KR102451041B1 - hydraulic water swivel system - Google Patents

Abstract

The present invention relates to a hydraulic water turning system, of which a structure is improved to enable water stop gate units to be foldably inputted in a compact form with a support unit installed in a manhole to omit a crushing demolition process and a recovery process for expanding an inlet of the manhole during site installation. Moreover, the present invention enables the water stop gate units to be doubly arranged to secure work safety from a leakage accident, and more specifically, mainly comprises the support unit (200), the water stop gate units (300), and a pumping unit (400) for rapidly performing water turning work by the minimum hydraulic pressure caused by an organic linkage structure between components.<quillbot-extension-portal></quillbot-extension-portal>

Description

hydraulic water swivel system

The present invention relates to a hydraulic water return system, and more specifically, the structure is improved so that the water barrier is compactly folded together with the brace installed in the manhole, and the crushing removal process and recovery process for expanding the manhole entrance during field installation This is omitted, and the water barrier is doubled to secure work safety from leakage accidents. is about

In general, a sewer pipe is provided with a catch pipe (hereinafter abbreviated as 'pipe') leading to a sewage treatment plant to purify the inflowing sewage. Concrete is mainly used for intercepting conduits, and if water leaks occur due to deterioration over time, cracks due to impact, or expansion and contraction of the fastening part, the conduit buried underground is to be built by excavating a burial area or directly repairing the leaking part inside. is being repaired with

However, the excavation method increases the construction period and cost and has problems such as ground subsidence due to excavation work. Because the size of the conduit is large, it is not only very dangerous for a person to perform repair work after maintaining a certain section of the conduit in a dry state by simply using a girder, but also the girder cannot withstand the water pressure caused by a large amount of sewage. Even if it is assumed that there is, as severe stress concentration occurs in the conduit where the girder is installed, damage to the conduit is expected by the girder itself. This should be developed urgently.

Accordingly, in Patent Registration No. 10-0886787 disclosed in the prior art, as a device and a construction method for blocking a specific section of a culvert buried underground for a large amount of sewage treatment and having manholes installed on the upper part at regular intervals, and a method thereof, both manholes among a plurality of manholes Bracing parts which are respectively inserted into the culvert and fixed vertically from the manhole to the inside of the culvert; a water turning part disposed in close contact with the outside of the support part and installed to seal the culvert; As the water return unit is installed, a pumping unit for transporting the water collected in the culvert from one manhole of the both sides of the manhole to the other manhole; a technology consisting of a bar has been previously presented.

However, the prior art is to block water within a certain section of a large sewage culvert and at the same time to drain the collected water by turning it, but the structure is complicated, so it takes a lot of time for preparation work, and in particular, when a leak occurs, working within the culvert There was a problem that the safety of work could not be guaranteed.

US 10-0886787 B1 (2009.02.25.)

Accordingly, the present invention has been conceived to solve the above problems, and the structure is improved so that the clap part is compactly folded along with the brace installed in the manhole, and the crushing removal process and recovery for expanding the manhole entrance during on-site installation The process is omitted and the water barrier is doubled to secure work safety from leakage accidents. The purpose is to provide a system.

In order to achieve this object, the feature of the present invention is, the manhole 110 positioned between the front end and the distal end of the maintenance section of the culvert 100 and the manhole 110 positioned between the front end and the distal end manhole 110. The position is put into the The brace 200 is provided to be fixed; The water blocking part 300 is installed in the support part 200, and is provided to close the inside of the culvert 100 by the expansion and contraction operation; and a pumping unit 400 that is closed by the water blocking part 300 and is provided to transport the water collected in the manhole 110 at the distal end to the manhole 110 at the distal end. A suction pipe 410 that is inserted into the manhole 110 and sucks water collected by the water barrier 300, a pump 420 connected to the suction pipe 410 to pump water, and a pump 420 at the outlet A discharge pipe 430 that is connected and transports water to the distal end manhole 110 side, is disposed on the inlet side of the distal end manhole 110, and temporarily stores the discharged water transported through the discharge pipe 430, and a discharge valve 442 on the bottom It is characterized in that it includes a temporary storage tank 440 that is installed to control the amount of water discharged to the distal end manhole 110 side.

