JP2019143496A - Water supply device - Google Patents

Abstract

To provide a water supply device which enables components to be easily disposed.SOLUTION: A water supply device according to one embodiment of the invention includes: a frame; a pump cover which covers the frame and forms a housing part with the frame; a pump device disposed at the housing part; a pipe disposed in the housing part and connected to the pump device; and a partition frame which partitions the housing part into one side where the pump device is housed and the other side where the pipe is housed and has a hole part at a position facing an opening of the pipe.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a packaged water supply apparatus.

  In a water supply device such as a direct-coupled water supply device, for example, components such as a pump device including a motor, a pipe, an accumulator, and a control panel are accommodated in an accommodating portion constituted by a gantry and a drip-proof pump cover. . For example, the control panel includes a control box and a control device arranged in the control box.

JP 2002-168199 A

  In such a water supply apparatus, various components including piping and an accumulator are accommodated in a limited accommodating portion. There is a demand for a water supply device that has good workability during component arrangement and maintenance.

  Then, an object of this invention is to provide the water supply apparatus with which arrangement | positioning of a component is easy.

  A water supply apparatus according to an embodiment of the present invention includes a gantry, a pump cover that covers the gantry and forms a housing portion between the gantry, a pump device that is disposed in the housing portion, and a pump device that is disposed in the housing portion. A pipe connected to the pump device, the housing part is divided into one side and the other side for housing the pump device and the pipe, and has a hole at a position facing the opening of the pipe. And a partition frame.

  ADVANTAGE OF THE INVENTION According to this invention, the water supply apparatus with easy arrangement | positioning of a component can be provided.

The front view of the water supply apparatus concerning one Embodiment of this invention. The front view which shows the internal structure of the water supply apparatus in a partial cross section. The front view which shows the internal structure of the water supply apparatus in a partial cross section. The side view which shows the internal structure of the water supply apparatus in a partial cross section. Sectional drawing of the water supply apparatus. The top view which shows the internal structure of the water supply apparatus in a partial cross section. The top view which shows the internal structure of the water supply apparatus. The top view which shows the internal structure of the water supply apparatus. The front view of the control panel of the water supply apparatus. The bottom view of the inverter of the control panel. The front view of the base frame of the control panel. The top view of the base frame of the control panel.

  Hereinafter, the water supply apparatus 10 concerning one Embodiment of this invention is demonstrated with reference to FIG. 1 thru | or FIG. FIG. 1 is a front view showing an appearance of a water supply apparatus 10 according to an embodiment of the present invention, FIG. 2 is an explanatory view of a cross section passing through a suction pipe as viewed from the front side, and FIG. 3 shows a discharge pipe of the water supply apparatus 10. It is explanatory drawing which looked at the cross section which passes through from the front side, ie, the front. 4 and 5 are explanatory views of a cross section of the water supply apparatus 10 as viewed from the side. FIG. 6 is a view of the internal configuration of the water supply apparatus 10 as viewed from above. FIG. 7 is an explanatory view of the internal configuration of the water supply apparatus 10 as viewed from above. 9 is a front view of the control panel, FIG. 10 is a bottom view of the inverter, and FIGS. 11 and 12 are a front view and a plan view of the base frame.

  As shown in FIGS. 1 to 12, the water supply device 10 includes a gantry 11, a pump cover 12, a plurality of pump devices 20, a pipe 30, a backflow prevention device 13, an accumulator 14, a control panel 15, Is provided. The water supply device 10 is a package-type water supply device in which components such as the pump device 20, the piping 30, and the control panel 15 are housed in a housing space that is a housing section defined by the gantry 11 and the pump cover 12.

  The gantry 11 includes a bottom frame 11a, a rear frame 11b, a side frame 11c, and a partition frame 11d, respectively, along three directions orthogonal to each other. The accommodating portion has an upper accommodating chamber A1 above the partition frame 11d in which the pump device 20 is disposed, and a lower accommodating chamber A2 below the partition frame 11d in which the accumulator 14 and the like are disposed.

