JP7001464B2 - Water supply device - Google Patents

Description

The present invention relates to a water supply device.

Conventionally, a cabinet-type water supply device that can be installed outdoors is known as a water supply device that supplies water to a water supply target such as a building. In a cabinet-type water supply system, the pump and the pump control unit are housed in a cabinet and protected from rain and wind. The cabinet is required to be durable and robust so as to protect the pump and the pump control unit, and is formed in a box shape by, for example, a metal steel plate (see, for example, Patent Document 1).

12 is a diagram showing an example of a conventional cabinet-type water supply device 200, FIG. 12A is a left side view in FIG. 12, and FIG. 12B is a right side view in FIG. 12. The water supply device 200 is a direct water supply system that does not require a water receiving tank and can be installed by burying a supply pipe branched from a water main pipe and / or a water supply pipe connected to a water supply target of a building. The direct water supply type water supply device 200 can be installed in a smaller space than the water supply tank type water supply device, and is widely used in urban areas where the installation area is limited. In the cabinet type water supply device 200, as shown by an example in FIG. 12, the suction port 22a connected to the suction side of the pumps 12a and 12b and the discharge port 46a connected to the discharge side of the pumps 12a and 12b. And are provided in the cabinet 98. A space Sc is formed below the suction port 22a and the discharge port 46a in the cabinet 98 so that piping connection work can be performed in the cabinet 98. Further, on the left side surface and the right side surface of the cabinet 98, the supply pipe 92 and the water supply pipe 94 can be pulled in from either the left side surface or the right side surface of the cabinet 98 depending on the position of the water main of the water supply source and the position of the building. The openings 92a and 92b for the supply pipe 92 and the openings 94a and 94b for the water supply pipe 94 are provided on the left side surface and the right side surface, respectively. The openings 92a, 92b, 94a, 94b are round holes slightly larger than the diameters of the supply pipe 92 and the water supply pipe 94, and are covered with a rubber cap or the like. Further, regarding the bottom portion of the cabinet 98, the cabinet 98 may not have a bottom surface itself or may have a relatively large opening on the bottom surface.

When the water supply device 200 is installed, the supply pipe 92 and the suction port 22a are connected, and the water supply pipe 94 and the discharge port 46a are connected in the cabinet 98. The supply pipe 92 is then stretched out of the cabinet 98 through the openings 92a, 92b or the bottom of the cabinet 98, and the water supply pipe 94 is stretched out of the cabinet 98 through the openings 94a, 94b or the bottom of the cabinet 98.

JP-A-2005-54731

In general, water supply equipment is operated while replacing consumable parts on a regular basis in order to avoid sudden water outages due to breakdowns, and the water supply equipment itself is updated in about 20 to 30 years. .. Here, in recent years, there has been a demand from users for energy saving, and the specifications of the water supply device may be reviewed at the time of renewal. As an example, as the birthrate declines and the population ages, the number of single-person households increases in family-friendly buildings, the amount of water used decreases, and it may be preferable to replace the water supply equipment with a smaller maximum amount of water. In addition, due to the diversification of lifestyles, at sites where water is used for a long time with a small amount of water, the difference in flow rate between the small amount of water and the maximum flow rate is large, so multiple pumps with small capacities are installed according to the amount of water. It may be preferable to select a water supply device for additional pump arrangement. In this way, it is preferable to update to a water supply device suitable for the usage mode at the time of updating in which the amount of water used can be estimated in advance. In addition, technological advances have made water supply devices smaller. Therefore, the water supply device may be updated with a water supply device having a different size, suction port, and discharge port position from the water supply device before the update. However, as described above, the piping and installation location of the building or the like are designed according to the dimensions of the water supply device before the renewal. If the supply pipe 92 and the water supply pipe 94 are piped through the bottom of the cabinet 98 at the time of renewal, underground piping work is required. In comparison, the work becomes complicated and the construction cost is high. Therefore, at the time of renewal, there is a site where the supply pipe 92 and the water supply pipe 94 are connected through the openings 92a, 92b, 94a, 94b formed on the side surface of the cabinet 98. Here, since the openings 92a, 92b, 94a, 94b are round holes slightly larger than the pipe diameters of the supply pipe 92 and the water supply pipe 94 and have almost the same diameter, they match the dimensions of the water supply device before the update. In order to pull the designed supply pipe 92 and water supply pipe 94 into the cabinet 98, it is necessary to finely adjust the length and arrangement of the pipes outside the cabinet 98, or to route the pipes using multiple elbow pipes. there were.

Further, the direct water supply type water supply device 200 is provided with a backflow prevention device for preventing backflow of water from the suction port to the upstream side, and is provided with a drain pipe for guiding the water discharged from the backflow prevention device. On the other hand, the water receiving tank type water supply device in which water from the water receiving tank is supplied to the suction port may not be provided with a backflow prevention device. For this reason, backflow prevention is required when updating from a water receiving tank type water supply device to a direct water supply type water supply device or when updating from a water supply device using a double check valve to a water supply device using a decompression type backflow preventer. A new drain pipe may be installed to drain the water discharged from the device. The drain pipe extending from the main body of the water supply device to the drainage facility is not limited to any of the openings 92a, 92b, 94a, and 94b, and a water supply device with a high degree of freedom in design is desired.

The present invention has been made in view of the above points, and one of the objects of the present invention is to provide a water supply device having a high degree of freedom in designing a pipe extending from the main body of the water supply device to the outside in a cabinet type water supply device. .. Another object of the present invention is to provide a water supply device in which it is easy to connect pipes in a cabinet-type water supply device.

(Form 1) According to Form 1, a water supply device for supplying water to a water supply target is proposed. Such a water supply device includes a water supply device main body and a cabinet that accommodates the water supply device main body and forms a piping space vertically below the discharge port or the suction port. The water supply device main body has a suction port connected to a supply pipe, a discharge port connected to the water supply pipe, and a pump for transferring water from the suction port to the discharge port. Then, the cabinet has an opening vertically below the discharge port or the suction port through which at least one of the supply pipe and the water supply pipe can be inserted, and the opening has a different vertical length and a horizontal length. It is a feature.
According to the first embodiment, the water supply pipe and the supply pipe can be extended from the outside to the inside of the cabinet through the opening. Since the length of the opening is different from the length in the vertical direction and the length in the horizontal direction, the degree of freedom in designing the pipe extended to the outside from the main body of the water supply device can be increased, and the pipe connection work can be facilitated. Can be done.

(Form 2) According to Form 2, in the water supply device of Form 1, the opening includes an insertion region through which at least one of the supply pipe and the water supply pipe can be inserted. The length of the insertion region in the longitudinal direction is longer than the length obtained by adding the outer diameters of any two of the pipes inserted into the cabinet.
According to the second embodiment, two pipes can be inserted through the opening, the degree of freedom in designing the pipes extended to the outside from the water supply device main body can be increased, and the pipe connection work can be facilitated. be able to.

(Form 3) According to Form 3, in the water supply device of Form 1 or 2, the opening is characterized in that the length in the vertical direction is longer than the length in the horizontal direction. In this way, the degree of freedom in designing the pipe in the vertical direction can be increased, and the horizontal length of the opening can be reduced to ensure the rigidity of the cabinet.

(Form 4) According to the fourth form, in any one of the water supply devices of the first to third forms, the opening is characterized in that a cover body having a film portion made of a material softer than the cabinet is attached. do.
According to the third embodiment, it is possible to suppress the sound generated inside the cabinet from leaking to the outside.

