JP7039196B2 - Water supply device - Google Patents

Description

The present invention relates to a water supply device for supplying water to a building such as an office building or an apartment building, and particularly to a water supply device provided with a cabinet .

Water supply devices are widely used as pump devices for supplying water to buildings such as office buildings and condominiums. This water supply device generally includes a pump for pumping water, a motor for driving the pump, and a control unit for controlling the operation of the motor. The water supply device is connected directly to the water main or via a water tank, and supplies water supplied from the water main to a water supply device (for example, a faucet) in the building.

Water supply pumps, motors and other ancillary equipment are housed in a stainless steel cabinet with a front door. Such a cabinet-type water supply device can be installed outdoors. For this reason, cabinet-type water supply devices are often used in densely populated areas of buildings in the city center, and to prevent the noise and vibration of the pump from leaking to the outside of the cabinet, the door of the cabinet has the vibration transmitted from the pump and the pump. A function of suppressing noise is required (see, for example, Patent Document 1 and Patent Document 3). Water supplies require regular maintenance, but because they are installed in tight spaces between buildings, the front door of the cabinet is removed during maintenance (eg, patents). See Document 2).

Japanese Unexamined Patent Publication No. 8-284899 Japanese Patent No. 5208457 Japanese Patent No. 4227256

If there is an obstacle such as a building near the front or side of the water supply device, tools such as a screwdriver may not enter, so the cabinet door and the cabinet body are attached by simply fitting them together instead of screwing them together. There is. In addition, since the water supply device is installed outdoors, it is necessary to have a mechanism that can firmly connect the door to the cabinet body so that the door will not come off from the cabinet body due to the wind from the back.

During the pump maintenance of the water supply equipment, the building will be out of water, so it is necessary to perform maintenance immediately. Therefore, it is desired that the cabinet door has a structure that is easy to remove and install. Also, since the cabinet door is made of metal (stainless steel) plate for durability, it is heavy, and it is not possible to align the fitting position with the cabinet body while lifting the door like the conventional fitting structure. difficult.

Therefore, an object of the present invention is to provide a water supply device in which a cabinet door can be easily attached to a cabinet body .

One aspect of the present invention includes a pump for pressurizing water, a motor for driving the pump, the pump, and a cabinet in which the motor is housed, and the cabinet is attached to the cabinet body and the cabinet body. The door is provided with a door , a fastener for fastening the door to the cabinet body, and a sealing member arranged between the bottom of the door and the bottom of the cabinet body, and the bottom of the door is provided with a sealing member. A positioning protrusion is provided, a positioning hole is provided at the bottom of the cabinet body, the positioning protrusion is located above the lower surface of the door, and the positioning protrusion is inserted into the positioning hole. This is a water supply device characterized in that the relative position between the door and the cabinet body is fixed , and the seal member is pressed against the bottom of the cabinet body to be deformed .

A preferred embodiment of the present invention is characterized in that the door is detachably attached to the cabinet body .
A preferred embodiment of the present invention is characterized in that the fastener is provided on the front surface, the upper surface, the side surface of the cabinet, or at least one place inside the cabinet.
A preferred embodiment of the present invention is characterized in that the fastener is a fastener whose fastening state can be visually confirmed.
A preferred embodiment of the present invention is characterized in that the fastener is any one of a swing handle, a snap lock, and a screw.

A preferred embodiment of the present invention is characterized in that the sealing member is a double seal.
A preferred embodiment of the present invention is characterized in that the sealing member is a triple seal.
A preferred embodiment of the present invention is characterized in that the cabinet further comprises side seals arranged along the inner surface of the side wall of the door.
A preferred embodiment of the present invention is characterized in that the front wall of the door is provided with a tapered portion at a lower end portion thereof.

A reference example of the present invention includes a pump for pressurizing water, a motor for driving the pump, the pump, and a cabinet in which the motor is housed. In a water supply device including an attached door, a positioning protrusion provided on one of the door and the cabinet body is inserted into a positioning hole provided on the other of the door and the cabinet body. Then, the relative position between the door and the cabinet body is fixed, and the door is fastened to the cabinet body with a fastener provided on the door or the cabinet body. The method.

According to the present invention, since the lower part of the door can be first positioned with respect to the cabinet body by the positioning protrusion, it is not necessary to lift the entire door for a long time, and the door can be safely and easily attached to the cabinet body. can.
Further, according to the present invention, the door is easily and firmly fastened to the cabinet body by the fastener, and the door can be easily removed from the cabinet body by releasing the fastener.

It is a schematic diagram which shows one Embodiment of a water supply device. It is a front view which shows one Embodiment of the internal structure of the water supply device provided with two pumps. It is a left side view of the water supply device shown in FIG. It is a perspective view of a cabinet. It is a side view of a cabinet. It is a top view of a cabinet. It is a side view which shows the state which the door was removed from the cabinet body. It is a front view of a door. It is a rear view of a door. 9 is a cross-sectional view taken along the line AA of FIG. It is a front view which shows the swing handle. It is a front view which shows the state which the swing handle was rotated from a closed position to an open position. It is sectional drawing of a door and a cabinet body. It is a front view which shows the upper part of a cabinet body. It is sectional drawing which shows the other embodiment of a cabinet. It is sectional drawing which shows the embodiment which provided the combination of the snap lock and the permanent magnet as a fastener. It is a figure which shows the state which the fastening of the snap lock shown in FIG. 16 is released. It is sectional drawing which shows the embodiment which provided the combination of the swing handle and the roller catch as a fastener. It is sectional drawing which shows the embodiment which provided the combination of a screw and a permanent magnet as a fastener. It is a perspective view which shows the positioning protrusion provided at the lower end of a door. It is a perspective view which shows the bottom of a cabinet body. It is a perspective view which shows the state which the positioning protrusion is inserted into the hole of a cabinet body. It is an enlarged sectional view which shows the positioning protrusion inserted in the positioning hole, and the seal of a door. It is a side view which shows one Embodiment of the state at the time of attaching and detaching a door. It is a side view which shows one Embodiment of the state at the time of attaching and detaching a door. It is a flowchart which shows the procedure when attaching a door to a cabinet body. It is a flowchart which shows the procedure when removing a door from a cabinet body.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a schematic diagram showing an embodiment of a water supply device. This water supply device is a water supply device used for supplying water to buildings such as office buildings and apartment buildings. As shown in FIG. 1, the suction port of the water supply device is connected to a water supply source 4 such as a water main or a water receiving tank via an introduction pipe 5. A water distribution pipe 7 is connected to the discharge port of the water supply device, and the water distribution pipe 7 communicates with a water supply device (for example, a faucet) arranged inside the building. The water supply device is a pump device for pressurizing water from the water supply source 4 and supplying it to each water supply device in the building.

