KR101316939B1 - Water and sewage pipe laid under the ground - Google Patents

Abstract

PURPOSE: A sludge removal type underground installation water supply and sewage pipe is provided to prevent cracks on the water supply and sewage pipe due to a clogging phenomenon by easily removing immersed and deposited sludge. CONSTITUTION: A sludge removal type underground installation water supply and sewage pipe includes a first flow control valve, a second flow control valve, a branch pipe, a sludge removal unit, a pump, a control unit, and an input unit. The sludge removal unit comprises a scraper main body and a scraper drive motor. Supporting pipes (210,210') have a high pressure water fluid path (910) which is configured inside in the circumferential direction. Multiple high pressure chambers (920) are formed on the high pressure water fluid path. A high pressure water injection nozzle (930) is formed along the circumferential surface.

Description

Sewage removal underground buried water and sewage pipe {WATER AND SEWAGE PIPE LAID UNDER THE GROUND}

The present invention relates to a sludge removal type underground buried water and sewage pipe, and more particularly, by opening and closing the sludge in the water and sewage pipe at the same time the high pressure pump in the radial direction of the opening and closing plate by spraying and washing high pressure water. The present invention relates to a sludge removal type underground buried sewage pipe that is improved to prevent rotation of a plate and to perform a smooth sludge removal operation.

Typically, water and sewage pipes are installed to supply tap water or to drain sewage by using a transfer pipe embedded in the ground.

The water and sewage pipes contain impurities in addition to tap water or sewage that flows through time, and these impurities are attached or deposited on the inner circumferential surface so that the tap water or sewage cannot communicate smoothly, and the amount of deposition gradually increases. If badly, there is a problem that the interior is blocked.

In addition, if the tap water or sewage flows backward or difficult to flow due to such a waste phenomenon, internal pressure rises rapidly inside the sewage pipe, and a crack occurs in the sewage pipe itself, thereby exposing tap water or sewage to the outside. .

In addition, since most of the water and sewage pipes are buried in the ground, there is no means to remove sludge deposited inside once, and in the case of water supply pipes for supplying drinking water, sludge settled and deposited inside. ), The water quality may worsen, causing the disease.

In accordance with an embodiment of the prior art to improve this, Korean Patent Registration No. 0956645 (2010. 04. 29.) "sludge removal underground buried sewage pipe" has been disclosed.

By the way, in the case of the registered patent according to the prior art, when the sludge is already filled to some extent when the opening and closing plate is rotated, the rotation operation for opening and closing is difficult, and the driving motor is increased as the load is maintained while being held. Many disadvantages have been derived, including burning.

The present invention was created in view of the above-mentioned problems in the prior art as described above, and provides a sludge removal type underground buried sewage pipe that can easily remove sludge deposited and deposited in the sewage pipe. Sludge removal underground laying type to ensure smooth rotational state by smoothly rotating flow of the opening and closing plate which is essential for sludge removal, and washing the surrounding sludge by spraying high pressure water in the circumferential direction at the same time as the rotational flow. Its main purpose is to provide sewer pipes.