  The bottom frame 11a is formed in a rectangular frame shape, and connects both side surfaces of the side frame 11c. Leg frames 11k are attached to the outside of both side surfaces of the side frame 11c. The leg frame 11k is composed of a pair of frame members facing each other, is attached to the outer side of both side surfaces of the side frame 11c, and has a hole for a fastening member. The leg frame 11k is arranged on the ground surface where the water supply device 10 is installed.

The rear frame 11b is formed in a rectangular plate shape. The rear frame 11b is erected on the frame member on the rear side of the bottom frame and extends upward.
The side frame 11c is bent from both edges in the width direction of the rear frame 11b and extends forward. The area | region of the lower part of the side frame 11c is connected to the width direction both ends edge of the partition frame 11d, and forms a pair of leg piece. An explanatory diagram of an operation method and an internal block diagram are pasted and displayed on the inner wall surface of the side frame 11c.

  Piping holes 19a and 19b for connecting pipes laid in the horizontal direction are formed at predetermined locations in the lower region of the side frame 11c. The piping holes 19a and 19b are connected to, for example, a suction port 31a, a discharge port 35a, and a drain port 38a that are arranged downward, pass through the side frame 11c, bent downward, and pipes that are drawn to the outside pass through. And can be connected. The piping holes 19 a and 19 b are arranged at positions immediately below the extension lines of the horizontal portions of the suction connecting bent pipe 31 and the discharge connecting bent pipe 35. In addition, the piping holes 19 a and 19 b are arranged at the center below the accumulator 14. Further, the centers of the piping holes 19a and 19b are arranged, for example, at a distance longer than the radius of the suction side piping 30a and the discharge side piping 30b connected in the field construction, and away from the ground installation surface.

  The partition frame 11d is configured in a rectangular plate shape, and extends forward from a predetermined position on the front surface of the rear frame 11b. The partition frame 11d is arranged in a posture orthogonal to the rear frame 11b and partitions the storage space up and down. The partition frame 11d is arranged horizontally, for example. The partition frame 11d has, as holes, a suction pipe hole 11e through which the suction side pipe 30a connected to the suction port 31a passes, a discharge pipe hole 11f through which the discharge side pipe 30b connected to the discharge port 35a passes, A drain hole 11g that is positioned directly below the drain port 38a that is the opening of the relief valve 38, that is, a position facing one side, and a connection pipe hole 11h for the connection pipe 14a that connects the accumulator 14 are formed. ing. The partition frame 11d forms a lower housing chamber A2 serving as a piping space having a predetermined height between the partition frame 11d and the bottom frame 11a positioned below. The partition frame 11d has a function as a tray for condensed water that is received so that water does not leak outside when the condensed water falls on the backflow prevention device 13, the pump device 20, the connecting pipe 32, and the like located above. ing.

  A water collection hopper 41 (water collection hopper) is disposed around the drain hole 11g of the partition frame 11d. The hopper 41 is a cylindrical member erected upward from the outer peripheral portion of the drain hole 11g of the partition frame 11d. The hopper 41 has a larger diameter than the drain hole 11g. On the lower surface side of the drain hole 11g, that is, the lower surface side of the partition frame 11d, a tubular joint 41b, which is a joint that forms a drainage channel, is provided. The tubular joint 41b is connected to the drain hole 11g, extends downward, and forms a flow path communicating with the drain hole 11g. The distance L1 between the upper end portion of the hopper 41 and the water leakage detection electrode 39 is set to be twice or more the diameter d1 of the drain hole 11g.

  The pump cover 12 integrally includes a front wall portion 12a, a side wall portion 12b, an upper wall portion 12c, and an inclined wall portion 12d. The end of the pump cover 12 is fastened to and supported by a threaded portion of the side frame 11c of the gantry 11. The pump cover 12 is assembled on the gantry 11. The gantry 11 and the pump cover 12 have a drip-proof function that covers the accommodation space and protects internal devices.

  The front wall portion 12a is formed in a plate shape and covers the front of the upper storage chamber A1 of the gantry 11 and covers the upper region of the lower storage chamber A2. The front wall portion 12 a has a lower end edge 12 g that is above the ground installation surface of the gantry 11 and is spaced above the bottom frame 11 a and covers most of the accumulator 14. That is, the front wall portion 12a protects the accumulator 14, which is an internal device necessary for water supply control, from wind and rain and dust, while the lower region of the lower housing chamber A2 is open at the front. A sound absorbing material 12e for enhancing soundproofing properties is attached to the inner surface of the front wall portion 12a.

