JP2012057386A - Vacuum valve unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a vacuum valve unit which can eliminate necessity of individual opening and closing operations for both of a by-pass pipe and a vacuum hose mainly during use of the by-pass pipe.SOLUTION: A three-way valve 41 is arranged at a branch portion of a vacuum hose 26 in the course of a by-pass pipe 25, through which one of a tip 25a of the by-pass pipe 25 and a vacuum hose 26 can be selectively switched relative to a portion 25b adjacent to a vacuum sewer pipe 22 of the by-pass pipe 25.

Description

  The present invention relates to a vacuum valve unit used in a vacuum sewer system.

  In recent years, the use of vacuum sewer systems is increasing instead of natural sewer systems. This vacuum sewer system uses vacuum pressure to suck and collect sewage collected in a sewage tub (see, for example, Patent Document 1 and Patent Document 2).

  More specifically, the vacuum sewer system temporarily stores sewage discharged from a building or the like in a vacuum valve unit, which is a sewage tub equipped with a vacuum valve, and a certain amount of sewage from the sewage tub. In this sewer system, the sewage is transferred to the water collection tank of the vacuum station through the vacuum sewage pipe connected to the downstream side of the vacuum valve by opening the vacuum valve. The sewage transferred to the water collection tank of the vacuum station is then sent to a sewage treatment plant using a pressure pump to be processed.

  The vacuum valve unit described above is as follows.

  First, as shown in FIG. 5, the distal end portion of the vacuum sewage pipe 2 to which the vacuum pressure is applied is inserted and disposed inside the sewage tub 1. A sewage suction pipe 4 capable of sucking sewage inside the sewage tank 1 is connected to the tip of the vacuum sewage pipe 2 via a vacuum valve 3. And the vacuum hose 5 which can take out the vacuum pressure for opening and closing the vacuum valve 3 is branched and connected from the vacuum sewage pipe 2 and the vacuum valve 3 described above. The vacuum hose 5 is considerably smaller in diameter than the vacuum sewage pipe 2 or the like. In the middle of the vacuum hose 5, a small on-off valve 6 (always open) for shutting off the vacuum pressure during maintenance is installed.

  According to such a configuration, by opening the vacuum valve 3, the vacuum sewage pipe 2 and the sewage suction pipe 4 are communicated, and the vacuum pressure of the vacuum sewage pipe 2 is applied to the sewage suction pipe 4. . Thereby, the sewage inside the sewage tank 1 can be sucked from the sewage suction pipe 4 and transferred to the vacuum sewage pipe 2 through the vacuum valve 3.

  On the contrary, by closing the vacuum valve 3, the space between the vacuum sewage pipe 2 and the sewage suction pipe 4 is blocked, and the vacuum pressure of the vacuum sewage pipe 2 is not applied to the sewage suction pipe 4. Thereby, the suction of the sewage inside the sewage tub 1 can be stopped.

  And the vacuum valve 3 is opened and closed using a vacuum pressure and atmospheric pressure. The vacuum pressure for opening and closing the vacuum valve 3 is normally supplied from the vacuum sewage pipe 2 and the vacuum valve 3 to the valve control unit 3 c of the vacuum valve 3. The vacuum valve 3 is configured to be opened and closed according to the level of sewage in the sewage tank 1.

  In such a vacuum valve 3 unit, there is one in which a gate valve 7 is installed between the tip of the vacuum sewage pipe 2 and the vacuum valve 3.

  In this way, by installing the gate valve 7 between the tip of the vacuum sewage pipe 2 and the vacuum valve 3 and closing the gate valve 7, the vacuum sewage pipe 2, the vacuum valve 3, and the sewage suction pipe 4 are closed. And the vacuum pressure is not applied to the vacuum valve 3 and the sewage suction pipe 4. Thereby, maintenance of the vacuum valve 3 and the like can be easily performed.

