KR20160036983A - Backflow prevention system of sewer - Google Patents

Abstract

The present invention relates to a backflow prevention system of a sewer and, more specifically, relates to the backflow prevention system to prevent a backflow and odors flowing back to a sewer source by installing on a middle or an end part of a pipeline such as a basic sewer pipeline connected to a sump; a branch sewer pipeline connected from the sump to the sewer; and a sewer pipeline to discharge various sewage to waters such as river or sea, etc. The system comprises: a valve body; a stainless steel float; a valve upper body; a ring-shaped drainageway packing bracket; a soft drainageway packing; a band-shaped float bottom guide piece; a float ascent control piece; a float ascent guide piece; and a backflow prevention unit additionally provided on an ending portion of a sewer entrance to enable a dual system of backflow prevention.

Description

{BACKFLOW PREVENTION SYSTEM OF SEWER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a sewer pipe backflow preventive system, and more particularly, to a sewer pipe preventive system for a sewer pipe, a sewer pipe connected to a sewer pipe, a sewer pipe connected to a sewer pipe, And to a backflow prevention system installed at a middle or end portion of a pipeline such as a sewage pipe for discharging sewage, and preventing reverse flow of sewage to the sewage discharge source and odors.

Wastewater discharged to various drainage points such as houses, public facilities and industrial facilities is collected in the sewage basin through sewage pipes, main sewage pipes, main sewage pipes, sewage pipes, sewage water treatment plants, sewage treatment plants And discharged to the public waters such as rivers and the sea.

As described above, the sewage pipe for treating various wastewater normally discharges the sewage in the form of an open channel having a free water surface at the time of discharging the normal sewage. However, in some areas, temporary rain or heavy rain occurs, When it exceeds the treatment capacity (communication capacity), it becomes irrigation water which discharges the sewage in a full water condition without free water surface.

When the sewage pipe discharges the sewage in the state of irrigation water, the inflow water that can not be discharged to the sewer pipe is flooded to the road or the ground surface, and at the same time, the discharge pressure of the sewer pipe increases, Flood damage is caused by backwash and drainage of houses, public facilities and industrial facilities, and roads, septic tanks and other facilities are also flooded.

In addition, when the main sewer pipe becomes irrigation water due to heavy rain or heavy rain in a certain area, the water level of the river increases for a short time, or when the water level of the river increases for a long time due to the rainy season and the sea water level of the sea increases The sewage or river water or seawater flows back to the sewer pipe of the lower area or the sewer sewage pipe side, and the flood damage occurs.

As a conventional technique for preventing the reverse flow of sewage, river water and seawater as described above, there has been known a conventional sewage backflow prevention apparatus of Korean Patent Registration No. 10-0543435 (2006. 01. 09.) Korean Patent Registration No. 10-0766279 (Oct. 05, 2007), "Prevention of sewer backflow", and other prior arts have been disclosed.

The characteristics of the registered patents are that they are installed in the middle part of a horizontal sewer pipe such as a basal sewer pipe or a sewer pipe main sewer or a sewer main sewer pipe or installed at a distal end thereof so that when sewage is discharged normally, And the drainage passage is closed when the sewage flows backward, and the sewage is floated in close contact with the lower end of the sewage opening and closing port, Thereby preventing the sewage backflow of the sewage line automatically.

However, in actuality, the sewage inlet pipe and the discharge pipe have a vertical axis between the upper and lower sides of the sewage inlet pipe and the sewer pipe, There is a problem in that it can not be applied to a conventional horizontal sewer pipe in which the pipe center axis is formed on a single straight line.

In addition, the shape of the drainage passage in the main body of the apparatus is not a horizontal straight line but a curved tube having two curved portions. Thus, there is a disadvantage in that drainage flow of the sewage is not smooth and low drainage. In order to form the drainage passage completely open, .

In addition, when applied to a large-sized standard, the diameter and height of a cylindrical body, which is a main body for accommodating a cigarette, and the diameter of the cigarette are proportionally increased, resulting in extremely low productivity and economical efficiency in mold making and parts manufacturing. The horizontal step of the inflow pipe and the discharge pipe is proportionally increased, so that it is difficult to apply it to the large horizontal sewer pipe, which is disadvantageous in that practicality and expandability are very low.