(Form 5) According to Form 5, in the water supply device of Form 4, the opening is covered with a plurality of members including a cover body and a panel body made of a material harder than the cover body. The plurality of members can be arranged by changing their respective positions.
According to the fourth embodiment, the second resin plate or the rubber plate can be arranged at the position where the pipe from the water supply device main body is arranged, and the hard plate can be arranged at another position. Therefore, it is possible to increase the degree of freedom in designing the piping extended from the water supply device main body to the outside, and to secure the rigidity of the cabinet.

(Form 6) According to Form 6, in any one of the water supply devices 1 to 5, the cabinet has a first opening as an opening located at a position overlapping the suction port in the front-rear direction of the water supply device. Is formed, and the first opening is provided on at least one of the left side surface and the right side surface of the cabinet.
According to the sixth embodiment, the piping connection in the cabinet can be simplified.

(Form 7) According to Form 7, in any one of the water supply devices of Forms 1 to 5, the water supply device is provided with a backflow prevention device between the suction port and the pump, and the backflow prevention device is provided at the opening. The feature is that the drain pipe for draining the water discharged from the water supply pipe and the water supply pipe can be inserted side by side.

(Form 8) According to Form 8, in any one of the water supply devices of Forms 1 to 7, the cabinet is located as an opening at a position overlapping the discharge port in the front-rear direction of the water supply device. An opening is formed and the second opening is characterized in that it is provided on at least one of the left and right sides of the cabinet.

(Form 9) According to the third form, in any one of the water supply devices 1 to 8, the third water supply device is located on the back surface of the cabinet as an opening at a position overlapping the suction port in the left-right direction of the water supply device. It is characterized in that at least one of the opening of the water supply device and the fourth opening located at a position overlapping the discharge port in the left-right direction of the water supply device is provided.

(Form 10) According to Form 10, in any one of the water supply devices of Form 1 to 9, the cabinet includes a frame body that reinforces at least a part of the side surface.
According to the sixth embodiment, the rigidity of the cabinet can be ensured.

It is a figure which shows the water supply device which concerns on one Embodiment of this invention from the front. It is a figure which shows an example of the cabinet of the modification example. It is a figure which shows the water supply device which concerns on one Embodiment of this invention from the front. It is a figure which shows the inside of the water supply device of this embodiment from the left side. It is a figure which shows an example of the backflow prevention device of this embodiment. It is a figure which shows typically an example in which the water supply device of this embodiment is connected to a pipe. It is a figure which shows the cabinet of this embodiment from the left side. It is a figure which shows the cabinet of this embodiment from the right side. It is a figure which shows the cabinet of this embodiment from the rear side. It is a front view which shows an example of the cover body of this embodiment. It is a right side view which shows an example of the cover body of this embodiment. It is a vertical sectional view which shows an example of the cover body of this embodiment. It is a figure which shows the cabinet of the modification 1 from the left side. It is a figure which shows the cabinet of the modification 2 from the right side. It is a figure which shows another example of the cabinet of the modification 2 from the right side. It is a figure which shows an example of the frame which reinforces a base body. It is the figure which shows the cabinet of the modification example from the left side. It is the figure which shows the cabinet of the modification example from the left side. It is the figure which shows the cabinet of the modification example from the left side. It is the figure which shows the cabinet of the modification example from the left side. It is a figure which shows an example of the conventional cabinet type water supply device. It is a left side view in FIG. It is a right side view in FIG.

1 and 2 are views showing the water supply device according to the embodiment of the present invention from the front. Further, FIG. 3 is a view showing the inside of the water supply device of the present embodiment from the left side, and is a sectional view taken along the line AA of FIG. The water supply device 10 of the present embodiment includes each device (water supply device main body) including pumps 12a and 12b, and a rectangular cabinet 100 that houses the water supply device main body and protects it from the external environment. FIG. 1 shows the water supply device 10 with the lid 140 of the cabinet 100 attached, and FIG. 2 shows the water supply device 10 with the lid 140 removed.

The cabinet 100 has a cabinet body (base body) 110 and a lid 140 that can be attached to and detached from the base body 110. The base body 110 and the lid 140 are made of, for example, iron, steel, or stainless steel so as to ensure rigidity against the usage environment of the water supply device 10 (installation outdoors, vibration noise of pumps 12a, 12b, etc.). It should be made of a metallic material. The base body 110 is formed in a rectangular shape having a left side surface 111, a right side surface 112, a back surface 113, and a ceiling surface 114. The base body 110 includes a wall surface portion defining at least a part of the left side surface 111, the right side surface 112, the back surface 113, and the ceiling surface 114 of the cabinet 100, and the load of the water supply device main body is provided on at least a part of the wall surface portion. It is preferable that it is made of a metal material in order to support. A fixing plate 116 having holes for anchor bolts for fixing the water supply device 10 to the installation surface is provided on at least one of the bottom sides of the left side surface 111, the right side surface 112, and the back surface 113 of the base body 110 of the present embodiment. It is good to provide. In the present embodiment, the fixing plate 116 is provided on the left side surface 111 and the right side surface 112 of the base body 110, respectively, and the base body 110 is fixed to the foundation concrete 300 with anchor bolts (not shown).

The cabinet 100 has a lid 140 that can be removed when maintaining each device of the water supply device main body. Specifically, as shown in FIG. 1, the lid 140 is attached to the front surface of the base body 110 to define the front surface of the cabinet 100, and houses each device (water supply device main body) of the water supply device 10 together with the base body 110. This protects the fixing plate 116 from the outdoor environment. The lid 140 may be detachably attached to the base body 110 by a fixing tool such as a screw, or may be attached to the base body 110 so as to be openable and closable via a hinge or the like. In the present embodiment, in the cabinet 100, the base body 110 and the lid 140 are fitted, and the lid 140 is locked, and the lid 140 is opened and closed by a key-holding engineer such as a maintenance worker to hold the key. The lid 140 is configured so that it will not be opened or closed by some people who do not. As a result, it is possible to suppress problems such as the water supply device 10 being unintentionally stopped and water is cut off due to an erroneous operation by the user. Further, as shown in FIG. 1, the lid 140 of the cabinet 100 is provided with a window 144 so that the operation panel 76 of the control unit 70, which will be described later, can be visually recognized from the outside.

In the cabinet 100 of the present embodiment, the base body 110 defines the left side surface 111, the right side surface 112, the back surface 113, and the ceiling surface 114 of the cabinet 100, and the lid 140 defines the front surface of the cabinet 100. It is not limited to these examples. For example, in the modified cabinet of FIG. 1A, the base body 110A defines the back surface of the cabinet and also defines the front surface, the left side surface, and a part of the right side surface, and the lid 140A defines the front surface, the ceiling surface, and the left side of the cabinet. A surface and a part of the right surface are defined. Further, as will be described in detail later, the side surfaces 111, 112 and the back surface 113 of the cabinet 100 of the present embodiment are provided with openings through which pipes can be inserted. Here, when the lid constitutes at least a part of the side surface or the back surface of the cabinet, the openings (121A, 122A, 131A, 132A in FIG. 1A) are formed in the base body 110A as shown in FIG. 1A. It is preferable to be done. In this way, the base bodies 110, 110A define the back surface of the cabinet, and at least a part of the ceiling surface, the front surface, the left side surface, and the right side surface, and the lids 140, 140A define the front surface, the ceiling surface, and the ceiling surface of the cabinet. It defines at least a part of the left side surface and the right side surface. Further, the cabinet may be composed of a combination of a plurality of base bodies and a plurality of lids.