  Further, the above-described vacuum valve 3 unit is branched and connected to a bypass pipe 8 capable of forcibly sucking sewage in the sewage tank 1 directly between the tip of the vacuum sewage pipe 2 and the vacuum valve 3. Existed. The bypass pipe 8 is smaller in diameter than the vacuum sewage pipe 2 and the sewage suction pipe 4, but is considerably larger in diameter than the vacuum hose described above. In the middle of the bypass pipe 8, an open / close valve 9 (always closed) for opening and closing the bypass pipe 8 is installed. Note that the gate valve 7 described above may or may not be provided.

  Thus, by providing the bypass pipe 8 in the portion between the tip of the vacuum sewage pipe 2 and the vacuum valve 3, the sewage inside the sewage tank 1 can be directly removed by opening the on-off valve 9 whenever necessary. Can be forcibly sucked out. Note that when necessary, the level of sewage in the sewage basin 1 has risen abnormally due to, for example, a malfunction of the vacuum valve 3 (a situation where the vacuum valve 3 does not open even when the vacuum valve 3 reaches a predetermined level). Or just before the maintenance work of the vacuum valve 3.

  When the bypass pipe 8 is provided, the above-described vacuum hose 5 may be branched from the vacuum valve 3, the gate valve 7, the vacuum sewage pipe 2, etc., but the vacuum hose 5 is located far from the sewage flow. In order to separate them from each other, branching is performed from the middle of the bypass pipe 8 (upstream of the on-off valve 9).

  On the contrary, it is conceivable to connect the bypass pipe 8 to the position of the branch portion of the vacuum hose 5 in the vacuum valve 3, the gate valve 7, the vacuum sewage pipe 2, etc. Since the branch portion has a considerably small diameter as described above, clogging may occur, so that the bypass pipe 8 is not usually attached.

JP 2009-281042 JP 2010-116693 A

  However, the vacuum valve unit has the following problems.

  That is, as described above, when the vacuum hose 5 is branched and connected from the middle of the bypass pipe 8, when the bypass pipe 8 is used, the sewage flowing through the bypass pipe 8 flows back to the vacuum hose 5 to the valve control unit 3 c. It is necessary not to flow in. For this purpose, the vacuum hose 5 must be securely closed by the small opening / closing valve 6 before the bypass pipe 8 is opened by the opening / closing valve 9.

  However, it is troublesome for the operator to open / close the small on / off valve 6 and the on / off valve 9 and to open / close them in order without making a mistake in the procedure, and forgetting to perform the opening / closing operation may occur. There was sex.

  In particular, the small on-off valve 6 in the middle of the vacuum hose 5 is literally small and is often arranged in a state hidden behind the bypass pipe 8 and the like, so it is easy to forget to close the small on-off valve 6. If the small on-off valve 6 is forgotten to be closed, sewage enters the valve control unit 3 c of the vacuum valve 3 through the vacuum hose 5, causing problems in the vacuum valve 3. Therefore, in order to prevent such a malfunction due to an erroneous operation, it is possible to prevent inflow of sewage into the vacuum valve 3 in a portion between the small on-off valve 6 of the vacuum hose 5 and the valve control unit 3c of the vacuum valve 3. A check valve 10 needs to be provided.

  Even when the small opening / closing valve 6 and the opening / closing valve 9 are correctly opened / closed when the bypass pipe 8 is used, if the user forgets to open the small opening / closing valve 6 after use, the valve control of the vacuum valve 3 is performed. Since the vacuum pressure for opening and closing the vacuum valve 3 is not applied to the part 3c, there is a possibility that a secondary trouble that the vacuum valve 3 does not operate is caused.

  Furthermore, if the above-described check valve 10 is an essential configuration, if sewage flows into the vacuum hose 5 and foreign matter is caught in the check valve 10, Since the normal operation may be hindered, the check valve 10 needs to be managed.

  In addition to the above, the following demands exist.

  That is, the above-described gate valve 7 and bypass pipe 8 are very effective for maintenance of the vacuum valve 3, etc., but the existing vacuum valve 3 unit includes at least one of them. There are many things that do not exist, and it is desirable to add these to improve the functions. However, in order to attach these, a space margin is required inside the sewage basin 1, and many existing vacuum valve 3 units do not have such a space margin. Therefore, even if we want to add these, there is a situation where we have to give up.

