JP6041645B2 - Control device - Google Patents

Description

  The present invention relates to a control device that controls the operation of an electric device such as a water supply device, and more particularly to the arrangement of a control board inside the control device.

  A control device used for a water supply device, a lighting device, an air conditioner or the like is widely called a control panel. An electric device such as an inverter and a control board for controlling the electric device are disposed inside the control panel. For example, in a water supply apparatus, a some pump may be controlled using a some inverter, and in this case, the control board which controls these inverters is provided in a control panel. In such a water supply apparatus equipped with a plurality of pumps and inverters, when a certain pump fails (leakage, overcurrent, phase loss, etc.), it is possible to automatically switch to another pump to avoid water breakage. it can.

  However, if the control board that controls the inverter does not operate normally due to some trouble, all the pumps become inoperable, and the water cut-off state continues until the failed control board is replaced.

  From such a viewpoint, all the inverters that drive the pump are controlled by a plurality of control boards to operate the pump. Each control board is connected to a physical quantity detector necessary for operation control of the pump, such as a pressure sensor and a flow switch, through a signal line, and each control board operates based on an output signal of these physical quantity detectors. According to such a control system, even if one control board breaks down, it becomes possible to continue water supply by another control board. However, in this case, since at least two or more control boards are required, the arrangement of these control boards becomes a problem. Specific problems will be described with reference to FIG.

  FIG. 10 is a schematic view of a conventional control panel (control device) 100 as viewed from the front. As shown in FIG. 10, the control panel 100 includes a housing 101, an earth leakage circuit breaker (ELB) 102 disposed in the housing 101, an inverter 104 to which the earth leakage breaker 102 is connected, an inverter And a control unit 106 for controlling 104. The inverter 104 is connected to a direct current reactor (DCL) 107 that suppresses harmonic current. The electric leakage circuit breaker 102, the inverter 104, and the direct current reactor 107 constitute an electric device unit 105. In the electric equipment unit 105, a power cut-off switch 108 for cutting off the power supplied to the control unit 106 is provided. Electric power from an external power source 114 such as a commercial power source is supplied to various electric devices via a miniature circuit breaker (MCB) 109.

  The control unit 106 includes a main control board 110 that controls the inverter 104, a backup control board 111 that backs up the main control board 110, and a power supply board 112 that supplies power to the main control board 110 and the backup control board 111, respectively. 113. The main control board 110 is fixed on the base 115 with screws 120, and the preliminary control board 111 is fixed on the base 116 with screws 120. The bases 115 and 116 are fixed to the inner wall surface of the housing 101. In FIG. 10, the main control board 110 is disposed immediately above the preliminary control board 111.

  When the main control board 110 does not operate normally due to some trouble, the backup control board 111 backs up the main control board 110 and the backup control board 111 controls the inverter 104. In this case, it is necessary to loosen the screw 120 and remove the failed main control board 110 and replace the main control board 110 with a new control board. However, the screw 120 may be accidentally dropped. Since power is supplied to the preliminary control board 111, when the dropped screw 120 comes into contact with the preliminary control board 111, the preliminary control board 111 may be short-circuited (short-circuited) and may break down. If the preliminary control board 111 breaks down, the pump becomes inoperable and water is cut off.

JP-A-2005-351267 JP 2009-197792 A

  The present invention has been made in view of such problems of the prior art, and can prevent the control board from being damaged due to a short circuit, and can easily and quickly replace the control board. It is an object of the present invention to provide a control device capable of performing the above.

In order to solve the above-described problems, one aspect of the present invention includes a housing, a plurality of control boards disposed in the housing, and a plurality of board mounting plates to which the plurality of control boards are respectively attached. The plurality of control boards are arranged upright and arranged side by side in parallel with each other , and the plurality of control boards are respectively attached to the board mounting plate via spacers, The control board is a control device that is arranged in the same direction .