  Moreover, the window part 12i comprised with the transparent material is formed in the location which opposes the front of the backflow prevention apparatus 13 of the front wall part 12a. It is possible to visually check the leakage of the backflow prevention device 13 from the outside through the window portion 12i.

  The pair of side wall portions 12b bend from both side edges of the front wall portion 12a and extend rearward. The side wall portions 12b cover the sides of the upper storage chamber A1. The inclined wall portion 12d is bent from the upper edge of the front wall portion 12a and extends obliquely rearward and upward. The inclined wall portion 12d is provided with a window portion 12f made of a transparent material. The inside can be visually recognized from the outside through the window portion 12f. For example, the window portion 12f is provided at a position facing the display portion of the control panel 15 so that the display portion can be viewed from the outside.

  The upper wall portion 12c bends continuously from the upper and rear edges of the inclined wall portion 12d and extends rearward. Both side edges of the upper wall portion 12c are connected to upper end edges of the both side wall portions 12b. The upper wall portion 12c covers the upper part of the upper storage chamber A1.

  The pump device 20 includes a motor 21 and a single-stage or multi-stage pump 23 having an impeller connected to the motor 21, and increases the pressure of the fluid and pumps it to the secondary side. In the present embodiment, the pair of pump devices 20 are installed in a vertically installed state. The pump device 20 is fixed to a pedestal frame 11i fixed to the partition frame 11d and the rear frame 11b of the gantry 11 via a vibration isolator.

  The pump 23 has a pump suction port 23a at the lower end and a pump discharge port 23b at the front. A suction connection pipe 32 of the pipe 30 is connected to the pump suction port 23a. An individual discharge pipe 34a that forms a flow path on the discharge side of each pump 23 is connected to the pump discharge port 23b.

  Each motor 21 is connected to the control panel 15 via a cable. The motor 21 is driven by the control of the control unit provided in the control panel 15, and the pump device 20 is operation controlled.

  The pipe 30 branches from the suction connection curved pipe 31 arranged on the primary side of the backflow prevention device 13, the suction connection pipe 32 arranged on the secondary side of the backflow prevention device 13, and the suction connection pipe 32. A pair of ball valve portions 33 having a ball valve 33b and a plurality of individual discharge pipes 34a connected to the pump discharge port 23b of the pump 23, and a plurality of individual discharge pipes 34a. A discharge connecting pipe 34b that communicates with the ball valve section 33 and a bypass connecting section 36 that connects the discharge connecting bent pipe 35 and the suction connecting pipe 32 are provided. The suction connection pipe 32 and the discharge connection pipe 34b are fixed to a support 11j fixed to the rear frame 11b of the gantry 11 via a vibration isolator.

  The suction connecting bent tube 31 has a downward suction port 31a on one end side. The suction connecting bent pipe 31 extends upward from the suction port 31a, bends and extends horizontally. The other end side of the suction connecting bent pipe 31 is connected to a backflow prevention device 13 arranged horizontally.

  A ball valve 33 b and a strainer 37 are built in the vicinity of the suction port 31 a of the suction connecting bent pipe 31. The downward suction port 31a passes through the suction pipe hole 11e formed in the partition frame 11d via the suction side vibration-proof joint 43 and is connected to the water supply pipe. The suction connection bent pipe 31 is provided with a first pressure sensor 16a as a first pressure detection unit. The first pressure sensor 16 a detects the pressure in the suction connection bent pipe 31, that is, the pressure on the primary side of the backflow prevention device 13. The other end of the suction coupling bent pipe 31 is connected to the backflow prevention device 13.

  The backflow prevention device 13 is provided between the suction connecting bent pipe 31 and the suction connecting pipe 32. The backflow prevention device 13 includes a first check valve 13a, a second check valve 13b, and a retainer 13c, and regulates the direction of liquid flow in the flow path in one direction. A relief valve portion 38 that extends vertically downward is provided at the bottom of the backflow prevention device 13.