The present invention is a means for achieving the above object, in the water and sewage pipe having a transfer pipe 100 is formed in the ground so that the sewage flows into the ground, in the inner front of the transfer pipe 100 A first flow rate control valve 200 disposed to control the flow of the sewage flowing in one direction and the inflow of the flow rate; A second flow rate control valve 200 ′ disposed at an inner rear side of the transfer pipe 100 to intercept the flow of the sewage and flow of the sewage in one direction; It is disposed between the first flow control valve 200 and the second flow control valve 200 'installed inside the transfer pipe 100, one end is installed in communication with the outer surface of the transfer pipe 100, the other end is And is installed horizontally, the upper portion of the branch pipe 300 is provided with a cover 310 so as to check the inside; Hangers H1 and H2 positioned between the first flow control valve 200 and the second flow control valve 200 'and fixed to the inside of the transfer pipe 100, and the inner center of the transfer pipe 100, respectively. Both ends are rotatably installed on the hangers (H1, H2) so as to be rotated in the scraper body 410 and scraping the sludge (S) seated on the inner surface of the transfer pipe 100 and the transfer pipe 100 Sludge removal device 400 having a scraper driving motor 420 is installed on any one of the hangers (H1, H2) installed on the inner surface of the feeder to rotate the scraper body 410 along the inner surface of the transfer pipe (100). Wow; The inlet pipe 510 for penetrating the outer surface of the branch pipe 300 to the bottom of the transfer pipe 100 is forced to suction the mixture of sludge (S) and sewage is installed on one side, and protrudes into the ground on the other side A pump 500 provided with a discharge pipe 520 for forcibly discharging the mixture of the sludge S and the sewage forced into the pipe 510 to the outside; The first flow control valve 200 and the second flow control valve 200 ′ respectively disposed at the inner front and the rear of the transfer pipe 100 are opened or closed at the same time, respectively, and are attached to the inner circumferential surface of the transfer pipe 100. By controlling the operation of the sludge removal unit 400 installed in the longitudinal direction in the transfer pipe 100 so that the sludge (S) is forcibly released, by forcibly suctioning the mixture of the sewage and sludge (S) stirred and separated A controller 600 for controlling the operation of the pump 500 discharged to the outside; Including an input unit 700 for controlling the operation of the control unit 600, the inside of the support pipe (210, 210 ') further comprises a high-pressure water passage 910 along the circumferential direction, on the high-pressure water passage (910) At a predetermined interval, the high pressure water passage 910 further comprises a plurality of high pressure water chambers 920 having a spherical diameter, and the high pressure water chamber 920 has a high pressure water jet in various directions along its circumference. 930 is formed, the tip of the high-pressure water injection port 930 is pointed, the high-pressure water flow passage 910 is connected to a high-pressure water supply pipe (SP) consisting of a flexible corrugated pipe or bellows pipe, the high pressure The end of the water supply pipe (SP) is connected to the high-pressure water supply pump 900, the semicircular rubber ring installation groove 950 is formed in the center of the outer edge width of the opening and closing plates (230, 230 '), the rubber ring installation The rubber ring 940 is inserted into the groove 950 to open and close the plates 230 and 230 ′ and the support body 210. , 210 ') provides a sludge removing underground buried sewage pipe, characterized in that to improve the sealing force between.

According to the present invention, by installing a sludge removal apparatus inside the water and sewage pipe, the sludge deposited and deposited on the inner circumferential surface of the water and sewage pipe can be easily removed, thereby facilitating communication of tap water or sewage. It is possible to prevent cracks in the water supply and drainage pipes in advance, and to periodically remove sludge deposited and deposited on the inner circumferential surface of the water supply and drainage pipes. To keep things going.

1 is a front sectional view of a sludge removing underground buried sewage pipe according to an embodiment of the present invention;
Figure 2a to 2b is a perspective view and a front sectional view showing the main portion of the sewage control valve separately extracted from the sludge removing underground buried sewage pipe according to an embodiment of the present invention,
Figure 3 is a side view showing the sewage removal device portion separately from the sludge removal type underground buried sewage pipe according to an embodiment of the present invention,
Figure 4 is a block showing the interconnection relationship between the components of the sludge removing underground buried sewage pipe according to an embodiment of the present invention,
5a to 5b is a use state showing the operation relationship of the sludge removal type underground buried sewage pipe according to an embodiment of the present invention,
And
6 is an exemplary view showing an example in which a brush is installed around the opening and closing plate as a further embodiment 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.

Before describing the present invention, the following specific structural or functional descriptions are merely illustrative for the purpose of describing an embodiment according to the concept of the present invention, and embodiments according to the concept of the present invention may be embodied in various forms, And should not be construed as limited to the embodiments described herein.

In addition, since the embodiments according to the concept of the present invention can make various changes and have various forms, specific embodiments are illustrated in the drawings and described in detail herein. However, it should be understood that the embodiments according to the concept of the present invention are not intended to limit the present invention to specific modes of operation, but include all modifications, equivalents and alternatives falling within the spirit and scope of the present invention.

The present invention uses the previously registered Patent No. 0956645, which will be described later. Therefore, the features of the device configuration described below are all those described in the registered patent No. 0956645.

However, in the present invention, the part of the structure of the opening and closing plate improved among the components disclosed in the Patent Publication No. 0956645 constitutes the most essential structural feature.

Therefore, the device configuration, features and operation relations described below will be referred to the contents of the Patent No. 0956645 as it is, and will be described in detail with respect to the configuration associated with the main features of the present invention at the rear end.