As another prior art for improving this, Korea Patent Registration No. 10-0974019 (Jul. 29, 2010) "Sewage and drainage backflow prevention device" was disclosed. This is also a structure with a ball to open the pipeline is closed, so the watertightness due to wear and tear is a long time, there is still a backflow of odor in the microscopic clearance.

Therefore, it is necessary to duplicate the shutoff structure to prevent backflow.

Korea Patent Registration No. 10-0543435 (2006. 01. 09.) "Sewer backflow prevention device" Korea Patent Registration No. 10-0766279 (Oct. 05, 2007) "Equipment for preventing sewage backflow" Korea Patent Registration No. 10-0974019 (2010.07.29.) "Sewage and drainage backflow prevention device"

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a sewage disposal system and a sewage disposal system, The main object of the present invention is to provide a sewer pipe backflow prevention system which can be drained quickly and smoothly without clogging of sewage which is secured by a drainage passage and a variety of large-sized substances having a large volume are mixed.

In order to achieve the above-mentioned object, the present invention provides a sewage disposal apparatus comprising: a valve body having a circular cross section, one end of which is formed as a sewage inflow pipe on the same horizontal center axis and the other end is formed as a sewage discharge pipe; A valve body which is inserted into the intermediate portion of the valve body and has an outer diameter smaller than an inner diameter of the valve body; A vertical tubular valve body having a watertight structure and having a height equal to or higher than the upper end of the valve body so as to be able to receive the tubular cross-sectional area and the tubular portion in the vertical direction; An annular drain hole packing bracket provided with an integral or assembled fixing structure with the inner wall of the sewage inlet pipe in relation to the inner wall of the valve body and restricting a drain hole packing ; And an inner end of the pipe is connected to the inner wall of the sewage inflow pipe in a concentric manner on the inner side wall of the sewage inflow pipe. And a circular sheet which is in close proximity to an annular shape or an elliptic shape intersecting the central axis at an inclination angle, and which is in close contact with a part of the outer surface of the said part with a partial spherical surface; Wherein the valve body is supported by a bottom end of the inner wall of the valve body corresponding to the valve body so as to support the lower end of the valve body so that the valve body is closely connected to the annular seat of the packing, A bottom type lower guide piece having a high sewage discharge pipe side and a low drainage packing side; When the mouth is subjected to the initial buoyancy by the sewage flowing backward from the sewage discharge pipe side in the drainage passage closing operation state in which the buoy is closely connected with the annular seat of the drainage packing, A valve lifting control piece protruding from an upper end of an inlet pipe of the valve body close to the upper end of the drainage packing and an inner wall of a lower end of the valve body so as to control retreat and floating of the valve; When the drain port is closely connected to the annular seat of the drainage packing and the exhaust port is pushed by the sewage flowing into the sewage inflow pipe in the closing operation state and the back side guide piece is moved backward, An upward guide protrusion protruded from an upper end of the sewage discharge pipe of the valve body and an inner wall of a rear end boundary of the valve upper body so as to induce floating inside the valve upper body while controlling the departure to the sewage discharge pipe side of the valve; And,