  The relief valve 38 extends vertically downward from the backflow prevention device 13. A water leak detection electrode 39 is provided at the downward drainage port 38a disposed at the tip of the relief valve portion 38 below. The water leakage detection electrode 39 detects water leakage from the backflow prevention device 13. The detected water leak signal is sent to the water leak detection board 61.

  The suction connection pipe 32 is connected to the secondary side of the backflow prevention device 13. For example, the suction connection pipe 32 extends horizontally below the two pump devices 20, branches into two, extends upward, and is connected to the pump suction ports 23 a of the two pump devices 20.

  The pair of ball valve portions 33 are connected to the pump suction ports 23a of the pair of pumps 23, respectively. The ball valve portion 33 includes a tube portion 33a that forms a flow path, a ball valve 33b built in the tube portion 33a, and a stem 33c connected to the ball valve 33b. The ball valve portion 33 opens and closes the flow path in the tube portion 33a when the ball valve 33b, which is a ball-shaped valve body, is rotated by the turning operation of the stem 33c.

  One end of the individual discharge pipe 34 a is connected to a pump discharge port 23 b disposed on the side wall of the pump 23. The individual discharge pipe 34a extends forward from the pump discharge port 23b, bends and extends downward, and is connected to a discharge connecting pipe 34b provided below. A check valve 18 that restricts the flow direction in one direction is provided at a predetermined location in the individual discharge pipe 34a close to the pump discharge port. A flow rate sensor 17 that is a flow rate detection unit that detects the flow rate of the liquid in the individual discharge tube 34a is provided in the middle of the individual discharge tube 34a.

  The discharge connection pipe 34b is connected to the secondary side of the ball valve portion 33 connected to the plurality of individual discharge pipes 34a. For example, the discharge connecting pipe 34b extends horizontally in parallel with the suction connecting pipe 32 below the two vertically installed pump devices 20, and is bent and extends downward.

  The discharge connecting curved pipe 35 is connected to the discharge connecting pipe 34b via a ball valve portion 33 in which a ball valve 33b is incorporated, and has a downward discharge port 35a on one end side. A discharge port 35a of the discharge connecting bent pipe 35 is connected to a water supply destination such as a faucet through a discharge piping hole 11f formed in the partition frame 11d via a discharge side vibration-proof joint 42. The discharge connecting curved pipe 35 is provided with a second pressure sensor 16b as a second pressure detection unit. The second pressure sensor 16 b detects the pressure in the discharge connecting curved pipe 35, that is, the discharge pressure of each pump 23.

  An accumulator 14 for storing pressure is connected to the other end side of the discharge connecting pipe 34b. The accumulator 14 is connected to the discharge connection pipe 34b via the connection pipe 14a.

  The accumulator 14 is provided in the lower housing chamber below the discharge connecting bent pipe 35 and below the partition frame 11d. The connecting pipe 14a that connects the accumulator 14 and the discharge connecting pipe 34b is arranged through a connecting pipe hole 11h formed in the partition frame 11d. In the present embodiment, the accumulator 14 has an internal volume of, for example, 10 l or more, and has a diameter of about 23 cm and a length of about 37 cm. The accumulator 14 has a central axis disposed horizontally. A space in which piping can be disposed is formed below the accumulator 14 and between the apparatus installation surface. In this embodiment, the total height h1 of the water supply apparatus 10 is 1200 to 1300 mm, and the height h2 from the ground installation surface to the lower surface of the accumulator is configured to be about 190 mm. Therefore, the maximum diameter of the pipe generally used for the directly connected water supply apparatus is about 50 mm and the pipe diameter is about 60 mm, so that the pipe can be disposed under the accumulator 14.

  The bypass connecting portion 36 forms a bypass flow path that connects the discharge connecting pipe 34 b and the suction connecting pipe 32. A check valve that restricts the flow direction from the suction side to the one side of the discharge side is provided at a predetermined location in the bypass connecting portion 36.