The water supply device is an example of a pump 2 that pressurizes water supplied from a water supply source 4 via an introduction pipe 5, a motor 3 as a drive source for driving the pump 2, and variable speed means of the motor 3. The inverter 21, the control unit 20 that controls the water supply operation of the water supply device (that is, the operation of the pump 2), the check valve 22 arranged on the downstream side of the pump 2, and the check valve 22 arranged on the downstream side of the check valve 22. It includes a flow detector (flow switch) 24, a discharge side pressure sensor 26, and a pressure tank 28. These components (that is, the pump 2, the motor 3, the inverter 21, the control unit 20, the check valve 22, the flow rate detector 24, the pressure tank 28, etc.) are housed in the cabinet 30.

The check valve 22 is provided in the discharge pipe 8 connected to the discharge port of the pump 2 and is a valve for preventing the backflow of water when the pump 2 is stopped. The flow rate detector 24 is a device that detects that the flow rate of water flowing through the discharge pipe 8 is equal to or less than a predetermined small amount of water. The discharge side pressure sensor 26 is a water pressure measuring device for measuring the discharge side pressure of the pump 2. The pressure tank 28 is a pressure retainer for holding the discharge side pressure while the pump 2 is stopped. The water distribution pipe 7 is connected to the discharge pipe 8.

One end of the suction pipe 9 is connected to the suction port of the pump 2, and the other end of the suction pipe 9 is connected to the introduction pipe 5. A backflow preventer (decompression type backflow preventer 15 described later in FIG. 2) and a suction side pressure sensor (suction side pressure sensor 17 described later in FIG. 2) may be attached to the suction pipe 9. The backflow preventer is installed to prevent the backflow of water to the introduction pipe 5.

The water of the water supply source 4 is supplied to the pump 2 through the introduction pipe 5 and the suction pipe 9. When the motor 3 drives the pump 2, the pump 2 pressurizes the water to supply water to the building. A part of the water pressurized by the pump 2 is stored in the pressure tank 28. When the operation of the pump 2 is stopped, the water pressure in the water distribution pipe 7 is held by the pressure tank 28.

The water supply device may include a bypass pipe 11 that bypasses the pump 2. The upstream end of the bypass pipe 11 is connected to the suction pipe 9, and the downstream end of the bypass pipe 11 is connected to the discharge pipe 8. A check valve 16 is attached to the bypass pipe 11 to prevent backflow of water in the bypass pipe 11. The bypass pipe 11 is provided so that water can be supplied only by the inflow pressure.

The control unit 20 controls the operation of the pump 2 by controlling the operations of the inverter 21 and the motor 3. More specifically, the control unit 20 controls the rotation speed of the pump 2 based on the output signal of the discharge side pressure sensor 26. Generally, the rotation speed of the pump 2 is controlled so that the pressure signal measured by the discharge side pressure sensor 26 matches the set target pressure, and the discharge pressure of the pump 2 is controlled to be constant. By controlling the constant discharge pressure and appropriately changing the target value of the discharge pressure of the pump 2, it is estimated that the water pressure in the water supply equipment located on the most downstream side (end) in the building becomes constant. Estimated end pressure constant control is performed while controlling.

Further, the control unit 20 controls the start and stop of the pump 2. Generally, the control unit 20 starts the pump 2 when the pressure signal measured by the discharge side pressure sensor 26 becomes lower than the set starting pressure, and the flow detector 24 activates the water flowing through the discharge pipe 8. When it is detected that the flow rate is equal to or less than a predetermined small amount of water, pressure is accumulated in the pressure tank 28 and the pump 2 is stopped. Here, in the water supply device, when the pump 2 operates at a fixed speed, the inverter 21 which is a variable speed means may not be provided.

FIG. 2 is a front view showing an embodiment of an internal structure of a water supply device including a plurality of pumps, and FIG. 3 is a left side view of the water supply device shown in FIG. 2. The same reference numerals are given to the same configurations as in FIG. 1, and the description thereof will be omitted. Inside the cabinet 30, two pumps 2a and 2b are arranged side by side. The pumps 2a and 2b are vertical shaft pumps, and are composed of, for example, a booster pump. These pumps 2a and 2b are connected to the motors 3a and 3b, respectively. A suction header 18 extending in the horizontal direction is arranged on the suction side of the pumps 2a and 2b, and the suction ports of the pumps 2a and 2b are connected to the suction header 18. A decompression type backflow preventer 15 is arranged between the suction header 18 and the inlet pipe 10 provided with the ball valve 12 with a strainer. A suction side pressure sensor 17 that detects the pressure on the suction side is attached to the inlet pipe 10. When the introduction pipe (see reference numeral 5 in FIG. 1) is connected to the strainer portion of the ball valve 12 with a strainer and the pumps 2a and 2b are operated with the ball valve 12 open, the introduction pipe (see reference numeral 5 in FIG. 1) is operated. Water is sucked into the pumps 2a and 2b via the inlet pipe 10, the decompression type backflow preventer 15, and the suction header 18. In the present embodiment, the inlet pipe 10 and the suction header 18 constitute the suction pipe 9 shown in FIG.

