KR101361660B1 - Manhole assembly - Google Patents

Abstract

A manhole assembly according to an embodiment of the present invention includes a case embedded into the ground and formed in a metal material; a support unit supporting a pipe by individually protruding to the inside and the outside of the case; a seamed pipe protruding from both ends of the support unit in a radial direction and having an insertion groove in which a rubber ring is inserted; and a flange having a ring-shaped protrusion pressing the rubber ring for improving water tightness of the seamed pipe.

Description

Manhole Assembly

The present invention relates to a manhole assembly, and more particularly to a manhole assembly formed of a metal material and easy to install on-site.

In general, a manhole is a general term for a facility that allows a person to enter and exit for maintenance and repair of various pipelines installed underground. Such a manhole is a channel for supplying various sewage, living and industrial water, or a facility for various telecommunications. To be installed at regular intervals in the middle of the pipeline.

Conventional manholes have a cast-in-place manhole that makes formwork and installs concrete in the field, and has a precast manhole that can be assembled and installed after dividing into lower, vertical, and upper spheres in advance. .

However, manholes made of concrete are constantly exposed to toxic wastewater and toxic strong acidic chemical gases from the wastewater, and these pollutants and chemical gases cause weathering and erosion of the junctions and inner walls of the manhole. Therefore, the sewage pipe connection part is a situation that most of the water leakage occurs after a certain period of time, the durability of the manhole is also greatly off, there is a problem that the service life is extremely short. In addition, the weight is very heavy, there is a problem that the transport and installation of the manhole is not easy.

On the other hand, in general, the manhole is installed to be buried in the ground, if the ground subsidence occurs, there is a problem that the shear stress is generated in the connection portion between the manhole and the pipe shear shear fracture.

The present invention has been made to solve the above problems, an object of the present invention is to provide a manhole assembly with a long life and easy on-site installation.

Still another object of the present invention is to provide a manhole assembly capable of preventing a shear failure phenomenon due to shear stress generated during floating settlement.

Manhole assembly according to an aspect of the present invention for achieving the above object is

A joint pipe having a case buried in the ground, a support part protruding into and out of the case to support a pipe, and a connection part formed at both ends of the support part in a radial direction and having an insertion groove into which a rubber ring is inserted; Coupled with the connection portion may be provided with an annular projection for pressing the rubber ring to improve the watertightness of the joint pipe.

The case may include a pedestal which is provided inside the bottom of the case so as not to flow the drainage provided in the case, and a drain pit provided on the bottom outside of the case to temporarily store water generated in the case. And a plurality of haunches each provided at an upper outer side of the drain pit and an upper inner side of the case to prevent cracking due to stress concentration, and a lifting ring provided at the upper outer side of the case to easily lift the case. can do.

The cap member may further include a cap member including a cover member surrounding the connection part and the flange protruding to the outside of the case, and a support member coupled to the cover member to surround the connection part and the remaining part of the flange.

The cap may be formed in a triangular cross-section so that the load of the upper side of the fitting pipe is received by the soil.

The cap may further include a support for supporting the support member.

In the housing formed with a foreign material discharge port coupled to the pipe to discharge the foreign matter is installed lower than the lower end of the pipe and prevents the vortex, and toward the first discharge port to discharge the water from the first inlet through which the water is introduced A foreign matter discharge device having a plurality of screens gradually increasing; And a valve body having a body and a fixed flange coupled to a second inlet through which the water is introduced and extending toward a second outlet through which the water is discharged, and an outer circumferential surface of the flow valve coupled to the second outlet. And an expansion pipe including an expansion valve including an expansion valve including an expansion valve having an expansion ring, a pressure ring for improving the watertightness of the valve body, and an expansion flange for preventing the expansion valve from being separated from the body. .

In addition, the manhole assembly according to another aspect of the present invention for achieving the above object is buried in the ground and the insertion hole is formed on the side, and the insertion pipe is inserted into the insertion hole is fixed to the case through the pipe And a flange provided at one end of the connection pipe to improve watertightness with the pipe.

The connecting tube may have a first length having a predetermined length and surrounding a portion of the outer circumferential surface of the pipe, and a second partial body coupled to the first partial body to surround the remaining part of the outer circumferential surface of the pipe. .

The first part and the second part are provided with a through part formed with a through hole through which the pipe passes, a case coupling part provided on an outer circumferential surface of the through part, and coupled to the case, and provided at both ends of the through part. Flange coupling portions engaging with the flange can be formed respectively.

In addition, the manhole assembly according to another aspect of the present invention for achieving the above object is a lower case, the upper case is coupled to the lower case, the upper case is coupled to the lower case and the lower case is installed; A case provided between the upper case and the lower case, the case including a coupling device for coupling the upper case and the lower case, a support part protruding into and out of the case to support the pipe, and radially at both ends of the support part. It may include a joint pipe having a connection portion formed with an insertion groove protruding and inserting a rubber ring, and a flange having an annular projection coupled to the connection portion and compressing the rubber ring to improve watertightness of the joint pipe. .