As shown in FIGS. 2 and 3, inside the cabinet 100, the water supply device main body is connected to a suction port 22a connected to a supply pipe 3a (see FIG. 4) and a water supply pipe 3b (see FIG. 4). The discharge port 46a and the pump pumps 12a and 12b that transfer water from the suction port 22a to the discharge port 46a are accommodated. Further, in the present embodiment, as an example, an electric motor 16, a suction header 18, a ball valve 20, a suction pipe 22, a backflow prevention device 24, a pressure sensor 26, a discharge elbow pipe 28, and a reverse discharge side are inside the cabinet 100. Stop valve 30, flow switch 32, discharge collecting pipe 34, pressure sensor 36, bypass header pipe 38, pressure tank 40, discharge pipe 46, discharge port 46a, inverter device 54, control unit 70, operation panel 76, etc. Each device should be accommodated.

Inside the cabinet 100, two pumps 12a and 12b, which are vertical shaft pumps, are arranged side by side in the vertical direction. A motor 16 for driving the pump 14 is arranged above the pumps 12a and 12b. For example, the pumps 12a and 12b are booster pumps.

A suction header 18 extending in the horizontal direction is connected to the suction side of the pumps 12a and 12b. The suction header 18 is connected to the suction port 22a via the backflow prevention device 24 and the suction pipe 22. The suction pipe 22 is a curved pipe for communicating the suction header 18 extending in the horizontal direction and the suction port 22a of the water supply device 10 facing vertically downward, and may be provided with a ball valve 20 with a strainer. Further, it is preferable that the suction pipe 22 is equipped with a pressure sensor 26 for detecting the pressure. The suction port 22a is a connection port for connecting to a supply pipe (see 3a in FIG. 4) connected to a water supply source such as a water main or a water receiving tank. In the present embodiment, the suction port 22a is a suction header extending in the horizontal direction. The suction port 22a of the water supply device 10 and 18 communicate with each other via a suction pipe 22 which is a curved pipe, and the suction port 22a is arranged so as to face vertically downward. By connecting the suction port 22a and the supply pipe and operating the pumps 12a and 12b with the ball valve 20 open, tap water passes through the suction pipe 22, the backflow prevention device 24, and the suction header 18. , Sucked into each pump 12a, 12b. Further, in the present embodiment, the suction pipe 22 is the backflow prevention device 24.
It extends to the right from the end and bends downward to connect to the suction port 22a. As a result, in the present embodiment, the suction header 18, the backflow prevention device 24, and the suction port 22a are arranged at overlapping positions in the front-rear direction, and the arrangement in the cabinet 100 is simplified.

The backflow prevention device 24 of the present embodiment is provided to prevent water from flowing back from the pumps 12a and 12b to the water supply source on the upstream side, and is provided with the suction port 22a of the suction pipe 22 in the water flow path. It is provided between the pumps 12a and 12b. When the suction pipe 22 is connected to a supply pipe (see 3a in FIG. 4) connected to the water receiving tank (water supply source), the pumps 12a and 12b are connected to the suction pipe 22 without going through the backflow prevention device 24. May be connected. In this case, the suction header 18 may not be connected to the suction side of the pumps 12a and 12b, and the supply pipe 3a may be connected to the suction ports of the pumps 12a and 12b, respectively.

FIG. 3A is a diagram showing an example of the backflow prevention device 24. In the present embodiment, the check valve 24 is a decompression type check valve, and has two check valves 241 and 242 inside, an intermediate chamber 245 surrounded by the check valves 241 and 242 and a diaphragm 244, and the same. A relief valve 243 capable of discharging the liquid in the intermediate chamber 245 is provided, and a drain port 24a for discharging the liquid in the intermediate chamber 245 is provided vertically downward. The water supply pipe 22 is connected to the connection port 23b on the primary side of the backflow prevention device 24, and the suction header 18 is connected to the connection port 23c on the secondary side of the backflow prevention device 24. In the backflow prevention device 24, when the relief valve 243 is opened, the liquid in the intermediate chamber 245 is discharged from the drain port 24a. The check valve 24 opens the relief valve 243 and drains the water in the intermediate chamber 245 from the drain port 24a when the primary side is under negative pressure or when one of the built-in check valves 241, 242 loses its function. Has the function of Therefore, unless the condition that the two check valves 241 and 242 lose their functions at the same time occurs, the check valve does not flow back from the secondary side to the primary side. Is unlikely to occur, and its reliability is high. Further, the pressure reducing type check valve has a smaller pressure loss than the double check valve, and can save energy in the water supply device 10. However, the decompression type backflow preventer requires a drain pipe 3c for guiding the water discharged from the drain port 24a to the outside of the water supply device 10. As described above, the suction pipe 22 of the present embodiment extends in the left-right direction inside the cabinet 100, and the backflow prevention device 24 (drainage port 24a) sucks the water supply device 10 in the front-rear direction of the water supply device 10. The position overlaps with the mouth 22a.

As shown in FIGS. 2 and 3, a discharge elbow pipe 28 is connected to the discharge side of the pumps 12a and 12b. The discharge collecting pipe 34 that collects (merges) the water discharged from the pumps 12a and 12b is connected to the discharge elbow pipe 28 via the discharge side check valve 30 that prevents the backflow of the discharged water. Has been done. The discharge elbow pipe 28 has a flow switch 32 which is a flow meter for detecting a small amount of water for each pump. The discharge collecting pipe 34 is connected to the upper end of the bypass header pipe 38 having the pressure sensor 36 for detecting the pressure on the discharge side. The bypass header pipe 38 communicates with the pressure tank 40 via the pressure tank pipe 42 at a predetermined position, and is connected to the discharge pipe 46 having the ball valve 44. The discharge pipe 46 is a pipe for connecting the discharge port 46a, which is the end of the pipe, to a water supply pipe (see 3b in FIG. 4) that communicates with a water supply target (for example, a faucet) such as a building. In the embodiment, the discharge port 46a is arranged so as to face vertically downward.

With such a configuration, the water discharged from the pumps 12a and 12b due to the operation of the pumps 12a and 12b passes through the discharge elbow pipe 28, the discharge side check valve 30, the discharge collecting pipe 34 and the bypass header pipe 38. Then, it is discharged to the outside from the discharge pipe 46. When the pressure of the water in the suction header 18 is sufficiently high, the water in the suction header 18 is directly guided to the discharge pipe 46 via the bypass pipe (not shown) and discharged to the outside. The pressure tank 40 accumulates the pressurized water discharged from the pumps 12a and 12b to prevent the pumps 12a and 12b from starting and stopping frequently, and to keep the water supply water pressure smoothly and constant.

A space Sc, which is a piping space for piping the supply pipe or the water supply pipe, is formed vertically below the suction port 22a and the discharge port 46a in the cabinet 100. Specifically, a space Sc is formed at a portion having a height Hsc from the bottom of the left side surface 111, the right side surface 112, and the back surface 113 of the cabinet 100. Generally, the pipe used in the water supply device 10 is a steel pipe, and it is difficult to make fine adjustments in the piping work. In the water supply device 10 of the present embodiment, since the space Sc having a height of Hsc is provided below the cabinet 100, the pipe connection between the supply pipe extending from the water main and the suction port 22a and the water supply extending to the supply destination are provided. The pipe connection between the pipe 3b and the discharge port 46a can be easily adjusted. It is preferable that at least the elbow tubes 5a and 5b, which will be described later, can be stored in the space Sc. Wsc, which is the width of the space Sc in the front-rear direction, is determined by the equipment in the cabinet. Therefore, by making the height Hsc longer than Wsc and securing the area of the space Sc, the workability of the piping work in the cabinet 100 (particularly, the connection between the pipes extending in the vertical direction) is improved.

