JP7392994B2 - meter unit - Google Patents

Description

The present invention relates to a meter unit that allows water intake without removing the water meter.

A meter unit installed in the middle of a pipe drawn into a building from a main water pipe is described in Patent Document 1. The meter unit of the document includes a sealing member, a water meter, and a check valve in this order along the water flow direction. The meter unit is housed in a meter box that has an opening/closing lid. The meter box is buried underground with the opening/closing lid exposed above the ground.

Japanese Patent Application Publication No. 2017-141624

If water can be taken from the main water pipes into buildings during a disaster, it will be possible to supply potable water to disaster victims. Moreover, in such a case, if water is taken from the meter unit, water can be supplied to the outside without performing construction such as forming a water outlet in the piping. However, when taking water from the meter unit, there is a problem in that the water meter must be removed from the meter unit and a water discharge pipe or the like must be connected thereto.

In view of these points, an object of the present invention is to provide a meter unit that allows water intake without removing the water meter.

In order to solve the above problems, the meter unit of the present invention is arranged between a primary side pipe and a secondary side pipe, and a main pipe passing through a water meter, and a meter unit from one side of the water meter in the main pipe. A branch pipe that branches, and the main pipe has a flow path switching valve arranged at a branch part where the branch pipe branches, and a gate valve arranged on the other side of the water meter in the main pipe. The branch pipe is characterized in that it includes a water spout and a lid member that opens and closes the water spout.

According to the present invention, the meter unit includes a branch pipe branching from the main pipe. The branch pipe also includes a water spout. Therefore, by allowing water to flow into the branch pipe, water can be taken from the water spout without removing the water meter. Further, according to the meter unit of the present invention, water can be taken from the water spout even when the flow direction of water flowing through the meter unit is reversed. In other words, even if the flow path switching valve is connected to the primary side piping and water flows from the flow path switching valve side, it is not possible to connect the flow path switching valve to the secondary side piping and flow water from the gate valve side. Even if the water is drained, water can still be taken from the water outlet. Therefore, the same meter unit can be used in multiple forms depending on the intended use.

In the present invention, an end of the flow path switching valve of the main piping is connected to the primary side piping, and an end of the main piping opposite to the flow path switching valve is connected to the secondary side piping. , the flow path switching valve switches water flowing from the primary side pipe to a first flow path passing through the water meter, or water flowing from the primary side pipe to a second flow path flowing through a branch pipe. can do.

Further, in the present invention, the flow path switching valve may be arranged such that water flowing from the first flow path, the second flow path, or the primary side pipe flows through the first flow path and the second flow path. It is possible to switch to a flow path.

In the present invention, an end of the flow path switching valve of the main piping is connected to the secondary side piping, and an end of the main piping opposite to the flow path switching valve is connected to the primary side piping. , the flow path switching valve includes a fourth flow path through which water flows from the primary side piping and passes through the water meter to the secondary side piping; and a fourth flow path through which water flows from the primary side piping and passes through the water meter. The water may be switched to a fifth flow path through which the water flows to the branch pipe.

In the present invention, the flow path switching valve is configured such that water flowing from the fourth flow path, the fifth flow path, or the primary side piping and passing through the water meter flows through the fourth flow path and the fifth flow path. The sixth flow path may be switched to the sixth flow path.

In the present invention, the water spout may be provided at an end of the branch pipe opposite to the branch portion.

In the present invention, the branch pipe includes a first bent portion between the branch portion and the water spout, which bends upward toward the water spout, and the water spout faces upward. It is desirable that In this way, external pipes, hoses, etc. can be connected to the water spout from above.

In the present invention, the branch pipe may include, between the branch portion and the first bent portion, a second bent portion that bends toward the water meter in a direction away from the main pipe. I can do it. In this way, the meter unit can be made smaller in the width direction compared to the case where the branch pipe extends in a straight line in a direction away from the main pipe.

In the present invention, the branch pipe may include a third bent portion that bends toward the main pipe between the first bent portion and the second bent portion. In this way, the water spout can be brought close to the main pipe, so the meter unit can be made smaller in the width direction.

In the present invention, it is preferable that the branch pipe includes a drain port and a drain plug detachably attached to the drain port. In this way, water remaining in the branch pipe can be discharged after water intake.