Discharge elbow pipes 27 are connected to the discharge sides of the pumps 2a and 2b, respectively, and a check valve 22 for preventing backflow of discharged water and a small amount of water are detected in each discharge elbow pipe 27. A flow rate detector (flow switch) 24 that sends a signal to the control unit 20 is arranged. Further, each discharge elbow pipe 27 is connected to a discharge collecting pipe 34 that collects (merges) the water discharged from the pumps 2a and 2b, and the pressure on the discharge side is connected to the discharge collecting pipe 34. The upper end of the bypass header 38 having the discharge side pressure sensor 26 for detecting is connected, and the pressure tank pipe 28a extending from the pressure tank 28 is connected to a predetermined position along the longitudinal direction of the bypass header 38. Further, the lower end of the bypass header 38 is connected to an outlet pipe 29 having a ball valve 33. The outlet pipe 29 communicates with the suction header 18 via a bypass pipe 11 in which a check valve (see reference numeral 16 in FIG. 1) is arranged inside. In the present embodiment, the discharge elbow pipe 27, the discharge collecting pipe 34, the bypass header 38, and the outlet pipe 29 constitute the discharge pipe 8 shown in FIG.

With this configuration, the water discharged from the pump 2a (and / or the pump 2b) accompanying the operation of the pump 2a (and / or the pump 2b) is discharged from the elbow pipe 27, the check valve 22, and the discharge collecting pipe. It is discharged to the outside (water distribution pipe 7 in FIG. 1) via 34, a bypass header 38, and an outlet pipe 29. 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 outlet pipe 29 and discharged to the outside. The pressure tank 28 acts to prevent frequent start-up and stop of the pumps 2a and 2b by accumulating the pressurized water discharged from the pumps 2a and 2b, and to keep the water supply pressure smoothly and constant.

An inverter case 23 for accommodating the inverter 21 is arranged in the cabinet 30 above the pumps 2a and 2b so as to be openable and closable forward via a hinge 25. The inverter case 23 has, for example, a heat sink 23B made of aluminum and having heat dissipation fins 23A, and the inverter 21 is mounted on the upper surface of the heat sink 23B. The inverter 21 is a device for driving the motors 3a and 3b at variable speeds by supplying AC power to the motors 3a and 3b connected to the pumps 2a and 2b at different frequencies and voltages, and is internally cooled. Has the required semiconductor device.

At the upper part of each of the motors 3a and 3b, a spindle 100 that rotates with the driving of the motors 3a and 3b is extended to the outside. Then, a cooling fan 101 that rotates integrally with the spindle 100 and creates an upward air flow with the rotation is attached to each spindle 100. Further, these cooling fans 101 are each covered with a cylindrical fan cover 102 extending vertically along the motors 3a and 3b.

When the pumps 2a and 2b are operated by the motors 3a and 3b, the cooling fan 101 rotates integrally with the spindle 100, and the rotation of the cooling fan 101 forms an air flow toward the heat radiation fins 23A of the inverter case 23. The fan cover 102 guides this airflow to the heat dissipation fins 23A of the heat sink 23B. Then, the air cooled by the pumps 2a and 2b passes through the outer peripheral portions of the motors 3a and 3b and collides with the heat radiation fins 23A, and the air cools the motors 3a and 3b and further cools the heat radiation fins 23A to the inverter 21. Is cooled. Then, this airflow collides with the heat radiation fin 23A and changes its direction, and becomes a large circulation airflow in the cabinet 30. Due to the circulation of the large airflow in the cabinet 30, the control unit 20 and the like come into contact with the cooled air carried from the periphery of the suction pipe 9, the decompression type backflow preventer 15, the suction header 18, and the like to be cooled. That is, the cooling fan 101 forms an air flow that circulates in the cabinet 30 as a whole, so that the air in the cabinet 30 is constantly agitated and the internal temperature thereof is made uniform.

The cabinet 30 is provided with a control unit 20, which receives signals from the pressure sensors 17 and 26 and pumps so that the water supply pressure in each water supply device of the building becomes a predetermined pressure. Control is performed to operate 2a and 2b at variable speeds. More specifically, the control unit 20 sends a command signal for maintaining the water supply pressure in the building to a predetermined pressure to the inverter 21 based on the output signals of the pressure sensors 17 and 26. The inverter 21 changes the rotation speeds of the motors 3a and 3b based on the command signal sent from the control unit 20. With such a configuration, the water supply device pressurizes the water from the water supply source 4 to a predetermined pressure, and supplies the pressurized water into the building.

4 is a perspective view of the cabinet 30, FIG. 5 is a side view of the cabinet 30, and FIG. 6 is a top view of the cabinet 30. Hereinafter, when it is not necessary to distinguish the pumps 2a and 2b, they are referred to as pumps 2, and similarly, the motors 3a and 3b are referred to as motors 3. Since the water supply device is often installed in a narrow space, the installation area of the water supply device is required to be small. Therefore, the cabinet 30 of the present embodiment is a vertically long box type. Further, since it is assumed that the water supply device is installed outdoors, the cabinet 30 uses the equipment inside the cabinet 30 (particularly, the pump 2, the motor 3, the inverter 21, the control unit 20) to be externally exposed to rain, direct sunlight, or the like. Protect from the environment. In the present embodiment, the cabinet 30 is made of a corrosion-resistant metal such as stainless steel, but may be made of a composite material such as FRP or an organic polymer material such as plastic. A hole 30a for piping the introduction pipe 5 or the water distribution pipe 7 into the cabinet 30 is formed on the side surface of the cabinet 30. By attaching a grommet (not shown) to the hole 30a, it is possible to protect the piping and prevent rainwater, dust, etc. from entering the cabinet through the hole 30a.