Further, as shown in FIG. 3, in the water supply device 10 of the present embodiment, the suction header 18 is arranged in the front and the discharge collecting pipe 34 is arranged in the rear, so that the space in the front and rear is effectively utilized and the cabinet 100 is used. It is becoming smaller. Therefore, the suction port 22a is provided in front of the center of the cabinet 100, and the discharge port 46a is provided in the rear of the center of the cabinet 100. The discharge port 46a provided behind the center of the cabinet 100 is threaded and is configured to be connectable to the supply pipe by a screw-in type pipe connection method. The water supply device 10 may be installed right next to the wall surface of the building, and when the water supply pipe 3b is connected to the discharge port 46a near the back surface 113 of the cabinet 100, the tool comes into contact with the back surface 113 and the connection work is difficult. May be. In particular, in Space Sc, it may be difficult to secure a space for using a tool when bolting pipes to each other. On the other hand, in the present embodiment, since the discharge port 46a is configured to be connectable by a screw-in type pipe connection method, the pipe connection work in the space Sc can be easily performed. In this embodiment, the suction port 22a is also configured to be connectable to the supply pipe by a screw-in type pipe connection method. However, the present invention is not limited to these examples, and for example, a connection port provided in front of the center of the cabinet 100 can be connected by a pipe connection method other than a screw-in type (for example, a flange is provided in the pipe and bolted). It may be configured. Further, the connection port provided behind the center of the cabinet 100 may be configured to be connectable by a pipe connection method other than the screw-in type.

An inverter device 54, which is a variable speed means for the pumps 12a and 12b, is provided above the pumps 12a and 12b. The inverter device 54 supplies AC power to the electric motors 16 of the pumps 12a and 12b at different frequencies and voltages to drive the electric motors 16 at variable speeds. The inverter device 54 is housed in an inverter case 56 supported by the base body 110 of the cabinet 100. The inverter case 56 has, for example, a heat sink 52 made of aluminum and having heat dissipation fins 50, and the inverter device 54 is placed and stored on the upper surface of the heat sink 52.

A control unit (pump control unit) 70 is provided inside the cabinet 100. The control unit 70 receives a signal from the pressure sensors 26, 36, etc., and controls the water supply pressure at the terminal water supply target (faucet, etc.) to be the target pressure, or from the pumps 12a, 12b. The pumps 12a and 12b are operated at variable speeds by controlling the discharge pressure to be constant so that the discharge pressure of the pump 12a and 12b becomes the target pressure. The control unit 70 is provided with an operation panel 76 for various operations and displays. In the present embodiment, the control unit 70 is arranged vertically above the suction port 22a of the suction pipe 22 and the discharge port 46a of the discharge pipe 46. As a result, even if water leakage occurs when the water supply device 10 is installed (when the supply pipe and the suction port 22a are connected, and when the water supply pipe 3b and the discharge port 46a are connected), the control unit 70 is exposed to water. Can be suppressed. Further, in the present embodiment, the control unit 70 is supported and stored in the cabinet 100 by the base body 110 separately from the inverter case 56 that houses the inverter device 54. As a result, maintenance and replacement of the inverter device 54 and the control unit 70 can be easily performed. Further, the influence of the switching noise of the inverter device 54 on the control unit 70 can be reduced.

FIG. 4 is a diagram schematically showing an example in which the water supply device 10 of the present embodiment is connected to a pipe. In FIG. 4, the cabinet 100 of the water supply device 10 is shown by a broken line, and the configuration of the water supply device main body is shown only around the suction port 22a, the discharge port 46a, and the backflow prevention device 24, and other configurations are shown. It is omitted.

As shown in FIG. 4, a supply pipe 3a connected to a water main or a water receiving tank (not shown) is connected to the suction port 22a of the water supply device 10, and a water supply target (not shown) such as a building is connected to the discharge port 46a. The water supply pipe 3b connected to the water supply pipe 3b is connected to the water supply pipe 3b. Here, in the example shown in FIG. 4, each of the supply pipe 3a and the water supply pipe 3b is extended to the outside of the cabinet 100 through the side surface of the base body 110. As described above, in the water supply device 10 of the present embodiment, the suction port 22a and the discharge port 46a are arranged vertically downward inside the cabinet 100. Therefore, each of the supply pipe 3a and the water supply pipe 3b includes elbow pipes 5a and 5b, which are curved pipes capable of horizontally bending the flow path communicating with the suction port 22a or the discharge port 46a by 90 °. In the space Sc inside the cabinet 100, the flow path of the pipe is changed from the substantially horizontal direction to the substantially vertical direction. Further, each of the supply pipe 3a and the water supply pipe 3b is provided with pipe silencers 4a and 4b that suppress the vibration generated from the water supply device 10 (pumps 12a and 12b) from propagating to the outside. In the example shown in FIG. 4, the pipe silencers 4a and 4b are arranged outside the cabinet 100, but may be arranged so as to be accommodated in the space Sc inside the cabinet 100.

Further, as described above, the backflow prevention device 24 drains water from the drain port 24a when the primary side has a negative pressure or when one of the built-in check valves 241,242 loses its function, so that the backflow prevention device 24 prevents backflow. Below the device 24, a hopper portion 3c1 that serves as a tray for water discharged from the drain port 24a of the backflow prevention device 24 is arranged. The inverted conical hopper portion 3c1 having a large opening at the top is a part of the drain pipe 3c, and the drain pipe 3c receives the water discharged from the drain port 24a of the backflow prevention device 24 by the hopper portion 3c1 and is a water supply device. Guide to 10 external drainage facilities and the like. That is, the drain pipe 3c drains the water discharged from the backflow prevention device 24. Since the backflow prevention device 24 is located at a position where it overlaps with the suction port 22a of the water supply device 10 in the front-rear direction of the water supply device 10, the drain pipe 3c is at a position where it overlaps with the supply pipe 3a in the front-rear direction of the water supply device 10. In the example shown in FIG. 4, a gap (air gap) is provided between the backflow prevention device 24 and the hopper portion 3c1 of the drain pipe 3c, but depending on the configuration of the backflow prevention device 24, the drain is not provided. The pipe 3c and the backflow prevention device 24 may be connected. Then, in the example shown in FIG. 4, the drain pipe 3c is extended together with the supply pipe 3a from the right side surface 112 of the cabinet 100 to the outside of the water supply device 10.

Generally, the life of a building is longer than the life of the water supply device 10, so the water supply device 10 is newly installed at the time of construction of the building and is operated while replacing or repairing parts, and a certain period of time has passed since the installation. Then the update will be made. Here, particularly when the water supply device 10 is renewed and installed from the existing water supply device, the height H3a from the installation surface of the supply pipe 3a drawn into the water supply device 10 and the height from the installation surface of the water supply pipe 3b. The height H3c from the installation surface of the drain pipe 3c is determined by the positions of the H3b, the existing supply pipe 3a, and the water supply pipe 3b, and is determined by the existing drainage facility or the like. Hereinafter, the water supply device 1 after updating the existing supply pipe 3a, water supply pipe 3b, or drain pipe 3c.
The opening provided on the side surface of the cabinet 100 will be described so that the work of pulling in to 0 is simplified.