Further comprising the backflow blocking unit inside the end of the inlet side sewage pipe to duplicate the backflow preventing structure, wherein the backflow blocking unit includes a first body and a second body; Wherein the first body and the second body are fixed to each other in a form of being bolted through a flange; A distal end fastener fixed to the inner diameter of the inlet-side sewage pipe protrudes around the tip of the first body; A rear end fastener fixed to the inner diameter of the inlet side sewage pipe or the sewage inflow pipe protrudes around the rear end of the second body; And an operation guide barrel is further provided inside the second body; The operation guide barrel being fixed to the second body by a fixing piece; The fixing pieces are installed at a plurality of positions at regular intervals in the radial direction of the operation guide barrel; The space between the second body and the operation guide cylinder, which is the remaining part except for the part where the fixing piece is installed, becomes an outflow passage through which sewage can pass; A hole is drilled in the center of the bottom surface of the operation guide cylinder; The hole is provided with a fixing bracket; Wherein the fixing bracket supports and fixes the actuator while closing the perforated hole; The actuator is fixed to the opening / closing port; The opening / closing port is disposed so as to be movable by an actuator in a state of being fitted in the operation guide tube, and has a cylindrical shape in the longitudinal direction and a conical shape in the tip portion; Wherein the opening / closing port is fixed with the actuator as an inner central axis; The center of the tip having a conical shape is bolted to the actuator; A plurality of through holes are formed in the conical shape portion at the front end of the opening / closing port in the radial direction, so that the sewage introduced through the first body is designed to reduce a force acting on the opening / closing port; The introduced sewage flows to the radial rim by the opening / closing port; The flowing sewage is configured to move along an outflow passage which is a space between the working guide passage second bodies; Wherein the opening / closing port is controlled by a controller; Wherein an extension piece is provided inside the first body and a part of the extension is opened to form a through hole.

According to the present invention, the drainage passage between the sewage inflow pipe and the sewage discharge pipe is completely cut off in a watertight state, so that even when the reverse flow sewage is introduced into the valve body from the sewage discharge pipe side of the valve body, It is possible to prevent the reverse flow of the seawater and also to completely block the inflow of the odor generated in the sewer pipe or the river side connected to the sewage discharge pipe side to the sewage inflow pipe side.

1 is a cross-sectional view of an embodiment of the sewage and seawater counterflow prevention device of the present invention
Fig. 2 is a cross-sectional view taken along line AA in Fig. 1,
FIG. 3 is a cross-sectional view taken along line B-
Fig. 4 is a plan sectional view of the configuration of Fig. 1,
5 is an exploded view of a sewage and seawater backflow prevention device according to another embodiment of the present invention.
6 is a plan view of the valve body in the configuration of the sewage and seawater backflow prevention device according to another embodiment of the present invention.
7 is an assembled cross-sectional view of another embodiment of the sewage and seawater counterflow prevention device of the present invention
Fig. 8 is a cross-sectional view taken along line DD of Fig. 7,
Fig. 9 is a sectional view taken along the line EE of Fig. 7,
Fig. 10 is a cross-sectional view of the FF assembly shown in Fig. 7,
11 is a cross-sectional view of another embodiment of the valve body of the present invention
12 is a cross-sectional view of a valve body according to another embodiment of the present invention.
13 is a cross-sectional view of another embodiment of the valve body of the present invention.
14 is a sectional view of another embodiment of the valve body of the present invention
Figure 15 is an illustration of a further embodiment according to 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 above-mentioned prior-art patent No. 0974019 as it is. Therefore, all of the features of the device configuration described below are those described in Japanese Patent Registration No. 0974019.

However, the present invention is characterized in that the additional embodiment portion in which a part of the specific structure is improved in order to achieve the object of the structure disclosed in the above-mentioned Japanese Patent No. 0974019 is the most essential constitutional feature.

Therefore, the device structure, characteristics and operation relationship described below will be incorporated by reference in the above-mentioned Japanese Patent Application No. 0974019, and the structure related to the main features of the present invention will be described in detail at the rear end.

1 to 4, the check valve 100 according to an embodiment of the present invention includes a valve body 20.

The inner diameter of the valve body 20 is formed to be equal to or larger than the inner diameter of the sewage pipe to be connected, and is formed of a drainage passage.

On the inner wall of the valve body 20 on the side of the sewage inlet pipe 22, a female screw 25 is formed at a predetermined interval from the front end.

A stainless steel material mouth 30 of a hollow body having a diameter smaller than the inner diameter of the valve body 20 is inserted into the intermediate portion of the valve body 20.

The upper end of the valve body (20) is provided with an upper opening-type valve body (30) having a tube cross-sectional area capable of vertically moving up and down and having an over- 40 are integrally formed.

A male screw portion 41 is formed on an outer circumferential surface of the valve body 40 and a screw cap 45 provided with an annular packing 46 on the inner end thereof is coupled to the valve body 40 in a watertight manner.