In a preferred aspect of the present invention, the plurality of board mounting plates are detachably fixed to the housing .
In a preferred aspect of the present invention, the apparatus further includes a reinforcing member that connects the plurality of board mounting plates to each other and reinforces the plurality of board mounting plates.

A preferable aspect of the present invention further includes at least one inverter, at least one DC reactor disposed below the inverter, and at least one earth leakage circuit breaker disposed below the DC reactor. Features.
In a preferred aspect of the present invention, the centers of the inverter, the DC reactor, and the leakage breaker are arranged so as not to overlap in the vertical direction.
In a preferred aspect of the present invention, the inverter includes a plurality of inverters.
In a preferred aspect of the present invention, the apparatus further includes a plurality of power cut-off switches that cut off power supplied to the plurality of control boards.
In a preferred aspect of the present invention, the housing is provided with a front door that can be opened and closed.
In a preferred aspect of the present invention, the plurality of control boards are attached to the board mounting plate via the spacer so that a space is formed between the control board and the board mounting plate. Features.
In a preferred aspect of the present invention, an electrical device section is accommodated in the housing, and the plurality of control boards are arranged with their electrical surfaces facing the electrical device section.

  Another aspect of the present invention is a water supply device comprising a pump unit having a pump and a motor, and the control device for controlling the operation of the pump unit.

  According to the present invention, by arranging a plurality of control boards side by side, even if the fasteners are dropped, they do not come into contact with the control boards. With such an arrangement, it is possible to prevent the control board from being damaged due to a short circuit, and further, it is possible to safely replace the control board. Furthermore, according to the present invention, the control board is attached to the board mounting plate. Therefore, when the control board fails, the control board can be replaced easily and in a short time by removing the board mounting plate together with the control board.

It is the schematic which shows the whole structure of the water supply apparatus provided with the control apparatus which concerns on the 1st Embodiment of this invention. It is a front view which shows arrangement | positioning inside a control apparatus. It is a side view of a control apparatus. It is an enlarged front view of a control part. It is the VV sectional view taken on the line of FIG. It is a figure which shows the reinforcement member which connects one board | substrate mounting plate and the other board | substrate mounting plate. It is the VII-VII sectional view taken on the line of FIG. It is a figure which shows the control apparatus which concerns on the 2nd Embodiment of this invention. It is a figure which shows the reinforcement member which connects one board | substrate mounting plate and the other board | substrate mounting plate. It is the schematic diagram which looked at the conventional control apparatus from the front.

  Hereinafter, embodiments of the present invention will be described in detail with reference to FIGS. 1 to 9. 1 to 9, the same or corresponding components are denoted by the same reference numerals, and redundant description is omitted. FIG. 1 is a schematic diagram illustrating an overall configuration of a water supply device 2 including a control device 1 according to the first embodiment of the present invention. The water supply device 2 includes a pump unit 3 composed of a pump and a motor, and a control device 1 that controls the operation of the pump unit 3. A suction pipe 11 is connected to the suction side of the pump unit 3, and a pressure gauge 12 for measuring the suction side pressure is installed in the suction pipe 11. A discharge pipe 13 is connected to the discharge side of the pump unit 3, and a pressure gauge 14 for measuring the discharge side pressure is installed in the discharge pipe 13. Further, the discharge pipe 13 is provided with a flow switch 15 for detecting that the flow rate of water flowing out from the pump unit 3 has decreased to a predetermined value. In addition, although this embodiment has described about the direct connection water supply system with which the water supply apparatus 2 was directly connected to the water main which is not shown in figure, the water supply apparatus 2 is once supplied to the water receiving tank which is not shown in figure from the water main. The present invention can be similarly applied to a water receiving tank system to which is connected. In the case of the water receiving tank method, the pressure gauge 12 for measuring the suction side pressure is not used.