The coupling device includes an upper coupling plate provided at the lower portion of the upper case to be easily coupled to the lower case, and a lower coupling plate provided at an upper portion of the lower case to abut on one surface of the upper coupling plate; A fixing member inserted into a plurality of fixing grooves respectively formed in the upper coupling plate and the lower coupling plate to fix the upper coupling plate and the lower coupling plate, and the upper coupling plate and the lower coupling coupled by the fixing member. A caulking material for improving watertightness can be provided between the gaps of the plate.

The joint pipe may include an upper joint pipe formed to protrude into and out of the upper case, and a lower joint pipe coupled to the upper joint pipe and protruded into and out of the lower case, respectively.

The coupling device is provided on an upper portion of the lower case so that the upper case is placed on the horizontal coupling plate, extending from both ends of the horizontal coupling plate and vertically perpendicular to the horizontal coupling plate to form an inner space A pair of vertical coupling plates and the inner space may be provided with a caulking material to improve the watertightness between the horizontal coupling plate, the upper case and the lower case.

According to the manhole assembly according to the present invention, the manhole assembly is formed of a metal material can be combined with a variety of devices through a variety of coupling methods can be easily installed in the field.

In addition, the cap is provided at the connection portion of the manhole and the pipe to increase the resistance to the shear stress to prevent the shear failure phenomenon occurs during floating settlement.

1 is a cross-sectional view showing a manhole assembly according to an embodiment of the present invention.
Figure 2 is a plan view showing a manhole assembly according to an embodiment of the present invention.
3 is a perspective view showing a cap according to an embodiment of the present invention.
4 is a perspective view showing a cap according to another embodiment of the present invention.
5 is a perspective view showing a foreign substance discharge device according to an embodiment of the present invention.
6 is a cross-sectional view showing the expansion tube according to an embodiment of the present invention.
7 is a cross-sectional view showing a manhole assembly according to another embodiment of the present invention.
8 is a perspective view showing a connector according to another embodiment of the present invention.
9 is a cross-sectional view showing a manhole assembly according to another embodiment of the present invention.
10 is a perspective view showing a case according to another embodiment of the present invention.
11 is a cross-sectional view showing another embodiment of a coupling device according to another embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a manhole assembly according to an embodiment of the present invention.

1 is a cross-sectional view showing a manhole assembly according to an embodiment of the present invention, Figure 2 is a plan view showing a manhole assembly according to an embodiment of the present invention.

As illustrated in FIGS. 1 and 2, the manhole assembly 10 according to the exemplary embodiment of the present invention may be formed of a metal material and embedded in the ground and protrudes into and out of the case 100, respectively. A joint having a support part 210 for supporting the pipe 20 and a connection part 220 having radially protruding ends and an insertion groove 221 into which a rubber ring 222 is inserted is formed at both ends of the support part 210. A flange 500 is provided with an annular protrusion 510 which is coupled to the pipe 200 and the connection part 220 and compresses the rubber ring 222 to improve the watertightness of the joint pipe 200. .

The case 100 is formed of a metal material can be shortened the production time than when manufacturing with a PC, can be easily bonded to the pipe 20 or various valves, etc., easy to assemble and dismantle according to the surrounding environment can do.

The shape of the case 100 is a cylindrical shape having a circular cross section, and a pair of cross sections and side surfaces may be integrally manufactured.

The case 100 is formed of a metal material can be shortened the production time than when manufacturing with a PC, can be easily bonded to the pipe 20 or various valves, etc., easy to assemble and dismantle according to the surrounding environment can do.

In addition, the case 100 includes a separate base plate 700 for supporting the case 100 and a base plate 710 coupled by an anchor on the base plate 700 according to the buried ground. It may be provided below, and may be such that the case 100 is supported by the base plate 710 without the base plate 700. The base plate 700 may be made of concrete that is generally used in the construction site.

On the other hand, the case 100 is provided in the lower inner side of the case 100 to support the various devices provided inside the case 100 so as not to flow, and is provided on the lower outer side of the case 100 A drain pit 120 temporarily storing water generated inside the 100 and a plurality of upper portions of the upper outer side of the drain pit 120 and the upper inner side of the case 100 to prevent cracking due to stress concentration. The haunch 130 and the upper outer side of the case 100 may be provided with a lifting ring 140 to facilitate the case 100 is lifted. In addition, a ventilation unit 150 provided at one end of the case 100 to allow the internal air of the case 100 to be discharged to the outside, and formed at an upper portion of the case 100 to allow an operator to enter and exit the case 100. It is provided in the doorway 170, the manhole cover 190 which is provided at the upper portion of the doorway 170 to block the usual doorway 170, and the case 100 to facilitate the operator inside the case 100 Ladder 160 to enter into may be provided.

The pedestal 110 provided in the lower inner side of the case 100 has one end fixed to the case 100 and the other end forms a ring 111 so that various devices provided inside the case 100 are connected to the ring 111. By being fitted, various devices can be prevented from flowing. The pedestal 110 may be provided with one or more pieces according to the number or weight of various devices provided in the case 100. In addition, the ring 111 may be detached from the various devices so as not to cause inconvenience in construction when replacing or repairing the various devices.

The drain pit 120 provided at the lower outer side of the case 100 may be joined to the case 100 by opening one surface thereof in contact with the case 100. Water generated inside the case 100 through one open surface may be temporarily stored in the drain pit 120.