As shown in Figures 1 to 3, sludge removal type underground buried sewage pipe according to the present invention, the transfer pipe 100 is installed to be embedded in the longitudinal direction in the ground; A first flow rate control valve 200 and a second flow rate control valve 200 'installed at each of the front and the rear of the transfer pipe 100 to control the inflow and outflow of the flow rate; Branch pipe 300 is installed on the outer surface of the transfer pipe 100 so that the inside can be observed from the ground; A sludge removal apparatus 400 installed between the first flow control valve 200 and the second flow control valve 200 ′ to remove the sludge deposited and deposited on the inner circumferential surface of the transfer pipe 100; A pump 500 for forcibly inhaling and discharging the mixture of the stirred sewage and sludge S; A control unit 600 for controlling the operation of each driving means; It is composed of an input unit 700 for controlling the operation of the control unit 600.

The transfer pipe 100 is a hollow tube in which the inside is in communication with the rectangle is made of a concrete material is embedded in the longitudinal direction in the ground.

The first flow control valve 200 and the second flow control valve 200 ′, which are installed at the front and rear of the inside of the transfer pipe 100 so as to control inflow and outflow of sewage, respectively, communicate with the inside. The support pipe bodies 210 and 210 ', which are fitted into the inner circumferential surface of the transfer pipe 100 by being cylindrical and fixed, and the shaft pins installed on the outer circumferential surface of the transfer pipe 100 and loaded in the same vertical line as the support pipes 210 and 210' ( Valve driving motors 220 and 220 'for axially rotating P and P', and a disk drive motor having a predetermined thickness and positioned on the inner circumferential surface of the support pipes 210 and 210 'and fixed by the shaft pins P. 220 and 220 ′, which are configured to be axially rotated by opening and closing plates 230 and 230 ′, which are illustrated in FIGS. 2A to 2B.

In addition, the outside of the valve driving motors 220 and 220 'is covered with a closed cover (C, C') to prevent the valve driving motors 220 and 220 'from malfunctioning due to moisture or rainwater introduced into the ground.

The branch pipe 300 is refracted and installed on the outer surface of the transfer pipe 100, one end is installed in communication with the outer surface of the transfer pipe 100, the other end is installed horizontally with the ground, and the upper cover to check the inside 310 is provided.

The branch pipe 300 discharges the sludge (S) deposited to the outside through the cover 310 seated on the upper portion of the concrete material, or the worker frequently checks the internal sewage flow state and the presence or absence of the sludge (S) You can check it.

In addition, since the section of the sewage flowing back through the branch pipe 300 can be roughly known, the sludge S of the closed part can be easily removed.

It is installed between the first flow control valve 200 disposed in the front and the second flow control valve 200 'disposed in the rear to remove the sludge (S) precipitated and deposited on the inner peripheral surface of the transfer pipe (100). Sludge removal unit 400 is positioned between the first flow control valve 200 disposed in the front and the second flow control valve 200 'disposed in the rear and fixedly installed in the transfer pipe 100, respectively Both ends are rotatably installed on the hangers H1 and H2 so as to be rotated at the inner centers of the hangers H1 and H2 and the transfer pipe 100, and the sludge mounted on the inner surface of the transfer pipe 100. Scraper body 410 to scrape and remove) and hangers (H1, H2) installed on the inner surface of the transfer pipe 100 is installed so as to rotate the scraper body 420 along the inner surface of the transfer pipe (100). The scraper drive motor 420 is configured to.

The hangers H1 and H2 fixed to the inside of the transfer pipe 100 are respectively fixed to the inner circumferential surface of the transfer pipe 100 by fixing means, and a case (not specifically shown) to the lower part. It is provided.

The scraper driving motor 420 or the bearing (not specifically shown) is mounted in the case (not specifically shown), and when the scraper driving motor 420 is mounted therein, the water is mounted inside. It is desirable to perform sealing to prevent inflow.

In addition, the case (not specifically shown) is preferably formed of aluminum or stainless steel that does not corrode fluids and dirt.