  In order to solve the above-mentioned problem, the invention described in claim 1 is arranged such that a tip of a vacuum sewage pipe to which a vacuum pressure is applied is inserted and disposed in a sewage basin, and the tip of the vacuum sewage pipe is A sewage suction pipe capable of sucking sewage inside the sewage basin is connected via a vacuum valve, and a bypass pipe capable of directly sucking sewage inside the sewage basin is provided at the downstream side of the vacuum valve or the vacuum valve. A vacuum valve unit that is branched and connected to a vacuum hose capable of taking out a vacuum pressure for opening and closing the vacuum valve in the middle of the bypass pipe, and a branch portion of the vacuum hose in the middle of the bypass pipe In addition, a three-way valve that can selectively switch either one of the tip of the bypass pipe or the vacuum hose with respect to the vacuum sewage pipe side of the bypass pipe is provided.

  According to a second aspect of the present invention, in the above, the three-way valve has a side surface having one lower connection port and two upper connection ports located on opposite sides of the lower connection port. It is substantially T-shaped as viewed, and a portion of the bypass pipe on the vacuum sewage pipe side is connected to the lower connection port, and a tip side portion of the bypass pipe is connected to one of the upper connection ports, The vacuum hose is connected to the other of the upper connection ports.

  The invention described in claim 3 is characterized in that, in the above, a valve holding portion capable of holding the three-way valve at a position near the upper end portion of the sewage tank is provided.

  According to a fourth aspect of the present invention, a tip of a vacuum sewage pipe to which a vacuum pressure is applied is inserted and disposed inside the sewage basin, and the sewage basin is inserted into the tip of the vacuum sewage pipe via a vacuum valve. A sewage suction pipe capable of sucking sewage inside is connected, and a bypass pipe capable of directly vacuuming sewage inside the sewage tank is branched and connected to the vacuum valve or a portion downstream of the vacuum valve. A vacuum valve unit in which a vacuum hose capable of taking out a vacuum pressure for opening and closing the vacuum valve is branched and connected in the middle, and a bypass pipe attachment scheduled part for attaching a bypass pipe is formed in the vacuum valve in advance. It is characterized by that.

  According to invention of Claim 1, the following effects can be acquired by the said structure. That is, by providing a three-way valve at the branch part of the vacuum hose in the middle of the bypass pipe, by switching only the three-way valve, one end of the bypass pipe and the vacuum hose are opened and the other is shut off. Can be performed simultaneously. This eliminates the need to open and close the bypass pipe and the vacuum hose in order according to the procedure when using the bypass pipe and after use, and the vacuum valve due to the troublesome opening / closing operation, forgetting to open / close, and forgetting to open / close This makes it possible to perform maintenance without failing.

  According to invention of Claim 2, the following effects can be acquired by the said structure. That is, the tip of the bypass pipe is connected to each of the two upper connection ports located on opposite sides of the lower connection port with the portion on the tip side of the bypass pipe and the vacuum hose. The side portion and the vacuum hose can be structurally difficult to communicate with each other. As a result, it is possible to reliably prevent the sewage vacuum sucked from the tip side portion of the bypass pipe from flowing backward to the vacuum valve via the vacuum hose.

  According to invention of Claim 3, the following effects can be acquired by the said structure. That is, by providing the valve holding portion, the three-way valve can be held at a position near the upper end portion of the sewage tank. As a result, the three-way valve can be installed at a position that is easily accessible.

  According to invention of Claim 4, the following effects can be acquired by the said structure. That is, by forming the bypass pipe attachment scheduled portion in the vacuum valve in advance, the bypass pipe can be attached using the bypass pipe attachment scheduled portion when necessary. For example, even if there is no space in the interior due to existing sewage basin, simply replace the vacuum valve with the bypass pipe installation planned part, and install the bypass pipe using the bypass pipe installation planned part. And a bypass pipe can be used.

It is a longitudinal cross-sectional view of the vacuum valve unit concerning the Example of this invention. It is a cross-sectional view of FIG. It is a partial expanded sectional view of the bypass pipe attachment plan part provided in the vacuum valve of FIG. It is the elements on larger scale which looked at FIG. 3 from the axial direction. It is a longitudinal cross-sectional view of the vacuum valve unit concerning a prior art example.

