JP6628471B2 - Storage tank - Google Patents

Description

  The present invention particularly relates to a storage tank used for a siphon drainage system.

  For example, as shown in Patent Document 1, in a drainage system using siphon power, a chamber is provided between a water supply device and a horizontal drawing pipe, and drainage from the water supply device is temporarily stored in the chamber until the start time of the siphon. A storage configuration is known.

JP 2006-336322 A

  Although the required capacity of the chamber differs depending on the structure of the building in which the chamber is installed and the connected plumbing fixture, in the drainage system shown in Patent Document 1, the capacity of the chamber is adjusted according to the structure of the building and the plumbing fixture. It was difficult to do.

  The present invention has been made in view of the above circumstances, and has as its object to provide a storage tank that can adjust the capacity of a storage space.

The storage tank according to claim 1, wherein a tubular inflow pipe connection member connected to an inflow pipe into which drainage from upstream flows, and a tubular outflow pipe connection connected to an outflow pipe for discharging the wastewater downstream. Member, together with the inflow pipe connection member and the outflow pipe connection member, form a storage space for storing the drainage, one end in the axial direction is connected to the inflow pipe connection member, and the other end in the axial direction is the outflow pipe connection member A tubular storage member connected to the inflow pipe connection member and the outflow pipe connection member, wherein the inflow pipe connection member, the outflow pipe connection member, and the storage member at a connection portion with the storage member. of so that each central axis is coaxial, the coupled and the storage member, by changing at least one of the connecting position of the inlet pipe connecting member and the outlet pipe connecting member relative to the storage member, Changes the relative position of the serial and the inlet pipe connecting member and the outlet pipe connecting member, the capacity of the storage space is variable.

According to the above configuration, the storage space is formed by at least three members of the inflow pipe connection member, the outflow pipe connection member, and the storage member connected to the inflow pipe connection member and the outflow pipe connection member. Therefore, for example, the capacity of the storage space can be changed by replacing one member with a different capacity, and the capacity of the storage space can be easily adjusted as compared with the case where the entire storage tank is replaced. Further, according to the above configuration, by changing the connection position of the inflow pipe connection member and the outflow pipe connection member with respect to the storage member, the relative position of the inflow pipe connection member and the outflow pipe connection member is changed to change the capacity of the storage space. Can be.

The storage tank according to claim 2, wherein the tubular inflow pipe connecting member connected to the inflow pipe into which the wastewater from the upstream flows, and the tubular outflow pipe connection connected to the outflow pipe for discharging the wastewater to the downstream. A member, together with the inflow pipe connection member and the outflow pipe connection member, form a storage space for storing the drainage, wherein the inflow pipe connection member or the outflow pipe connection member is integrally formed at one end in the axial direction; A tubular storage member in which the inflow pipe connection member or the outflow pipe connection member is connected to the other end in the axial direction, the inflow pipe connection member or the outflow pipe connection member integrally formed, and The inflow pipe connection member or the outflow pipe connection member of the body is connected to the storage member such that a central axis of each of the storage member and the central axis of the storage member is coaxial at a connection portion with the storage member , For the storage member By changing the connection position of at least one of the inflow pipe connection member and the outflow pipe connection member, the relative position between the inflow pipe connection member and the outflow pipe connection member changes, and the capacity of the storage space is variable. Have been.

According to the above configuration, a storage space is formed by the inflow pipe connection member, the outflow pipe connection member, and the storage member, and one of the inflow pipe connection member or the outflow pipe connection member is integrally formed with the storage member, and the other is stored. It is connected to the member. For this reason, for example, the capacity of the storage space is changed by replacing only the storage member and the inflow pipe connection member that are integrally formed, or replacing only the storage member and the outflow pipe connection member with those having different capacities, or by changing the length. The capacity of the storage space can be easily adjusted as compared with the case where the entire storage tank is replaced. Further, according to the above configuration, by changing the connection position of the inflow pipe connection member and the outflow pipe connection member with respect to the storage member, the relative position of the inflow pipe connection member and the outflow pipe connection member is changed to change the capacity of the storage space. Can be.