At this time, the amount of water discharged through the discharge valve 442 is expanded 2 to 3 times compared to the amount conveyed through the discharge pipe 430 , and the discharge valve 442 is formed as a solenoid valve that is opened and closed by the control unit, and the temporary storage tank A sensor 444 for detecting the water level is installed in the 440, and when the water level is increased in the temporary storage tank 440 with the discharge valve 442 closed and detected by the sensor 444, the discharge valve 442 by the controller ) is opened so that the discharged water stored in the temporary storage tank 440 is discharged in an amount 2 to 3 times greater than the amount transported through the discharge pipe 430 .

In addition, the brace 200 is installed in the transverse direction to the support 210 and the support 210 that is inserted to the bottom surface of the culvert 100 through the manhole 110, and is pressed on the inner surface of the manhole 110. A holding cylinder 220 for fixing the position of the support 210 in a state of being in a state of being, and a rotation shaft 230 installed in the transverse direction on the back surface of the support 210 corresponding to the water barrier 300, and eccentric rotation on the rotation shaft 230 The pressure supporter unit 240 and the pressure supporter unit ( 240) One end is connected to one end, and the other end is connected to the holding cylinder 220 via a plurality of guide rollers 252, and is connected to the linear motion of the holding cylinder 220 to support the pressure supporter unit 240. A wire 250 provided to rotate and an elastic absorbing part 260 that is installed on the wire 250 and absorbs an over-pulling force acting more than a predetermined pulling force by a linear motion of the holding cylinder 220. Including, the pressure supporter unit 240 is inserted into the manhole 110 without interference in a state parallel to the support 210 as the heavy side end pivots downward about the rotation shaft 230 by its own weight, and the manhole 110 ) When the holding cylinder 220 protrudes to fix the position of the support 210 within, the wire 250 is pulled while the pressure supporter unit 240 is rotated and arranged in the transverse direction, and then a pair of mil pieces ( 242) is transported in opposite directions to each other and is characterized in that it is provided to be pressurized and fixed to the inner circumferential surface of the culvert 100 .

In addition, the pressure supporter unit 240 is provided to be fixed in position by a stopper module 270 that is operated in conjunction with the pressure cylinder 241 in a state pivoted in the transverse direction, and the stopper module 270 is rotated in the transverse direction. A slot groove 272 installed on the support 210 corresponding to the pivoted pressure cylinder 241 and spaced apart from the rotation shaft 230 to form an entry space 271, and the pressure cylinder 241 and parallel to the pressure cylinder 241 and a rod rod 276 provided with a stop key 274 to engage and bind with the slot groove 272 at one end connected to the push piece 242, and the pressure supporter unit 240 When is rotated and disposed in the transverse direction, the stop key 274 is located in the entry space 271, and a pair of push pieces 242 are transferred in the opposite direction by the pressure cylinder 241 to the inner circumferential surface of the culvert 100 It is characterized in that the stop key 274 is engaged with the slot groove 272 while being pressurized and fixed to be provided to fix the horizontal position of the pressure supporter unit 240 .

In addition, the water barrier 300 is installed in the vertical, left and right directions with the center plate 310 installed on the support 210 and the center plate 310 as the center, and the guide rail ( 322 ) by the inner cylinder ( 322 ). 324) and transported in opposite directions, a plurality of membrane plates 320 in which receiving grooves 326 are formed on the outer circumferential surface, one end is connected to one end of the membrane plate 320, and the other end is a neighboring membrane plate ( 320) Linked to one end, the link cylinder 330 closing the space between the membrane plates 320 while being stretched and controlled, and installed in the receiving groove 326 of the membrane plate 320, and expanded by compressed air The expansion tube 340 that is in close contact with the inner circumferential surface of the culvert 100, the expansion membrane 342 that is connected to the expansion tube 340 and is provided to close the space inside the expansion tube 340, and the expansion tube 340 inside It includes an air pump module 350 provided to input and discharge compressed air, and by the operation of the inner cylinder 322, the membrane plate 320 expands in the vertical and horizontal directions through the air pump module 350. When compressed air is supplied, the expansion tube 340 is expanded to seal the space between the membrane plate 320 and the inner circumferential surface of the culvert 100 .