The cabinet 30 has a cabinet main body 31 and a door 35 detachably attached to the cabinet main body 31. The door 35 is formed with an opening 36 for making the display unit of the control unit 20 (see reference numeral 20a in FIG. 2) visible, and the opening 36 is covered with a transparent cover made of resin or the like. A reinforcing rib 39 for reinforcing the door 35 is formed in the central portion of the door 35, and a resin plate 40 is mounted on the reinforcing rib 39. Further, a swing handle 45, which is a fastener for fastening the door 35 to the cabinet body 31, is attached to the upper portion of the door 35. FIG. 7 is a side view showing a state in which the door 35 is removed from the cabinet main body 31.

8 is a front view of the door 35, FIG. 9 is a rear view of the door 35, and FIG. 10 is a sectional view taken along line AA of FIG. As shown in FIG. 8, a swing handle 45 is attached to the front wall 48 of the door 35, and as shown in FIG. 9, a positioning protrusion 68 is provided at the lower end of the door 35. A positioning hole (described later) into which the positioning protrusion 68 is inserted is formed at the bottom of the cabinet body 31. The door 35 is fixed to the cabinet body 31 by the swing handle 45 and the positioning protrusion 68.

The door 35 has a front wall 48, an upper wall 49, a bottom wall 51, and two side walls 52. In the present embodiment, the opening 36 described above is formed in the front wall 48, but the opening 36 may not be provided. A top seal 55, a bottom seal 56, and a side seal 58, which are sealing members, are attached to the inner surface of the door 35. More specifically, the top seal 55 is arranged along the inner surface of the upper wall 49, the bottom seal 56 is arranged along the inner surface of the bottom wall 51, and the side seal 58 is arranged along the inner surface of the side wall 52. There is. In the following description, the top seal 55, the bottom seal 56, and the side seal 58 may be simply referred to as seal members 55, 56, 58. These sealing members 55, 56, 58 are arranged between the door 35 and the cabinet main body 31, close the gap between the door 35 and the cabinet main body 31, and rainwater, dust, dust, etc. enter the cabinet 30. Prevent it from happening. The sealing members 55, 56, 58 are made of an elastic material such as sponge rubber.

The front wall 48 has a reinforcing rib 39 having a concave cross section. The reinforcing rib 39 is located at the center of the front wall 48. The reinforcing rib 39 is composed of a groove (long depression) formed in the front wall 48. More specifically, a part of the front wall 48 is recessed inside the cabinet 30, and the recessed portion constitutes the reinforcing rib 39. The reinforcing rib 39 is composed of a part of the front wall 48.

The central portion of the front wall 48 is specifically a central portion obtained by vertically dividing the front wall 48 into three equal parts, a left side portion, a central portion, and a right side portion. In the present embodiment, the reinforcing rib 39 is used as an example. The center and the center of the front wall 48 are substantially aligned.

A resin plate 40 is attached to the front side of the reinforcing rib 39. As shown in FIG. 9, a plurality of (two in this embodiment) reinforcing plates 65 intersecting the reinforcing ribs 39 are fixed to the back surface of the front wall 48. In one embodiment, only one reinforcing plate 65 may be provided. In the present embodiment, the reinforcing plate 65 is orthogonal to the reinforcing rib 39, but in one embodiment, the reinforcing plate 65 may intersect the reinforcing rib 39 at an angle smaller than or larger than 90 degrees.

In each of the above-described embodiments, the cabinet 30 has a vertically long shape, but when the cabinet 30 is horizontally long, the reinforcing rib 39 may extend in the horizontal direction. Although not shown, in one embodiment, the door 35 may have a plurality of reinforcing ribs 39. For example, a plurality of reinforcing ribs 39 parallel to each other may be formed on the front wall 48.

As shown in FIG. 10, the front wall 48 of the door 35 is inclined from both sides toward the center. In the present embodiment, the reinforcing rib 39 is located in the central portion of the front wall 48, and the front wall 48 is inclined outward from both ends thereof toward the reinforcing rib 39. According to the present embodiment, since the front wall 48 of the door 35 is inclined from both sides toward the center, the overall strength of the front wall 48 is improved. Therefore, the vibration of the entire door 35 is suppressed.

The swing handle 45 is an example of a fastener for fastening the door 35 to the cabinet body 31, and in the present embodiment, the swing handle 45 is located in the central portion of the upper part of the front wall 48. Other examples of fasteners include permanent magnets, snap locks, roller catches, screws and the like. The fastener may be at least one selected from a swing handle, a permanent magnet, a snap lock, a roller catch, and a screw. For example, the fastener may be a combination of a swing handle and a permanent magnet. Commercially available swing handles, permanent magnets, snap locks, and roller catches can be used.

Fasteners are provided on the front, top, sides of the cabinet 30 or inside the cabinet 30. For example, a swing handle 45 may be attached to the front surface of the cabinet 30 and a permanent magnet or a roller catch may be provided inside the cabinet 30. In another example, a snap lock may be attached to the top or side of the cabinet 30 and a permanent magnet or roller catch may be provided inside the cabinet 30.

FIG. 11 is a front view showing the swing handle 45. The swing handle 45 includes a rotary lever 70, a clasp 71 connected to the rotary lever 70, and a lock mechanism 73 for locking the rotary lever 70. The rotary lever 70 is located on the front side of the door 35, and the clasp 71 is located on the back side of the door 35. The clasp 71 can rotate integrally with the rotary lever 70. When the rotary lever 70 is locked by the lock mechanism 73, the rotary lever 70 is in the closed position. In this closed position, the rotary lever 70 and the clasp 71 are in a vertical position as shown in FIG. When the lock mechanism 73 is released, the rotary lever 70 is in a rotatable state. FIG. 12 is a diagram showing a state in which the rotary lever 70 is manually rotated from the closed position to the open position. As shown in FIG. 12, the rotary lever 70 and the clasp 71 can be rotated until they are in a horizontal position.