  FIG. 2 is a front view showing the internal arrangement of the control device 1, and FIG. 3 is a side view of the control device 1. The control device 1 includes an electric device unit 20 for supplying power to the motor of the pump unit 3 and a control unit 21 that controls the operation of the pump unit 3. The electric device unit 20 and the control unit 21 are accommodated in a housing (housing) 22. As shown in FIG. 3, the housing 22 is provided with a front door 23 that can be opened and closed. By opening the front door 23, an operator can visually observe the inside of the control device 1. One component can be accessed. The electrical equipment unit 20 includes a plurality of inverters 25 that convert power supplied from an external power source 4 such as a commercial power source into power of an arbitrary voltage and an arbitrary frequency, a plurality of DC reactors 26 that suppress harmonic currents, A plurality of earth leakage circuit breakers 27 are provided. Such a control device 1 is often called a control panel.

  The control unit 21 includes a control board 29 that functions as a main control board that controls all the inverters 25, and a control board 30 that functions as a backup control board that backs up the control board 29. In FIG. 2, the control boards 29 and 30 viewed from the side are drawn. In normal operation, the control board 29 controls the operation of all the inverters 25. When the control board 29 fails, the control board 30 backs up the control board 29, and the control board 30 controls the operation of all the inverters 25 in place of the failed control board 29. Note that which of the control board 29 and the control board 30 is to be used with priority can be arbitrarily set, and can be switched as necessary.

  The control unit 21 further includes power supply boards 31a and 31b for supplying power to the control board 29 and the control board 30, and a power breaker for cutting off power supplied from the power supply boards 31a and 31b to the control boards 29 and 30. 32 and a relay circuit 28 that electrically connects and disconnects various sensors such as the pressure gauges 12 and 14 and the flow switch 15 and the control boards 29 and 30. The power breaker 32 cuts off the power supplied to the control circuit 29, the power cutoff switch 32 a for cutting off the power supplied to the control board 30, and the power supplied to the relay circuit 28. And a power cutoff switch 32c. In this embodiment, the power supply boards 31a and 31b are provided separately from the control boards 29 and 30, but these power supply boards 31a and 31b may be provided integrally with the control boards 29 and 30, respectively.

  The control board 29 and the control board 30 are an I / O board (input / output) that inputs and outputs various signals such as an output signal of the pressure gauge 14 and a CPU board that performs an arithmetic control operation based on a program stored in a memory (not shown). Board). Substrates (for example, a CPU substrate, an I / O substrate, etc.) provided in the control substrate 29 and the control substrate 30 are stacked via intervening members (not shown) such as spacers. In the present embodiment, the control board 29 and the control board 30 have the same configuration.

  In the present embodiment, two control boards 29, 30 are installed in the control device 1, three power cut-off switches 32a, 32b, 32c are installed, and an inverter 25, a leakage breaker 27, and a DC reactor 26 are provided. Although three each are installed, the number of installation is not limited to this.

  The inverter 25 converts the power supplied from the external power source 4 to the control device 1 into power having an arbitrary voltage and arbitrary frequency, and supplies the power to the pump unit 3. Electric power from the external power source 4 is supplied to the electric device unit 20 and the control unit 21 via the small circuit breaker 35, respectively. Specifically, the electric power from the external power source 4 is supplied to the inverter 25 via the small circuit breaker 35, the noise filter (not shown), and the leakage breaker 27. In addition, power from the external power supply 4 is supplied to the power supply boards 31a and 31b via the small circuit breaker 35 and the power breaker 32, and power is supplied from the power supply boards 31a and 31b to the control board 29 and the control board 30, respectively. The