5 to 7 are views showing the cabinet 100 of the present embodiment from the left side, the right side, and the rear side. As described above, the suction port 22a and the discharge port 46a are provided inside the cabinet 100. The base body 110 of the cabinet 100 has openings 121 to 123, 131 to 133 for inserting the supply pipe 3a connected to the suction port 22a and the water supply pipe 3b connected to the discharge port 46a. It is provided. In this embodiment, two openings 121 to 123 and 131 to 133 are provided on the left side surface 111, the right side surface 112, and the back surface 113 of the base body 110 of the cabinet 100, respectively. A cover body 150 is attached to these openings 121 to 123 and 131 to 133. 7A is a front view showing an example of the cover body 150, FIG. 7B is a right side view of the cover body 150 of FIG. 7A, and FIG. 7C is a vertical sectional view of BB in FIGS. A and B. .. As an example, the cover body 150 is made of a material having more elasticity than the cabinet 100 such as rubber or synthetic resin, and a thick portion 150a having a width Wg is formed at a portion of the cover body 150 in contact with the base body 110. The thick portion 150a maintains the strength of the cover body 150 and prevents the vibrations of the pumps 12a and 12b transmitted to the supply pipe 3a and the water supply pipe 3b from being transmitted to the base body 110. Further, in the cover body 150, a film portion 150b that is thinner than the thick portion 150a and softer than the base body 110 is formed inside the thick portion 150a. That is, the openings 121 to 123 and 131 to 133 include an insertion region through which at least one of the supply pipe 3a and the water supply pipe 3b can be inserted, and in the present embodiment, the insertion region is formed by the membrane portion 150b as an example. The film portion 150b has an elliptical shape in which the width Wf, which is the length in the horizontal direction, is larger than the pipe diameter of at least one of the supply pipe 3a and the water supply pipe 3b, and the height Hf, which is the length in the vertical direction, is longer than the width Wf. Is. By cutting a part of the membrane portion 150b using a jig such as scissors or a cutter, it is possible to insert at least one of the supply pipe 3a and the water supply pipe 3b. The cover body 150 may be attached to the base body 110 by any method, and is fixed to the base body 110 by, for example, an adhesive or fitting with the thick portion 150a as shown in FIG. 7C. In the present embodiment, the thick portion 150a has a recess 150c in which the base body 110 is fitted along the outer periphery. The width W1 of the openings 121 to 123 and 131 to 133 of the base body 110 is equal to or greater than the width Wc between the recesses 150c of the cover body 150, and is larger than the width Wf of the film portion 150b.

As shown in FIG. 5, the left side surface 111 of the base body 110 is provided with an opening 121, which is a first opening formed at a position overlapping the suction port 22a in the front-rear direction of the water supply device 10. 121 is formed vertically below the suction port 22a. Specifically, in the present embodiment, the first opening is formed so as to include a region where the suction port 22a is located in the front-rear direction of the water supply device 10. That is, the distance W121B from the rear end of the opening 121 to the rear end of the cabinet 100 is smaller than the distance W22aB from the rear end of the suction port 22a to the rear end of the cabinet 100 (W121B <W22aB), and / or the opening 121. The distance W121F from the front end of the cabinet 100 to the front end of the cabinet 100 is smaller than the distance W22aF from the front end of the discharge port 22a to the front end of the cabinet 100 (W121F <W22aF).

Further, the left side surface 111 of the base body 110 is provided with an opening 131, which is a second opening formed at a position overlapping the discharge port 46a in the front-rear direction of the water supply device 10, and the opening 131 is discharged. It is formed vertically below the opening 46a. Specifically, in the present embodiment, the second opening is formed so as to include a region where the discharge port 46a is located in the front-rear direction of the water supply device 10. That is, the distance W131B from the rear end of the opening 131 to the rear end of the cabinet 100 is smaller than the distance W46aB from the rear end of the discharge port 46a to the rear end of the cabinet 100 (W131B <W46aB) and / or the opening. The distance W131F from the front end of the 131 to the front end of the cabinet 100 is smaller than the distance W46aF from the front end of the discharge port 46a to the front end of the cabinet 100 (W131F <W46aF).

Further, as shown in FIG. 6, the right side surface 112 of the base body 110 is provided with two openings 122 and 132. Like the opening 121, the opening 122 is a first opening formed at a position overlapping the suction port 22a in the front-rear direction of the water supply device 10, and is formed vertically below the suction port 22a. Specifically, the distance from the rear end of the opening 122 to the rear end of the cabinet 100 is less than the distance from the rear end of the suction port 22a to the rear end of the cabinet 100 and / or from the front end of the opening 122 to the cabinet. The distance to the front end of the 100 is smaller than the distance W22aF from the front end of the discharge port 22a to the front end of the cabinet 100. Further, the opening 132 is a second opening formed at a position overlapping the discharge port 46a in the front-rear direction of the water supply device 10 like the opening 131, and is formed vertically below the discharge port 46a. .. Specifically, the distance from the rear end of the opening 132 to the rear end of the cabinet 100 is smaller than the distance W46aB from the rear end of the discharge port 46a to the rear end of the cabinet 100, and / or the front end of the opening 132. The distance from the front end of the cabinet 100 to the front end of the cabinet 100 is smaller than the distance from the front end of the discharge port 46a to the front end of the cabinet 100.

Further, as shown in FIG. 7, the back surface 113 of the base body 110 is provided with an opening 123, which is a third opening formed at a position overlapping the suction port 22a in the left-right direction of the water supply device 10. The opening 123 is formed vertically below the suction port 22a. Specifically, in the present embodiment, the opening 123 is formed so as to include a region where the suction port 22a is located in the left-right direction of the water supply device 10. That is, the distance W123L from the left end of the opening 123 to the left end of the cabinet 100 is smaller than the distance W22aL from the left end of the suction port 22a to the left end of the cabinet 100 (W123L <W22aL), and / or the cabinet from the right end of the opening 123. The distance W123R to the right end of the 100 is smaller than the distance W22aR from the right end of the suction port 22a to the right end of the cabinet 100 (W123R <W22aR).

Further, the back surface 113 of the base body 110 is provided with an opening 133, which is a fourth opening formed at a position overlapping the discharge port 46a in the left-right direction of the water supply device 10, and the opening 133 discharges. It is formed vertically below the mouth 46a. Specifically, in the present embodiment, the opening 133 is formed so as to include a region in which the discharge port 46a is located in the left-right direction of the water supply device 10. That is, the distance W133L from the left end of the opening 133 to the left end of the cabinet 100 is smaller than the distance W46aL from the left end of the discharge port 46a to the left end of the cabinet 100 (W133L <W46aL) and / or from the right end of the opening 133. The distance W133R to the right end of the cabinet 100 is smaller than the distance W46aR from the right end of the discharge port 46a to the right end of the cabinet 100 (W133R <46aR).

In the present embodiment, "the opening is formed vertically below the suction port 22a (discharge port 46a)" means that at least the lower end of the opening is vertical to the suction port 22a (discharge port 46a). It means that it is located below. Further, the "side surface of the space Sc" means the left side surface 111, the right side surface 112, the back surface 113, and the portion of the front surface from the bottom to the height HSc.