In the present invention, the main pipe has a reinforcing member extending along the main pipe, and the main pipe has a pipe joint mechanism provided between the water meter and a pipe member located next to the water meter, The pipe joint mechanism connects a fixed pipe connected to the piping member, a movable pipe supported by the fixed pipe in a movable state in an axial direction of the fixed pipe, and the movable pipe and the water meter. The reinforcing member is provided on one side of the water meter and the pipe joint mechanism in the main pipe, and the reinforcing member is provided on one side of the water meter and the pipe joint mechanism in the main pipe. It is preferable that the first fixing part and the second fixing part provided on the other side of the water meter and the pipe joint mechanism in the main piping be bridged and fixed. In a meter unit equipped with such a pipe joint mechanism, when attaching a water meter to the main piping, it is possible to move the moving pipe backwards, place the water meter, and then move the moving pipe forward and fasten it to the water meter. can. Therefore, it is easy to attach and detach the water meter. Moreover, if the reinforcing member is provided, it is possible to prevent or suppress the main pipe from bending when the water meter is attached or detached.

With the meter unit of the present invention, water can be taken without removing the water meter.

It is a top view when a meter unit is seen from above. It is a side view when a meter unit is seen from the width direction. FIG. 3 is a side view of the meter unit when viewed from the pipe axis direction of the main pipe. It is an explanatory view of a pipe joint mechanism which constitutes main piping. It is a side view when a piping member is seen from the tube axis direction of the main piping. It is an explanatory view of the 1st and 2nd form of the meter unit of the 1st example of installation. It is an explanatory view of the 3rd form of the meter unit of the 1st example of installation. It is a top view when the meter unit of the 2nd installation example is seen from above. It is an explanatory view of the 1st and 2nd form of the meter unit of the 2nd example of installation. It is an explanatory view of a 3rd form of a meter unit of a 2nd example of installation. It is an explanatory view of a branch piping member of a modification.

EMBODIMENT OF THE INVENTION Below, with reference to drawings, the meter unit which is an embodiment of this invention is demonstrated.

(meter unit)
FIG. 1 is a plan view of the meter unit of this example viewed from above. FIG. 2 is a side view of the meter unit of this example when viewed from the width direction. FIG. 2 shows the meter unit viewed from the branch pipe side. FIG. 3 is a side view of the meter unit of this example when viewed from the pipe axis direction of the main pipe. In FIGS. 1 to 3, the unit box is indicated by a chain line. FIG. 4 is an explanatory diagram of a pipe joint mechanism that constitutes the main pipe. In FIG. 4, a portion of the pipe fitting mechanism is shown in cross section.

The meter unit 1 of this example is installed in the middle of a pipe drawn into a building from a main water pipe. As shown in FIGS. 1 and 2, the meter unit 1 is installed between a primary pipe 2 and a secondary pipe 3 that constitute the pipes. The primary pipe 2 and the secondary pipe 3 are buried underground. Moreover, the primary side piping 2 and the secondary side piping 3 are arranged on a straight line. Water flowing in from the main pipe flows from the primary pipe 2 toward the secondary pipe 3.

The meter unit 1 includes a unit body 5 and a unit box 6 that accommodates the unit body 5. The unit body 5 includes a main pipe 8 including a water meter 7, and a branch pipe 9 branching from one side of the water meter 7 in the main pipe 8. The main pipe 8 extends coaxially with the primary pipe 2 and the secondary pipe 3 and connects the primary pipe 2 and the secondary pipe 3. The branch pipe 9 connects one side of the water meter 7 in the main pipe 8 to the other side of the water meter 7 .

Furthermore, the unit main body 5 includes reinforcing members 10 that span the main pipe 8 on both sides of the water meter 7 . The reinforcing member 10 is located on the opposite side of the branch pipe 9 with the main pipe 8 interposed therebetween. Further, the unit main body 5 includes a base 11 that is disposed below the main pipe 8 and supports one side and the other side of the water meter 7 in the main pipe 8.

As shown in FIGS. 2 and 3, the unit box 6 has a rectangular parallelepiped shape as a whole. The unit box 6 includes a box-shaped box body 13 and a ceiling plate 14 removably placed on the box body 13. The ceiling plate 14 closes the upper end opening of the box body 13. An opening/closing lid 15 is provided on the ceiling plate 14 at a position overlapping the water meter 7 when viewed from above. The base 11 extends along the bottom plate 16 of the unit box 6. The unit box 6 is buried underground so that the ceiling plate 14 is exposed on the ground surface. Note that the meter unit 1 may not include the unit box 6 and may consist only of the unit body 5.

In the following description, the direction along the tube axis L of the main pipe 8 is referred to as the tube axis direction X, and the two directions perpendicular to the tube axis L are referred to as the width direction Y and the vertical direction Z. In the vertical direction Z, the upper and lower sides when the meter unit 1 is installed are defined as an upper Z1 and a lower Z2, respectively. In the tube axis direction X, the side where the primary pipe 2 is located is defined as a first direction X1, and the side where the secondary pipe 3 is located is defined as a second direction X2. In the width direction Y, the side where the branch pipe 9 is located is defined as one side Y1, and the opposite side thereof is defined as the other side Y2.