  The first pressure sensor 16a and the second pressure sensor 16b are, for example, semiconductor pressure sensors that use a piezo effect. The pressure sensors 16a and 16b are filled in the diaphragm, the diaphragm provided in the hole of the sensor body, the semiconductor sensor provided in the upper part of the diaphragm, the liquid chamber provided between the diaphragm and the semiconductor sensor, and the liquid chamber. A non-corrosive liquid, such as silicone oil.

  The pressure sensors 16a and 16b are configured to detect the pressure in the pipe 30 and output an analog voltage. When the diaphragm changes due to the pressure in the pipe 30, the pressure sensors 16 a and 16 b apply pressure to the semiconductor sensor by silicon oil in the liquid chamber, and convert the distortion amount of the semiconductor sensor according to the pressure into a signal. The pressure is detected. The pressure sensors 16a and 16b are connected to the control unit of the control panel 15 via a signal line, and send the detected pressure signal to the control unit.

  The flow sensor 17 is a rotary sensor that includes, for example, an impeller provided with a magnet, and detects the flow rate with a Hall IC connected to the magnet.

  As shown in FIGS. 9 to 12, the control panel 15 includes a base frame 51 and a control device 52 mounted on the front surface of the base frame 51.

  The base frame 51 is configured, for example, by bending a metal plate so as to have an L shape in sectional view. The base frame 51 includes a back frame portion 51a that stands up in the accommodation space, and a floor frame portion 51b that extends forward from the lower end portion of the back frame portion 51a in a direction intersecting the back frame portion 51a.

  As the control device 52, a pair of inverters 54 connected to each pump, a main control board 55, a power input board 56, an operation / display board 57, and a pair of earth leakage breakers 58 connected to each pump device 20 A pair of DC reactors 59 provided corresponding to each pump device 20 are mounted in a mounting region which is the front surface of the back frame portion 51a. Further, it is possible to add a water leakage detection board 61 and an extension board 62 as the control device 52 on the mounting surface of the base frame 51.

  These control devices 52 are mounted by being fastened to the mounting holes 51 c by the fastening members 53. The fastening member 53 is a pole-like member, and includes a spacer 53a that defines a distance between the control device 52 and the back frame portion 51a, and a fastening portion 53b such as a screw portion. The spacer 53a extends forward from the mounting surface of the back frame portion 51a and stands up in a direction orthogonal to the mounting surface of the back frame portion 51a. The position of the control device 52 in the front-rear direction, that is, the distance from the mounting surface is defined by the length of the spacer 53a.

  The control panel 15 is not a box type, but the front side, that is, the front side or the side which is the mounting surface side of the control panel 15 is open, and the control device 52 is exposed.

  Note that the charging portions of the power input board 56, the earth leakage circuit breaker 58, the inverter 54, and the main control board 55 are covered with an insulating cover 60.

  The water supply device 10 configured as described above includes a partition frame 11d that vertically partitions the housing portion below the pump device 20, and the partition frame 11d has a hole for piping to which members constituting the piping are connected. 11e, 11g, and 11f are formed. Therefore, the degree of freedom of piping is high, and piping installation work and various maintenance work are easy.

  Moreover, the water supply apparatus 10 can improve workability | operativity at the time of a maintenance or installation by separating the partition frame 11d about 40 cm or more from the installation surface on the ground. Moreover, the water supply apparatus 10 can arrange | position the discharge side piping 30b and the suction side piping 30a sideways by providing piping space more than the diameter of the discharge side piping 30b and the suction side piping 30a under the accumulator 14. FIG. The degree of freedom of piping is high. Further, the water supply device 10 is formed with a hole 19a for piping in the side frame 11c, and a gap is formed by separating the lower end edge of the pump cover 12 upward from the installation surface on the ground. It is also possible to lead out the pipe to the pipe, and the degree of freedom of pipe construction is high.

  The water supply device 10 can secure the space of the upper housing chamber A1 having a sealed structure in which components having high noise and heat generation are arranged by arranging the accumulator 14 horizontally on the lower side of the partition frame 11d. Further, since the partition frame 11d has a connection pipe hole portion 19a, which is a through hole in which a connection pipe connecting the accumulator 14 and the discharge connecting bent pipe 35 is disposed, the assembly workability is good.

