JP2004022654A - Control panel for pump - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a control panel for a pump which can cool control apparatuses accommodated in a tightly sealed space at a temperature equal to or lower than an allowable temperature without touching open air. <P>SOLUTION: A structure is adopted wherein an air conditioner 15 is arranged in a tightly sealed type cabinet 1 in which the control apparatuses 8a-8d like inverters accompanied by heat generation are accommodated, an apparatus accommodating space 3 for accommodating the control apparatuses 8a-8d is cooled at a temperature equal to or lower than an allowable temperature of the control apparatuses 8a-8c. As a result, the control apparatuses 8a-8c are cooled forcedly at a temperature equal to or lower than the allowable temperature without touching open air. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a pump control panel used for controlling pump operation.
[0002]
[Prior art]
In an automatic water supply system, pumping of seawater using a motor-driven pump is being studied.
[0003]
In this automatic water supply system, a control panel for controlling the operation of the pump is installed outdoors. Normally, the control panel accommodates a power supply unit of the pump in a housing. In addition, many electric and electronic control devices such as an inverter connected to a pump motor and a control unit for controlling the inverter according to a pumping load are housed in the housing as control devices.
[0004]
It is desirable that the control panel used in such a salt-affected area does not allow the control devices housed therein to touch the outside air. For this reason, a structure has been studied for the control panel that seals the internal space in which the control device fits.
[0005]
[Problems to be solved by the invention]
By the way, a control panel for controlling the operation of the pump contains equipment that generates heat. In particular, the inverter generates a larger amount of heat than other electric or electronic devices.
[0006]
For this reason, the control panel is required to maintain a control device such as an inverter at a temperature at which normal operation is ensured, that is, at a temperature equal to or lower than an allowable temperature.
[0007]
However, a closed control panel cannot be expected to be naturally cooled by outside air. For this reason, there is a demand for a control panel in which the control device can operate stably in a closed environment.
[0008]
Therefore, the present invention provides a pump control panel that can cool a control device housed in a closed space without contacting outside air to a temperature equal to or lower than an allowable temperature value.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, according to the first aspect of the present invention, a cooler is provided in a closed cabinet containing a control device that generates heat, and a device housing space containing the control device is set to a temperature not more than an allowable temperature value of the control device. I did it.
[0010]
Thus, the control device in the closed space can be forcibly cooled to a temperature equal to or lower than the allowable temperature value without touching the outside air.
[0011]
In addition to the above objects, the invention according to claim 2 has a front surface opening in the closed cabinet so that it is possible to quickly respond to changes in the control panel, and to facilitate maintenance work such as inspection of a cooler. The closed type cabinet has a device housing space inside, and a structure having a cabinet main body in which a control device is housed, and a door closing a front opening of the cabinet main body. A cooler is provided on the door.
[0012]
In the invention according to claim 3, the cooler is provided with a cool air outlet and a cold inlet at the front, and a cold wind outlet and a cold inlet at the front so that the installed cooler does not uselessly occupy the equipment housing space. The housing has a housing fixed to the inside of the door body so that the rear portion protrudes from the outside surface of the door body. A refrigeration cycle device for cooling by heat exchange is provided, and a main body unit including a blower fan for blowing air cooled by an evaporator from a cool air outlet to a device housing space and a temperature of the device housing space are detected. A temperature sensor and a control unit provided in the housing and controlling the operation of the refrigeration cycle device so that the temperature of the device housing space becomes equal to or lower than the allowable temperature value of the control device according to the temperature detected by the temperature sensor. It was adopted formed.
[0013]
In the invention described in claim 4, the door body has a visual recognition part for visually recognizing the operation status of the pump on the outer surface so that the operation status of the pump and the operation status of the cooler can be confirmed from the same direction. The cooler is provided with a cool air outlet and an internal suction port on the front surface, and has a cool air outlet on the front surface and an internal suction hole facing the inner surface of the door body, and is fixed so that a rear portion protrudes from the outer surface of the door body. A refrigeration cycle device that cools the air in the equipment housing space sucked from the suction port in the refrigerator by heat exchange with the evaporator, and cools the air cooled by the evaporator into a cool air outlet. A main body configured by providing a blower fan that can blow air from the device housing space, a temperature sensor for detecting the temperature of the device housing space, and a temperature of the device housing space according to the temperature detected by the temperature sensor provided in the housing. Control A control unit that controls the operation of the refrigeration cycle device so as to be equal to or lower than the allowable temperature value of the device, and a display unit that is provided on the wall surface of the housing and faces the same direction as the outer surface of the door body and that displays the operation status of the cooler. The adopted configuration was adopted.