As shown in FIG. 1, the main pipe 8 has a flow path switching valve 21 disposed at a branch portion 8a where the branch pipe 9 branches in the first direction X1 of the water meter 7. Further, the main pipe 8 has a gate valve 22 in the second direction of the water meter 7. Furthermore, the main piping 8 has a pipe joint mechanism 23 that is provided between the water meter 7 and a piping member (flow path switching valve 21) located next to the water meter 7, and that allows the water meter 7 to be attached and detached. have The main pipe 8 also includes a pipe joint member 24 that connects the water meter 7 and the gate valve 22.

As shown in FIG. 4, the pipe joint mechanism 23 is coaxially supported by a fixed pipe 25 fixed to the flow path switching valve 21 and movable in the pipe axis direction X of the fixed pipe 25. A moving tube 26 is provided. The moving pipe 26 includes, from the water meter 7 side toward the first direction X1, a small diameter portion 26a and a large diameter portion 26b having a larger outer diameter than the small diameter portion 26a. Furthermore, the moving tube 26 includes an annular flange 26c that extends toward the outer circumferential side from the end of the small diameter portion 26a in the second direction X2. The large diameter portion 26b is inserted into the fixed tube 25. Two annular grooves are provided in the large diameter portion 26b, and an O-ring 27 is attached to each annular groove. Thereby, two O-rings 27 are interposed between the fixed tube 25 and the movable tube 26. The pipe joint mechanism 23 also includes a fastening mechanism 28 that fastens the moving pipe 26 and the water meter 7, and a movement restriction mechanism 29 that makes it impossible for the moving pipe 26 to move relative to the fixed pipe 25.

The fastening mechanism 28 includes a packing 55 disposed between the moving pipe 26 and the water meter 7, an annular flange 26c of the moving pipe 26, and a cap nut 56 having a bag portion 56a that engages with the annular flange 26c. Be prepared. Here, when the cap nut 56 is screwed into the pipe portion of the water meter 7, the movable pipe 26 and the water meter 7 are fastened together. When screwing the cap nut 56 into the water meter 7, the movable tube 26 moves in the tube axis direction X by the amount that the cap nut 56 is screwed.

The movement restriction mechanism 29 includes a joint nut 57 that is screwed into the distal end of the fixed tube 25, a joint packing 58 that is supported by the outer peripheral surface of the small diameter portion 26a of the movable tube 26 and comes into contact with the distal end of the fixed tube 25, and a joint. A joint washer 59 that abuts the packing 58 from the side opposite to the fixed tube 25 is provided. The joint nut 57 is a bag nut, and includes a bag portion 57a that contacts the joint washer 59 from the opposite side to the fixed tube 25. When the joint nut 57 is screwed into the fixed tube 25, the bag portion 57a moves the joint washer 59 toward the fixed tube 25. As a result, the joint packing 58 is compressed in the tube axis direction It deforms elastically. As a result, the joint nut 57 presses the moving tube 26 toward the inner circumferential side via the joint packing 58. Therefore, the movable tube 26 cannot be moved in the tube axis direction X relative to the fixed tube 25.

Note that when removing the water meter 7 from the main pipe 8, first loosen the joint nut 57 of the movement restriction mechanism 29 to enable the movable pipe 26 to move relative to the fixed pipe 25. Next, the cap nut 56 of the fastening mechanism 28 is loosened to release the fastening between the moving pipe 26 and the water meter 7. After that, the water meter 7 is taken out in a direction intersecting the pipe axis L.

The branch pipe 9 includes a water spout 31 at the end opposite to the branch portion 8a (flow path switching valve 21) of the main pipe 8. Further, the branch pipe 9 includes a lid member 32 that opens and closes the water spout 31 . Further, the branch pipe 9 includes a drain port 34 and a drain plug 35 detachably attached to the drain port 34.

Further, as shown in FIG. 3, the branch pipe 9 includes a first bent portion 9a that bends upward Z1 toward the water spout 31 between the branch portion 8a and the water spout 31. Thereby, the water spout 31 faces upward Z1. Further, as shown in FIG. 1, the branch pipe 9 is provided between the branch portion 8a and the first bent portion 9a in a second direction toward one side Y1 (direction away from the main pipe 8) in the width direction Y. A second bent portion 9b that bends toward X2 (toward the water meter 7 side) is provided. Further, as shown in FIG. 3, the branch pipe 9 has a third bent part between the first bent part 9a and the second bent part 9b, which bends toward the other side Y2 (the side of the main pipe 8) in the width direction Y. Equipped with 9c.