  Moreover, in the water supply apparatus 10, the drainage hole part 11g is formed in the position below the backflow prevention apparatus 13 of the partition frame 11d, and the cylindrical hopper 41 and the tubular joint 41b are installed around the drainage hole part 11g. Therefore, the drain pipe construction of the backflow prevention device 13 is easy. Moreover, the water discharge space which is the distance from the drain of the hopper 41 and the backflow prevention device 13 can be secured at the stage of the product.

  In addition, this invention is not limited to the said embodiment, In the implementation stage, it can change variously in the range which does not deviate from the summary.

  In addition, this invention is not limited to the said embodiment, In the implementation stage, it can change variously in the range which does not deviate from the summary. Further, the embodiments may be implemented in combination as appropriate, and in that case, the combined effect can be obtained. Furthermore, the present invention includes various inventions, and various inventions can be extracted by combinations selected from a plurality of disclosed constituent elements. For example, even if several constituent requirements are deleted from all the constituent requirements shown in the embodiment, if the problem can be solved and an effect can be obtained, the configuration from which the constituent requirements are deleted can be extracted as an invention.

DESCRIPTION OF SYMBOLS 10 ... Water supply apparatus, 11 ... Base, 11a ... Bottom frame, 11b ... Rear frame, 11c ... Side frame, 11d ... Partition frame, 11e ... Suction piping hole (hole), 11f ... Discharge piping hole (hole), 11g ... Drain hole (hole part), 11h ... Connection pipe hole (hole part), 11i ... Pedestal frame, 11j ... Support, 11k ... Leg frame, 12 ... Pump cover, 12a ... Front wall part, 12b ... Side wall part, 12c ... Upper wall part, 12d ... inclined wall part, 12e ... sound absorbing material, 12f ... window part, 12g ... lower end edge, 12i ... window part, 13 ... backflow prevention device, 14 ... accumulator, 14a ... connection piping, 15 ... control panel, 16a ... Pressure sensor, 16b ... Pressure sensor, 17 ... Flow rate sensor, 18 ... Check valve, 19a ... Hole for piping (hole), 19b ... Hole for piping, 20 ... Pump device, 21 ... Motor, 23 ... Pump, 2 a ... pump suction port, 23b ... pump discharge port, 30 ... piping, 30a ... suction side piping, 30b ... discharge side piping, 31 ... suction connection curved tube, 31a ... suction port, 32 ... suction connection tube, 33 ... ball valve 33a ... pipe part, 33b ... ball valve, 33c ... stem, 34a ... individual discharge pipe, 34b ... discharge connection pipe, 35 ... discharge connection curved pipe, 35a ... discharge port, 36 ... bypass connection part, 37 ... strainer, 38 ... Valve unit, 38a ... Drain port, 39 ... Water leakage detection electrode, 41 ... Hopper, 41b ... Tubular joint, 42 ... Discharge-side vibration-proof joint, 43 ... Suction-side vibration-proof joint, 51 ... Base frame, 51a ... Back frame , 51b ... floor frame part, 51c ... mounting hole, 52 ... control device, 53 ... fastening member, 53a ... spacer, 53b ... fastening part, 54 ... inverter, 55 ... main control board, 56 ... power input board, 7 ... operation and display board, 58 ... leakage breaker 59 ... DC reactor, 60 ... insulation cover, 61 ... leak detection substrate, 62 ... extended substrate, A1 ... upper accommodation chamber, A2 ... lower housing chamber.

Water supply apparatus according to an embodiment of the present invention includes a frame, a pump cover constituting the frame are both accommodating portion, and a pump unit disposed in the receiving portion, disposed in said receptacle, connected to the pump device comprising piping and, a being, the cradle is, the arranged from the installation surface to a bottom of the pump device at a position spaced upwardly, the upper side in which the accommodating portion for accommodating the pipe and the pump device, with partitions on the lower side in a position opposing the lower portion of the pipe, having a hole, comprising a partition frame, said pump cover includes a wall portion having a lower edge spaced apart from the installation surface upward, the lower side of the space of the partition frame accommodating portion you open, the water supply device.