In addition, a haunch 130 may be provided on the upper outer side of the drain pit 120 and the upper inner side of the case 100, respectively. The haunches 130 provided at the upper outer side of the drain pit 120 and the upper inner side of the case 100 may be provided in plural and maintain a predetermined interval.

The upper outer side of the drain pit 120 is relatively vulnerable to stress as a position to be bonded to the case 100. In addition, the upper part of the case 100 is covered with various finishing materials such as concrete or asphalt after the case 100 is buried in the ground. Moreover, people or vehicles can pass over them. For this reason, stress may be concentrated on the case 100 and the case 100 may be destroyed. In order to solve this problem, a haunch 130 may be provided on the upper outer side of the drain pit 120 and the upper inner side of the case 100.

On the other hand, the case 100 is provided with a lifting ring 140 on the upper outer side can easily move the manhole assembly 10 produced in the factory to the embed position.

For example, the manhole assembly 10 manufactured in the factory can be easily moved to a mobile vehicle by connecting the lifting device to the lifting ring 140 without installing a separate packing or lifting equipment, and after moving to the site After lifting directly to the buried position in the vehicle, the lifting operation is completed by separating the lifting device from the lifting ring 140. As a result, since the separate packaging or lifting equipment is installed after the installation and the separate packaging or lifting equipment required for lifting, the process of disassembling the separate packaging or lifting equipment is not necessary, thereby improving construction performance.

Ventilation unit 150 provided on the side surface of the case 100 may be provided such that one end is connected to the inside of the case 100 and the other end protrudes to the ground. The ventilation unit 150 is provided in the case 100 to form a sealed space, thereby preventing condensation that may occur in the case 100, and even if the temperature rises in the case 100. Since ventilation is performed through 150, it is possible to prevent deformation or destruction of various devices due to temperature rise.

In addition, the upper portion of the case 100 may be formed with an entrance 170 that allows the worker to enter and exit the case 100. Inside the side surface of the case 100 adjacent to the upper part of the case 100 having the doorway 170 formed therein, a ladder to easily enter and exit the case 100 by an operator who wants to enter and exit the case 100 through the doorway 170 ( 160 may be provided.

The ladder 160 may be manufactured and provided integrally with the case 100, and may be used by being coupled to the case 100 only when the worker works through various coupling methods.

In addition, the upper portion of the doorway 170 is provided to serve as a blockage of the door 170 in normal times so that people or vehicles can pass over it, and when the worker has to enter the inside of the case 100 to work A manhole cover 190 may serve as a door to allow access to the case 100 through the door 170.

The manhole cover 190 may be made of cast iron so that even if a person or a vehicle passes over the manhole cover 190, the manhole cover 190 may not be destroyed or deformed.

On the other hand, inside the case 100 may be provided with a dilution valve 180 is supported by the pedestal 110 and the one end is coupled to the pipe 20 coming into the case 100 from the outside of the case 100. The dilution valve 180 may be connected to the pipe 20 coming into the case 100 to adjust the water pressure of the drainage water flowing through the pipe 20.

In addition, one end of the expansion pipe 400 is coupled to the other end of the dilution valve 180 to prevent the pipe 20 from being deformed or destroyed due to the water pressure received by the pipe 20, and to the other end of the expansion pipe 400. One end of the foreign matter discharge device 300 to collect and settle the foreign matter flowing along the pipe 20 may be combined. In addition, the other end of the foreign substance discharge device 300 may be coupled to the pipe 20 that goes out of the case 100 from the inside of the case 100.

In the position where the pipe 20 enters the case 100 and exits the case 100, the support part 210 protrudes into and out of the case 100 to support the pipe 20, and the support part 210. A joint pipe 200 having a connecting portion 220 protruding in a radial direction at both ends thereof may be formed.

The support portion 210 is made of an inner space somewhat larger than the diameter of the pipe 20, so that the pipe 20 can move freely in the inner space of the support 210.

The connection part 220 is formed with an insertion groove 221 to the outside of the corner formed by being coupled to the support 210. Insertion groove 221 is formed to be inclined may be smaller in size toward the inner side of the case 100. The insertion groove 221 is provided with a rubber ring 222, the same as the insertion groove 221 is provided in the form of the size is gradually smaller toward the inside of the case 100 may be formed in a triangular shape in cross section.

The flange portion 500 having a plate shape having the same size as the connection portion 220 may be coupled to the connection portion 220 protruding from both ends of the support portion 210. In addition, the flange 500 may be provided with an annular protrusion 510 at a position in contact with the rubber ring 222 provided in the connecting portion 220. The rubber ring 222 of the connecting portion 220 is compressed by the annular projection 510 of the flange 500, the compressed rubber ring 222 to close the gap between the joint pipe 200 and the pipe 20. Can be. As a result, the watertightness between the fitting pipe 200 and the pipe 20 is improved to prevent groundwater existing in the ground from penetrating into the case 100 through the gap between the fitting pipe 200 and the pipe 20. can do.

Although not shown in the drawings, the configuration and shape of the connection part 220 and the flange 500 may be variously modified to improve the watertightness between the fitting pipe 200 and the pipe 20.