An inner wall portion of the valve body sewage inflow pipe 22 is provided with a male screw portion 51 screwed to the female screw portion 25 at the tip thereof at its front end and an annular drain screw 52 having a ring- The packing bracket 50 is installed in an insulated manner.

The packing fixing hole 52 of the drainage packing bracket 50 provided on the inner wall of the valve body sewage inflow pipe 22 is connected to the inner side wall portion of the sewage inflow pipe by a ring- And an annular seat 62 closely contacting the outer surface of the outer surface of the valve body 20 with a partial spherical surface while concentrically contacting the outer surface of the annular seat 62 with the inner wall of the valve body 20, The packing 60 is provided with a soft drain.

The lower end of the inner wall of the valve body 20 corresponding to the lower portion of the valve body 40 supports the lower end of the valve body 30, Shaped lower end guide pieces 26 (26a) of high stringer discharge pipe (24) side and low drainage packing (60) side so as to be connected to the drainage passage closing operation state by being brought into close contact with the drainage pipe (62) Are installed at regular intervals from each other.

The port 30 is connected to the drainage packing 60 in the rear upper end of the sewage inlet pipe 22 of the valve body 20 and the inner wall of the lower end boundary of the valve body 40, When the parting hole 30 receives the initial floating force by the sewage flowing backward from the side of the sewage discharge pipe 24 in the drain passage closing operation state closely connected to the annular sheet 62 of the upper part 30, String type sub-ball elevation control pieces 27 and 27a for restricting the back and the floating of the sub-ball 30 are provided.

The valve body 30 is provided with a drain hole closing operation which is closely connected to the annular seat 62 of the drainage packing 60 and which is formed in the inner upper end of the valve body drainage pipe 24 and the inner wall of the rear end boundary of the valve body 40 A part of the upper rear center rear surface of the mouth 30 is restrained with an inclined surface so that the rear end of the upper half of the mouth 30 is pulled out of the mouth 30 when the rear mouth 26 is pulled back by the lower end guide 26, 28b, 28b, 28b are provided for guiding the inside of the valve upper body 40 to the inside of the valve upper body 40 while controlling the detachment of the valve body 30 to the sewage discharge pipe side.

The sewage and seawater backflow prevention apparatus 100 configured as described above is constructed such that the sewage and seawater backflow prevention apparatus 100 is constructed such that the sewage and seawater backflow prevention apparatus 100 has an inlet flange 21 connected to the sewage inflow pipe 22 by a watertight structure by an adhesive and connected to the outlet side sewage pipe 81 through which the sewage is discharged and the sewage discharge pipe 24 by the outlet flange 23 by a water- The sewage inflow pipe (22) and the sewage discharge pipe (24) are operated on the same horizontal center axis as the sewage pipe, and operate as a drainage passage closing operation and a drainage opening operation in the valve body as follows.

When the sewage is not discharged and the sewage does not flow into the sewage inflow pipe 22, the inlet 30 provided in the middle of the valve body 20 has its own weight and the aforementioned inclined lower end guide 26a The lower inclination of the inclined lower end guide pieces 26 (26a) is guided downward to the sewage inflow pipe 22 side.

The lower end guide piece 26 and the lower end guide piece 26a are provided in the vicinity of the lower end of the lower end guide piece 26 when the lower end guide 30 is guided downward toward the sewage inflow pipe 22 side on the inclined surface of the lower end guide pieces 26, A part of the distal end of the plug 30 is concentrically inserted into the annular sheet 62 of the drainage packing 60 in a spherical shape so as to close the drainage passage of the drainage inflow pipe 22 in a watertight state, Lt; / RTI >

When the reverse flow sewage is introduced from the side of the sewage discharge pipe 24 in the state in which the drainage passage is closed, the valve lift control piece 27a or 27a receives the initial floating force by the reverse flow sewage The sub port 30 is connected to the sewage inflow pipe 22 when the back pressure sewage is continued and the hydraulic pressure is increased, thereby restricting the partial rear side of the upper center of the sub port 30 to the arc, To be brought into close contact with the annular sheet (62).