  In order to solve the above-described problems, the present invention mainly includes a configuration that eliminates the need to individually open and close both the bypass pipe and the vacuum hose when the bypass pipe is used.

  Hereinafter, embodiments embodying the present invention will be described together with illustrated examples.

  1 to 4 show an embodiment of the present invention.

  <Configuration> First, the configuration will be described.

  This embodiment relates to a vacuum sewer system that uses vacuum pressure to suck and collect sewage collected in a sewage basin.

  In such a vacuum sewer system, sewage discharged from a building or the like is temporarily stored in a vacuum valve unit, which is a sewage tank equipped with a vacuum valve, and the sewage in the sewage tank reaches a certain amount. In some cases, the sewage system is configured such that by opening the vacuum valve, the sewage is transferred to the water collection tank of the vacuum station through the vacuum sewage pipe connected to the downstream side of the vacuum valve. The sewage transferred to the water collection tank of the vacuum station is then sent to a sewage treatment plant using a pressure pump to be processed.

  More specifically, the vacuum valve unit described above has the following configuration.

  That is, as shown in FIG. 1 (and FIG. 2), the distal end portion of the vacuum sewage pipe 22 to which the vacuum pressure is applied is inserted and disposed in the sewage basin 21. A sewage suction pipe 24 capable of sucking sewage in the sewage tub 21 is connected to the tip of the vacuum sewage pipe 22 inserted into the sewage tub 21 through a vacuum valve 23.

  Further, a bypass pipe 25 capable of forcibly vacuuming the sewage inside the sewage basin 21 is branched and connected to the vacuum valve 23 or a part downstream of the vacuum valve 23 (in the sewage flow).

  A vacuum hose 26 that can take out a vacuum pressure for opening and closing the vacuum valve 23 is branched and connected to the bypass pipe 25.

Here, the “sewage basin 21” is buried in the ground. In this case, the sewage tub 21 has a sewage tub main body 21a in the shape of a concrete container and a lid portion 21b attached to the opening provided at the upper end of the sewage tub main body 21a so as to be openable and closable. is doing. A sewage inflow pipe 21c and a vent pipe 21d are connected to the side of the sewage basin body 21a.
The “vacuum sewage pipe 22” is extended in the lateral direction while repeating a required drainage gradient and a lift portion.
The “vacuum valve 23” opens and closes a valve body (not shown) with respect to a short tubular connection pipe portion 23a connected to the vacuum sewage pipe 22 and a valve seat (not shown) provided inside the connection pipe portion 23a. And a valve control unit 23c for causing the valve body 23b to open and close the valve body. The housing of the connecting pipe portion 23a and the valve main body 23b is made of, for example, resin. Further, a water level detection hose 32 attached to the water level detection pipe 31 is connected to the valve control unit 23c. Atmospheric hoses 34 and 35 attached to the air communication pipe 33 are connected to the valve control unit 23c and the valve main body 23b.
A “gate valve 36” is provided between the vacuum sewage pipe 22 and the vacuum valve 23 as necessary.
The “bypass pipe 25” is the tip of the vacuum sewage pipe 22 (inserted inside the sewage tank 21), the gate valve 36 (connection portion between the vacuum sewage pipe 22 and the vacuum valve 23), and the connection of the vacuum valve 23. It can be connected to any one of the pipe portions 23a (portions on the downstream side of a valve seat (not shown)). In this case, the bypass pipe 25 is connected to the downstream side of the gate valve 36.
The “vacuum hose 26” has a considerably smaller diameter than the vacuum sewage pipe 22 and the bypass pipe 25 described above. In the middle of the vacuum hose 26, a small on-off valve 37 (always open) that can close the vacuum hose 26 is provided. The small on-off valve 37 is necessary for closing the vacuum hose 26 when the vacuum valve 23 is maintained. Further, although not essential, a check valve 38 capable of preventing the inflow of sewage into the valve control unit 23c is provided between the small on-off valve 37 of the vacuum hose 26 and the valve control unit 23c as multiple safety means. You may do it.