More specifically, the branch pipe 9 includes an elbow 33 that bends in the second direction A branch piping member 36 is provided between the branch piping member 36 and the sealing member 30. The water spout 31 is provided in the branch piping member 36. The elbow 33 is a second bent portion 9b of the branch pipe 9, protrudes from the branch portion 8a toward one side Y1 in the width direction Y, and curves in the second direction X2 (towards the water meter 7).

FIG. 5 is a side view of the branch piping member 36 when viewed from the tube axis direction X. As shown in FIGS. 1, 2, and 5, the branch piping member 36 includes a piping main body part 37 communicating with the elbow 33, and a branch pipe part 38 branching from the piping main body part 37. The end of the piping main body 37 opposite to the elbow 33 is closed by a closing member 30 . A drain port 34 is provided in the piping main body portion 37, and a drain plug 35 is attached to the drain port 34.

The branch pipe portion 38 includes a curved portion 38a that protrudes from the pipe main body portion 37 toward the other side Y2 (the main pipe 8 side) in the width direction Y and bends upward Z1. The water spout 31 is an opening at the upper end of the branch pipe section 38 . The curved portion 38a of the branch pipe portion 38 is the third bent portion 9c and the first bent portion 9a of the branch pipe 9. Since the branch pipe 9 includes the first bent portion 9a, the water spout 31 opens upward Z1. Furthermore, since the branch pipe 9 includes the third bent part 9c, the center 31a of the water spout 31 is located on the other side in the width direction Y than the pipe axis 37a of the pipe main body part 37, as shown in FIGS. 3 and 5. It is located on side Y2 (main piping 8 side).

The reinforcing member 10 is made of metal and extends along the main pipe 8. As shown in FIG. 1, the reinforcing member 10 includes a first fixing part 41 provided on one side of the water meter 7 and the pipe joint mechanism 23 in the main pipe 8, and a first fixing part 41 provided on one side of the water meter 7 and the pipe joint mechanism 23 in the main pipe 8. The second fixing part 42 provided on the other side is bridged and fixed. In this example, the first fixing part 41 is provided in the flow path switching valve 21. That is, the flow path switching valve 21 is provided with a first fixing portion 41 that protrudes to the other side Y2 in the width direction Y. In the main pipe 8, a second pipe member 43 is connected to the opposite side of the gate valve 22 from the water meter 7, and the second fixing portion 42 is provided on the second pipe member 43. That is, the second tube member 43 is provided with a second fixing portion 42 that protrudes to the other side Y2 in the width direction Y. The reinforcing member 10 has both end portions in the tube axis direction X fixed to a first fixing part 41 and a second fixing part 42, respectively.

The base 11 extends below the main pipe 8 Z2 in the pipe axis direction X. As shown in FIG. 2, a first support portion 45 that protrudes upward Z1 is provided at an end portion of the base 11 in the first direction X1. A second support portion 46 that protrudes upward Z1 is provided at an end portion of the base 11 in the second direction X2. The flow path switching valve 21 is fixed to the first support portion 45 from above Z1. The gate valve 22 is attached to the second support portion 46 from above Z1. Further, the second tube member 43 is placed on the second support portion 46 . As shown in FIG. 3, in this example, the base 11 and the reinforcing member 10 are integrally formed. Note that the base 11 and the reinforcing member 10 may be separate bodies. Furthermore, the base 11 and the reinforcing member 10 may be omitted.

(First installation example)
FIG. 6 is an explanatory diagram of the first and second forms of the meter unit 1 of the first installation example. FIG. 7 is an explanatory diagram of the third form of the meter unit 1 of the first installation example. In the following figures, the unit box 6 is omitted. In the first installation example, the end of the main pipe 8 on the flow path switching valve 21 side is connected to the primary pipe 2 . The end of the main pipe 8 on the opposite side from the flow path switching valve 21 is connected to the secondary pipe 3. Therefore, water flowing into the meter unit 1 from the primary pipe 2 and flowing through the main pipe 8 passes through the flow path switching valve 21, the water meter 7, and the gate valve 22 in this order, and then flows into the secondary pipe 3. flows. The water meter 7 is arranged with an inlet facing the primary pipe 2 and an outlet facing the secondary pipe 3.

In the first installation example, the flow path switching valve 21 includes a first flow path S1 through which water flowing from the primary side piping 2 passes through the water meter 7, and a second flow path S1 through which water flowing in from the primary side piping 2 flows through the branch pipe 9. The flow path S2 or the water flowing in from the primary pipe 2 is switched to the third flow path S3 through which the water flows through the first flow path S1 and the second flow path S2.

