40 belong to the cylinders 20 for explaining the comprehensive concept, and it should be understood as described above. something to do.

When the water gate 10 is closed in the state configured as described above, the water is filled into the reservoir space, and when the water level becomes a certain level, the water gate 10 is opened to discharge the water filled in the reservoir space.

The opening and closing operation of the water gate 10 is made to the power means connected to the support shaft 11 of the water gate 10, since the power means is stored in a closed space formed in the support structure (1) or the water gate (10) The power means is not exposed to the outside of the sluice 10 can have a neat appearance, but this simple shape of the sluice 10 is limited in its function, so recently siphon that can change the width by the cylinder 20 Structures such as a working plate, an opening / closing door which is moved up and down by the cylinder 20, and an opening and closing door which is rotated by the cylinder 20, are attached to the water gate 10 together with the plurality of cylinders 20, and thus, the plurality of cylinders 20. It has been described above that the treatment of the hydraulic pipe 21 connected to the.

In view of the above, the present invention provides the hydraulic pipe 21 when the support shaft 11 is divided into a hydrologic outer portion, a hydrologic contact portion, and a hydrologic inner portion based on the hydrologic gate 10. And at the gate contact portion, respectively, at the rim of the support shaft 11, and at the inside of the gate 1, the hydraulic pipe 21 is accommodated in the inner space of the gate 10, respectively, and the cylinder connection position of the gate 10 is provided. It is drawn out to the outside through the proximal portion and connected to each cylinder 20. In this case, the hydraulic pipes 21 are exposed to the outside of the cylinder 20 only to the outside of the sluice 10 without being disturbed. Since it is connected to the cylinder 20, the appearance of the sluice 10 is very neat, and the hydraulic pipes 21 are not twisted does not affect the operation of the cylinder 20 to improve the reliability of the operation It becomes possible.

In addition, since the majority of the hydraulic pipe 21 is accommodated in the support shaft 11 and the water gate 10 and blocked from the outside, the possibility of the hydraulic pipe 21 being damaged by external force can be minimized, and the hydraulic pipe 21 ), There is no fear of causing environmental pollution because there is no foreign matter.

At this time, when forming a plurality of hydraulic pipe receiving grooves (12) on the edge of the support shaft 11 to accommodate the hydraulic pipe 21 therein, the hydraulic pipe 21 is very easy to receive instead of the hydraulic pipe 21 and Since the hydraulic pipe receiving groove 12 is not tight, there may be a disadvantage that the hydraulic pipe 21 may flow, and the protective pipe 13 is covered on the outside of the support shaft 11 and the hydraulic pipe 21 therebetween. If the filling material 14 is filled in the state that is accommodated there is an advantage that the hydraulic pipe 21 does not flow, but the operation of accommodating the hydraulic pipe 21 is very difficult and costly to be installed, the user of You can use it according to your preference.

In addition, in the case of the cylinder 20, since the hydraulic pipe 21 is made of the inlet pipe and the discharge pipe, it is obvious that the hydraulic pipe 21 always has an even number. Therefore, the hydraulic pipe receiving groove 12 is supported on the support shaft 11. When forming, it is natural to form an even number such as 2, 4, 6, 8 ...

On the other hand, when the water gate 10 is opened, the water in the reservoir space is discharged, and all the foreign substances are discharged through the open portion of the water gate 10, and these foreign substances can continue to be polluted while floating in the rivers, When falling into the water storage space can be lost through the open part of the water gate (10) can lose valuable lives in the present invention in view of this in the rotatable net 30 is installed on the water storage side of the water gate (10) , It is configured by connecting the operation cylinder 40 between the sluice 10 and the catching network 30, even if the water gate 10 is opened, by extending the operating cylinder 40, the catching network 30 will block the waterway The discharge of water through the space between the catching nets does not interfere at all, and the foreign matter floated with the water is caught in the catching net 30, and when these foreign substances are removed through a separate mechanism, The contamination of the cloth can be prevented, and even if a person falls into the storage space due to a stray, it can be caught and rescued by the catching network 30 to save valuable lives.

In addition, during flooding, a large hydraulic pressure is generated, as well as a large sized foreign matter floats with water. In this case, the working cylinder 40 is contracted so that the catching network 30 is brought into close contact with the floodgate 10. 30) and the sluice 10 will be protected.

Of course, the drawing is shown as an example of the configuration of the locking network 30 and the operating cylinder 40 in the floating water gate, but the locking network 30 and the operating cylinder 40 can also be installed in the conductive water gate such a locking network (30) ) And the operation cylinder 40 is applicable to any hydrology 10 irrespective of the shape or manner of the hydrology 10, and therefore it is natural that such modified embodiments also fall within the scope of the present invention.

In addition, in the present invention, although the front end of the piston rod 41 of the operation cylinder 40 is shown as rotatable directly connected to the catching net 30, but the piston rod 41 is not directly connected to the catching net rope or rope When the working cylinder is extended by connecting through a wire, the weight is lowered by the weight of the locking network, and when the working cylinder 40 is contracted, the locking network 30 can be brought into close contact with the water gate by its force. Naturally, it belongs to the scope of rights.