  The vacuum sewage pipe 22, the gate valve 36, the vacuum valve 23, and the sewage suction pipe 24 are airtightly connected by a connecting member that uses both rubber ring connection and band fixing.

  In contrast to the above-described configuration, the present embodiment has the following configuration.

  (1) At the branch portion of the vacuum hose 26 in the middle of the bypass pipe 25, either the distal end portion 25a of the bypass pipe 25 or the vacuum hose 26 is connected to the portion 25b (base end portion) of the bypass pipe 25 on the vacuum sewage pipe 22 side. The three-way valve 41 that can be selectively switched is provided.

  (2) The above-described three-way valve 41 includes a single lower connection port 41a and two upper connection ports 41b and 41c located on opposite sides of the lower connection port 41a. It is almost T-shaped. And the part 25b by the side of the vacuum sewage pipe 22 of the bypass pipe 25 is connected to the lower connection port 41a. Further, a portion of the bypass pipe 25 on the tip end 25a side is connected to one of the upper connection ports 41b. And the vacuum hose 26 is connected to the other of the upper connection port 41c.

Here, the “three-way valve 41” has a valve body 41d having the lower connection port 41a and the upper connection ports 41b and 41c, and an operation unit 41e (handle unit) for switching the three-way valve 41. . The three-way valve 41 is entirely made of a hard resin. In this case, one upper connection port 41b is bent downward. The other upper connection port 41c is bent downward and then bent in the lateral direction toward the valve control unit 23c of the vacuum valve 23.
The “part 25b of the bypass pipe 25 on the side of the vacuum sewage pipe 22”, the “tip 25a of the bypass pipe 25”, and the “vacuum hose 26” are each made of a flexible pipe (flexible pipe) made of resin.

  (3) Furthermore, the valve holding part 43 which can hold | maintain the three-way valve 41 in the position near the upper end part of the sewage tank 21 is provided.

  This “valve holding portion 43” can be, for example, a locking bracket or a locking hook attached near the upper end inside the sewage tank 21.

  (4) Then, as shown in FIGS. 3 and 4, a bypass attachment port 44 for attaching the bypass pipe 25 is formed on the connection portion (connection pipe portion 23 a) of the vacuum valve 23 with the vacuum sewage pipe 22 and the like. A possible bypass pipe attachment scheduled portion 45 is provided in advance.

  The “bypass pipe attachment scheduled portion 45” is a thick pipe pedestal portion that can ensure the strength (thickness and the like) and the size necessary for attachment of the bypass pipe 25. The bypass pipe attachment scheduled portion 45 is formed integrally with the upper half portion (preferably the upper portion) of the connection pipe portion 23 a of the vacuum valve 23. And the outer surface (in this case, upper surface) of the bypass pipe attachment plan part 45 is made into the flat surface 45a which is the same as the bypass pipe 25 or a diameter larger than it. A central portion of the outer surface of the bypass pipe attachment scheduled portion 45 is provided with a small recess 45b (punch portion) that defines the center of the bypass attachment port 44 and serves as a processing starting point when the bypass attachment port 44 is opened. A connecting member 46 for connecting the bypass pipe 25 is attached to the bypass attachment port 44 formed by opening the bypass pipe attachment scheduled portion 45. The connecting member 46 is, for example, in a cylindrical shape and can be screwed or press-fitted and fixed to the bypass attachment port 44. For this purpose, a screw, a press-fit portion, or the like is formed on the outer periphery of the insertion portion of the connection member 46 with respect to the bypass attachment port 44.

  <Operation> Next, the operation of this embodiment will be described.

  By opening the vacuum valve 23, the vacuum sewage pipe 22 and the sewage suction pipe 24 communicate with each other, and the vacuum pressure of the vacuum sewage pipe 22 is applied to the sewage suction pipe 24. Thereby, the sewage inside the sewage tank 21 can be sucked from the sewage suction pipe 24 and transferred to the vacuum sewage pipe 22 via the vacuum valve 23.