FIG. 6A shows a first embodiment in which the first flow path S1 is selected by the flow path switching valve 21 and the gate valve 22 of the main pipe 8 is set to the open state (O). In this case, water flowing from the primary pipe 2 flows into the secondary pipe 3 via the flow path switching valve 21, the water meter 7, and the gate valve 22 in this order. Therefore, the meter unit 1 can be used as a normal meter unit that measures the water flowing in from the primary pipe 2 using the water meter 7 and supplies the water to the secondary pipe 3.

In FIG. 6(b), the second flow path S2 is selected by the flow path switching valve 21, the gate valve 22 of the main pipe 8 is closed (X), and the water spout 31 is blocked by the lid member 32. This is the second form released. In this case, water flowing in from the primary pipe 2 flows through the branch pipe 9 via the flow path switching valve 21 and is discharged from the water outlet 31. Therefore, water can be taken from the meter unit 1. Further, in this case, the supply of water to the secondary pipe 3 can be stopped and water can be supplied from the water outlet 31.

In the second form shown in FIG. 6(b), water does not flow through the water meter 7. Here, if the water spout 31 is not opened and the water spout 31 is kept closed by the lid member 32, water will not be discharged from the water spout 31. Therefore, it becomes easy to replace the water meter 7.

FIG. 7 shows the third flow path S3 selected by the flow path switching valve 21, the gate valve 22 of the main pipe 8 opened (O), and the water spout 31 unblocked by the lid member 32. There are 3 types. In this case, water flowing in from the primary pipe 2 flows through the flow path switching valve 21, the water meter 7, and the gate valve 22 in this order, and flows into the secondary pipe 3. Further, water flowing from the primary pipe 2 flows into the branch pipe 9 via the flow path switching valve 21 and is discharged from the water outlet 31. Therefore, it is possible to take in water while supplying water to the secondary pipe 3 via the main pipe 8. Moreover, in this case, water flowing into the secondary pipe 3 from the main pipe 8 can be measured.

(Second installation example)
FIG. 8 is a plan view of the meter unit 1 of the second installation example when viewed from above Z1. FIG. 9 is an explanatory diagram of the first and second forms of the meter unit 1 in the second installation example. FIG. 10 is an explanatory diagram of the third form of the meter unit 1 of the second installation example. In the second installation example, the direction of water flowing through the main pipe 8 is reversed from that in the first installation example.

That is, as shown in FIG. 8, in the second installation example, the end of the main pipe 8 on the flow path switching valve 21 side is connected to the secondary pipe 3. An end of the main pipe 8 on the opposite side from the flow path switching valve 21 is connected to the primary pipe 2 . Therefore, water flowing into the meter unit 1 from the primary pipe 2 and flowing through the main pipe 8 passes through the gate valve 22, the water meter 7, and the flow path switching valve 21 (branch portion 8a) in this order, and then flows to the secondary pipe. Flows into side pipe 3. The water meter 7 is arranged with an inlet facing the primary pipe 2 and an outlet facing the secondary pipe 3. Therefore, in the second installation example, the orientation of the water meter 7 is opposite to the orientation of the water meter 7 in the first installation example.

In the second installation example, the flow path switching valve 21 has a fourth flow path S4 through which water flows from the primary side piping 2 and passes through the water meter 7 to the secondary side piping 3; Water that has passed through the water meter 7 flows into the branch pipe 9 through the fifth flow path S5, or water that has flowed from the primary pipe 2 and passed through the water meter 7 flows into the fourth flow path S4 and the fifth flow path S5. The flow is switched to the sixth flow path S6.

FIG. 9A shows a first embodiment in which the gate valve 22 of the main pipe 8 is opened (O) and the fourth flow path S4 is selected by the flow path switching valve 21. In this case, water flowing from the primary pipe 2 flows into the secondary pipe 3 via the gate valve 22, the water meter 7, and the flow path switching valve 21 in this order. Therefore, the meter unit 1 can be used as a normal meter unit that measures the water flowing in from the primary pipe 2 using the water meter 7 and supplies the water to the secondary pipe 3.

In FIG. 9(b), the gate valve 22 of the main pipe 8 is opened (O), the water spout 31 is unblocked by the lid member 32, and the fifth flow path S5 is selected by the flow path switching valve 21. This is the second form. In this case, water flowing from the primary side pipe 2 flows into the branch pipe 9 via the gate valve 22, the water meter 7, and the flow path switching valve 21, and is discharged from the water outlet 31. Therefore, water can be taken from the meter unit 1. Furthermore, in this case, water can be taken from the water outlet 31 while the supply of water to the secondary pipe 3 is stopped. Furthermore, in this case, the water discharged from the water spout 31 can be measured.