In addition, the air pump module 350, both ends are connected to the membrane plate 320 corresponding to each other, and a cylinder type air pump 352 that is pumped in connection with the expansion and contraction operation of the inner cylinder 322, and a cylinder type One end is connected to the air pump 352, and the other end is connected to the air hose 354 connected to the expansion tube 340, and the air hose 354 to discharge when the compressed air acts above a predetermined pressure. It includes a valve 356, and when the membrane plate 320 is expanded and moved by the inner cylinder 322, compressed air is output from the cylindrical air pump 352 to expand the expansion tube 340, and the membrane plate ( When the 320 is contracted, it is characterized in that the expansion tube 340 is contracted by sucking compressed air from the cylindrical air pump 352 .

According to the above configuration and action, the present invention is structurally improved so that the clap part is compactly folded and put together with the brace installed in the manhole, the crushing removal process and the restoration process for expanding the manhole entrance during field installation are omitted, and the clogging process is omitted. The double arrangement of the part secures work safety from leakage accidents, and in particular, due to the organic linkage structure between the components, there is an effect that the water turning operation can be quickly performed with the minimum hydraulic power.

1 is a configuration diagram showing the overall hydraulic water rotation system according to an embodiment of the present invention .
2 to 3 is a configuration diagram showing a pressure supporter of the hydraulic water return system according to an embodiment of the present invention .
Figure 4 is a block diagram showing a stopper module of the hydraulic water turning system according to an embodiment of the present invention .
5 is a block diagram showing a water turning unit of the hydraulic water turning system according to an embodiment of the present invention .
6 is a block diagram showing an air pump module of a hydraulic water rotation system according to an embodiment of the present invention .
7 is a block diagram showing the expansion tube of the hydraulic water rotation system according to an embodiment of the present invention .
8 is a block diagram showing step by step a water turning operation procedure using a hydraulic water turning system according to an embodiment of the present invention .

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the description of the present invention, when it is determined that the subject matter of the present invention may be unnecessarily obscured as it is obvious to those skilled in the art with respect to related known functions, the detailed description thereof will be omitted.

The present invention relates to a hydraulic water circulating system, which has a structure improved so that the water barrier is compactly folded with the brace installed in the manhole, and the crushing removal process and recovery process for expanding the manhole entrance during field installation are omitted and , to secure work safety from water leakage accidents by double placing the water barrier, in particular, the support unit 200, the water barrier so that the water return operation can be quickly performed with minimal hydraulic power due to the organic linkage operation structure between the components. It has a main configuration including the unit 300 and the pumping unit 400 . Hereinafter, the cylinder applied to the present invention uses a hydraulic cylinder.

The brace 200 according to the present invention is inserted into the manhole 110 positioned between the front end and the distal end of the maintenance section of the culvert 100 and the manhole 110 positioned between the front end and the distal end manhole 110 so that the position is fixed. provided

The brace 200 is installed at least at an interval of four manholes 110, as an example, the brace 200 is installed so that two manholes 110 are positioned between the front end and the distal end manhole 110, Among the two manholes 110 positioned between the front end and the distal end manhole 110, the holding part 200 is put into the manhole 110 adjacent to the front end manhole 110, and the worker by the water barrier 300 to be described later. Forms a safety shield to protect the other one manhole 110 is provided as an access road for workers.

In FIG. 2 , the brace 200 is installed in the transverse direction to the support 210 and the support 210 inserted to the bottom surface of the culvert 100 through the manhole 110 , in the manhole 110 . A holding cylinder 220 for fixing the position of the support 210 in a state of being pressed to the side, and a rotation shaft 230 installed in the transverse direction on the back surface of the support 210 corresponding to the water barrier 300, and the rotation shaft 230 A pressure supporter unit 240 provided with a pair of push pieces 242 installed so as to rotate eccentrically on the upper surface, transferred in opposite directions by a pair of pressure cylinders 241 and fixed to the inner circumferential surface of the culvert 100 under pressure. One end of the supporter unit 240 is connected to one end, and the other end is connected to the holding cylinder 220 via a plurality of guide rollers 252, and is connected to the linear motion of the holding cylinder 220 and the pressure supporter unit ( A wire 250 provided to rotate 240 and an elastic absorbing part installed on the wire 250 and absorbing the over pulling force acting over a predetermined pulling force by the linear motion of the holding cylinder 220 ( 260).

At this time, the elastic absorbing part 260 is provided to absorb the immersion force while the spring is compressed when a tension greater than a predetermined pulling force is applied by connecting the wire 250 with a spring.