  The layout in the control device 1 will be described with reference to FIG. As shown in FIG. 2, the control board 29 and the control board 30 are arranged upright and arranged side by side in parallel with each other. That is, the control board 29 and the control board 30 are arranged parallel to each other with their electrical surfaces facing the horizontal direction. Here, the electrical surface is a surface on which the above-described CPU substrate and I / O substrate are arranged. The relay circuit 28 and the power breaker 32 are arranged above the control board 29 and the control board 30, that is, above the housing 22. Further, the horizontal direction is the horizontal direction when viewed from the front side of the housing 22 and is the width direction of the housing 22. In FIG. 2, the power supply board 31a, the control board 29, the power supply board 31b, and the control board 30 are alternately arranged in this order along the horizontal direction (that is, the width direction of the housing 22), but are not necessarily arranged alternately. It does not have to be. In order to reduce the overall height of the control unit 21, the control boards 29 and 30 and the power supply boards 31a and 31b are preferably arranged at the same height.

  The DC reactor 26 is disposed between the inverter 25 and the leakage breaker 27. That is, the inverter 25, the DC reactor 26, and the earth leakage breaker 27 are arranged in this order from the upper side to the lower side of the housing 22. Furthermore, the centers of the inverter 25, the DC reactor 26, and the earth leakage breaker 27 are arranged so as not to overlap each other in the height direction (that is, the vertical direction) of the housing 22. With such an arrangement, workability at the time of electrical wiring is improved, and work can be performed more safely.

  Since the control boards 29 and 30 and the power supply boards 31a and 31b are arranged along the horizontal direction, the width of the control section 21 is longer than that of the conventional control section 106 shown in FIG. Is arranged between the inverter 25 and the earth leakage breaker 27, the width of the electric device section 20 is shorter than that of the conventional electric device section 105. With this arrangement, the overall width of the control device 1 is the same as that of the conventional control device 100 shown in FIG. Therefore, the control device 1 can be replaced with the entire control device of the existing water supply device. Furthermore, by arranging the control boards 29 and 30 and the power supply boards 31a and 31b along the horizontal direction (that is, side by side), the height of the control device 1 can be made lower than that of the conventional control device 100. The entire control device 1 can be made compact. Although not shown, an AC reactor may be attached to the input side of the inverter 25 as a harmonic countermeasure. Also in this case, the AC reactor can be arranged in the same manner as the DC reactor 26.

  A specific arrangement of the control board 29 and the control board 30 will be described with reference to FIGS. 4 and 5. 4 is an enlarged front view of the control unit 21, and FIG. 5 is a cross-sectional view taken along the line VV of FIG. In the present embodiment, the control board 29 and the control board 30 have the same configuration, and the installation structure of the control board 29 and the control board 30 is the same, so only the control board 29 will be described. Note that the control board 30 that functions as a preliminary control board does not necessarily have the same configuration as the control board 29 as long as it has the minimum configuration necessary for controlling the inverter 25.

  As shown in FIGS. 4 and 5, the control board 29 is fixed to the board mounting plate 41A. The board mounting plate 41A includes a fixing part 41a that is fixed to the back surface 22a of the housing 22, a mounting part 41b to which the control board 29 is mounted, and a protruding part 41c that protrudes from the front end part of the mounting part 41b. The protruding portion 41c is parallel to the fixed portion 41a. The attachment portion 41b extends perpendicularly to the back surface 22a of the housing 22 and connects the fixed portion 41a and the protruding portion 41c.

  A plurality of (for example, four) spacers 42 are disposed between the control board 29 and the mounting portion 41b of the board mounting plate 41A, and the spacers 42 provide a space between the control board 29 and the board mounting plate 41A. Is formed. The control board 29 is detachably fixed to the spacer 42 by a fixture 40 such as a screw, bolt, or nut. The control board 29 is disposed in parallel with the mounting portion 41 b of the board mounting plate 41 </ b> A and is perpendicular to the back surface 22 a of the housing 22. In the example shown in FIGS. 4 and 5, the four corners of the control board 29 are fixed to the spacer 42 by the fixture 40. In this way, the control board 29 is attached to the board attachment plate 41A via the fixture 40 and the spacer 42.