[0014]
The invention according to claim 5 adopts a configuration in which the main body of the cooler is provided at the front center of the door so that the control device in the device housing space is cooled more efficiently.
[0015]
In the invention according to claim 6, the door body is configured by combining a plurality of small door bodies so that the load of the cooler on the door body is further suppressed, and the main body of the cooler is a cabinet main body of the small door bodies. It is configured to be provided on the outer surface of the small door body arranged at the center.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described based on a first embodiment shown in FIGS.
[0017]
1A is a front view of a pump control panel of an automatic water supply system installed in, for example, a salt-affected area, FIG. 1B is a side cross-sectional view of a part of the control panel, and FIG. The respective front views are shown.
[0018]
In the figure, reference numeral 1 denotes a closed cabinet (hereinafter simply referred to as a cabinet) of a control panel. The cabinet 1 has, for example, a cabinet body 2 composed of a rectangular box whose front surface is open and whose periphery is covered with a rectangular wall. The entire internal space of the cabinet main body 2 is a device housing space 3. A horizontally opening door 4 that opens and closes the opening is provided in a front opening 2 a of the cabinet body 2. The door body 4 has, for example, a structure in which small door bodies 4a to 4c (here, divided into three pieces) of a horizontal opening type, which are divided into right, left, and center parts, are employed. A sealing member (not shown) is provided on the inner surface of the edge of each of the small doors 4 a to 4 c to be in contact with and seal with the opening edge of the cabinet body 2. Further, for example, a seal member (not shown) for sealing between the adjacent small door bodies 4b is provided on the side of the small door bodies 4a and 4c. Therefore, the combination of the small doors 4a to 4c and the cabinet body 2 constitutes the cabinet 1 in which the periphery of the device housing space 3 is sealed. The cabinet body 2 and the small doors 4a to 4c are locked to the small doors 4a to 4c, for example, by operating the rotary knobs 5a to 5c attached to the small doors 4a to 4c, respectively. A lock mechanism (not shown) for unlocking is provided.
[0019]
Various control devices for controlling the operation of the electric pump of the automatic water supply system are housed in the device housing space 3. For example, as shown in FIG. 2, a power supply unit 7 for supplying power to a motor for driving the pump is housed on the entire right side of the cabinet body 2. A plurality of inverters 8a to 8d connected to a motor for driving the pump are stored in the upper left portion of the cabinet body 2. On the lower left middle stage, there are accommodated various relay devices 9 for controlling the operation of the pump and a substrate unit 10 on which various electronic devices are mounted.
[0020]
Among the small doors 4a to 4c, a window 11 is provided at the upper stage of the small door arranged on the end side, for example, the small door 4c on the left side. A plate-shaped display unit 12 is provided inside the window 11. The opening of the window 11 is closed by the display unit 12. A pump display unit 13 (corresponding to a viewing unit) for visually checking the status of various control devices is provided on a wall surface facing the window unit 11 of the display unit 12. The display unit 13 includes, for example, a meter 13a and an indicator light 13b. Thus, the operation state of the pump can be visually recognized from the outside through the window 11.
[0021]
On the other hand, a cooler 15 is provided on the small door body 4b which is located at the center of the cabinet body 2 among the small door bodies 4a to 4c corresponding to the center of the door body 4.
[0022]
Describing the cooler 15, the cooler 15 has a main body 16 in which the refrigeration cycle equipment is accommodated as shown in FIGS. 1 (b) and 3. The outer shell of the main body 16 is formed by a housing 14 fixed to the center of the outer surface of the small door body 4b. For example, the housing 14 has an outlet 17 (corresponding to an outlet in the refrigerator) on the right front side, a suction port 18 (corresponding to an inlet in the refrigerator) on the left front side, and the other surface is covered with a wall surface. It is shaped like a vertically elongated box. The front portion of the housing 14 is fixed so that the outlet 17 and the inlet 18 open with the inner surface of the small door body 4b. The rear part protrudes from the outer surface of the small door body 4b. That is, the housing 14 is installed on the small door body 4 b so as not to protrude into the cabinet body 2.
[0023]
The inside of the housing 14 is partitioned by a partition plate 19 into two spaces in the front-back (depth) direction. An evaporator 20 is provided in the partitioned front space, for example, facing the suction port 18 as shown in FIGS. 1B and 3. Further, a blower fan, for example, a cross flow fan 21 is provided to face the air outlet 17. Incidentally, 21a indicates a fan motor. By installing these devices, a flow path 22 that connects the air outlet 17 and the suction port 18 is formed in the divided front space. Thereby, when the cross flow fan 21 is operated, the air in the equipment housing space 3 is sucked in from the suction port 18, and then becomes a cool air by heat exchange with the evaporator 20, and from the outlet 17 to the equipment housing space 3. They are blown out.