FIG. 13 is a cross-sectional view of the door 35 and the cabinet body 31. As shown in FIG. 13, when the rotary lever 70 is in the closed position, the clasp 71 engages with the upper edge 31a of the cabinet body 31 and presses the upper part of the door 35 against the cabinet body 31. When the lock mechanism 73 is released and the rotary lever 70 and the clasp 71 are rotated until they reach the open position (horizontal posture) shown in FIG. 12, the clasp 71 is disengaged from the upper edge 31a, whereby the upper part of the door 35 is cabinetd. It can be separated from the main body 31.

In this embodiment, in addition to the swing handle 45, a permanent magnet 80 is further used as a fastener. The permanent magnet 80 is arranged inside the cabinet 30. More specifically, the permanent magnet 80 is fixed to the upper edge 31a of the cabinet body 31. The permanent magnet 80 is arranged to face the back surface of the front wall 48 of the door 35. The door 35 may include a metal plate in contact with the permanent magnet 80. When the door 35 is in contact with the permanent magnet 80, the permanent magnet 80 attracts the door 35 by magnetic force and presses the upper part of the door 35 against the cabinet body 31. As described above, in the present embodiment, the door 35 is fastened to the cabinet body 31 by the combination of the swing handle 45 and the permanent magnet 80.

A worker who attaches / detaches the door 35 to / from the permanent magnet 80 can attach the door 35 and the cabinet body 31 by magnetic force only by pressing the upper part of the door 35. After that, the door 35 is fastened to the cabinet body 31 by operating the swing handle 45. When removing the door 35, first, the door 35 and the cabinet body 31 are released from the fastening by operating the swing handle 45, and the upper part of the door 35 is pulled toward the front to release the contact with the permanent magnet 80. Since the swing handle 45 can be operated with the door 35 fixed by the permanent magnet 80 in this way, the workability of attaching and detaching the door 35 is improved. The permanent magnet 80 may be provided on the door 35.

In the present embodiment, the seal member 55 is a double seal including the first seal 55A and the second seal 55B. The first seal 55A and the second seal 55B are arranged in parallel and attached to the inner surface of the upper wall 49 of the door 35. The first seal 55A is arranged on the inner side of the cabinet 30 with respect to the second seal 55B. When the door 35 is attached to the cabinet body 31, the first seal 55A contacts the corner portion 31b formed on the upper wall 82 of the cabinet body 31, and the second seal 55B is on the upper surface 31c of the cabinet body 31. Contact. The corner portion 31b extends parallel to the upper wall 49 of the door 35, and the first seal 55A is arranged between the corner portion 31b and the upper wall 49 of the door 35.

As shown in FIG. 13, when the swing handle 45 and the permanent magnet 80 press the door 35 against the cabinet body 31, the first seal 55A is pressed against the corner portion 31b of the cabinet body 31 and deformed, resulting in a cabinet over a wide area. Contact the main body 31. Therefore, the first seal 55A can close the gap between the door 35 and the cabinet main body 31 and prevent liquids such as rainwater from entering the cabinet 30. Further, since the first seal 55A is pressed against the cabinet body 31 by the swing handle 45 and the permanent magnet 80 which are fasteners, even if the first seal 55A deteriorates, the first seal 55A continues to exert its sealing effect. Can be done.

The second seal 55B is arranged along the edge of the upper wall 49 of the door 35. When the door 35 is attached to the cabinet body 31, the second seal 55B contacts the upper surface 31c of the cabinet body 31 and closes the gap between the door 35 and the upper surface 31c of the cabinet body 31. The second seal 55B arranged at this position has a function of reducing the amount of liquid such as rainwater reaching the first seal 55A. According to the present embodiment, the double seal including the first seal 55A and the second seal 55B can prevent liquids such as rainwater from entering the cabinet 30.

When the door 35 is not fastened to the cabinet body 31, the door 35 may come off the cabinet body 31 due to a strong wind. According to the present embodiment, whether or not the door 35 is fastened to the cabinet body 31 can be easily visually recognized from the position of the rotary lever 70 of the swing handle 45. That is, when the rotary lever 70 is in the position shown in FIG. 11, it indicates that the door 35 is fastened to the cabinet body 31 by the swing handle 45, and when the rotary lever 70 is in the position shown in FIG. , The door 35 is not fastened to the cabinet body 31. In this way, by adopting the swing handle 45, it is possible to prevent the door 35 from being forgotten to be tightened.

As shown in FIG. 13, the permanent magnet 80 is arranged on the inner side of the cabinet 30 with respect to the first seal 55A and the second seal 55B, and the permanent magnet 80 is protected from the outdoor environment. Although the number of permanent magnets 80 may be one, a plurality of permanent magnets 80 are provided in the present embodiment from the viewpoint of applying a force to deform the first seal 55A.

FIG. 14 is a front view showing the upper part of the cabinet main body 31. As shown in FIG. 14, the plurality of permanent magnets 80 are fixed to the upper edge 31a of the cabinet body 31. In this embodiment, two permanent magnets 80 are arranged at symmetrical positions.

FIG. 15 is a cross-sectional view showing another embodiment of the cabinet 30. Since the structure of the present embodiment, which is not particularly described, is the same as the structure shown in FIG. 13, the duplicated description will be omitted. In the present embodiment, the seal member 55 is a triple seal including the first seal 55A, the second seal 55B, and the third seal 55C. The upper wall 82 of the cabinet body 31 has a stepped portion 31d connected to the upper edge 31a and the corner portion 31b. The step portion 31d is located between the upper edge 31a and the corner portion 31b, and is located at a position lower than the corner portion 31b. When the door 35 is attached to the cabinet body 31, the third seal 55C comes into contact with the step 31d.