  On the contrary, by closing the vacuum valve 23, the vacuum sewage pipe 22 and the sewage suction pipe 24 are disconnected from each other, and the vacuum pressure of the vacuum sewage pipe 22 is not applied to the sewage suction pipe 24. Thereby, the suction of the sewage inside the sewage basin 21 can be stopped.

  Here, at the normal time, the three-way valve 41 is selectively switched so that the portion 25b of the bypass pipe 25 on the vacuum sewage pipe 22 side and the vacuum hose 26 are connected. Thus, a vacuum pressure is applied to the vacuum valve 23 via the vacuum hose 26, and the vacuum valve 23 can be opened and closed by this vacuum pressure.

  Further, during maintenance, the gate valve 36 is closed, so that the vacuum sewage pipe 22, the vacuum valve 23, and the sewage suction pipe 24 are securely shut off, and the vacuum valve 23 and the sewage suction pipe 24 are vacuumed. Pressure can be prevented from acting. Further, after the maintenance is completed, the vacuum pressure can be applied to the vacuum valve 23 and the sewage suction pipe 24 by opening the gate valve 36. As a result, maintenance can be easily performed.

  When the bypass pipe 25 is used, the three-way valve 41 is switched so that the portion 25b of the bypass pipe 25 on the vacuum sewage pipe 22 side and the tip 25a of the bypass pipe 25 are connected. As a result, the sewage inside the sewage tank 21 is forcibly sucked from the distal end portion 25a of the bypass pipe 25 by vacuum pressure, and the three-way valve 41 and the portion 25b of the bypass pipe 25 on the vacuum sewage pipe 22 side are It can be sent to the water pipe 22. Therefore, the sewage inside the sewage basin 21 can be sucked out so that the abnormal water level can be eliminated or the vacuum valve 23 can be maintained.

  After the bypass pipe 25 is used, the three-way valve 41 is switched to a state where the portion 25b of the bypass pipe 25 on the vacuum sewage pipe 22 side and the vacuum hose 26 are connected. Thereby, since the vacuum pressure for opening and closing is applied to the vacuum valve 23, the secondary trouble that the vacuum valve 23 does not operate can be eliminated.

  Further, since the tip 25a of the bypass pipe 25 and the vacuum hose 26 are switched alternatively by the three-way valve 41, it is possible to eliminate the need for providing the check valve 38 for the vacuum hose 26.

  For example, in the case where the above-described bypass pipe 25 is additionally installed in the existing sewage tank 21 when there is no space in the interior, first, the existing vacuum valve is provided with the bypass pipe attachment scheduled portion 45. The vacuum valve 23 is replaced. In order to connect the bypass pipe 25 using the bypass pipe attachment planned part 45 formed in the connection part (connection pipe part 23a) of the vacuum valve 23 to the vacuum sewage pipe 22, the small recess 45b is used. The bypass attachment port 44 is processed and formed, the connection member 46 is attached to the formed bypass attachment port 44, and the bypass pipe 25 is attached to the connection member 46. Then, the vacuum hose 26 is branched from the middle of the bypass pipe 25, and the above-described three-way valve 41 is provided at the branch portion of the vacuum hose 26.

  <Effect> According to this embodiment, the following effects can be obtained.

  (1) Since the three-way valve 41 is provided at the branch portion of the vacuum hose 26 in the middle of the bypass pipe 25, only the three-way valve 41 is switched, so that one of the distal end portion 25a of the bypass pipe 25 and the vacuum hose 26 is switched. Can be simultaneously opened and the other blocked. This eliminates the need to open and close the bypass pipe 25 and the vacuum hose 26 in order according to the procedure when the bypass pipe 25 is used or after use, and makes it cumbersome, forgetting to open / close, or forgetting to open / close Therefore, it is possible to perform maintenance without fail due to the malfunction of the vacuum valve 23 caused by the above.

  (2) Connect the portion on the tip 25a side of the bypass pipe 25 and the vacuum hose 26 to each of the two upper connection ports 41b and 41c located on opposite sides of the lower connection port 41a. Thereby, it can be set as the structure where the part by the side of the front-end | tip part 25a of the bypass pipe 25 and the vacuum hose 26 cannot communicate easily. As a result, it is possible to reliably prevent the sewage vacuum sucked from the tip 25a side of the bypass pipe 25 from flowing back to the vacuum valve 23 via the vacuum hose 26 and causing a problem.