In the second embodiment shown in FIG. 9(b), if the gate valve 22 of the main pipe 8 is closed (X), water does not flow through the water meter 7. Further, water does not flow backward from the secondary pipe 3 toward the water meter 7. Further, if the water spout 31 is not opened and the water spout 31 is kept closed by the lid member 32, water will not be discharged from the water spout 31. Therefore, it becomes easy to replace the water meter 7.

FIG. 10 shows a third flow path in which the gate valve 22 of the main pipe 8 is opened (O), the water spout 31 is unblocked by the lid member 32, and the sixth flow path S6 is selected by the flow path switching valve 21. It is a form. In this case, water flowing from the primary pipe 2 flows into the secondary pipe 3 via the gate valve 22, the water meter 7, and the flow path switching valve 21 in this order. Further, water flowing from the primary pipe 2 flows into the branch pipe 9 via the flow path switching valve 21 and is discharged from the water outlet 31. Therefore, it is possible to take in water while supplying water to the secondary pipe 3 via the main pipe 8. Further, in this case, the total amount of water flowing into the secondary pipe 3 and water discharged from the water spout 31 can be measured.

(effect)
According to this example, the meter unit 1 includes a branch pipe 9 that branches from a main pipe 8 that includes a water meter 7 . Further, the branch pipe 9 is provided with a water spout 31. Therefore, by allowing water to flow into the branch pipe 9, water can be taken from the water outlet 31 without removing the water meter 7.

Further, according to the meter unit 1 of this example, even when the flow path switching valve 21 is connected to the primary side piping 2 and water is distributed from the flow path switching valve 21 side, the flow path switching valve 21 is connected to the secondary side piping 2. Even when connecting to the side piping 3 and flowing water from the gate valve 22 side, it is possible to measure the water flowing into the secondary side piping 3 via the meter unit 1, and it is possible to measure the water flowing into the secondary side piping 3 through the meter unit 1. water intake is possible. Therefore, the same meter unit 1 can be used in a plurality of forms depending on the purpose of use.

Further, in this example, the branch pipe 9 includes a first bent portion 9a that bends in an upward direction Z1 toward the water spout 31 between the branch portion 8a and the water spout 31. Thereby, the water spout 31 faces upward Z1. Therefore, by removing the ceiling plate 14 of the unit box 6, external pipes, hoses, etc. can be connected to the water spout 31 from above Z1.

Furthermore, the branch pipe 9 includes a second bent part 9b that bends in the second direction X2 toward one side Y1 in the width direction Y, between the branched part 8a and the first bent part 9a. Therefore, the meter unit 1 can be made smaller in the width direction Y compared to the case where the branch pipe 9 extends linearly in a direction away from the main pipe 8.

Further, the branch pipe 9 includes a third bent portion 9c that bends toward the other side Y2 in the width direction Y between the first bent portion 9a and the second bent portion 9b. Thereby, the center 31a of the water spout 31 can be positioned closer to the main pipe 8 than the pipe axis 37a of the pipe main body 37. Therefore, the meter unit 1 can be made smaller in the width direction Y compared to the case where the center 31a of the water spout 31 is further away from the main pipe 8 than the pipe axis 37a of the pipe main body 37.

Further, in this example, a pipe joint mechanism 23 is arranged between the flow path switching valve 21 and the water meter 7 in the main pipe 8. The pipe joint mechanism 23 includes a fixed pipe 25 fixed to the flow path switching valve 21, a movable pipe 26 coaxially supported by the fixed pipe 25 in a movable state in the pipe axis direction X of the fixed pipe 25, and a movable pipe 26. 26 and the water meter 7, and a movement restriction mechanism 29 that makes it impossible for the movable pipe 26 to move relative to the fixed pipe 25. Therefore, the installation work of attaching the water meter 7 to the main pipe 8 and the removal work of removing the water meter 7 from the main pipe 8 are easy.

Furthermore, in this example, the first fixing part 41 is provided on one side of the water meter 7 and the pipe joint mechanism 23 in the main pipe 8, and the first fixing part 41 is provided on the other side of the water meter 7 and the pipe joint mechanism 23 in the main pipe 8. The reinforcing member 10 is bridged over and fixed to the second fixing part 42 . Therefore, when the water meter 7 is attached or detached, bending of the main pipe 8 can be prevented or suppressed.