In the present embodiment, each of the openings 121 to 123 and 131 to 133 has the same dimensions, and is a rectangular elongated hole with rounded corners in which the vertical direction (vertical direction) is the longitudinal direction. In the present embodiment, the openings 121 to 123 and 131 to 133 are formed from the vicinity of the suction port 22a and the discharge port 46a to the vicinity of the lower end of the base body 110. Rigidity is maintained by the opening avoiding the lower end of the base body 110. However, the present invention is not limited to such an example, and the opening 1
21 to 123, 131 to 133 have a length through which any two or more of the supply pipe 3a connected to the suction port 22a, the water supply pipe 3b connected to the discharge port 46a, and the drain pipe 3c can be inserted. It may be formed by. As an example, the openings 121 to 123 and 131 to 133 are formed at positions where the upper ends are lower than the height Hsc of the space Sc, and the length L1 in the vertical direction thereof is the film portion 150b (insertion region) of the cover body 150 to be attached. The length Hf in the vertical direction, which is the longitudinal direction of), may be at least twice the pipe diameter Dp (see FIG. 4) of the supply pipe 3a or the water supply pipe 3b. Further, in the present embodiment, the horizontal length (width) W1 of the openings 121 to 123 and 131 to 133 is larger than the pipe diameter Dp of the supply pipe 3a or the water supply pipe 3b and smaller than the vertical length L1. Specifically, the width W1 is designed to have a length obtained by adding a margin to the pipe diameter Dp of the supply pipe 3a or the water supply pipe 3b. For example, the margin includes a width for attaching the cover body 150 to the base body 110 (twice the width Wg of the thick portion 150a), and in the present embodiment, the opening width W1 is the cross section BB. The width Wc between the recesses 150c of the cover body 150 (see FIG. 7C) or more. In the present embodiment, the width Wf of the film portion 150b (opening insertion region) of the cover body 150 is larger than the pipe diameter Dp of the supply pipe 3a or the water supply pipe 3b, and the height is L1. The vertical length of the opening may be rephrased as the length from the upper end to the lower end of the opening. Further, the horizontal length (width) of the opening may be rephrased as the length from the right end to the left end or the front end to the rear end of the opening. If the lower ends of the openings 121 to 123, 131 to 133 are formed at a position lower than the height Hsc of the space Sc, the upper ends of the openings 121 to 123, 131 to 133 are located at a position higher than the height Hsc of the space Sc. It may be formed.

As described above, the openings 121 to 123 and 131 to 133 are not round holes corresponding to the supply pipe 3a and the water supply pipe 3b, but are formed long in the vertical direction so that the length in the vertical direction and the length in the horizontal direction are different. Thereby, the positions through which the supply pipe 3a and the water supply pipe 3b are inserted can be arbitrarily changed within the range of the openings 121 to 123 and 131 to 133. Therefore, the degree of freedom in designing the piping extended from the inside of the cabinet 100 to the outside can be increased. Further, in the water supply device 10 of the present embodiment, when the water supply device 10 is installed, the positions of the pipes (H3a, H3b and H3c) provided in a new or existing building or the like, and the length of the pipes to be connected. Based on the above, the position where the supply pipe 3a (water supply pipe 3b and drain pipe 3c) is arranged can be determined. That is, according to the water supply device 10 of the present embodiment, the heights H3a, H3b, H3c from the installation surface of the supply pipe 3a, the water supply pipe 3b, and the drain pipe 3c, and the degree of freedom in designing the position in the front-rear direction are set. It can be made high, and the space Sc in the cabinet 100 can be effectively utilized. Then, a hole is made in the film portion 150b of the cover body 150 using a jig such as a scissors or a cutter, and the supply pipe 3a (water supply pipe 3b) is inserted through the opening and connected to the suction port 22a (discharge port 46a). Therefore, it is possible to reduce the work of adjusting the position of the pipe at the site and facilitate the work of connecting the pipe. Moreover, in the present embodiment, the width W1 of the openings 121 to 123 and 131 to 133 is a size corresponding to the pipe diameter Dp of the supply pipe 3a or the water supply pipe 3b, and is larger than the length L1 in the vertical direction in the longitudinal direction. Since it is formed small, the rigidity of the cabinet 100 can be increased. Further, since the openings 121 and 122 are formed at positions overlapping with the suction port 22a in the front-rear direction of the water supply device 10, the supply pipe 3a is stretched substantially in the left-right direction in the space Sc, and the space Sc. The arrangement of the pipes inside can be simplified. Similarly, since the openings 131 and 132 are formed at positions overlapping with the discharge port 46a in the left-right direction of the water supply device 10, the water supply pipe 3b is extended along substantially the left-right direction in the space Sc. The arrangement of pipes in the space Sc can be simplified.

Further, in particular, by designing the openings 121 to 123 and 131 to 133 so that two or more pipes can be inserted, the backflow prevention device 10 is provided with the backflow prevention device 24 as in the present embodiment. The drain pipe 3c for draining the water discharged from the device 24 can be extended to the outside of the cabinet 100 through the same opening as the supply pipe 3a or the water supply pipe 3b. Further, like the water supply device 10 of the present embodiment, the backflow prevention device 24 in the front-rear direction
Even when the suction port 22a and the suction port 22a are located at an overlapping position, the supply pipe 3a and the drain pipe 3c can be extended to the outside by inserting the same openings 121 and 122. Then, all of the supply pipe 3a, the water supply pipe 3b, and the drain pipe 3c can be extended to the outside from one of the left side surface 111 or the right side surface 112 of the cabinet 100, so that the left side surface 111 or the right side surface 112 of the cabinet 100 can be extended to the outside. Even when a wall such as a building is located in the immediate vicinity of the water supply device 10 and the pipe cannot be extended from the left side surface 111 or the right side surface 112, the pipe connection to the water supply device 10 can be preferably performed. However, the water supply device 10 of the present embodiment does not limit all the pipes to be pulled out from any one of the left side side 111, the right side side 112, or the back side 113, and the pipes are pulled out from two directions. The pipe may be extended to the outside through the bottom.

As described above, the pressure reducing type check valve has a smaller pressure loss than the double check valve, and can save energy in the water supply device 10. However, the decompression type backflow preventer requires a drain pipe 3c for guiding the water discharged from the drain port 24a to the outside of the water supply device 10. Here, in the conventional water supply device, the drain pipe 3c is often designed to be extended into the ground from the bottom of the cabinet 100. However, a new drain is provided from a type of water supply device that is not provided with a drain pipe 3c (for example, a water supply tank type water supply device that does not require a backflow prevention device 24 or a water supply device that uses a double check valve for the backflow prevention device 24). When changing to a water supply device that requires piping 3c (backflow prevention device 24 is a decompression type backflow prevention device), it is complicated to construct underground piping to newly install drain piping, and the construction cost is high. It will take. Further, in the conventional water supply device 200 as shown in FIGS. 12 to 12B, when the drain pipe 3c is to be extended to the outside through the side surface of the cabinet, it is opposite to the side surface through which the supply pipe 3a or the water supply pipe 3b is inserted. The drain pipe must be pulled out from the side. In this case, since the pipes are pulled out from both the left and right sides of the cabinet, space is required on both the left and right sides of the cabinet. On the other hand, in the water supply device 10 of the present embodiment, since the openings 121 to 123 and 131 to 133 are designed so that two or more pipes can be inserted through the water supply device 10, the drain pipe 3c can be inserted into the supply pipe 3a or the water supply pipe. It can be extended to the outside of the cabinet 100 through the same opening as 3b, and the degree of freedom in designing the piping and the degree of freedom in installing the water supply device 10 are improved.