In this way, the pressure supporter unit 240 is installed at an eccentric position on the rotation shaft 230, and the heavy side end is rotated downwardly around the rotation shaft 230 by its own weight, and thus the pressure supporter unit 240 is a support ( 210) and is positioned parallel to the manhole 110 without interference.

And, when the holding cylinder 220 protrudes to fix the position of the support 210 in the manhole 110, the wire 250 is pulled while the pressure supporter unit 240 is pivoted and arranged in the transverse direction. , a separate driving means for turning the pressure supporter unit 240 is omitted as the pair of push pieces 242 are transferred in opposite directions to each other and are provided to be pressed and fixed on the inner circumferential surface of the culvert 100 .

In addition, the pressure supporter unit 240 is provided to be fixed in position by a stopper module 270 that is operated in conjunction with the pressure cylinder 241 in a horizontally pivoted state.

3 , the stopper module 270 is installed on the support 210 corresponding to the pressure cylinder 241 pivoted in the transverse direction, and is spaced apart from the rotation shaft 230 to form an entry space 271 . A rod provided with a stop key 274 installed in parallel with the slot groove 272 and the pressure cylinder 241 to be used, one end connected to the push piece 242, and the other end engaged with the slot groove 272 and coupled thereto. a rod 276 .

Accordingly, when the pressure supporter unit 240 is rotated and disposed in the lateral direction, the stop key 274 is located in the entry space 271 , and a pair of push pieces 242 are mutually reversed by the pressure cylinder 241 . As the stop key 274 is engaged with the slot groove 272 and fixed to the lateral position of the pressure supporter unit 240 while being transferred to the culvert 100 and being pressurized and fixed on the inner circumferential surface of the pressure supporter unit 240, the horizontal state of the pressure supporter unit 240 is firmly supported.

In addition, the water blocking part 300 according to the present invention is installed in the brace part 200, and is provided to close the inside of the culvert 100 by the expansion and contraction operation.

In FIG. 5 , the water barrier 300 is installed in the vertical, left and right directions around the center plate 310 and the center plate 310 installed on the support 210 , and is guided by an inner cylinder 322 . A plurality of membrane plates 320 that are transported in opposite directions riding on a rail 324 and having a receiving groove 326 formed on the outer circumferential surface, one end is connected to one end of the membrane plate 320, and the other end is a neighboring membrane A link cylinder 330 that is linked to one end of the plate 320 and closes the space between the membrane plates 320 while being stretched and controlled, and installed in the receiving groove 326 of the membrane plate 320, by compressed air The expansion tube 340 which is expanded and is in close contact with the inner circumferential surface of the culvert 100, the expansion membrane 342 which is connected to the expansion tube 340 to close the inner space of the expansion tube 340, and the expansion tube 340 It includes an air pump module 350 provided to input and discharge compressed air to the inside.

Here, the expansion membrane 342 is formed of an elastic sheet containing rubber as shown in FIG. 7 and is provided to waterproof one surface of the water barrier part 300 .

At this time, the inner cylinder 322 is installed in the longitudinal direction, both ends are connected to a pair of membrane plates 320 facing up and down, and the inner cylinder 322 installed in the transverse direction is opposite to the left and right. Both ends are connected to the pair of membrane plates 320 , and the upper and lower, left and right membrane plates 320 are simultaneously expanded and contracted by the operation of the inner cylinder 322 .

On the other hand, the working space inside the culvert 100 is secured by the water blocking part 300 , and the water remaining in the working space is discharged by a separate pump.

In FIG. 6, the air pump module 350 has both ends connected to the membrane plate 320 corresponding to each other, and a cylindrical air pump 352 that is pumped in connection with the expansion and contraction operation of the inner cylinder 322 and, One end is connected to the cylindrical air pump 352, and the other end is connected to an air hose 354 connected to the expansion tube 340, and the air hose 354 to discharge when compressed air acts above a predetermined pressure. and an over-valve 356.

Accordingly, when compressed air is supplied through the air pump module 350 while the membrane plate 320 is expanded in the vertical and horizontal directions by the operation of the inner cylinder 322, the expansion tube 340 is expanded and the membrane plate 320 is expanded. ) and the culvert 100 is provided to seal the space between the inner peripheral surface.