Meanwhile, the cap 600 may be further provided on the fitting pipe 200 protruding to the outside of the case 100.

3 is a perspective view showing a cap according to an embodiment of the present invention.

As shown in FIG. 3, the joint pipe 200 protruding to the outside of the case 100 includes a cover member 610 surrounding a part of the joint pipe 200 and a cover member 610, and the joint pipe 200. Cap 600 is provided with a support member 620 surrounding the remaining portion of the).

The reason why the cap 600 is provided in the fitting pipe 200 protruding out of the case 100 is as follows.

The manhole assembly 10 is embedded in the ground. Therefore, if the ground subsidence occurs, the effect can be transmitted to the manhole assembly 10 as it is. However, since the dividing valve 180, the foreign substance discharge device 300, the expansion pipe 400, and the joint pipe 200 protruding into the case 100 are provided in the case 100, the case 100 is used. You can be protected. On the contrary, since the joint pipe 200 protruding outside the case 100 is not protected from the case 100, shear failure may occur under the influence of the shear stress caused by the floating settlement. Therefore, the cap 600 is provided to prevent shear failure that may occur in the joint pipe 200 protruding out of the case 100.

On the other hand, the cap 600 provided in the fitting pipe 200 protruding out of the case 100 may have a triangular cross section. The reason why the cross section of the cap 600 is formed into a triangle is as follows. When the floating hole occurs after the manhole assembly 10 is buried in the ground, the earth and sand accumulated on the upper portion of the fitting pipe 200 serves to add force to the shear stress generated by the floating settlement. Therefore, by minimizing the area of the upper part so that the load of the soil is added to the shear stress, the side surface is inclined to allow the soil to flow naturally, thereby preventing the soil from accumulating on the upper part. In order to achieve the effects described above, the cross section of the cap 600 may be formed in a triangle.

In addition, a flange coupled to the connection part 220 and the connection part 220 of the first coupling groove 660 and the fitting pipe 200 into which the pipe 20 is inserted is formed inside the cover member 610 and the support member 620. A second coupling groove 670 into which the 500 is inserted may be formed.

In addition, a hinge shaft 640 is provided at one side of the cover member 610 and the support member 620, and a coupling member 650 is provided at the other side. Therefore, the cover member 610 and the support member 620 can be opened and closed by using the hinge shaft 640 as an axis, so that an operator can easily open and close it. After the cap 600 is coupled to the fitting pipe 200, the cap 600 may be fixed so as not to be separated from the fitting pipe 200 through the coupling member 650.

In addition, the cap 600 is further provided with a support 630 for supporting the support member 620. One end of the support 630 may be bonded to the bottom surface of the support member 620, and the other end thereof may be coupled to the base plate 710 supporting the case 100.

On the other hand, the cross section of the cap 600 is formed in a triangle, the coupling method using the hinge axis 640 and the coupling member 650 and the support 630 for supporting the support member 620 is site conditions or design changes It may be provided in a variety of forms and methods in addition to the form described above.

Hereinafter, a cap according to another embodiment of the present invention will be described. In this case, in the following description, only different parts from the above-described embodiment will be described in detail, and the detailed description of the same or extremely similar parts will be omitted.

4 is a perspective view showing a cap according to another embodiment of the present invention.

As shown in FIG. 4, the cap 600 may have a circular cross section of the cover member 610 and the support member 620, and may be formed to surround the fitting pipe 200.

One end of the support 630 supporting the support member 620 may be coupled to the case 100 such that the support member 620 is fixed to the case 100. Therefore, the supporting member 620 may be supported from the case 100 by the support 630.

The support 630 may be formed in various forms in consideration of site conditions.

For example, a plurality of cylindrical members are provided between the case 100 and the support member 620 at regular intervals, and both ends thereof are coupled to the case 100 and the support member 620 to be supported by the case 100. You can do that.

In addition, a portion of the pipe 20 positioned between the case 100 and the support member 620 is inserted into one surface thereof, and both ends are coupled to the case 100 and the support member 620 to respectively support the support member 620. At the same time as being supported by the case 100, the pipe 20 can be supported, so that the cap 600 can be supported more effectively.

In addition, the cover member 610 and the support member 620 is provided with a coupling member 650 on one side and the other side facing each other, the cover member 610 and the support member 620 can be combined and after May be fixed so as not to deviate.

Since the cap 600 is provided as in another embodiment of the present invention, the cap 600 may be easily supported without the base plate 700 or the base plate 710.

Next will be described with respect to the foreign matter discharge device 300 and the expansion pipe 400 provided in the manhole assembly 10.

5 is a perspective view showing a foreign substance discharge device according to an embodiment of the present invention.

As illustrated in FIG. 5, the foreign matter discharge device 300 may include a housing 310 in which a foreign matter discharge port 311 is formed to discharge the foreign matter accumulated in the pipe 20.

The housing 310 and the inclined plate 320 is installed lower than the lower end of the pipe 20 in the housing 310 and the foreign matter discharge port 311 is coupled to the pipe 20 to discharge the foreign matter and the It may include a plurality of screens 330 to reduce the flow rate of the water flowing from the first inlet 340 to the first outlet 350 to the minimum.