When a hole is made in the cover body 150 using a jig and a pipe is inserted through the cover body 150, the cover body 150 may be reinforced so that the hole in the cover body 150 does not expand more than necessary. As an example, the cover body 150 may be reinforced by fixing an annular reinforcing body to the edge of the cover body 150. The reinforcing body may be made of any material such as a rubber material, a resin material, or a metal material.

(Modification 1)
In the above-described embodiment, the left side surface 111, the right side surface 112, and the back surface 113 are each provided with two openings for inserting pipes. However, the present invention is not limited to these examples, and one or more openings may be provided in at least one of the left side surface 111, the right side surface 112, and the back surface 113. Further, the openings may have different dimensions and shapes. FIG. 8 is a diagram showing the cabinet 100 of the modified example 1 from the left side. In the first modification, one large opening 221 is provided on the left side surface 111 of the cabinet 100. The opening 221 has a size including the openings 121 and 131 of the above-described embodiment inside. That is, the opening 221 of the modified example 1 has a width W2 (or a width of an insertion region (not shown)) equal to or larger than the length obtained by adding the pipe diameter Dp of either the supply pipe 3a or the water supply pipe 3b, and is longer than the length in the front-rear direction. It is formed so as to straddle both the suction port 22a and the discharge port 46a. The opening 221 is covered with a cover body 250 made of a rubber material or a resin material softer than the cabinet 100, similarly to the openings 121 and 131 of the embodiment. In the cabinet 100 of the first modification, the cabinet 10 of the embodiment is used.
Similar to 0, the positions through which the supply pipe 3a and the water supply pipe 3b are inserted can be adjusted within the range of the opening 221 and the degree of freedom in designing the pipe can be increased.

(Modification 2)
FIG. 9 is a diagram showing the cabinet of the modified example 2 from the right side. The base body 110 of the cabinet 100 of the second modification is the same as the base body 110 of the cabinet 100 of the embodiment, and two openings 122 and 132 are provided on the right side surface 112. However, in the above-described embodiment, the openings 122 and 132 are covered by a single cover body 150, but in the second modification, the openings 122 and 132 are covered by a plurality of removable members. In the example shown in FIG. 9, each of the openings 122 and 132 is covered by five members (251 and 252). The five members include a cover body 251 through which a pipe can be inserted and a panel body 252 for covering a place not covered by the cover body 251. In the figure, the cover body 251 is hatched. Similar to the cover body 150 of the embodiment, the cover body 251 is made of a rubber material or a resin material (second resin material) softer than the base body 110, and is opened by using a jig such as scissors or a cutter. It is possible. The cover body 251 has a shape that is at least larger than the outer diameter of the pipe, and in the example shown in FIG. 9, the cover body 251 and the panel body 252 have the same dimensions. The cover body 251 may be entirely made of a soft material, or only the central portion for inserting the pipe is made of a soft material, and the periphery thereof is made of a hard material like the panel body 252. May be. Further, the panel body 252 may be made of a material harder than the cover body 251, for example, the same material as the base body 110 so that the strength of the cabinet 100 is high. In the second modification, the cover body 251 and the panel body 252 are configured to be fastened to the base body 110 by a screw 270, and the position of the cover body 251 is exchanged with an arbitrary panel body 252. Can be done. In such a modification 2, the cover body 251 is arranged at a place where a pipe (supply pipe 3a, water supply pipe 3b, etc.) is inserted, and the panel body 252 is arranged at another position, so that the cover body 251 is extended from the water supply device main body. The degree of freedom in designing the piping can be increased, and the rigidity of the cabinet 100 can be increased.

Further, in the second modification, the panel body 252 may have a size different from that of the cover body 251 so that the opening can be widely covered and the position of the cover body 251 can be finely adjusted. FIG. 10 is a diagram showing another example of the cabinet of the modified example 2 from the right side. In the example shown in FIG. 10, the panel body 262 covering the opening 122 is configured to have a size larger than the opening 122 so that the opening 122 can be covered by a single member. Such a panel body 262 may be attached to the opening 122 when, for example, the supply pipe 3a is extended outward from the opening 121 or the bottom of the left side surface 111 and the opening 122 is not inserted. The panel body 262 is not limited to a size larger than the opening 122, and may be, for example, a size that covers a half area of the opening 122. Further, in the example shown in FIG. 10, the panel body covering the opening 132 includes three panel bodies 261 having the same dimensions as the cover body 251 and two panel bodies 263 having dimensions smaller than the cover body 251. It has been. Specifically, the length of the panel body 263 in the vertical direction is half the length of the cover body 251. By using the panel body 263 whose length in the vertical direction is half in this way, as shown in FIG. 10, the position of the cover body 251 can be finely changed, and the pipe inserted through the cover body 251 can be finely changed. The degree of freedom in design can be further improved.

The dimensions and numbers of the cover body 251 and the panel bodies 261 to 263 are not limited to the above examples, and may be arbitrarily determined based on the size of the opening provided in the base body 110 and the like. Further, two or more cover bodies 251 may be attached to the opening.

(Other variants)
In the cabinet 100 of the above-described embodiment and modified example, since a relatively large opening is formed in the cabinet 100, the strength of the cabinet 100 is reduced particularly when the rigidity of the cabinet 100 is ensured by the wall surface portion. Therefore, it is preferable that the cabinet 100 includes a frame body that reinforces the base body 110. FIG. 11 is a diagram showing an example of a frame body that reinforces the base body 110. By providing such a frame body 160, the rigidity of the cabinet 100 can be ensured. Further, in the example shown in FIG. 11, the frame body 160 includes a frame 161 that reinforces the periphery of the openings 121, 122, 131, 132 of the left side surface 111 and the right side surface 112. As a result, the strength around the openings 121, 122, 131, 132 can be further increased. Although not shown in FIG. 11, the frame body 160 may further include a frame that reinforces the periphery of the openings 123 and 133 on the back surface 113.

In the above-described embodiment and modification, the length L1 in the vertical direction, which is the longitudinal direction of the insertion region, is formed larger than the width W1 in the horizontal direction for each of the openings 121 to 123 and 131 to 133. .. However, the present invention is not limited to these examples, and at least one opening formed in the base body 110 may be formed so that the length in the vertical direction and the width in the horizontal direction are different. Further, the base body 110 has at least one opening in which the vertical length and the horizontal width are different from each other, and at least one opening (for example, a round hole) in which the vertical length and the horizontal width are the same. And may be formed. As an example, in FIG. 11A, an opening 131 which is a round hole and an opening 121 which is a long hole in the vertical direction are formed in the base body 110. The opening 131 is designed to have a length L2 in the vertical direction so that one pipe can be inserted, and the opening 121 is in the longitudinal direction of the insertion region so that two or more pipes can be inserted side by side in the vertical direction. The length L3 in the vertical direction is designed to be larger than the width in the horizontal direction. In the example shown in FIG. 11A, for example, the water supply pipe 3b can be inserted through the opening 131, and the supply pipe 3a and the drain pipe 3c can be inserted through the opening 121 in the vertical direction. Further, an opening having a horizontal width larger than a vertical length may be formed. In FIG. 11B, the base body 110 is formed with an opening 121 which is a round hole and an opening 131 which is a long hole in the horizontal direction. The opening 121 is designed with a horizontal width W4 so that one pipe can be inserted, and the opening 131 is in the longitudinal direction of the insertion region so that two or more pipes can be inserted side by side in the horizontal direction. The horizontal width W3, which is the length, is designed to be longer than the vertical length. In the example shown in FIG. 11B, for example, one of the supply pipe 3a or the drain pipe 3c is inserted into the opening 121, and the other of the supply pipe 3a or the drain pipe 3c and the water supply pipe 3b are inserted into the opening 131 to supply the water. The pipe 3a and the drain pipe 3c can be inserted side by side in the vertical direction. Further, an opening designed to have a vertical length larger than the horizontal width and an opening designed to have a horizontal width larger than the vertical width may be formed respectively. In FIG. 11C, as an example, an opening 131 in which two or more pipes can be inserted side by side in the horizontal direction which is the longitudinal direction of the insertion region and two or more pipes are arranged in the vertical direction which is the longitudinal direction of the insertion region. An insertable opening 121 is formed. Further, in FIG. 11D, as an example, an opening 131 in which two or more pipes can be inserted side by side in the vertical direction which is the longitudinal direction of the insertion region and two or more pipes in the horizontal direction which is the longitudinal direction of the insertion region. An opening 121 that can be inserted side by side is formed.