The drainage passage between the sewage inflow pipe 22 and the sewage discharge pipe 24 is completely shut off in a watertight state so that the reverse flow sewage water is introduced into the valve body from the valve body sewage discharge pipe 24 side It is possible to completely prevent reverse flow to the sewage inflow pipe 22 side to prevent flooding damage caused by backwashing of sewage and seawater and to prevent odor generated in the sewer pipe, And has an effect of completely shutting off the inflow into the inflow pipe 22 side.

In the drainage passage opening operation as described above, the valve lift elevator guide 28, 28a, 28b is formed in such a manner that the valve 30 is connected to the annular seat of the drainage packing A part of the rear surface of the upper end of the upper half of the mouth 30 is pierced with an inclined surface at the front end of the sewage discharge pipe 24 to separate the sewage water of the mouth 30 from the front end of the sewage discharge pipe 24, And smoothly moves upward into the valve upper body 40 while controlling the release to the discharge pipe 24 side.

According to the drainage passage opening operation of the sewage and seawater counterflow prevention device 100 as described above, the drainage passage is formed in the form of a curved tube with a step between the upper and lower sides of the center axis of the sewage inflow pipe and the discharge pipe, As the drainage passage is automatically operated in response to the discharge amount and the discharge power of the discharged sewage in the normal sewage discharge state, the sewage and the agricultural water mixed with various bulky substances are smoothly flowed So that it has a high drainage effect.

When the sewage discharge amount is gradually reduced in the drainage passage opening operation as described above, the auxiliary port 30 is gradually lowered from the valve upper body 40 in accordance with the lowered sewage discharge water level, so that the inclined upper and lower end guide pieces 26 (26a) And when the drainage of the sewage is completely stopped, the auxiliary port 30 is guided downward toward the sewage inlet pipe 22 by the inclined surface of the lower end guide piece 26 (26a) by its own weight, And is operatively connected to the annular seat 62 of the drainage packing in a coaxial manner.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. It is possible to change some of the components for practical purposes.

For example, in the construction of the present invention, the construction for connecting the sewage inflow pipe and the sewage discharge pipe of the valve body to the sewage pipe by a watertight structure is similar to that of the sewage and seawater counterflow prevention device 200 21a and 23a are respectively formed on the outer circumferential surfaces of the inlet flange 21 and the outlet flange 23 and on the outer surfaces of the inlet side drain pipe 80 and the outlet side drain pipe 81, The ring packing 82 or 82a is inserted into the rear end of the ring packing 82 or 82a to be inserted into the male threaded portion 21a or 23a of the inlet flange 21 or the outlet flange 23, And a screw cap 83 (83a) threadedly engaged with the ring packing 82 (82a) to respectively press the ring packing 82a and 82a in a watertight manner.

In addition, in the structure of the present invention, the valve body and the valve body may be formed by cutting the intermediate portion to a half or more section as shown in another embodiment of the sewage and seawater backflow prevention device 200 shown in Figs. A valve body 220 of another embodiment in which a through hole 221 is formed and a packing groove 223 is formed on the outer circumference at an upper portion of the notched hole 221 to form the packing groove 223 And a semi-arcuate main body cover 245 having a watertight structure and having a peripheral packing 243 that is seated in a watertight manner on the bottom of the valve body 220 The coupling flange 222 is formed at both side end horizontal portions of the cut end portion 221 of the semi-arcuate main body cover 245, By forming the mating flange 246 to be in contact, the two mating flanges 222, 246 A binder agent into a nut 229, which will also be carried out by the valve body and the valve body a detachable configuration.

Another embodiment of the present invention in which the valve body and the valve upper body are separately formed as described above is configured such that the configuration of the buoy lifting control member is changed in the forward direction of the valve body 240 And the other part of the valve lifting / lowering guide member is formed integrally with the lower inner end of the valve body 240. The configuration of the valve lifting / Embodiment The present invention can be implemented with the configuration of the buoy lifting / lowering guide pieces 228 and 228a.

In the configuration of the present invention in which the valve body and the valve body are separately formed, as in the configuration of the valve body 340 of another embodiment shown in Fig. 11, there is no openable lid at the top, And the end plates 341 of the first embodiment are integrally formed.