In addition, this invention is not limited to the said embodiment, In the implementation stage, it can change variously in the range which does not deviate from the summary. Further, the embodiments may be implemented in combination as appropriate, and in that case, the combined effect can be obtained. Furthermore, the present invention includes various inventions, and various inventions can be extracted by combinations selected from a plurality of disclosed constituent elements. For example, even if several constituent requirements are deleted from all the constituent requirements shown in the embodiment, if the problem can be solved and an effect can be obtained, the configuration from which the constituent requirements are deleted can be extracted as an invention.
Hereinafter, the invention described in the scope of claims of the present application will be appended.
[1]
A frame,
A pump cover that covers the gantry and constitutes a housing with the gantry;
A pump device disposed in the housing portion;
A pipe disposed in the housing and connected to the pump device;
A partition frame that divides the housing part into one side that houses the pump device and the pipe, and the other side, and has a hole at a position facing the opening of the pipe;
A water supply apparatus comprising:
[2]
The pump device includes a pump suction port and a pump discharge port,
The pipe includes a suction connection curved pipe disposed on the partition frame and having a downward suction port, and a discharge connection curved pipe disposed on the partition frame and having a downward discharge port, and the opening. Is at least one of the suction port and the discharge port,
The hole is arranged directly below the opening,
The partition frame has a suction side pipe connected to the suction port, a hole portion in which a discharge side pipe connected to the discharge port is arranged,
The water supply apparatus according to [1].
[3]
Comprising an accumulator disposed laterally below the partition frame;
A piping space is formed under the accumulator,
[2] The water supply device according to [2], wherein the partition frame includes a hole for a connection pipe in which a connection pipe that connects the discharge connection pipe on the partition frame and the accumulator under the partition frame is arranged.
[4]
The gantry includes a side frame disposed on a side of the accommodating portion,
The water supply device according to any one of [1] to [3], wherein a pipe hole to which a pipe is connected is formed at a position below the partition frame of the side frame.
[5]
A backflow prevention device connected to the suction side of the pump device;
The backflow prevention device is disposed on the partition frame, and the backflow prevention device includes a relief valve portion having a downward drainage port,
The hole of the partition frame is arranged directly under the drainage port,
Below the backflow prevention device, a cylindrical water collection hopper is provided around the hole of the partition frame,
The water supply device according to any one of [1] to [4], wherein a joint is connectable to the partition frame below the water collection hopper and the hole.

Claims (5)

A frame,
A pump cover that covers the gantry and constitutes an accommodating portion together with the gantry;
A pump device disposed in the housing portion;
A pipe disposed in the housing and connected to the pump device;
A partition frame that divides the housing part into one side that houses the pump device and the pipe, and the other side, and has a hole at a position facing the opening of the pipe;
A water supply apparatus comprising: The pump device includes a pump suction port and a pump discharge port,
The pipe is provided on the partition frame, and includes a suction connection curved pipe having a downward suction port, and a discharge connection curved pipe disposed on the partition frame and having a downward discharge port,
The opening is at least one of the suction port and the discharge port,
The hole is arranged directly below the opening,
The partition frame has a suction side pipe connected to the suction port, a hole portion in which a discharge side pipe connected to the discharge port is arranged,
The water supply apparatus according to claim 1. Comprising an accumulator disposed laterally below the partition frame;
A piping space is formed under the accumulator,
The water supply device according to claim 2, wherein the partition frame includes a hole for a connection pipe in which a connection pipe connecting the discharge connection pipe on the partition frame and the accumulator under the partition frame is arranged. The gantry includes a side frame disposed on a side of the accommodating portion,
The water supply device according to any one of claims 1 to 3, wherein a hole for piping to which a pipe is connected is formed at a position below the partition frame of the side frame. A backflow prevention device connected to the suction side of the pump device;
The backflow prevention device is disposed on the partition frame, and the backflow prevention device includes a relief valve portion having a downward drainage port,
The hole of the partition frame is arranged directly under the drainage port,
Below the backflow prevention device, a cylindrical water collection hopper is provided around the hole of the partition frame,
The water supply apparatus in any one of Claims 1 thru | or 4 comprised so that a coupling could be connected to the lower side of the said water collection hopper and the said hole part of the said partition frame.