That is, when the membrane plate 320 is expanded and moved by the inner cylinder 322, compressed air is output from the cylindrical air pump 352 to expand the expansion tube 340, and when the membrane plate 320 contracts and moves, As the expansion tube 340 is contracted by sucking compressed air from the cylindrical air pump 352, a separate compressor and compression hose configuration are omitted, thereby simplifying the structure of the device.

In addition, the pumping unit 400 according to the present invention is closed by the water blocking unit 300 and is provided to transport the water collected in the front end manhole 110 to the distal end manhole 110 side.

The pumping unit 400 is connected to the suction pipe 410 and the suction pipe 410 for sucking the water collected by the water blocking unit 300 inserted into the manhole 110 at the front end, the pump 420 for pumping water ), a discharge pipe 430 connected to the discharge port of the pump 420 to transport water to the distal end manhole 110 side, and a distal end manhole 110 disposed on the inlet side to temporarily store the discharged water transported through the discharge pipe 430 and , a temporary storage tank 440 is installed on the bottom surface of which a discharge valve 442 is installed to control the amount of water discharged to the distal end manhole 110 side.

At this time, the amount of water discharged through the discharge valve 442 is expanded 2 to 3 times compared to the amount conveyed through the discharge pipe 430 , and the discharge valve 442 is formed as a solenoid valve that is opened and closed by the control unit, and the temporary storage tank A sensor 444 for detecting the water level in the 440 is installed.

Accordingly, when the discharge valve 442 is closed and the water level in the temporary storage tank 440 is increased and the sensor 444 detects it at a predetermined height, the discharge valve 442 is opened by the control unit to the temporary storage tank 440. It is provided so that the stored discharge water is discharged in an instantaneous amount 2 to 3 times greater than the amount transported through the discharge pipe 430, and when the low point is detected by another sensor, the discharge valve 442 is closed while repeating the operation. It is possible to simply inspect the water quality of the water temporarily stored in the temporary storage tank 440 as well as cleaning the sediment inside the culvert by increasing the discharge water pressure.

As described above, in the detailed description of the present invention, the most preferred embodiment of the present invention has been described, but various modifications are possible within the scope not departing from the technical scope of the present invention. Therefore, the protection scope of the present invention is not limited to the above embodiments, but the protection scope should be recognized from the techniques of the claims to be described later and equivalent technical means from these techniques.

100: culvert 200: brace
300: water blocking unit 400: pumping unit

Claims (6)