Also, in the configuration of the present invention, even when the valve body and the valve body are formed as a single unit or a separable unit, the valve bodies 440, 540, 640 of another embodiment shown in Figs. 12 to 14 As in the cross-sectional view, the flat cross-sectional shape may be an ellipse, a quadrangle, or a polygon.

In the construction of the present invention, in the construction in which the valve body is formed in an opening manner so that the watertight cap is opened and closed, the watertight coupling structure of the valve body and the lid is formed by screw- It can be carried out by a flange coupling type which is combined with a bolt nut in addition to the structure.

While the above-described configuration is a basic premise, in a further embodiment of the present invention, it is possible to completely prevent reverse flow even if the sealing performance of the ball-shaped plug 30 is reduced due to shortening of the wear life or the like by achieving redundancy of the sealing function.

15, a reverse flow blocking unit T is inserted and fixed to an end of the inlet-side sewage pipe 80, so that the reverse flow blocking function is duplexed together with the bucket 30, By implementing the sealing function, a perfect backflow prevention effect can be obtained.

15, the backflow prevention unit T includes a first body 41a and a second body 42a.

The first body 41a and the second body 42a are assembled and fixed together with a flange F interposed therebetween to form a single housing.

A distal end fastener F1 fixed to the inner diameter of the inlet side drain pipe 80 protrudes around the front end of the first body 41a and a front end fastener F1 protrudes around the rear end of the second body 42a. And a rear end fixture F2 fixed to the inner diameter is protruded.

Particularly, the operation guide cylinder 42b is further provided inside the second body 42a, and the operation guide cylinder 42b is fixed to the second body 42a by the fixing member 42c.

In this case, since the fixing pieces 42c are provided at a plurality of positions at regular intervals in the radial direction of the operation guide tube 42b, the remaining portions except for the portion where the fixing pieces 42c are provided, The space between the operation guide cylinders 42b becomes an outflow passage 42d through which sewage can pass.

In addition, a hole is drilled in the center of the bottom surface of the operation guide cylinder 42b, and a fixing bracket 43a is installed in the hole.

The fixing bracket 43a is a means for stably holding and fixing the actuator 44a to be described later while blocking the perforated hole.

In addition, the actuator 44a is preferably configured to be hydraulically operated.

An opening / closing port 45a is fixed to the actuator 44a. The opening / closing port 45a is disposed so as to be movable by the actuator 44a while being inserted into the operation guide tube 42b, The tip is cylindrical and has a conical shape.

Therefore, the opening / closing port 45a is fixed with the actuator 44a as an inner central axis, and the center of the conical tip end portion is fixed to the actuator 44a with the bolt 44c, 44c are fixed on the outer surface of the fixed portion, that is, on the outer surface of the conical tip end portion, an opening / closing cap 44d for sealingly protecting the bolt 44c is covered.

In addition, a plurality of through holes 45b are formed radially in the conical shape portion of the opening / closing port 45a, so that the force of the sewage introduced through the first body 41a on the opening / closing port 45a is reduced And the introduced sewage flows to the radial rim by the opening and closing port 45a and the flowing sewage flows through the outflow passage 42d which is a space between the operation guide cylinder 42b and the second body 42a described above ).

In this case, the opening / closing port 45a can adjust the pressure of the sewage flowing through the first body 41a by controlling the stroke of the actuator 44a operated under the control of a controller (not shown) It is possible to flow the sewage but at the time of reverse flow, the opening / closing port 45a prevents the reverse flow by blocking the through hole 46b.

That is, the first body 41a is provided with an extension piece 46a, and a part of the extension piece 46a is opened to form a through hole 46b.

Therefore, when the opening / closing port 45a is opened, sewage flows without a problem. However, when the opening / closing port 45a is closed, the passage hole 46b is closed, so there is no passage and the flow of sewage is stopped.

In particular, the operation of the actuator 44a is configured to be operated under the control of the controller that receives the valve when the valve 30 is closed.

In addition, a hooking protrusion D protrudes in the inner diameter of the inlet-side sewage pipe 80 so that the front end fixture F1 can be closely attached thereto, and the rear-end fixture F2 is fixed to the inlet-side sewage pipe 80 But may be fixed on the sewage inlet pipe 22.