  The control board 29 and the control board 30 are preferably arranged in the same direction. Since the control board 29 and the control board 30 have the same configuration, the control board 29 and the control board 30 are arranged in the same direction, so that the wiring terminals of both the control boards 29 and 30 are arranged. Facing the front makes wiring work easier. In the present embodiment, as shown in FIG. 2, the control board 29 and the control board 30 are arranged with their electrical surfaces facing the electric device section 20.

  The fixing portion 41a of the board mounting plate 41A is fixed to the back surface 22a of the housing 22 by fasteners 46, 46 such as screws. A washer 45 is disposed between the head 46a of the fastener 46 and the fixing portion 41a of the mounting plate 41A. As shown in FIG. 4, the two fasteners 46, 46 are fixed to the back surface 22 a of the housing 22 through through holes (not shown) formed in the upper and lower portions of the fixing portion 41 a of the board mounting plate 41 </ b> A. Yes. By fastening the fasteners 46, the board mounting plate 41 </ b> A is fixed to the back surface 22 a of the housing 22. Further, the board mounting plate 41 </ b> A can be removed from the housing 22 by loosening the fasteners 46.

  If the control board 29 does not operate normally due to some trouble (for example, malfunction or damage to parts due to deterioration over time), the backup function is activated and the control board 30 backs up the control board 29 and replaces the control board 29. The operation of all inverters 25 is controlled. Meanwhile, it is necessary to replace the failed control board 29 with a new control board. When removing the control board 29, the power supplied to the control board 29 is cut off by the power cut-off switch 32a. Next, the two fasteners 46, 46 fixed to the back surface 22 a of the housing 22 are loosened, the board mounting plate 41 </ b> A together with the control board 29 is taken out from the control device 1, and the failed control board 29 is replaced with a new control board. To do. In the present embodiment, since the control board 29 can be taken out from the control device 1 together with the board mounting plate 41A, the board mounting plate 41A to which the control board 29 is mounted is brought to a place where the working environment is good, and at that place. The failed control board 29 can be replaced with a new control board. Also, by preparing a board mounting plate on which a normal control board is mounted in advance, the replacement work of the control board in the field can be completed in a short time. Thereby, a control board can be replaced | exchanged easily and for a short time. Since the fasteners 46 and 46 are arranged facing the front of the housing 22, the fasteners 46 and 46 can be easily detached and fastened.

  Furthermore, in this embodiment, since the control board 29 and the control board 30 are arranged side by side, even if the fastener 46 is dropped, the fastener 46 does not come into contact with the control board 30. Therefore, it is possible to prevent the control board 30 from being damaged due to a short circuit.

  As shown in FIG. 6, it is preferable to provide a reinforcing member 50 that connects the first board mounting plate 41A to which the control board 29 is mounted and the second board mounting board 41B to which the control board 30 is mounted. The reinforcing member 50 is a member that extends between the substrate mounting plate 41A and the substrate mounting plate 41B. By providing such a reinforcing member 50, the mechanical strength of the board mounting plate 41 </ b> A and the board mounting plate 41 </ b> B is reinforced, and the control boards 29 and 30 can be prevented from being damaged during transportation of the control device 1. .

  The reinforcing member 50 includes a connecting portion 50a extending between the substrate mounting plate 41A and the substrate mounting plate 41B, and a fixed portion 50b fixed to the protruding portions 41c and 41c of the substrate mounting plates 41A and 41B. The fixing portion 50b is detachably fixed to the protruding portions 41c and 41c of the board mounting plates 41A and 41B by a fastener 51 such as a screw. In this way, the reinforcing member 50 connects the board mounting plate 41A and the board mounting plate 41B, and reinforces the board mounting plates 41A and 41B. In the present embodiment, the two reinforcing members 50 are attached to the upper and lower portions of the protruding portions 41c and 41c of the board mounting plates 41A and 41B, but the reinforcing member 50 is attached to the protruding portions 41c and 41B of the board mounting plates 41A and 41B. You may attach to either the upper part or the lower part of 41c.