Note that instead of the pipe joint member 24, a pipe joint mechanism 23 may be provided between the water meter 7 and the gate valve 22. That is, the pipe joint mechanism 23 may be provided between the water meter 7 and a piping member (gate valve 22) located next to the water meter 7. In this case, the water meter 7 and the flow path switching valve 21 can be connected by the pipe joint member 24.

(Another example of branch piping member)
FIG. 11 is an explanatory diagram of a branch piping member of a modified example. The branch piping member 36A of the modification can be used in place of the branch piping member 36 described above. FIG. 11(a) shows a modified example of the branch piping member viewed from the main pipe 8 side, and FIG. 11(b) shows a modified example of the branched piping member viewed from the pipe axis direction X. . FIG. 11(b) shows a portion of a modified branch piping member in cross section. In addition, since the branch piping member 36A of the modification includes a configuration corresponding to the above-described branch piping member 36, the corresponding configurations are given the same reference numerals.

As shown in FIG. 11, the branch piping member 36A includes a piping main body part 37 and a branch pipe part 38 branching from the piping main body part 37. As shown in FIG. 11(a), the pipe axis 37a of the pipe body 37 is parallel to the axis of the main pipe 8. As shown in FIG. A drain port 34 is provided in the piping main body portion 37, and a drain plug 35 is attached to the drain port 34. The branch pipe portion 38 includes a protruding portion 38b that protrudes from the pipe main body portion 37 toward the other side Y2 (main pipe 8 side) in the width direction Y, and a bent portion 38c that bends upward from the tip of the protruding portion. . The upper end opening of the branch pipe portion 38 is the water spout 31 . The water spout 31 is closed by a lid member 32.

When the branch piping member 36A is connected to the elbow 33, the protruding portion 38b of the branch pipe portion 38 becomes the third bent portion 9c of the branch pipe 9. Further, the bent portion 38c of the branch pipe portion 38 becomes the first bent portion 9a of the branch pipe 9.

Here, as shown in FIG. 11(b), the branch piping member 36A includes two pipe members: a first pipe member 61 including a pipe main body portion 37, and a second pipe member 62 including a bent portion 38c and a water spout 31. It is composed of members. The first pipe member 61 includes a main pipe portion 61a that constitutes the pipe main body portion 37, and a connecting pipe portion 61b that protrudes from the middle of the main pipe portion 61a in a direction perpendicular to the main pipe portion 61a. A drain port 34 is provided in the main pipe portion 61a. Two annular grooves are provided in the connecting pipe portion 61b, and an O-ring 63 is attached to each annular groove. The connecting pipe portion 61b includes a flange 61c at the boundary with the main pipe portion 61a. The first pipe member 61 also includes a first bolt fastening portion 61d for fixing the branch pipe member 36A to the bottom plate 16 of the unit box 6. The first bolt fastening portion 61d extends downward Z2 from the main pipe portion 61a.

The second tube member 62 extends in the vertical direction Z. The second tube member 62 has an opening 62a at its lower end. Further, the second tube member 62 includes a bent portion 38c at the lower end portion on the side opposite to the opening 62a. Further, the second tube member 62 includes a cylindrical portion 62b extending inward from the opening edge of the opening 62a. Further, the second pipe member 62 includes a second bolt fastening portion 62c for fixing the branch pipe member 36A to the bottom plate 16 of the unit box 6. The second bolt fastening portion 62c extends downward Z2 from the lower end portion of the bent portion 38c.

Here, the first pipe member 61 is inserted into the cylindrical part 62b of the second pipe member 62 through the opening 62a, and the second pipe member 61 is inserted into the second pipe member 61 with the flange 61c in contact with the opening edge of the opening 62a. It is integrated with the pipe member 62. As a result, the connecting pipe part 61b of the first pipe member 61 and the cylinder part 62b of the second pipe member 62 become the third bent part 9c of the branch pipe 9, and the bent part 38c of the second pipe member 62 becomes the third bent part 9c of the branch pipe 9. This becomes the first bent portion 9a. Two O-rings 63 are interposed between the connecting tube portion 61b of the first tube member 61 and the cylindrical portion 62b of the second tube member 62. Since the branch piping member 36A of this example is composed of two members, it is easy to manufacture.