The third seal 55C is attached to the inner surface of the upper wall 49 of the door 35, and is arranged in parallel with the first seal 55A and the second seal 55B. The first seal 55A is arranged between the second seal 55B and the third seal 55C, and the third seal 55C is arranged inside the cabinet 30 with respect to the first seal 55A and the second seal 55B. Further, the third seal 55C is arranged at a position lower than that of the first seal 55A and the second seal 55B. The first seal 55A and the third seal 55C are arranged along the step portion 31d, and the step portion 31d is located between the first seal 55A and the third seal 55C.

When the door 35 is fastened to the cabinet body 31, the first seal 55A is pressed against the cabinet body 31, the second seal 55B contacts the upper surface 31c of the cabinet body 31, and the third seal 55C is on the step 31d. Contact the top surface. More specifically, when the swing handle 45 and the permanent magnet 80 press the door 35 against the cabinet body 31, the first seal 55A is pressed against the corner portion 31b of the cabinet body 31 to be deformed, and the second seal 55B is formed. And the third seal 55C comes into contact with the upper surface 31c of the cabinet body 31 and the upper surface of the step 31d, respectively.

According to the present embodiment, the liquid such as rainwater that has passed through the first seal 55A is prevented from entering by the third seal 55C. The liquid whose flow is blocked by the third seal 55C flows down the side portion of the cabinet main body 31 through the step portion 31d and is discharged from the cabinet 30. According to the present embodiment, the triple seal provided with the first seal 55A, the second seal 55B, and the third seal 55C can prevent liquids such as rainwater from entering the cabinet 30.

FIG. 16 is a cross-sectional view showing an embodiment including a combination of a snap lock 91 and a permanent magnet 80 as a fastener. Since the structure of the present embodiment, which is not particularly described, is the same as the structure shown in FIG. 13, the duplicated description will be omitted. In this embodiment, the snap lock 91 is used instead of the swing handle 45. The snap lock 91 is fixed to the upper surface 31e of the cabinet 30. Although only one snap lock 91 is drawn in FIG. 16, a plurality of snap locks 91 are provided. In one embodiment, the snap lock 91 may be secured to the top of the side surface of the cabinet 30. For example, two snap locks 91 may be secured to the top of both sides of the cabinet 30.

The snap lock 91 includes a snap lock body 91a provided on the cabinet body 31 and a protrusion 91b provided on the lid 35. The snap lock main body 91a is provided with a lever portion 91a1 and a hook portion 91a2, and the protrusion 91b has a shape in which the hook portion 91a2 is hooked in a state where the lid 35 is fastened to the cabinet main body 31. The lid 35 and the cabinet body 31 are formed by hooking the hooking portion 91a2 on the protrusion 91b and tilting the lever portion 91a1 until it is substantially parallel to the upper surface 31e while the lever portion 91a1 is in a position substantially perpendicular to the upper surface 31e. To conclude. As described above, when the lid 35 is fastened to the cabinet main body 31, the lever 91a1 interlocked with the spring is positioned substantially parallel to the upper surface 31e of the cabinet main body 31 which is the mounting surface. As shown in FIG. 17, when the lid 35 is not fastened to the cabinet main body 31, the lever 91a1 is in a position substantially perpendicular to the upper surface 31e of the cabinet main body 31.

The snap lock 91 can firmly fasten the door 35 to the cabinet body 31, and since there is a portion where the door 35 is caught, it is possible to prevent the door 35 from opening due to a strong wind from the back side when it is installed outdoors.

FIG. 18 is a cross-sectional view showing an embodiment including a combination of a swing handle 45 and a roller catch 93 as a fastener. Since the structure of the present embodiment, which is not particularly described, is the same as the structure shown in FIG. 13, the duplicated description will be omitted. In this embodiment, the roller catch 93 is used instead of the permanent magnet 80. The roller catch 93 is arranged inside the cabinet 30 in the same manner as the permanent magnet 80 shown in FIG. More specifically, the roller catch 93 is fixed to a step portion 31d formed between the upper edge 31a and the corner portion 31b of the cabinet body 31. The roller catch 93 has an advantage that a stronger coupling force can be obtained than a permanent magnet.

The roller catch 93 is arranged on the inner side of the cabinet 30 with respect to the first seal 55A and the second seal 55B, and the roller catch 93 is protected from the outdoor environment. Although only one roller catch 93 is drawn in FIG. 18, a plurality of roller catches 93 are provided.

FIG. 19 is a cross-sectional view showing an embodiment including a combination of a screw 95 and a permanent magnet 80 as a fastener. Since the structure of the present embodiment, which is not particularly described, is the same as the structure shown in FIG. 13, the duplicated description will be omitted. In this embodiment, the screw 95 is used instead of the swing handle 45. The screw 95 penetrates the upper wall 49 of the door 35 and is screwed into the screw hole 96 formed in the upper wall 82 of the cabinet body 31. Although only one screw 95 is drawn in FIG. 19, a plurality of screws 95 are provided. In one embodiment, the screws 95 may be attached to the top of the side surface of the cabinet 30.

The embodiments shown in FIGS. 16 to 19 can also be applied to the embodiment of the triple seal member shown in FIG.

As described above in FIGS. 11 and 12, the swing handle 45 visually confirms whether the rotary lever 70 is in the vertical posture or the horizontal posture, so that the fastened state can be visually confirmed with the door 35 attached to the cabinet body. It is a fastener that can be used. Further, in the snap lock 91 in FIG. 16, the door 35 is attached to the cabinet body 31 by visually confirming whether the lever portion 91a1 is in a position substantially parallel to or substantially perpendicular to the mounting surface. It is a fastener that allows you to visually confirm whether or not it is fastened in the state. The screw 95 described with reference to FIG. 19 is also a fastener that allows it to be visually confirmed whether or not the door 35 is fastened with the door 35 attached to the cabinet body 31. As described above, by using the fastener that can visually confirm whether or not the door 35 is fastened while the door 35 is attached to the cabinet main body 31, it is possible to prevent the door 35 from being forgotten to be tightened.