Both ends of the hangers H1 and H2 are loaded and rotated at the same time, and the scraper body 410 for removing sludge S deposited on the inner circumferential surface of the transfer pipe 100 has a predetermined thickness in a rectangular shape. Horizontal support 411 is installed in the longitudinal direction parallel to the inner circumferential surface of the pipe 100, the vertical support portion 412 is bent to the opposite ends of the horizontal support portion 411 and bent outward again, and the horizontal support portion ( 41 is mounted to protrude on the outer surface, and has a material of any one of a rubber material, a synthetic resin material or a metal material, to the pad portion 413 to scrape off the sludge (S) deposited on the inner peripheral surface of the transfer pipe (100). It is composed.

The scraper driving motor 420 and the bearing (specifically, the protrusions are mounted inside the hangers H1 and H2) outwardly of the vertical support part 412 bent in parallel or horizontally at both ends to the horizontal support part 411. Not shown) are respectively loaded and rotated by the driving force of the scraper driving motor 420, as shown in FIG.

In particular, the shape of the pad portion 413 is described as a rectangular piece having a predetermined thickness in the present embodiment, but in addition to the rectangular piece, the outer surface of the horizontal support part 411 may be attached to remove the sludge S. Various means that can be mounted may be mounted, but not limited thereto.

Figure 4 is a block diagram showing the interconnection relationship between the components of the sludge removing underground buried sewage pipe according to the present invention.

The pump 500 embedded in the ground and installed adjacent to the transfer pipe 100 or the branch pipe 300 has one side bends to the bottom surface of the transfer pipe 100 by penetrating through an outer surface of the branch pipe 300 and therein. Inlet pipe 510 for forced suction of the mixture of the mixed sludge (S) and sewage, one end is installed in communication with the outer surface of the pump 500, the other side is protruded to the ground for forced inlet through the inlet pipe 510 The sludge (S) and the discharge pipe 520 for discharging the mixture of sewage to the outside.

As illustrated in FIG. 3, the control unit 600 and the input unit 700 may include the first flow control valve 200 and the second flow control valve 200 ′ installed at the rear of the transfer pipe 100. The valve driving motors 220 and 220 'are operated at the same time or at the same time to control only the minimum 0 ° to the maximum 90 ° rotation. ) Controls the operation of the scraper drive motor 420 forcibly rotating the scraper main body 410 installed in the longitudinal direction of the inside, the mixture of the sewage and sludge (S) is separated and stirred through the inlet pipe 510 Forced suction, and controls the operation of the pump 500 to discharge to the outside through the discharge pipe (520).

The operation of the controller 600 is controlled by the input unit 700.

In particular, the control unit 600 and the input unit 700 are respectively installed in the control panel (not specifically shown) installed on the ground and installed adjacent to the branch pipe 300 so that the operator can easily operate.

Looking at the operational relationship of the present invention made of the above configuration as follows.

5a to 5b is a state diagram showing the operation relationship of the sludge removal type underground buried sewage pipe according to the present invention.

Sewage is flowed through the transport pipe 100 embedded in the ground, wherein sludge (S) contained in the inside of the sewage is also flowed together and gradually deposited on the inner circumferential surface of the transport pipe 100 to be deposited.

As described above, when the sludge (S) is precipitated and deposited on the inner circumferential surface of the transfer pipe 100, sewage does not flow smoothly, but the transfer pipe 100 itself is leaked, causing a backflow.

Therefore, the operator opens the cover 310 mounted on the upper portion of the branch pipe 300 at regular intervals to check whether the sewage flowing through the transfer pipe 100 smoothly flows, as shown in FIG. 4A. After confirming that the sludge (S) is precipitated and deposited to some extent on the inner circumferential surface of 100, the first flow control valve 200 and the second flow control through the control unit 600 installed in the control panel (not specifically shown). Operates the valve 200 'and the sludge removal unit 400.

As described above, when the control unit 600 is operated, the opening / closing plate 230 'installed at the rear of the open transfer pipe 100 is forcibly rotated by the valve driving motor 220' and the shaft pin P 'to distribute the inside. The flow of sewage is blocked so that the fluid no longer passes the section in which the second flow control valve 200 'is installed.

Therefore, the sewage is gradually filled in the transfer pipe 100 by the second flow control valve 200 ′ installed at the rear side.

As described above, the first flow control valve 200 installed in front of the transfer pipe 100 in the state in which the flow of sewage is blocked through the second flow control valve 200 'does not allow the sewage to flow therein anymore. To explain this in more detail, the opening and closing plate 230 of the first flow control valve 200 is forced to rotate by the valve driving motor 220 and the shaft pin (P) to be closed, and remove the sludge By operating the device 400 to remove the sludge (S) deposited and deposited on the inner circumferential surface of the transfer pipe 100 and to be stirred at the same time.