The foreign substance discharge device 300 is a device for discharging the foreign matter generated in the water and industrial pipe 20, the foreign matter precipitated in the pipe 20 may be moved to the foreign substance discharge device 300 to be discharged to the outside.

The housing 310 is coupled to the pipe 20, the first inlet 340 through which water is introduced, the first discharge port 350 through which the water is discharged, and the foreign matter discharge port 311 for discharging the foreign matter is formed Can be.

Outside the first inlet 340 and the first outlet 350 is coupled to a conventional valve to open and close the flow of water in the pipe 20 to separate the housing 310 from the pipe 20 separately It is also desirable to minimize the leakage of water.

In addition, the first inlet 340 and the first outlet 350 may be changed according to the direction in which the water enters.

The foreign substance discharge port 311 may move to the foreign substance discharge device 300 by moving the foreign substance precipitated in the pipe 20 to discharge the foreign substance to the outside when the foreign substance is precipitated in the foreign substance discharge device 300. .

On the other hand, the inclined plate 320 may be attached to the inside of the body of the housing 310 to prevent the vortex of water flowing through the first inlet 340. The inclined plate 320 is attached to the inside of the body formed in a circular shape may be installed lower than the lower end of the first inlet 340 and the first outlet (350). In addition, the inclined plate 320 may be fixed to one side surface of the body 310 of the housing 310 and the side surface formed under the first outlet 350.

And the inclined plate 320 is fixed to the body of the housing 310 except for the lower portion of the first inlet 340 of the housing 310 according to the water pressure or the size of the housing 310 is introduced into the housing 310 Can be formed.

The inclined plate 320 has a lower portion of the first inlet 340 opened so that foreign matters from the pipe 20 flowing into the housing 310 through the first inlet 340 pass through the first inlet 340. Can be precipitated downwards.

The screen 330 may be installed at a predetermined interval on the inclined plate 320 to reduce the flow rate of the water flowing from the first inlet 340 to the first outlet 350 to a minimum. The height of the screen 330 may be gradually increased toward the first outlet 350 from the first inlet 340, the height of the upper end of the screen 330, the highest of the plurality of screen 330 is It may be greater than or equal to the center of the first inlet 340 and the first outlet (350).

For example, when the foreign matter flowing into the housing 310 through the first inlet 340 does not settle due to the flow rate, the foreign matter flowing to the inclined plate 320 moves to the first outlet 350. 330 may be precipitated downward. However, if the screen 330 is the same size as the upper portion of the first outlet 350, the water flowing to the first outlet 350 may be lowered by the screen 330, so the height of the screen 330 is It may be above the center.

6 is a cross-sectional view showing the expansion tube according to an embodiment of the present invention.

As shown in FIG. 6, the valve body coupled to the pipe 20 and coupled to the second inlet 410 through which water is introduced, and the second outlet 420 through which the water is discharged, and the second inlet 410, are provided. 430 and the expansion valve 440 coupled to the second outlet 420 and the expansion and contraction portion 450 for adjusting the expansion and contraction of the expansion pipe 400.

The expansion pipe 400 may absorb the expansion and contraction of the pipe 20 by the temperature. In addition, the expansion pipe 400 may be formed of a steel pipe to prevent shear destruction due to ground subsidence.

In addition, the expansion pipe 400 may adjust the separation prevention and the amount of expansion and contraction in order to effectively suppress the shear stress generated during expansion and contraction of the pipe 20 joint.

Outside the second inlet 410 and the second outlet 420 by combining a conventional valve to open and close the flow of water in the pipe 20, the expansion pipe 400 separately from the pipe 20 Even when separating, it is desirable to minimize the leakage of water.

The valve body 430 is coupled to the second inlet 410 and the body 431 is formed to extend in the direction of the second outlet 420, the fixed flange is formed to be coupled to the end of the body 431 ( 432 may be provided. In addition, the valve body 430 extends toward the second discharge port 420 from the end of the engaging jaw 433 is formed extending in diameter at the end of the body 431, the end of the engaging jaw 433 An insertion hole 434 and a locking protrusion 435 formed on the inner circumferential surface of the insertion hole 434 may be further provided.

The body 431 is coupled to the second inlet 410 is formed in the same circular shape as the pipe 20 is coupled to the second inlet 410 is a smooth flow of the fluid is formed, the second outlet 420 may extend in a direction. In addition, the body 431 extends toward the second discharge port 420 from the outer end of the locking jaw 433 and the locking jaw 433 is formed extending in diameter at one end of the second discharge port 420 direction Insertion hole 434 is formed can be formed. In addition, the fixing flange 432 may be coupled to the end of the insertion hole 434.

The locking step 433 is the expansion valve (440) is inserted into the insertion hole 434, the diameter is increased at the end of the body 431 so as to stop when inserted over a certain distance to form a step by the expansion valve ( 440) can be taken.

The insertion hole 434 is formed toward the second discharge port 420 at the outer end of the locking jaw 433 and may be formed to have a size to which the expansion valve 440 may be inserted. In addition, a locking protrusion 435 may be formed on the inner circumferential surface of the insertion hole 434.