  (3) By providing the valve holding portion 43, the three-way valve 41 can be held at a position near the upper end portion of the sewage tank 21. Thereby, it becomes possible to install the three-way valve 41 at a position where it can be easily reached.

  (4) By forming the bypass pipe attachment scheduled part 45 in the vacuum valve 23 in advance, the bypass pipe 25 can be attached using the bypass pipe attachment scheduled part 45 when necessary. For example, even if the existing sewage basin 21 has no space in the interior, it is only necessary to replace the vacuum valve 23 provided with the bypass pipe attachment planned portion 45 and use the bypass pipe attachment planned portion 45. The bypass pipe 25 can be attached, and the bypass pipe 25 can be used.

  Although the embodiments of the present invention have been described in detail with reference to the drawings, the embodiments are only examples of the present invention, and the present invention is not limited to the configurations of the embodiments. Needless to say, design changes and the like within a range not departing from the gist of the invention are included in the present invention. Further, for example, when each embodiment includes a plurality of configurations, it is a matter of course that possible combinations of these configurations are included even if not specifically described. Further, when a plurality of embodiments and modifications are shown, it is needless to say that possible combinations of configurations extending over these are included even if not specifically described. Further, the configuration depicted in the drawings is of course included even if not particularly described. Further, when there is a term of “etc.”, it is used in the sense that the equivalent is included. In addition, when there are terms such as “almost”, “about”, “degree”, etc., they are used in the sense that they include those in the range and accuracy recognized by common sense.

21 sewage tank 22 vacuum sewage pipe 23 vacuum valve 24 sewage suction pipe 25 bypass pipe 25a tip part 25b part (base end part)
26 Vacuum hose 41 Three-way valve 41a Lower connection port 41b Upper connection port 41c Upper connection port 43 Valve holding part 45 Bypass pipe installation scheduled part

Claims (4)

Inside the sewage tank, the tip of the vacuum sewage pipe to which the vacuum pressure is applied is inserted and arranged,
A sewage suction pipe capable of sucking sewage inside the sewage tank is connected to the tip of the vacuum sewage pipe through a vacuum valve,
A bypass pipe capable of directly vacuuming the sewage inside the sewage tank is branched and connected to the vacuum valve or a portion downstream of the vacuum valve,
A vacuum hose unit in which a vacuum hose capable of taking out a vacuum pressure for opening and closing the vacuum valve is connected in the middle of the bypass pipe,
Three-way that can selectively switch either one of the tip of the bypass pipe or the vacuum hose to the vacuum sewage pipe side of the bypass pipe to the branch part of the vacuum hose in the middle of the bypass pipe A vacuum valve unit provided with a valve. The three-way valve is substantially T-shaped in a side view having one lower connection port and two upper connection ports located on opposite sides of the lower connection port,
A portion on the vacuum sewage pipe side of the bypass pipe is connected to the lower connection port, a portion on the tip side of the bypass pipe is connected to one of the upper connection ports, and the vacuum hose is connected to the other of the upper connection ports. The vacuum valve unit according to claim 1, wherein the vacuum valve unit is connected.   The vacuum valve unit according to claim 1 or 2, further comprising a valve holding portion capable of holding the three-way valve at a position in the vicinity of the upper end portion of the sewage tank. Inside the sewage tank, the tip of the vacuum sewage pipe to which the vacuum pressure is applied is inserted and arranged,
A sewage suction pipe capable of sucking sewage inside the sewage tank is connected to the tip of the vacuum sewage pipe through a vacuum valve,
A bypass pipe capable of directly vacuuming the sewage inside the sewage tank is branched and connected to the vacuum valve or a portion downstream of the vacuum valve,
A vacuum hose unit in which a vacuum hose capable of taking out a vacuum pressure for opening and closing the vacuum valve is connected in the middle of the bypass pipe,
A vacuum valve unit, wherein a bypass pipe attachment scheduled part for attaching a bypass pipe is formed in advance in the vacuum valve.