Referring to the operation relationship of the sludge removal unit 400 in more detail, the scraper body 410 is installed in each of the one side hanger (H1) and the other side hanger (H2) is a case of the one side hanger (H1) When not shown) forcibly rotated through the scraper driving motor 420 mounted inside the shaft is rotated together by a bearing (not specifically shown) mounted inside the other case (not specifically shown).

Operation of the sludge removal unit 400 is as shown in FIG.

At this time, the horizontal support portion 411 of the scraper body 410 is also rotated together, the pad portion 413 mounted to protrude on the outer surface of the horizontal support portion 411 is rotated together by the scraper body 410 and transport pipe 100 Sewage and sludge (S) by the continuous rotation of the scraper main body 410 mounted on the scraper driving motor 420 to remove the sludge (S) attached by scraping the sludge (S) sedimented and deposited on the outer surface of the force. Are mixed with each other to achieve agitation.

Therefore, when the sludge (S) precipitated on the inner circumferential surface of the transfer pipe 100 to some extent as described above, the agitated water of the sewage and the sludge (S) is mounted on one side of the pump 500 to be refracted to the branch pipe 300. Forced suction of the sewage and the sludge (S) through the inlet pipe 510, and discharged to the outside through the discharge pipe 520 mounted on the other side of the pump 500, as shown in Figure 5b.

When the above process is completed, stop the operation of the sludge removal unit 400 is rotated, the first flow control valve 200 is installed in the front and rear respectively so that the sewage flows smoothly into the transfer pipe 100; The opening and closing plates 230 and 230 'of the second flow control valve 200' may be opened using the valve driving motors 220 and 220 'to allow the sewage to flow smoothly.

The present invention includes the above configuration as it is, if there are sludge accumulated around before and after the operation of the opening and closing plates 230 and 230 ', the opening and closing plates 230 and 230' are prevented from rotating and lose the sealing force, and furthermore the valve driving motor It further includes a configuration in which the high pressure water is pumped before driving the opening and closing plates 230 and 230 'so as to prevent the defect such as the coil being burned due to the overload of the 220 and 220'.

That is, as shown in Figure 6, the high-pressure water flow passage 910 is further formed in the circumferential direction inside the support pipe (210, 210 ') of the circular frame.

The high pressure water passage 910 is formed in a tubular shape, and a plurality of spherical high pressure water chambers 920 are formed at regular intervals on the high pressure water passage 910.

At this time, the high-pressure water chamber 920 has a larger diameter than the high-pressure water passage 910, and because the high-pressure water has an internal space in which the high-pressure water can be retained, the high-pressure water is collected, the high-pressure water collected is a buffer function is performed uniformly It maintains pressure and maintains high pressure spraying.

In addition, the high pressure water chamber 920 is formed with a plurality of high pressure water injection port 930 along the outer peripheral surface.

The high-pressure water injection port 930 is formed so as to form a sharp tip of the end is formed to increase the injection pressure, the inclination angle is adjusted so that it can be concentrated in the circumference, that is, the rim of the support pipe (210, 210 ').

In addition, a portion of the high pressure water passage 910 is connected to the high pressure water supply pipe SP, and the high pressure water supply pipe SP is connected to the high pressure water supply pump 900 installed outside.

In this case, the high-pressure water supply pipe (SP) is preferably composed of a flexible expansion tube, which is because the point where the support pipes (210, 210 ') is always installed where the flow of water does not lead to disconnection or breakage due to poor fluidity. This is to prevent.

Preferred flexible tubes are plastic corrugated tubes or bellows tubes.

In addition, in order to improve the sealing force between the inner circumferential surface of the support pipes 210 and 210 'and the outer circumferential surface of the opening and closing plates 230 and 230', a semicircular rubber ring installation groove 950 is formed along the circumference of the opening and closing plate 230 and 230 '. ) Is formed in the urine.

In addition, a circular rubber ring 940 is fitted into the rubber ring installation groove 950.

Then, since the rubber ring 940 is interposed between the inner circumferential surfaces of the support tubes 210 and 210 'and the opening and closing plates 230 and 230', the sealing force is further improved.