The locking projection 435 is formed on the inner circumferential surface of the insertion hole 434 may be formed in the same circular shape as the insertion hole 434. The locking protrusion 435 may have a space formed therein to contact the expansion valve 440 when the expansion valve 440 is inserted into the insertion hole 434. In addition, the locking protrusion 435 is a gap between the insertion port 434 and the expansion valve 440 when the expansion valve 440 is inserted into the insertion hole 434 to the expansion pipe 400 The expansion valve 440 and the locking protrusion 435 may be firmly formed so that the fluid flowing therethrough is not discharged to the outside. The locking protrusion 435 forms a distance with the locking jaw 433 by a predetermined distance so that the expansion pipe 400 is moved even when the expansion valve 440 moves toward the second outlet 420. It is possible to prevent the fluid flowing through it from being discharged to the outside.

The expansion valve 440 includes a flow valve 441 inserted into the body 431 and coupled to the second outlet 420, and an expansion ring 442 formed on an outer circumferential surface of the flow valve 441. can do.

The flow valve 441 may be coupled to the second outlet 420 and inserted into an insertion hole 434 formed at an end of the body 431 to be contracted and expanded by the flow of a fluid. The flow valve 441 may be firmly coupled to the insertion hole 434 by a locking protrusion 435 formed at the insertion hole 434.

The expansion ring 442 may be formed on the outer circumferential surface of the flow valve 441 and may be formed as a circular ring. The expansion ring 442 may be coupled to the flow valve 441 to move in the same direction in which the flow valve 441 moves by contraction and expansion.

The expansion and contraction portion 450 is inserted into the fixed flange 432 and the fixing bolt 451, the fixing bolt 451 is fitted to improve the watertightness of the valve body 430 and the expansion valve 440. It may be provided with a pressure ring 452 and the expansion flange 453 is inserted into the fixing bolt 451 to prevent the expansion valve 440 is separated from the body 431.

The fixing bolt 451 may be inserted into a plurality of fixing holes formed in the fixing flange 432 to fit the pressure ring 452 and the expansion flange 453. Inserting the expansion flange 453 of the fixing bolt 451 is to lengthen the length so as to fit both the pressing ring 452 and the expansion flange 453, the pressing ring 452 and the expansion flange. A nut may be inserted into the fixing bolt 451 to prevent the 453 from being separated.

In addition, by fitting the nut to the fixing bolt 451 it is possible to adjust the interval and position of the pressing ring 452 and the expansion flange 453.

The pressure ring 452 is fitted to the fixing bolt 451 may be formed of a circular ring. The inner circumferential surface of the pressure ring 452 extends toward the second inlet 410 and may be inserted between the insertion hole 434 and the flow valve 441. The pressure ring 452 is inserted up to the engaging protrusion 435 to improve the watertightness between the insertion hole 434 and the flow valve 441, so that the fluid flows to the outside when the fluid flows inside the expansion pipe 400. Can be prevented from being released.

The expansion flange 453 may be formed on the end of the fixing bolt 451 to be caught by the expansion ring (442). The expansion flange 453 may be installed only in a small amount of the plurality of fixing bolts 451, the fixing bolt 451 to fit the expansion flange 453 may be formed longer than the position where the expansion ring 442 is located.

Meanwhile, the pipes 20 connected to the manhole assembly 10 may enter the case 100 through the door 170 of the case 100 and then protrude out of the case 100 through the fitting pipe 200. have. However, when the length of the pipe 20 is long, it cannot enter the case 100 through the doorway 170. In order to solve this problem, in addition to the doorway 170, a space for entering the pipe 20 into the case 100 is required.

7 to 8 show another embodiment of the manhole assembly for solving the above problems.

In the following description of the manhole assembly according to another embodiment of the present invention, the same reference numerals are used for the same parts as the above-described embodiment, and a detailed description thereof will be omitted.

7 is a cross-sectional view showing a manhole assembly according to another embodiment of the present invention, Figure 8 is a perspective view showing a connector according to another embodiment of the present invention.

As shown in FIGS. 7 to 8, the manhole assembly 10 according to another embodiment of the present invention includes a case 100 embedded in a ground and an insertion hole 108 formed at a side thereof, and the insertion hole 108. Inserted and fixed to the case 100, the pipe (20) through which the pipe 20 passes, and the flange 500 is provided at one end of the connection pipe 800 to improve the watertightness with the pipe 20 Include.

Insertion hole 108 is formed to have a larger diameter than the connection portion of the pipe (20). Therefore, the pipes 20 that cannot enter the case 100 through the entrance 170 of the case 100 may enter the case 100 through the insertion hole 108.

However, after the insertion hole 108 is formed to have a larger diameter than the connection portion of the pipe 20 and the pipe 20 is inserted into the insertion hole 108, a gap is formed between the insertion hole 108 and the pipe 20. This will occur. Thus, not only the groundwater existing in the ground but also the soil may penetrate into the case 100. Therefore, the insertion hole 108 is provided with a connection pipe 800 that can close the gap between the insertion hole 108 and the pipe 20 after the pipe 20 is inserted into the insertion hole 108.