DESCRIPTION OF SYMBOLS 1...meter unit, 2...primary side piping, 3...secondary side piping, 5...unit body, 6...unit box, 7...water meter, 8...main piping, 8a...branch part, 9...branch pipe, 9a... First bent part, 9b... Second bent part, 9c... Third bent part, 10... Reinforcement member, 11... Base, 13... Box body, 14... Ceiling plate, 15... Opening/closing lid, 16... Bottom plate, 21... Flow Road switching valve, 22... Gate valve, 23... Pipe joint mechanism, 24... Pipe coupling member, 25... Fixed pipe, 26... Moving pipe, 26a... Small diameter part, 26b... Large diameter part, 26c... Annular flange, 27... O Ring, 28... Fastening mechanism, 29... Movement regulating mechanism, 30... Blocking member, 31... Water spout, 31a... Water spout center, 32... Lid member, 33... Elbow, 34... Drain port, 35... Drain plug, 36, 36A... Branch piping member, 37... Piping main body part, 37a... Pipe shaft, 38... Branch pipe part, 38a... Curved part, 38b... Projection part, 38c... Bent part, 41... First fixing part, 42... Third 2 fixing part, 43... second pipe member, 45... first support part, 46... second support part, 55... packing, 56... cap nut, 56a... bag part, 57... joint nut, 57a... bag part, 58 ...Joint packing, 59...
Joint washer, 61... First pipe member, 61... First pipe member, 61a... Main pipe part, 61b... Connection pipe part, 61c... Flange, 61d... First bolt fastening part, 62... Second pipe member, 62a... Opening, 62b...Cylinder part, 62c...Second bolt fastening part, 63...O ring, S1...First flow path, S2...Second flow path, S3...Third flow path, S4...Fourth flow path, S5... Fifth flow path, S6...Sixth flow path, X...pipe axis direction of main pipe, Y...width direction, Z...vertical direction

Claims (11)

A main pipe that is placed between the primary pipe and the secondary pipe and passes through the water meter,
a branch pipe branching from one side of the water meter in the main pipe;
The main pipe includes a flow path switching valve disposed at a branch portion where the branch pipe branches, and a gate valve disposed on the other side of the water meter in the main pipe,
The meter unit is characterized in that the branch pipe includes a water spout and a lid member that opens and closes the water spout. An end of the flow path switching valve of the main pipe is connected to the primary pipe,
An end of the main pipe opposite to the flow path switching valve is connected to the secondary pipe,
The flow path switching valve switches water flowing from the primary side pipe to a first flow path passing through the water meter, or switching water flowing from the primary side pipe to a second flow path flowing through a branch pipe. The meter unit according to claim 1. The flow path switching valve switches water flowing in from the first flow path, the second flow path, or the primary side piping to a third flow path through which the water flows through the first flow path and the second flow path. The meter unit according to claim 2. An end of the flow path switching valve of the main pipe is connected to the secondary pipe,
An end of the main pipe opposite to the flow path switching valve is connected to the primary pipe,
The flow path switching valve includes a fourth flow path through which water flows from the primary side piping and passes through the water meter to the secondary side piping, and a fourth flow path through which water flows from the primary side piping and passes through the water meter. The meter unit according to claim 1, wherein the flow path is switched to a fifth flow path that flows into the branch pipe. The flow path switching valve is configured such that water flowing from the fourth flow path, the fifth flow path, or the primary side piping and passing through the water meter flows into the fourth flow path and the fifth flow path. The meter unit according to claim 4, characterized in that the meter unit switches to six flow paths. 6. The meter unit according to claim 1, wherein the water spout is provided at an end of the branch pipe opposite to the branch portion. The branch pipe includes a first bent portion between the branch portion and the water spout, which bends upward toward the water spout,
7. The meter unit according to claim 6, wherein the water spout faces upward. 7. The branch pipe includes, between the branch portion and the first bent portion, a second bent portion that bends toward the water meter in a direction away from the main pipe. Meter unit described in. 9. The meter unit according to claim 8, wherein the branch pipe includes a third bent part between the first bent part and the second bent part, which bends toward the main pipe. The meter unit according to any one of claims 1 to 9, wherein the branch pipe includes a drain port and a drain plug detachably attached to the drain port. comprising a reinforcing member extending along the main pipe,
The main piping has a pipe joint mechanism provided between the water meter and a piping member located next to the water meter,
The pipe joint mechanism connects a fixed pipe connected to the piping member, a movable pipe supported by the fixed pipe in a movable state in an axial direction of the fixed pipe, and the movable pipe and the water meter. comprising a fastening mechanism for fastening, and a movement restriction mechanism for making it impossible to move the movable pipe with respect to the fixed pipe,
The reinforcing member includes a first fixing part provided on one side of the water meter and the pipe joint mechanism in the main pipe, and a first fixing part provided on the other side of the water meter and the pipe joint mechanism in the main pipe. 11. The meter unit according to claim 1, wherein the meter unit is fixed across two fixed parts.

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