  7 is a cross-sectional view taken along line VII-VII in FIG. The reinforcing member 50 is detachably fixed to the protrusions 41c and 41c of the board mounting plates 41A and 41B by a fastener 51. A washer 52 is disposed between the head 51 a of the fastener 51 and the reinforcing member 50. When removing the board mounting plate 41A, the reinforcing member 50 is removed from the board mounting plates 41A and 41B, and then the two fasteners 46 and 46 fixed to the back surface 22a of the housing 22 are removed, together with the control board 29. The board mounting plate 41A is taken out from the control device 1.

  FIG. 8 is a diagram showing a control device 1 according to the second embodiment of the present invention. Since the configuration and operation of this embodiment that are not specifically described are the same as those of the first embodiment described above, redundant description thereof is omitted. In the present embodiment, the electric device section 20 is provided with six inverters 25, earth leakage breakers 27, and six DC reactors 26, respectively. The control unit 21 controls the control board 29 and the control board 66 functioning as a main control board for controlling the operation of all the inverters 25, and the control board 30 and the control board as backup control boards for backing up the control board 29 and the control board 66, respectively. And a substrate 71.

  The control board 29 controls the operation of the inverters 25a, 25b, and 25c, and the control board 66 controls the operation of the inverters 25d, 25e, and 25f. When the control board 29 and / or the control board 66 does not operate normally, the control board 30 and the control board 71 back up the control board 29 and the control board 66, respectively, and instead of the control boards 29 and 66, all the inverters 25a to 25a. The operation of 25f is controlled. In the backup operation, the control board 30 controls the operation of the inverters 25a, 25b, and 25c, and the control board 71 controls the operation of the inverters 25d, 25e, and 25f.

  As shown in FIG. 8, the control board 29 and the control board 66 are fixed to the mounting portion 41 b of the first board mounting plate 41 </ b> A via the fastener 40 and the spacer 42. The control board 66 is disposed immediately above the control board 29, and the control boards 29 and 66 are arranged on the same plane along the vertical direction. Similarly, the control board 30 and the control board 71 are fixed to the mounting portion 41b of the second board mounting plate 41B via the fastener 40 and the spacer 42. The control board 71 is disposed immediately above the control board 30, and the control boards 30 and 71 are arranged on the same plane along the vertical direction.

  The board mounting plate 41A and the board mounting plate 41B have substantially the same shape as that shown in FIG. That is, the board mounting plate 41A and the board mounting plate 41B are fixed to the back surface 22a of the housing 22 by the fasteners 46 and 46, respectively. The control boards 29 and 66 are arranged in parallel with the attachment part 41b of the board attachment plate 41A, and the control boards 30 and 71 are arranged in parallel with the attachment part 41b of the board attachment plate 41B.

  The control boards 29 and 66 and the control boards 30 and 71 are arranged side by side and are parallel to each other. That is, the electrical surface of the control boards 29 and 66 and the electrical surface of the control boards 30 and 71 are aligned in the horizontal direction and parallel to each other. The control boards 29 and 66 and the control boards 30 and 71 are preferably arranged in the same direction. Thereby, the wiring terminals of all the control boards face the front, and the wiring work becomes easy. In the present embodiment, as shown in FIG. 8, the control boards 29 and 66 and the control boards 30 and 71 are arranged with their electrical surfaces facing the electrical device section 20.

  Since the control board 29 and the control board 66 are attached to the board mounting plate 41A in the present embodiment, the control board 29 and the control board 66 together with the board mounting plate 41A can be removed from the control device 1 simply by removing the fasteners 46, 46. It can be taken out. As a result, the control board can be easily replaced, and the control board can be replaced in a short time.