As shown in FIG. 8, the connecting pipe 800 according to another embodiment of the present invention has a predetermined length and surrounds a part of the outer circumferential surface of the pipe 20 and the first partial body 810. The second part 820 is coupled to the part 810 and surrounds a part of the outer circumferential surface of the pipe 20.

The first partial body 810 and the second partial body 820 are provided on a through part 830 having a through hole 831 through which the pipe 20 penetrates, and an outer circumferential surface of the through part 830. A case coupling part 840 coupled to the case 100 and a flange coupling part 850 provided at both ends of the through part 830 and coupled to the flange 500 are provided.

The connection pipe 800 is coupled to overlap with the case 100 around the insertion hole 108 to block the insertion hole 108 so that groundwater or earth and sand existing in the ground through the insertion hole 108 is inside the case 100. To prevent penetration. In addition, a first gasket 860 is provided between the connection pipe 800 and the case 100 to improve the watertightness between the connection pipe 800 and the case 100.

When the outer circumferential surface of the pipe 20 is wrapped, a portion where the first sub-part 810 and the second sub-part 820 abut, and the first sub-part 810 and the second sub-part 820 join the pipe 20. A second gasket 870 is provided at the portion facing each other. Therefore, the second gasket 870 is provided between the first and second parts 810 and 820, so that the watertightness and the connection pipe 800 between the first and second parts 810 and 820 are different. ) And the watertightness between the pipe 20 can be improved.

On the other hand, a case coupling portion 840 is formed on the outer circumferential surface of the penetrating portion 830 so that the connecting pipe 800 surrounding the outer circumferential surface of the pipe 20 is inserted into the insertion hole 108 over a predetermined length and is no longer inserted. You can do that. In addition, it is coupled to overlap with the case 100 can prevent groundwater or soil from penetrating through the insertion hole (108).

At both ends of the through part 830, a flange coupling part 850 to which the flange 500 is coupled is formed. Since the flanges 500 are provided at both ends of the flange coupling part 850, watertightness may be improved, and groundwater existing in the ground may be prevented from penetrating between the connection pipe 800 and the pipe 20.

Meanwhile, FIG. 9 and FIG. 10 show another embodiment of the manhole assembly.

In the following description of the manhole assembly according to another embodiment of the present invention, the same reference numerals are used for the same parts as the above-described embodiment, and a detailed description thereof will be omitted.

9 is a cross-sectional view showing a manhole assembly according to another embodiment of the present invention, Figure 10 is a perspective view showing a case according to another embodiment of the present invention.

As shown in FIGS. 9 and 10, the manhole assembly 10 according to another embodiment of the present invention has a lower case 100b having a drainage system installed therein and a lower case 100b in combination with the lower case 100b. An upper case 100a covering an upper portion of the case 100b, and a coupling device 101 provided at the upper case 100a and the lower case 100b to couple the upper case 100a and the lower case 100b. And a case 100 having:

Protruding into and out of the case 100, respectively, the support portion 210 for supporting the pipe 20, and the insertion groove 221 protruding radially in both ends of the support portion 210 and the rubber ring 222 is inserted An annular projection 510 coupled to the joint pipe 200 having the connection part 220 formed thereon and the connection part 220 and compressing the rubber ring 222 to improve the watertightness of the joint pipe 200. It includes a flange 500 is provided.

As the manhole assembly 10 is separated into the upper case 100a and the lower case 100b as described above, it may be easier to perform operations performed in the case 100.

The upper case 100a and the lower case 100b may be divided into various forms and standards, but are preferably divided so as to be most efficient in terms of workability.

In addition, the coupling device 101 is provided at the lower portion of the upper case 100a and is provided at the upper coupling plate 102 and the upper portion of the lower case 100b to be easily coupled to the lower case 100b. It is inserted into the lower coupling plate 103 and a plurality of fixing grooves 105 formed in the upper coupling plate 102 and the lower coupling plate 103 to abut on one surface of the upper coupling plate 102, It is provided with a fixing member 104 for fixing the upper coupling plate 102 and the lower coupling plate 103.

The upper coupling plate 102 and the lower coupling plate 103 provided in the lower case 100b provided in the upper case 100a may extend from the upper case 100a and the lower case 100b to be integrally formed. And each may be integrated after welding.

And, the upper coupling plate 102 and the lower coupling plate 103, the fixing member for fixing the upper case (100a) and the lower case (100b) in a state in which the upper case (100a) and the lower case (100b) abut each other ( Fixing grooves 105 that can be inserted by 104 are formed, respectively.

At this time, the fixing grooves 105 formed in the upper coupling plate 102 and the lower coupling plate 103 may be formed at the same position to be easily inserted when the fixing member 104 is inserted.

In addition, as the fixing member 104 for fixing the upper case 100a and the lower case 100b, a bolt or rivet may be used, and the upper case 100a and the lower case 100b may be fixed by welding. .

A caulking material 106 is provided between the gap between the upper coupling plate 102 and the lower coupling plate 103 coupled by the fixing member 104 to improve the watertightness of the upper case 100a and the lower case 100b. You can.

In addition, although not shown in the drawings, the airtightness between the gap between the upper coupling plate 102 and the lower coupling plate 103 in addition to the caulking member 106 is provided between the gap between the upper coupling plate 102 and the lower coupling plate 103. Various materials can be used to improve the watertightness.