As described above, a further embodiment according to the present invention is opened and closed to prevent the sludge is accumulated when the sludge is accumulated at the time of rotation before and after the support pipes 210 and 210 'at the point where the opening and closing plates 230 and 230' are rotated. Before the plates 230 and 230 'are rotated, the high pressure water supply pump 900 is operated to supply high pressure water, and the supplied high pressure water is injected at high pressure in the circumferential direction of the opening and closing plates 230 and 230' through the high pressure water injection port 930. As it cleans the surrounding sludge cleanly, it is possible to completely solve the rotation failure caused by interference or pinching during the rotation.

Furthermore, in the present invention, the rubber ring 940 is inserted and installed along the circumference of the opening and closing plates 230 and 230 ', and the sealing property of the support pipes 210 and 210' with the edges is increased through the rubber ring 940. This will improve the smoothness and efficiency.

100: transfer pipe 200. 200 ': flow control valve
210. 210 ': Supporting tube 220. 220': Drive motor
230. 230 ': opening and closing plate 300: branch pipe
310: cover 400: sludge removal unit
410: scraper main body 500: pump
600: control unit 700: input unit

Claims (1)

In the water and sewage pipe having a transport pipe 100 is formed in the ground so that the sewage flows into the ground,
A first flow control valve (200) disposed in the front of the transfer pipe (100) to control the flow of sewage and flow in one direction; A second flow rate control valve 200 ′ disposed at an inner rear side of the transfer pipe 100 to intercept the flow of the sewage and flow of the sewage in one direction; It is disposed between the first flow control valve 200 and the second flow control valve 200 'installed inside the transfer pipe 100, one end is installed in communication with the outer surface of the transfer pipe 100, the other end is And is installed horizontally, the upper portion of the branch pipe 300 is provided with a cover 310 so as to check the inside; Hangers H1 and H2 positioned between the first flow control valve 200 and the second flow control valve 200 'and fixed to the inside of the transfer pipe 100, and the inner center of the transfer pipe 100, respectively. Both ends are rotatably installed on the hangers (H1, H2) so as to be rotated in the scraper body 410 and scraping the sludge (S) seated on the inner surface of the transfer pipe 100 and the transfer pipe 100 Sludge removal device 400 having a scraper driving motor 420 is installed on any one of the hangers (H1, H2) installed on the inner surface of the feeder to rotate the scraper body 410 along the inner surface of the transfer pipe (100). Wow; The inlet pipe 510 for penetrating the outer surface of the branch pipe 300 to the bottom of the transfer pipe 100 is forced to suction the mixture of sludge (S) and sewage is installed on one side, and protrudes into the ground on the other side A pump 500 provided with a discharge pipe 520 for forcibly discharging the mixture of the sludge S and the sewage forced into the pipe 510 to the outside; The first flow control valve 200 and the second flow control valve 200 ′ respectively disposed at the inner front and the rear of the transfer pipe 100 are opened or closed at the same time, respectively, and are attached to the inner circumferential surface of the transfer pipe 100. By controlling the operation of the sludge removal unit 400 installed in the longitudinal direction in the transfer pipe 100 so that the sludge (S) is forcibly released, by forcibly suctioning the mixture of the sewage and sludge (S) stirred and separated A controller 600 for controlling the operation of the pump 500 discharged to the outside; Including an input unit 700 for controlling the operation of the control unit 600,
The high pressure water flow passage 910 is further configured in the support pipes 210 and 210 'along the circumferential direction.
On the high pressure water flow channel 910 and at a predetermined interval, and further comprises a plurality of high pressure water chamber 920 having a spherical diameter larger than the high pressure water flow channel 910,
The high-pressure water jet 930 is formed in the high-pressure water jet 930 in various directions along the circumference thereof, the tip of the high-pressure water jet 930 is pointed,
The high pressure water flow passage 910 connects a high pressure water supply pipe (SP) consisting of a flexible corrugated pipe or a bellows pipe,
An end of the high pressure water supply pipe (SP) is connected to the high pressure water supply pump 900,
Semicircular rubber ring installation grooves 950 are formed in the center of the outer edge width of the opening and closing plates 230 and 230 ',
The rubber ring installation groove 950, the rubber ring 940 is fitted to improve the sealing force between the opening and closing plate (230,230 ') and the support pipe (210,210'), sludge removal underground buried type sewage pipe.

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