  In the first embodiment, one control board 29 is attached to the first board attachment plate 41A, and one control board 30 is attached to the second board attachment plate 41B. In the second embodiment, Two control boards 29 and 66 are attached to the first board attachment plate 41A, and two control boards 30 and 71 are attached to the second board attachment plate 41B. Thus, as the number of inverters 25 increases, more control boards can be provided on the board mounting plates 41A and 41B, respectively. That is, at least one main control board is attached to the first board attachment plate 41A, and at least one preliminary control board is attached to the second board attachment plate 41B.

  FIG. 9 is a view showing a reinforcing member 50 that connects the board mounting plate 41A and the board mounting plate 41B. Also in the present embodiment, it is preferable to provide a reinforcing member 50 that connects the substrate mounting plate 41A and the substrate mounting plate 41B. By providing such a reinforcing member 50, the mechanical strength of the board mounting plate 41 </ b> A and the board mounting plate 41 </ b> B is reinforced, and the control boards 29, 66, 30, 71 are prevented from being damaged when the control device 1 is transported. can do.

  Although embodiment mentioned above is an example which provided the control apparatus of this invention to the water supply apparatus, the control apparatus (control panel) which concerns on this invention is applied also to electrical apparatuses other than a water supply apparatus, for example, an air conditioner and an illuminating device. Is possible.

  Although the embodiments of the present invention have been described so far, it is needless to say that the present invention is not limited to the above-described embodiments and may be implemented in various forms within the scope of the technical idea.

1 Control device (control panel)
DESCRIPTION OF SYMBOLS 2 Water supply apparatus 3 Pump unit 4 External power supply 11 Suction pipe 12, 14 Pressure gauge 13 Discharge pipe 15 Flow switch 20 Electric equipment part 21 Control part 22 Housing (housing)
23 Front door 25 Inverter 26 DC reactor 27 Leakage breaker 28 Relay circuit 29 Main control board 30 Preliminary control board 31a, 31b Power supply board 32 Power breaker 32a, 32b, 32c Power cut-off switch 35, 109 Small breaker 40 Fixing tool 41A , 41B Board mounting plate 42 Spacer 46, 51 Fastener 50 Reinforcing member 45, 52 Washer 66 Main control board 71 Preliminary control board

Claims (11)

A housing;
A plurality of control boards disposed in the housing;
A plurality of board mounting plates to which the plurality of control boards are respectively attached;
The plurality of control boards are arranged upright and arranged side by side in parallel with each other ,
Each of the plurality of control boards is attached to the board mounting plate via a spacer,
The control device, wherein the plurality of control boards are arranged in the same direction . The control device according to claim 1, wherein the plurality of board mounting plates are detachably fixed to the housing. Control device according to claim 1 or 2, further comprising a reinforcing member for reinforcing the substrate mounting plate of said plurality of linked together the plurality of substrate mounting plate. At least one inverter;
At least one DC reactor disposed below the inverter;
The control device according to any one of claims 1 to 3 , further comprising at least one earth leakage circuit breaker disposed below the DC reactor. The control device according to claim 4 , wherein the centers of the inverter, the DC reactor, and the earth leakage breaker are arranged so as not to overlap in the vertical direction. The inverter control device according to claim 4 or 5, characterized in that a plurality. Control device according to any one of claims 1 to 6, further comprising a plurality of power cut-off switch for interrupting the power supplied to the plurality of control substrates. The housing, the control device according to any one of claims 1 to 7, characterized in that the openable front door is provided.   The plurality of control boards are attached to the board mounting plate via the spacers so that a space is formed between the control board and the board mounting plate. The control device according to claim 8.   An electrical device portion is accommodated in the housing,
  The control device according to any one of claims 1 to 9, wherein the plurality of control boards are arranged such that an electrical surface thereof faces the electric device unit. A pump unit having a pump and a motor;
The water supply apparatus provided with the control apparatus as described in any one of Claims 1 thru | or 10 which controls the driving | operation of the said pump unit.

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