Meanwhile, the case 100 may be divided into an upper case 100a and a lower case 100b based on the joint pipe 200 according to a condition or other situation in which the case 100 is embedded. In this case, the joint pipe may be divided into an upper joint pipe 200a formed to protrude into the inner and outer parts of the upper case 100a, and a lower joint pipe 200b formed to protrude into the inner and outer parts of the lower case 100b.

Looking at the installation order, after the lower case 100b is installed, the pipe 20 is placed on the lower case 100b including the lower joint pipe 200b and the upper case 100a is covered.

Therefore, the work can be more effectively performed in connecting the pipe 20 to the case 100.

In addition, when the pipe 20 is installed in the lower joint pipe 200b after installing the lower case 100b, the lower joint pipe 200b does not endure the load of the pipe 20 to prevent the shape from being deformed or destroyed. In order to support the lower joint pipe 200b may be provided with a separate support member (not shown).

Next will be described another embodiment of the coupling device according to another embodiment of the present invention.

Hereinafter, in describing another embodiment of the coupling device according to another embodiment of the present invention, the same reference numerals are used for the same parts as the above-described embodiments, and a detailed description thereof will be omitted.

11 is a cross-sectional view showing another embodiment of a coupling device according to another embodiment of the present invention.

As shown in FIG. 11, the coupling device 101 according to another embodiment of the present invention has a horizontal coupling plate 107 provided on an upper portion of the lower case 100b so that the upper case 100a is placed thereon. A pair of vertical coupling plates 108 extending from both ends of the horizontal coupling plate 107 and vertical to the horizontal coupling plate 107 to form an inner space, and provided in the inner space and provided with a horizontal coupling plate ( 107), the caulking material 106 to improve the watertightness between the upper case (100a) and the lower case (100b) may be provided.

Since the coupling device 101 does not combine the upper case 100a and the lower case 100b by using a separate coupling device, the coupling process may be omitted, which may be more effective in terms of workability.

In addition, the coupling device 101 may further include a mortar 109 covering the caulking material 106 to further increase the watertightness of the horizontal coupling plate 107, the upper case 100a, and the lower case 100b.

In addition, although not shown in the drawings, various materials may be used in place of the caulking material 106 and the mortar 109 to improve airtightness and watertightness.

In the above described the manhole assembly according to an embodiment of the present invention, the spirit of the present invention is not limited to the embodiment presented herein. Those skilled in the art, who understands the spirit of the present invention, can readily suggest other embodiments by adding, changing, deleting, adding, or the like of components within the scope of the same idea, I would say.

10: manhole assembly 20: piping
100: case 200: fitting pipe
300: foreign substance discharge device 400: expansion pipe
500: flange 600: cap
700: base plate 800: connector

Claims (13)

delete delete delete delete delete delete A case buried in the ground and having an insertion hole formed at a side thereof;
A connection pipe inserted into the insertion hole and fixed to the case to allow the pipe to pass therethrough;
A flange provided at one end of the connection pipe to improve watertightness with the pipe;
The connecting pipe has a predetermined length and includes a first partial body surrounding a portion of the outer circumferential surface of the pipe, and a second partial body combined with the first partial body to cover the remaining part of the outer circumferential surface of the pipe,
Insertion grooves are formed at both ends of the connecting pipe to provide a rubber ring, and the flange has a manhole assembly for compressing the rubber ring.
delete 8. The method of claim 7,
The first part and the second part is a through part formed with a through hole through which the pipe;
A case coupling part provided on an outer circumferential surface of the through part and coupled to the case;
Manhole assembly is provided on both ends of the through portion to form a flange engaging portion for engaging with the flange, respectively.
8. The method of claim 7,
The case is provided in the lower inner side of the case and the pedestal so as not to flow the drainage provided in the inside of the case;
A drain pit provided at a lower outer side of the case to temporarily store water generated in the case;
A plurality of haunches each provided at an upper outer side of the drain pit and an upper inner side of the case to prevent cracking due to stress concentration;
The manhole assembly, characterized in that provided on the upper outer side of the case having a lifting ring for lifting the case easily.
8. The method of claim 7,
A cover member surrounding a part of the connecting pipe and the flange protruding out of the case;
And a cap having a support member coupled to the cover member and surrounding the remaining portion of the connection pipe and the flange.
12. The method of claim 11,
The cap is formed in a triangular cross-section so that the load on the upper side of the connecting pipe by the soil is small,
And a support for supporting the support member.
8. The method of claim 7,
In the housing formed with a foreign material discharge port coupled to the pipe to discharge the foreign matter is installed lower than the lower end of the pipe and prevents the vortex, and toward the first discharge port to discharge the water from the first inlet through which the water is introduced A foreign matter discharge device having a plurality of screens gradually increasing; And
A valve body having a body and a fixed flange coupled to a second inlet port through which the water is introduced and extending toward a second outlet port through which the water is discharged, and an outer circumferential surface of the flow valve coupled to the second outlet port; And a retractable tube having a retractable valve having a retractable ring, a pressurizing ring for improving the watertightness of the valve body, and a retractable portion having a retractable flange to prevent the retractable valve from being detached from the body.

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