In addition, the hydraulic pipe 21 according to the present invention may also be made of any material such as metal, synthetic resin, rubber, and the like, and the scope thereof is not limited, and the cylinder 20 or the hydraulic mechanism connected to the water gate 10 as described above. Since the number of hydraulic pipes 21 can also be increased or decreased to suit the number of these, the number of the hydraulic pipes 21 is also not limited.

As described above, in the present invention, a hydraulic pipe for providing hydraulic pressure to various cylinders or hydraulic mechanisms connected to the gate is accommodated on the support shafts on both sides of the gate and the inside of the gate, so Since it is drawn to the outside and connected to each cylinder or hydraulic mechanism, most of the hydraulic pipe is accommodated in the support shaft of the gate and the inside of the gate, so that the exterior of the gate is neat and the damage of the hydraulic pipe by external force can be minimized. This does not entangle the operation of the cylinder or hydraulic mechanism can be made smoothly as well as there is no fear of foreign matter caught in the hydraulic piping has the advantage of preventing contamination of the river water.

In addition, since the catching net is rotatably installed on the water storage side of the gate and the operation cylinder is connected between the gate and the catching network, even if the gate is opened, it prevents the waterway through the catching network so that foreign objects or people may get caught in the catching network. Therefore, it is possible to prevent pollution of the river by foreign matters, as well as to save valuable lives.

Claims (5)

A water channel is formed between the support structures 1 on both sides, and the support shaft 11 of the water gate 10 is rotatably installed between the support structures 1 so as to open and close the water channel. (11) is connected to the power means is configured to open and close according to the water pressure or the water pressure of the water storage space side in contact with the water gate 10, constitutes a siphon operating plate on the water storage side of the water gate 10 and the water gate ( 10) and connecting the cylinder 20 between the siphon operating plate is configured to change the width of the siphon passage formed between the water gate 10 and the siphon operating plate according to the expansion and contraction of the cylinder 20, The sluice gate 10 is composed of a plurality of compartments and configured to adjust the spacing between the compartments by the cylinder 20, or to form a plurality of openings in the sluice 10 to the cylinder 20 for each opening Rotatable opening and closing door opened and closed by In the automatic guard gate by forming a plurality of openings in the sluice gate 10 and the opening and closing doors to selectively open and close the openings while descending by the cylinder 20, When the support shaft 11 is divided into a hydrologic outer portion, a hydrologic contact portion, and a hydrologic inner portion with respect to the hydrologic gate 10, the hydrologic outer portion and the hydrological contact portion of the support shaft 11 are separated from the hydrologic gate 10. A hydraulic pipe 21 for supplying hydraulic pressure to each of the cylinders 20 connected to each other is accommodated at the rim of the support shaft 11, and the hydraulic pipe 21 is disposed at an inner position of the water gate 1. It is accommodated in the inner space of the sluice 10, respectively, and each of the hydraulic pipe 21 is drawn to the outside of the sluice 10 at each cylinder position of the sluice 10 to each of the cylinders 20 And a method of constructing a hydraulic piping system of a sluice, each of which is connected to each other. The method of claim 1, Forming a plurality of hydraulic pipe receiving grooves (12) in the longitudinal direction at the edge of the support shaft (11) to accommodate each of the hydraulic pipes 21, characterized in that the configuration of the hydraulic piping system of the gate. The method of claim 1, A protective tube 13 whose inner diameter is larger than the diameter of the supporting shaft 11 is inserted into an edge of the supporting shaft 11, and the hydraulic pipes may be disposed between the supporting shaft 11 and the protective tube 13. 21) A method of constructing a hydraulic piping system for a hydro gate, characterized in that the filling material (14) is filled in the space between the protective tube (13) and the support shaft (11) in a state of being installed. The method of claim 1, The hydraulic pipe 21 is branched into a plurality of strands when drawn out from the support shaft 11 to the outside of the sluice 10, characterized in that each branched pipe is connected to each of the cylinders 20, respectively. Method of constructing hydraulic piping system of water gate. The method of claim 1, The reservoir side of the sluice 10 is rotatably connected to the locking network 30 having a width that can block the entire channel, the operation cylinder 40 in the position opposite to the locking center rotation center of the sluice 10 Rotationally fixed to, the front end of the piston rod 41 of the operation cylinder 40 is rotatably connected to the middle portion of the catching network 30 by the operation cylinder 40 even when the water gate 10 is opened. According to the construction of the) is configured to block the waterway through the catching network (30); The hydraulic pipe 21 applied to the operation cylinder 40 is accommodated in the longitudinal direction at the edge of the support shaft 11 of the sluice 10 in the longitudinal direction, respectively, and drawn out from the adjacent position of the operation cylinder connection position of the sluice 10 respectively. Method for constituting the hydraulic piping system of the sluice characterized in that the connection to each of the operation cylinder (40).

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