A storage tank according to a third aspect is the storage tank according to the first or second aspect , wherein the capacity of the storage space is made variable by expanding and contracting the storage member.

  According to the above configuration, the capacity of the storage space can be changed by changing the relative positions of the inflow pipe connection member and the outflow pipe connection member by expanding and contracting the storage member itself.

The storage tank according to claim 4 is the storage tank according to any one of claims 1 to 3 , wherein a plurality of the storage members are provided in parallel with a flowing direction of the drainage, and a plurality of the storage members are provided. The storage spaces of the storage members are respectively connected by communication holes.

  According to the above configuration, the storage space includes a plurality of storage spaces that are respectively communicated by the communication holes. For this reason, drainage can be made to flow out to another storage space by the communication hole, and the amount of water that can be stored can be supplemented by another storage member.

A storage tank according to a fifth aspect is the storage tank according to the fourth aspect , further comprising a tubular communication member that communicates the communication holes.

  According to the above configuration, the communication holes are communicated with each other by the tubular communication member. For this reason, the drainage can flow out to another storage space by the communication pipe, and the drainage can flow out from the other storage space through the outflow pipe.

  ADVANTAGE OF THE INVENTION According to this invention, the storage tank which can adjust the capacity of a storage space can be provided.

(A) is a perspective view showing a storage tank according to a first embodiment of the present invention, (B) is a front sectional view of (A) showing a state where a storage space is expanded, and (C) is a storage tank. It is a front view sectional view of (A) showing the state where space was narrowed. (A) is a perspective view which shows the storage tank which concerns on 2nd Embodiment of this invention, (B) is the front direction sectional drawing. (A) is a perspective view showing a storage tank according to a third embodiment of the present invention, and (B) is a front sectional view thereof.

(1st Embodiment)
A storage tank 10 according to a first embodiment of the present invention will be described with reference to FIG.

  As shown in FIG. 1, the storage tank 10 includes a plurality of storage members 12, an inflow pipe connection member 14 connected to one end of the storage member 12, and an outflow pipe connection connected to the other end of the storage member 12, respectively. A storage space 20 for storing drainage is formed by the storage member 12, the inflow pipe connection member 14, and the outflow pipe connection member 16.

  The storage member 12 is a tubular member made of vinyl chloride resin and having a circular cross section. In the storage tank 10 of the present embodiment, as shown in FIG. 1A, three storage members 12 having the same shape are arranged in parallel. In addition, the storage member 12 is arrange | positioned so that an axial center may incline downward from an upstream to a downstream.

  The inflow pipe connecting member 14 is a circular tubular member having a larger diameter than the storage member 12, and one end in the longitudinal direction is fitted and connected to one end of the storage member 12. As shown in FIGS. 1B and 1C, by adjusting the fitting depth of the inflow pipe connection member 14 to the storage member 12, the connection position between the inflow pipe connection member 14 and the storage member 12 is adjusted. Is adjustable, and the size of the storage space 20 is made variable by changing the connection position between the inflow pipe connecting member 14 and the storage member 12.

  An inflow pipe connection port 14 </ b> A having a smaller diameter than the end face of the inflow pipe connection member 14 is formed in a lower portion of the end face of the other end in the longitudinal direction of the inflow pipe connection member 14. An inflow pipe 22 is connected to the inflow pipe connection port 14 </ b> A, and drainage from an upstream water circulating device (not shown) flows into the storage space 20 through the inflow pipe 22.

  A communication hole 18 having a smaller diameter than the inflow pipe connection port 14A is formed in an upper portion of the end face of the inflow pipe connection member 14 above the inflow pipe connection port 14A. In addition, a communication pipe (communication member) 26 made of vinyl chloride resin is connected to the communication hole 18.

  The communication pipes 26 are arranged so as to extend in the horizontal direction along the end faces of the inflow pipe connection members 14, and the communication holes 18 of the three inflow pipe connection members 14 arranged in parallel are communicated by the communication pipes 26, respectively. When the water level of the drainage in the storage space 20 rises to the height of the communication hole 18, the drainage flows out to another adjacent storage space 20 through the communication hole 18 and the communication pipe 26.