FIG. 20 is a perspective view showing a positioning protrusion 68 provided at the lower end of the door 35. In this embodiment, two positioning protrusions 68 are provided on the bottom wall 51, which is the bottom of the door 35. The positioning protrusion 68 and the bottom wall 51 may have an integral structure. Each positioning protrusion 68 is a protrusion having a hook shape, and the tip of each positioning protrusion 68 projects downward. The positioning protrusion 68 has a dimension such that it does not protrude from the bottom wall 51 of the door 35 so that the positioning protrusion 68 does not come into contact with the ground when the door 35 is removed from the cabinet body 31 and temporarily placed.

FIG. 21 is a perspective view showing the bottom portion 85 of the cabinet body 31. The bottom 85 of the cabinet body 31 has two positioning holes 84 at positions corresponding to the positioning projections 68 of the door 35. Each positioning hole 84 is a hole larger than each positioning protrusion 68, and the positioning member can be inserted into the positioning hole 84.

FIG. 22 is a perspective view showing a state in which the positioning protrusion 68 is inserted into the positioning hole 84 of the cabinet body 31. As shown in FIG. 22, when the positioning protrusion 68 is inserted into the positioning hole 84 of the cabinet body 31, the relative position of the door 35 with respect to the cabinet body 31 is fixed. Although only one positioning protrusion 68 and one positioning hole 84 may be provided, it is preferable to provide a plurality of positioning protrusions 68 and a plurality of positioning holes 84 from the viewpoint of fixing the position of the lower part of the door 35. ..

FIG. 23 is an enlarged cross-sectional view showing a positioning protrusion 68 inserted into the positioning hole 84 and a seal member 56 of the door 35. The seal member 56 is arranged along the inner surface of the bottom wall 51 of the door 35. When the positioning protrusion 68 of the door 35 is inserted into the positioning hole 84 of the cabinet body 31, the sealing member 56 is pressed against the bottom 85 of the cabinet body 31 and deformed, and the sealing member 56 comes into contact with the cabinet body 31 over a wide area. Therefore, the seal member 56 can close the gap between the door 35 and the cabinet body 31 and prevent liquids such as rainwater from entering the cabinet 30. How much the seal member 56 is deformed (crushed) is determined by the relative position between the positioning hole 84 and the positioning protrusion 68. In other words, by appropriately setting the relative positions of the positioning hole 84 and the positioning protrusion 68, a desired amount of deformation of the seal member 56 can be obtained. Similarly, with respect to the seal member 58, a desired amount of deformation of the seal member 58 can be obtained by appropriately setting the relative position between the positioning hole 84 and the positioning protrusion 68.

Further, as shown in FIG. 23, the front wall 48 of the door 35 may be provided with a tapered portion 48a at its ground contact portion. By doing so, workability at the time of attaching / detaching the door 35 is improved.

Next, a method of attaching and detaching the door 35 and the cabinet main body 31 will be described with reference to FIGS. 24 and 26 and 27. FIG. 24 is a side view showing a state when the door 35 is attached / detached, FIG. 26 is a flowchart showing a procedure for attaching the door 35 to the cabinet main body 31, and FIG. 27 is a flowchart showing the procedure when the door 35 is removed from the cabinet main body 31. It is a flowchart which shows the procedure of.

The door 35 is attached to the cabinet body 31 as follows. The following description is an example of attaching the door 35 according to the embodiment shown in FIG. 13, but the door 35 shown in FIGS. 15 to 19 can also be attached to the cabinet body 31 in the same manner. First, as shown in FIG. 24, with the upper part of the door 35 pulled toward you and the entire door 35 slanted, the positioning protrusion 68 is inserted into the positioning hole 84, and the lower part of the door 35 is relative to the cabinet body 31. The position is fixed (step 1 in FIG. 26). At this time, the tapered portion 48a shown in FIG. 23 can prevent the door 35 from coming into contact with the ground even when the entire door 35 is slanted. Next, the upper part of the door 35 is manually pressed against the cabinet body 31 (step 2 in FIG. 26), and the door 35 is brought into contact with the permanent magnet 80. With the permanent magnet 80 attracting the door 35, the door 35 is fastened to the cabinet body 31 by the swing handle 45 (step 3 in FIG. 26).

The door 35 is removed from the cabinet body 31 as follows. The following description is an example of attaching the door 35 according to the embodiment shown in FIG. 13, but the door 35 shown in FIGS. 15 to 19 can also be removed from the cabinet body 31 in the same manner. First, the door 35 and the cabinet body 31 are released from the swing handle 45 (step 1 in FIG. 27). As shown in FIG. 24, the upper part of the door 35 is pulled toward you (step 2 in FIG. 27) to release the contact between the door 35 and the permanent magnet 80, and the positioning protrusion 68 is in a state where the entire door 35 is slanted. The door 35 is removed from the cabinet body 31 by removing the door 35 from the positioning hole 84 (step 3 in FIG. 27).

In the above-described embodiment, the configuration in which the positioning protrusion 68 is provided on the bottom wall 51 of the door 35 and the positioning hole 84 is provided on the bottom 85 of the cabinet main body 31 has been described. However, the positioning protrusion 68 is provided on the upper wall 49 of the door 35. The upper wall 82 of the cabinet body 31 may be provided with a positioning hole 84. In that case, the swing handle 45 described above may be provided at the lower part of the cabinet 30.

Next, using the flowcharts of FIGS. 25, 26, and 27, the door 35 is provided with a positioning protrusion 68 on the upper wall 49 of the door 35 and a positioning hole 84 on the upper wall 82 of the cabinet body 31. And how to attach / detach the cabinet body 31 will be described. FIG. 25 is a side view showing a state when the door 35 is attached / detached.