In FIGS. 11C and 11D, for example, one of the supply pipe 3a or the drain pipe 3c is inserted through the opening 121, and the other of the supply pipe 3a or the drain pipe 3c and the water supply pipe 3b are inserted through the opening 131. The supply pipe 3a and the drain pipe may be inserted side by side in the direction, or the water supply pipe 3b may be inserted through the opening 121 and the supply pipe 3a and the drain pipe 3c may be inserted through the opening 131 so that the supply pipe 3a and the drain pipe 3c are inserted in the vertical direction. It is also possible to insert the 3a and the drain pipe side by side. As described above, since two or more pipes can be inserted side by side in the vertical direction or the horizontal direction, the degree of freedom in designing the pipes to be inserted into the cabinet 100 is improved.

In the above-described embodiment, the left side surface 111, the right side surface 112, and the back surface 113 of the base body 110 of the cabinet 100 are provided with openings for inserting pipes. However, the present invention is not limited to these examples, and one or two of the left side surface 111, the right side surface 112, and the back surface 113 may not be provided with an opening. As an example, the back surface 113 may not be provided with an opening for inserting a pipe, and the left side surface 111 and the right side surface 112 may be provided with an opening. Further, an opening having a length L1 in the vertical direction larger than the width W1 in the horizontal direction may be combined with an opening shown in FIGS. 11A to 11D.

In the above embodiment, the cabinet 100 is not provided with a bottom surface, but may be provided with a bottom surface. By doing so, the sound generated from the pumps 12a, 12b and the like can be reduced. The bottom surface of the cabinet 100 may be a part of the base body 110 or the lid 140, may be formed of a highly rigid material such as iron, steel, or stainless steel, or at least a part thereof may be processed with resin or the like. May be made of an easy material. When the bottom surface of the cabinet 100 is made of a highly rigid material, the bottom surface of the cabinet 100 has openings corresponding to the suction port 22a and the discharge port 46a in the cabinet 100, and a drain pipe if necessary. It is preferable that an opening for is formed.

In the above-described embodiment, the opening of the cabinet 100 is covered by the cover body 150, and a part of the opening (membrane portion 150b) is an insertion region through which the pipe can be inserted. However, the present invention is not limited to these examples, and the opening may not be covered by the cover body 150, and all the regions thereof may be insertion regions through which the pipe can be inserted.

In the water supply device 10 described above, two pumps 12a and 12b are provided inside the cabinet 100, but a horizontal pump may be provided, or one or three or more pumps may be provided. May be good.

Although the embodiments of the present invention have been described above, the embodiments of the invention described above are for facilitating the understanding of the present invention and do not limit the present invention. The present invention can be modified and improved without departing from the spirit thereof, and it goes without saying that the present invention includes an equivalent thereof. In addition, any combination of embodiments and modifications is possible within a range that can solve at least a part of the above-mentioned problems, or a range that exhibits at least a part of the effect, and is described in the claims and the specification. Any combination of each component or omission is possible.

3a ... Supply pipe 3b ... Water supply pipe 3c ... Drain pipe 10 ... Water supply device 12a, 12b ... Pump 16 ... Electric motor 18 ... Suction header 20 ... Ball valve 22 ... Suction pipe 22a ... Suction port 24 ... Backflow prevention device 26 ... Pressure sensor 28 ... Discharge elbow pipe 30 ... Discharge side check valve 32 ... Flow switch 34 ... Discharge collecting pipe 36 ... Pressure sensor 38 ... Bypass header pipe 40 ... Pressure tank 46 ... Discharge pipe 46a ... Discharge port 54 ... Inverter device 70 ... Control unit 76 ... Operation panel 92 ... Supply pipe 94 ... Water supply pipe 98 ... Cabinet 100 ... Cabinet 110 ... Base body 111 ... Left side 112 ... Right side 113 ... Back 114 ... Ceiling surface 116 ... Fixed plate 121-123, 131- 133,221 ... Opening 150, 250, 251 ... Cover body 261 to 263 ... Panel body 140 ... Lid 144 ... Window Sc ... Space 300 ... Foundation concrete

Claims (8)

It is a water supply device for supplying water to the target of water supply.
A water supply device main body having a suction port connected to a supply pipe, a discharge port connected to a water supply pipe, and a pump for transferring water from the suction port to the discharge port.
A cabinet that accommodates the main body of the water supply device and forms a piping space vertically below the discharge port or the suction port.
Equipped with
The cabinet is formed with an opening vertically below the discharge port or the suction port through which at least one of the supply pipe and the water supply pipe can be inserted.
The opening differs from the vertical length and the horizontal length.
The opening is fitted with a cover body having a membrane portion made of a material softer than the cabinet.
The opening is covered by a plurality of members, including the cover body and a panel body made of a material harder than the cover body.
A water supply device, characterized in that the plurality of members can be arranged by changing their respective positions . The opening comprises an insertion area through which at least one of the supply pipe and the water supply pipe can be inserted.
The insertion region has a different vertical length and a horizontal length, and also has a different length.
The length of the insertion region in the longitudinal direction is longer than the length obtained by adding the outer diameters of any two of the pipes inserted into the cabinet.
The water supply device according to claim 1. The water supply device according to claim 1 or 2, wherein the opening has a length in the vertical direction longer than a length in the horizontal direction. The cabinet is formed with a first opening as the opening, which is located at a position overlapping the suction port in the front-rear direction of the water supply device.
The first opening is provided on at least one of the left side surface and the right side surface of the cabinet.
The water supply device according to any one of claims 1 to 3 . The water supply device includes a backflow prevention device between the suction port and the pump.
The opening is characterized in that a drain pipe for draining water discharged from the backflow prevention device and the water supply pipe can be inserted vertically side by side.
The water supply device according to any one of claims 1 to 4 . The cabinet is formed with a second opening as the opening, which is located at a position overlapping the discharge port in the front-rear direction of the water supply device.
The second opening is provided on at least one of the left side surface and the right side surface of the cabinet.
The water supply device according to any one of claims 1 to 5 . On the back surface of the cabinet, as the opening, a third opening located at a position overlapping the suction port in the left-right direction of the water supply device, and a position overlapping the discharge port in the left-right direction of the water supply device. It is characterized in that at least one of the fourth openings located in is provided.
The water supply device according to any one of claims 1 to 6 . The cabinet comprises a frame body that reinforces at least a portion of the sides.
The water supply device according to any one of claims 1 to 7 .

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