  A vent 28 having a smaller diameter than the communicating tube 26 is formed on the outer peripheral surface of the communicating tube 26, and the center of the vent 28 is located above the center of the communicating tube 26. Further, a ventilation pipe 30 is connected to the ventilation port 28, and the air in the storage space 20 can be released to the outside through the communication pipe 26 and the ventilation pipe 30. The ventilation pipe 30 is arranged so as to extend along the longitudinal direction of the storage member 12, and the tip of the ventilation pipe 30 is connected to a downstream vertical pipe (not shown).

  The outflow pipe connection member 16 is a tubular member having a diameter larger than that of the storage member 12, and one end in the longitudinal direction is fitted and connected to the other end of the storage member 12. As shown in FIGS. 1B and 1C, by adjusting the fitting depth of the outflow pipe connection member 16 to the storage member 12, the connection position between the outflow pipe connection member 16 and the storage member 12 is adjusted. Is adjustable, and the size of the storage space 20 is made variable by changing the connection position between the outflow pipe connection member 16 and the storage member 12.

  An outflow pipe connection port 16 </ b> A having a smaller diameter than the end face of the outflow pipe connection member 16 is formed in a lower portion of the end face at the other end in the longitudinal direction of the outflow pipe connection member 16. In addition, the upper part of the end surface of the outflow pipe connection member 16 is a curved surface protruding outward in the longitudinal direction.

  An outflow pipe 24 is connected to the outflow pipe connection port 16A, and a junction is connected downstream of the outflow pipe 24. The drainage of the storage space 20 flows downstream through the outflow pipe connection port 16A and the outflow pipe 24, and is drained at a full head with a head, thereby generating a siphon force that is a force for drawing in the upstream drainage.

  According to the present embodiment, the storage space 20 is formed by the three members of the inflow pipe connection member 14, the outflow pipe connection member 16, and the storage member 12. For this reason, since the members can be freely combined such as replacing the storage member 12 with one having a different length, the capacity of the storage space 20 can be changed according to the required capacity of the storage space 20. .

  Further, since the connection position of the inflow pipe connection member 14 and the outflow pipe connection member 16 with respect to the storage member 12 is adjustable, the relative position can be changed by changing the connection position of the inflow pipe connection member 14 and the outflow pipe connection member 16. The capacity of the storage space 20 can be changed without changing the member itself. Therefore, the capacity of the storage space 20 can be easily adjusted as compared with the case where the entire storage tank 10 is replaced.

  The three storage spaces 20 are connected to each other by a communication hole 18 and a communication pipe 26 connected to the communication hole 18. For this reason, the drainage can flow out from the storage space 20 to another adjacent storage space 20 by the communication hole 18 and the communication pipe 26, and the amount of water that can be stored can be supplemented by the other storage member 12.

  In addition, the outflow pipe connection port 16A is formed in the lower part of the end face of the outflow pipe connection member 16, and the upper part is a curved surface. For this reason, the drainage from the inflow pipe connection port 16A to the outflow pipe connection port 16A flows out of the outflow pipe connection port 16A by diverting and circulating the drainage in the upper portion of the outflow pipe connection member 16 at the curved surface portion. Without being blocked by the drainage flowing toward the inflow pipe connection port 14A side, the drainage can be efficiently discharged from the outflow pipe connection port 16A.

  Further, an inflow pipe connection port 14A and a communication hole 18 are formed in the inflow pipe connection member 14 connected to one end of the storage member 12, and an outflow pipe connection port 16 is formed in the outflow pipe connection member 16 connected to the other end of the storage member 12. 16A are formed. Furthermore, the axial center of the storage member 12 is disposed so as to be inclined downward from upstream to downstream.

  For this reason, the drainage can efficiently flow down from the inflow pipe connection port 14A to the outflow pipe connection port 16A, and there is little possibility that the downstream wastewater will flow out of the storage member 12 from the communication hole 18. Therefore, the water level on the downstream side where the outlet pipe connection port 16A is provided can be efficiently raised, and the start of the siphon can be hastened. Further, it is possible to suppress water from remaining in the storage member 12.