The manhole 110 positioned at the distal end and the distal end of the repair section of the culvert 100, and the manhole 110 positioned between the distal end and the distal end manhole 110 is inserted into the manhole 110 to be positioned and fixed; The water blocking part 300 is installed in the support part 200, and is provided to close the inside of the culvert 100 by the expansion and contraction operation; and a pumping unit 400 that is closed by the water blocking part 300 and is provided to transport the water collected in the manhole 110 at the distal end to the manhole 110 at the distal end. A suction pipe 410 that is inserted into the manhole 110 and sucks water collected by the water barrier 300, a pump 420 connected to the suction pipe 410 to pump water, and a pump 420 at the outlet A discharge pipe 430 that is connected and transports water to the distal end manhole 110 side, is disposed on the inlet side of the distal end manhole 110, and temporarily stores the discharged water transported through the discharge pipe 430, and a discharge valve 442 on the bottom It is installed and includes a temporary storage tank 440 to control the amount of water discharged to the distal end manhole 110 side,
The brace 200 is installed in the transverse direction on the support 210 and the support 210 that is inserted to the bottom surface of the culvert 100 through the manhole 110, and is pressed to the inner surface of the manhole 110. The holding cylinder 220 for fixing the position of the furnace support 210, the rotation shaft 230 installed in the transverse direction on the back surface of the support 210 corresponding to the water barrier 300, and the rotation shaft 230 are installed to rotate eccentrically and a pressure supporter unit 240 provided with a pair of push pieces 242 that are transferred in opposite directions by a pair of pressure cylinders 241 and fixed to the inner circumferential surface of the culvert 100 under pressure, and a pressure supporter unit 240 One end is connected to one end, and the other end is connected to the holding cylinder 220 via a plurality of guide rollers 252, and is linked to the linear motion of the holding cylinder 220 to rotate the pressure supporter unit 240. It includes a wire 250 provided to do so, and an elastic absorbing part 260 installed on the wire 250 and absorbing the over-pulling force acting more than a predetermined pulling force by the linear motion of the holding cylinder 220, and , The pressure supporter unit 240 is inserted into the manhole 110 without interference in a state parallel to the support 210 as the heavy side end is turned downward around the rotation shaft 230 by its own weight, and the manhole 110 When the support cylinder 220 is protruding to fix the position of the support 210 in the wire 250, the pressure supporter part 240 is rotated and arranged in the transverse direction as the wire 250 is pulled, and then a pair of mil pieces 242 The hydraulic water rotation system, characterized in that it is transferred in the opposite direction to each other and is provided to be pressurized and fixed to the inner circumferential surface of the culvert (100).
The method of claim 1,
The amount of water discharged through the discharge valve 442 is expanded 2 to 3 times compared to the amount transported through the discharge pipe 430 , and the discharge valve 442 is formed as a solenoid valve that is opened and closed by the control unit, and the temporary storage tank 440 ) is installed in the sensor 444 for detecting the water level, and when the water level is increased in the temporary storage tank 440 with the discharge valve 442 closed and detected by the sensor 444, the discharge valve 442 is operated by the control unit. Hydraulic water circulating system, characterized in that the discharged water stored in the open temporary storage tank (440) is discharged in an amount that is increased 2-3 times compared to the amount transported through the discharge pipe (430).
delete The method of claim 1,
The pressure supporter unit 240 is provided to be fixed in position by a stopper module 270 that is operated in conjunction with the pressure cylinder 241 in a state pivoted in the lateral direction,
The stopper module 270,
A slot groove 272 installed on the support 210 corresponding to the pressure cylinder 241 pivoted in the transverse direction, and spaced apart from the rotation shaft 230 to form an entry space 271;
It is installed in parallel with the pressure cylinder 241, one end is connected to the push piece 242, and the other end includes a rod rod 276 provided with a stop key 274 to engage and bind with the slot groove 272,
When the pressure supporter unit 240 is rotated and disposed in the transverse direction, the stop key 274 is located in the entry space 271 , and a pair of push pieces 242 are mutually reversed by the pressure cylinder 241 . While being transferred and pressurized to the inner circumferential surface of the culvert 100, the stop key 274 is engaged with the slot groove 272 to fix the horizontal position of the pressure supporter unit 240. Hydraulic water turning system.
The method of claim 1,
The water blocking part 300,
A center plate 310 installed on the support 210, and
A plurality of membrane plates that are installed in the vertical and left and right directions around the center plate 310, are transported in opposite directions on the guide rail 324 by the inner cylinder 322, and that the receiving groove 326 is formed on the outer circumferential surface. (320) and
One end is connected to one end of the membrane plate 320, and the other end is linked to one end of the neighboring membrane plate 320, and a link cylinder 330 that closes the space between the membrane plates 320 while stretching and controlling;
An expansion tube 340 installed in the receiving groove 326 of the membrane plate 320 and expanded by compressed air to be in close contact with the inner circumferential surface of the culvert 100,
An expansion membrane 342 connected to the expansion tube 340 and provided to close the inner space of the expansion tube 340;
Including an air pump module 350 provided to input and discharge compressed air into the expansion tube 340,
When compressed air is supplied through the air pump module 350 as the membrane plate 320 expands in the vertical and horizontal directions by the operation of the inner cylinder 322, the expansion tube 340 expands and the membrane plate 320 is expanded. and the culvert 100, a hydraulic water turning system, characterized in that it is provided to seal the space between the inner circumferential surface.
6. The method of claim 5,
The air pump module 350 is a cylindrical air pump 352, both ends connected to the membrane plate 320 corresponding to each other, and pumped in connection with the expansion and contraction operation of the inner cylinder 322,
An air hose 354 having one end connected to the cylindrical air pump 352 and the other end connected to the expansion tube 340,
It is connected to the air hose 354 and includes an over valve 356 for discharging when the compressed air acts above a predetermined pressure,
When the membrane plate 320 is expanded and moved by the inner cylinder 322, compressed air is output from the cylindrical air pump 352 to expand the expansion tube 340, and when the membrane plate 320 is contracted and moved, the cylinder type A hydraulic water return system, characterized in that the expansion tube (340) is contracted by sucking compressed air from the air pump (352).

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