The door 35 of the cabinet body 31 is attached to the cabinet body 31 as follows. First, as shown in FIG. 25, with the lower part of the door 35 pulled toward you and the entire door 35 tilted, the positioning protrusion 68 is inserted into the positioning hole 84 from below, and the upper part of the door 35 with respect to the cabinet body 31 is inserted. The relative position of the door is fixed (step 1 in FIG. 26). Next, the lower part of the door 35 is manually pressed against the cabinet body 31 (step 2 in FIG. 26), and the door 35 is fastened to the cabinet body 31 by the swing handle 45 (step 3 in FIG. 26). At this time, since the positioning protrusion 68 can be inserted into the positioning hole 84 from below, it is not necessary to lift the door 35 to a position higher than the positioning hole 84 (upper wall 82 of the cabinet body 31).

The door 35 is removed from the cabinet body 31 as follows. First, the door 35 and the cabinet body 31 are released from the swing handle 45 (step 1 in FIG. 27). As shown in FIG. 25, the lower part of the door 35 is pulled toward the front so that the entire door 35 is slanted (step 2 in FIG. 27). Next, the positioning protrusion 68 is removed from the positioning hole 8, and the door 35 is removed from the cabinet body 31 (step 3 in FIG. 27).

Although the swing handle 45 is used as a fastener in FIGS. 24 and 25, the door 35 is similarly used even when other types of fasteners such as permanent magnets, snap locks, roller catches, and screws are used. Can be attached and detached.

According to the present embodiment, since the door 35 can be first positioned with respect to the cabinet main body 31 by the positioning protrusion 68, it is not necessary to lift the entire door 35 for a long time, and the door 35 can be safely and easily placed in the cabinet main body. It can be attached to 31. Further, if the structure is such that the door is hooked on the upper surface of the cabinet, the seal member on the upper part of the door may be crushed by the weight of the door, but in the present embodiment, the weight of the door 35 is received by the cabinet body 31. Therefore, the weight of the door 35 is not applied to the seal member 55 and the door 35 is not crushed. This also makes it possible to extend the life of the seal member 55. Further, although the door 35 forms the front surface of the cabinet 30, only a part of the front surface of the cabinet 30 may be formed. Further, in addition to the front surface of the cabinet 30, the ceiling surface or the side surface may be formed in whole or in part.

The water supply device according to the above-described embodiment is a directly connected water supply device that is directly connected to the water main as the water supply source 4, but the water supply device of the present invention is connected to the water main via a water tank. It may be a water tank type water supply device. Further, although the water supply device according to the above-described embodiment includes one or two pumps, the water supply device of the present invention may include three or more pumps. Further, the door 35 may be provided with a positioning hole 84, and the cabinet body 31 may be provided with a positioning protrusion 68.

The above-described embodiments have been described for the purpose of allowing a person having ordinary knowledge in the technical field to which the present invention belongs to carry out the present invention. Various modifications of the above embodiment can be naturally made by those skilled in the art, and the technical idea of the present invention can be applied to other embodiments. Accordingly, the invention is not limited to the described embodiments and should be the broadest scope in accordance with the technical ideas defined by the claims.

2,2a, 2b Pump 3,3a, 3b Motor 4 Water supply source 5 Introductory pipe 7 Water distribution pipe 8 Discharge pipe 9 Suction pipe 10 Inlet pipe 11 Bypass pipe 12 Ball valve 15 Decompression type check valve 16 Check valve 17 Suction Side pressure sensor 18 Suction header 20 Control unit 21 Inverter 22 Check valve 23 Inverter case 23A Heat dissipation fin 23B Heat sink 24 Flow detector (flow switch)
26 Discharge side pressure sensor 27 Discharge elbow pipe 28 Pressure tank 29 Outlet pipe 30 Cabinet 31 Cabinet body 33 Ball valve 34 Discharge collecting pipe 35 Door 36 Opening 38 Bypass header 39 Reinforcing rib 40 Resin plate 45 Swing handle 48 Front wall 49 Upper wall 51 Bottom wall 52 Side wall 55, 56, 58 Seal member 55A 1st seal 55B 2nd seal 55C 3rd seal 65 Reinforcing plate 65a Notch 68 Positioning protrusion 70 Rotating lever 71 Clasp 73 Lock mechanism 80 Permanent magnet 82 Upper wall 84 Positioning hole 85 Bottom 91 Click lock 93 Roller catch 95 Screw 96 Screw hole 100 Main shaft 101 Cooling fan 102 Fan cover

Claims (9)

A pump that pressurizes water and
The motor that drives the pump and
The pump and the cabinet in which the motor is housed are provided.
The cabinet was arranged between the cabinet body, the door attached to the cabinet body, the fasteners for fastening the door to the cabinet body, and the bottom of the door and the bottom of the cabinet body. With a sealing member ,
A positioning protrusion is provided on the bottom of the door.
A positioning hole is provided at the bottom of the cabinet body.
The positioning protrusion is located above the lower surface of the door.
A water supply device characterized in that the positioning protrusion is inserted into the positioning hole to fix the relative position between the door and the cabinet body , and the seal member is pressed against the bottom of the cabinet body to be deformed. .. The water supply device according to claim 1, wherein the door is detachably attached to the cabinet body. The water supply device according to claim 1 or 2 , wherein the fastener is provided on the front surface, the upper surface, the side surface, or at least one place inside the cabinet. The water supply device according to any one of claims 1 to 3, wherein the fastener is a fastener whose fastening state can be visually confirmed. The water supply device according to any one of claims 1 to 4, wherein the fastener is any one of a swing handle, a snap lock, and a screw. The water supply device according to any one of claims 1 to 5, wherein the seal member is a double seal. The water supply device according to any one of claims 1 to 5, wherein the seal member is a triple seal. The water supply device according to any one of claims 1 to 7 , wherein the cabinet further includes a side seal arranged along the inner surface of the side wall of the door. The water supply device according to any one of claims 1 to 8 , wherein the front wall of the door is provided with a tapered portion at a lower end portion thereof.

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