(2nd Embodiment)
Next, a storage tank 40 according to a second embodiment of the present invention will be described with reference to FIG. In addition, about the structure similar to 1st Embodiment, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  As shown in FIG. 2, the storage tank 40 includes a plurality of storage members 42, an inflow pipe connection member 44, and an outflow pipe connection member 46, similarly to the storage tank 10 of the first embodiment. The storage space 50 is formed by the inflow pipe connection member 44 and the outflow pipe connection member 46.

  Further, in the storage tank 40 of the second embodiment, the storage member 42 and the inflow pipe connection member 44 are integrally formed, and the outflow pipe connection member 46 is formed separately and fitted to one end of the storage member 42. Are linked. The connection position of the outflow pipe connection member 46 and the storage member 42 can be adjusted by adjusting the fitting depth of the outflow pipe connection member 46 to the storage member 42. By changing the position, the size of the storage space 50 is made variable.

  According to the present embodiment, the connection position of the outflow pipe connecting member 46 to the storage member 42 can be adjusted. For this reason, by changing the connection position of the outflow pipe connection member 46, the relative position between the inflow pipe connection member 44 and the outflow pipe connection member 46 can be changed, and the capacity of the storage space 50 can be changed without replacing the members themselves. .

  The inflow pipe connection member 44 and the storage member 42 are integrally formed, and the outflow pipe connection member 46 is formed separately from the storage member 42. Therefore, the capacity of the storage space 50 can also be changed by replacing one of the inflow pipe connection member 44 and the storage member 42 and the outflow pipe connection member 46 with a different capacity. Therefore, the capacity of the storage space 50 can be easily adjusted as compared with the case where the entire storage tank 40 is replaced.

(Third embodiment)
Next, a storage tank 60 according to a third embodiment of the present invention will be described with reference to FIG. In addition, about the structure similar to 1st Embodiment and 2nd Embodiment, the same code | symbol is attached | subjected and description is abbreviate | omitted.

  As shown in FIG. 3, similarly to the storage tank 10 of the first embodiment, the storage tank 60 includes a plurality of storage members 62, an inflow pipe connecting member 64 connected to one end of the storage member 62, and a storage member 60. And an outflow pipe connecting member 66 connected to the other end of the outflow pipe 62, respectively. A storage space 70 is formed by the storage member 62, the inflow pipe connection member 64, and the outflow pipe connection member 66.

  In the storage tank 60 of the third embodiment, the storage member 62 is a tubular member having a circular cross section made of a vinyl chloride resin, and has a bellows-like portion 62A formed in a part of the outer peripheral surface, so that the storage member 62 is formed in the longitudinal direction. It is possible to expand and contract. An inflow pipe connecting member 64 is fitted and connected to one end in the longitudinal direction of the storage member 62, and an outflow pipe connecting member 66 is fitted and connected to the other end.

  According to the present embodiment, since the accordion-like portion 62A is formed on the outer peripheral surface of the storage member 62, the storage member 62 can be expanded and contracted. Thus, by changing the length of the storage member 62 by expanding and contracting the storage member 62, the relative position between the inflow pipe connection member 64 and the outflow pipe connection member 66 can be changed, and the capacity of the storage space 70 can be changed.

(Other embodiments)
Although an example of the embodiment has been described for the present invention, the present invention is not limited to the embodiment, and other various embodiments are possible within the scope of the present invention.

  For example, in the above embodiment, three storage members 12, 42, and 62 having the same shape are arranged in parallel. However, the number and shape of the storage members 12, 42, 62 may be appropriately determined according to the required capacity of the storage spaces 20, 50, 70 and the like, and the storage members 12, 42, 62 having different lengths are arranged in parallel. It may be.

  In the second embodiment, the inflow pipe connection member 44 and the storage member 42 are integrally formed, and the outflow pipe connection member 46 is formed separately from the storage member 42. However, the outflow pipe connection member 46 and the storage member 42 may be integrally formed, and the inflow pipe connection member 44 may be formed separately from the storage member 42.