20: valve body 21: inlet flange
22: sewage inflow pipe 23: outlet flange
24: sewage discharge pipe 30:
46: annular packing 52: packing fastener
60: drainage packing 61: annular coupling part

Claims (1)

A valve main body having a circular cross section, one end of which is formed as a sewage inflow pipe on the same horizontal center axis and the other end is formed as a sewage discharge pipe; A valve body which is inserted into the intermediate portion of the valve body and has an outer diameter smaller than an inner diameter of the valve body; A vertical tubular valve body having a watertight structure and having a height equal to or higher than the upper end of the valve body so as to be able to receive the tubular cross-sectional area and the tubular portion in the vertical direction; An annular drain hole packing bracket provided with an integral or assembled fixing structure with the inner wall of the sewage inlet pipe in relation to the inner wall of the valve body of the valve body, ; And an inner end of the pipe is connected to the inner wall of the sewage inflow pipe in a concentric manner on the inner side wall of the sewage inflow pipe. And a circular sheet which is in close proximity to an annular shape or an elliptic shape intersecting the central axis at an inclination angle, and which is in close contact with a part of the outer surface of the said part with a partial spherical surface; Wherein the valve body is supported by a bottom end of the inner wall of the valve body corresponding to the valve body so as to support the lower end of the valve body so that the valve body is closely connected to the annular seat of the packing, A bottom type lower guide piece having a high sewage discharge pipe side and a low drainage packing side; When the mouth is subjected to the initial buoyancy by the sewage flowing backward from the sewage discharge pipe side in the drainage passage closing operation state in which the buoy is closely connected with the annular seat of the drainage packing, A valve lifting control piece protruding from an upper end of an inlet pipe of the valve body close to the upper end of the drainage packing and an inner wall of a lower end of the valve body so as to control retreat and floating of the valve; When the drain port is closely connected to the annular seat of the drainage packing and the exhaust port is pushed by the sewage flowing into the sewage inflow pipe in the closing operation state and the back side guide piece is moved backward, An upward guide protrusion protruded from an upper end of the sewage discharge pipe of the valve body and an inner wall of a rear end boundary of the valve upper body so as to induce floating inside the valve upper body while controlling the departure to the sewage discharge pipe side of the valve; And,
Further comprising the backflow blocking unit inside the end of the inlet side sewage pipe to duplicate the backflow preventing structure, wherein the backflow blocking unit includes a first body and a second body; Wherein the first body and the second body are fixed to each other in a form of being bolted through a flange; A distal end fastener fixed to the inner diameter of the inlet-side sewage pipe protrudes around the tip of the first body; A rear end fastener fixed to the inner diameter of the inlet side sewage pipe or the sewage inflow pipe protrudes around the rear end of the second body; And an operation guide barrel is further provided inside the second body; The operation guide barrel being fixed to the second body by a fixing piece; The fixing pieces are installed at a plurality of positions at regular intervals in the radial direction of the operation guide barrel; The space between the second body and the operation guide cylinder, which is the remaining part except for the part where the fixing piece is installed, becomes an outflow passage through which sewage can pass; A hole is drilled in the center of the bottom surface of the operation guide cylinder; The hole is provided with a fixing bracket; Wherein the fixing bracket supports and fixes the actuator while closing the perforated hole; The actuator is fixed to the opening / closing port; The opening / closing port is disposed so as to be movable by an actuator in a state of being fitted in the operation guide tube, and has a cylindrical shape in the longitudinal direction and a conical shape in the tip portion; Wherein the opening / closing port is fixed with the actuator as an inner central axis; The center of the tip having a conical shape is bolted to the actuator; A plurality of through holes are formed in the conical shape portion at the front end of the opening / closing port in the radial direction, so that the sewage introduced through the first body is designed to reduce a force acting on the opening / closing port; The introduced sewage flows to the radial rim by the opening / closing port; The flowing sewage is configured to move along an outflow passage which is a space between the working guide passage second bodies; Wherein the opening / closing port is controlled by a controller; Wherein an extension piece is provided in the first body and a part of the extension is opened to form a through hole.

Images