  In addition, in the third embodiment, the storage member 62 can be expanded and contracted by forming the bellows-shaped portion 62A on the outer peripheral surface. However, the storage member 62 can be expanded and contracted by having the telescopic mechanism (drawing mechanism). It may be.

  Further, in the above-described embodiment, the communication holes 18 are connected to each other by the communication pipe 26, but the communication holes 18 may be directly connected to each other. Further, the communication tube 26 may not be provided with the ventilation port 28. In this case, the air in the storage spaces 20, 50, 70 is allowed to escape to the other adjacent storage spaces 20, 50, 70. Is also good.

  Further, in the above embodiment, the storage members 12, 42, 62 and the communication pipe 26 are made of vinyl chloride resin. However, the present invention is not limited thereto, and the storage members 12, 42, 62 are made of various materials such as metal and other resins. You may.

  Further, the first to third embodiments can be appropriately combined. For example, a bellows-like portion 62A may be formed on the outer peripheral surface of the storage member 12 of the first embodiment, like the storage member 62 of the third embodiment. By doing so, the storage member 12 itself is expanded and contracted, the connection position of the inflow pipe connection member 14 and the outflow pipe connection member 16 with respect to the storage member 12 is adjusted, and the relative position of the inflow pipe connection member 14 and the outflow pipe connection member 16 is adjusted. By changing the size, the size of the storage space 20 can be changed.

10, 40, 60 Storage tanks 12, 42, 62 Storage members 14, 44, 64 Inflow pipe connection members 16, 46, 66 Outflow pipe connection members 18 Communication holes 20, 50, 70 Storage space 26 Communication pipe (communication member)

Claims (5)

A tubular inflow pipe connecting member connected to the inflow pipe into which drainage from the upstream flows,
A tubular outflow pipe connecting member connected to an outflow pipe for draining the wastewater downstream,
A storage space for storing the drainage is formed together with the inflow pipe connection member and the outflow pipe connection member, one end in the axial direction is connected to the inflow pipe connection member, and the other end in the axial direction is connected to the outflow pipe connection member. A tubular storage member,
With
The inflow pipe connection member and the outflow pipe connection member, at a connection portion with the storage member, such that the central axes of the inflow pipe connection member, the outflow pipe connection member and the storage member are coaxial, Connected to the storage member ,
By changing the connection position of at least one of the inflow pipe connection member and the outflow pipe connection member with respect to the storage member, the relative position of the inflow pipe connection member and the outflow pipe connection member changes, and storage tank capacity that has been variable. A tubular inflow pipe connecting member connected to the inflow pipe into which drainage from the upstream flows,
A tubular outflow pipe connecting member connected to an outflow pipe for draining the wastewater downstream,
A storage space for storing the drainage is formed together with the inflow pipe connection member and the outflow pipe connection member, and the inflow pipe connection member or the outflow pipe connection member is integrally formed at one axial end, and the separate inflow pipe is provided. A tubular storage member in which the connection member or the outflow pipe connection member is connected to the other end in the axial direction,
With
The inflow pipe connection member or the outflow pipe connection member integrally formed, and the separate inflow pipe connection member or the outflow pipe connection member, at the connection portion with the storage member, the respective central axis and the Connected to the storage member so that the central axis of the storage member is coaxial ,
By changing the connection position of at least one of the inflow pipe connection member and the outflow pipe connection member with respect to the storage member, the relative position of the inflow pipe connection member and the outflow pipe connection member changes, and storage tank capacity that has been variable. The storage tank according to claim 1 or 2 , wherein the capacity of the storage space is made variable by expanding and contracting the storage member. A plurality of the storage members are provided in parallel to a direction in which the drainage flows,
The storage tank according to any one of claims 1 to 3 , wherein the storage spaces of the plurality of storage members are respectively connected by communication holes. The storage tank according to claim 4 , further comprising a tubular communication member that communicates the communication holes.

Images