[0024]
The divided rear space is vertically divided by, for example, a partition plate 25. For example, an upper space partitioned by the partition plate 25 is defined as an equipment room 26. The lower space is a heat exchange chamber. For example, on the rear side of the heat exchange chamber, an air outlet 27 and an air inlet 28 are formed on the left and right as shown in FIG. The condenser 29 is provided in the heat exchange chamber, for example, facing the suction port 28. Behind the condenser 29, a cooling fan, for example, a sirocco fan 30 is provided. Further, the partition 29 is partitioned between the condenser 29 and the outlet 27. Thus, a flow path 32 that connects the blowout port 27 and the suction port 28 is formed in the heat exchange chamber. Then, when the sirocco fan 30 is operated, outside air is sucked from the suction port 28, and thereafter, heat exchanges with the condenser 29, and the air after the heat exchange is blown into the atmosphere.
[0025]
The equipment room 26 is provided with, for example, a motor-driven compressor 33 and an expansion valve 34 (both are only shown in FIG. 1B). The compressor 33 is connected to a condenser 29, an expansion valve 34, and the evaporator 20 sequentially through a refrigerant pipe (not shown). By connecting the refrigeration cycle equipment, a refrigeration cycle device 35 capable of performing a cooling operation in the housing 14 is configured. When the compressor 33 is operated by the refrigeration cycle device 35, the refrigerant is condensed by the condenser 29, the refrigerant is depressurized by the expansion valve 34, and the refrigerant is evaporated by the evaporator 20 (refrigeration cycle operation). That is, the air in the equipment housing space 3 is forcibly cooled by the heat exchange of the evaporator 20.
[0026]
In the equipment room 26, a control unit 36 connected to a motor (not shown) of the compressor 33 is provided [only FIG. 1 (b) is shown]. The controller 36 is connected to, for example, a temperature sensor 37 attached to the lower part of the equipment storage space 3. The temperature sensor 37 detects the temperature inside the refrigerator, that is, the temperature of the sealed device housing space 3. The control unit 36 is configured by, for example, a microcomputer. In the control unit 36, a threshold value is set which is corrected to an allowable temperature value that can guarantee stable operation of the control devices such as the inverters 8a to 8d housed in the device housing space 3, for example. Further, the control unit 36 compares the threshold value based on the allowable temperature value with the temperature value detected by the temperature sensor 37 so that the temperature of the device housing space 3 at which the control device becomes equal to or lower than the allowable temperature value is adjusted. Control contents for controlling the operation of the refrigeration cycle device are set.
[0027]
That is, the cooler 15 is configured by combining the main body 16, the control unit 36, the temperature sensor 37, and the like. The operation of the cooler 15 is started, for example, when the control panel 36 operates. Note that a cooler display section 40 for notifying the operating state of the cooler 15 is provided in a part of the cabinet body 2. However, for the display unit 40, for example, an indicator light or the like is used.
[0028]
When the control panel controls the pump of the automatic water supply system, the cooler 15 attached to the control panel also operates.
[0029]
Then, the operation of the cooler 15, that is, the refrigeration cycle operation of the refrigeration cycle device 35 (the refrigerant is condensed by the condenser 29, the refrigerant is depressurized by the expansion valve 34, and the refrigerant is evaporated by the evaporator 20, is stored in the equipment housing space 3 of the cabinet 1. Operation), the cool air is blown out from the outlet 17. By this blowing, the device housing space 3 is forcibly cooled. Then, the temperature of the device housing space 3 is maintained at a temperature at which the temperature of the control device becomes equal to or lower than the allowable temperature value by the refrigeration cycle operation performed under the monitoring of the temperature sensor 37. Thus, even a control device such as the inverters 8a to 8d that generates a large amount of heat is always kept at a temperature equal to or lower than the allowable temperature value.
[0030]
Therefore, various control devices can be forcibly cooled to a temperature equal to or lower than the allowable temperature value without taking in outside air, and stable and reliable pump control can be promised in a closed environment.
[0031]
Moreover, since the cooler 15 is provided on the door body 4, it can be attached to various control panels simply by replacing the door body 4. For this reason, the cooler 15 can be installed quickly in response to a change in the control panel. In addition, maintenance work such as replacement work and inspection work of the cooler 15 can be easily performed.
[0032]
In addition, the cooler 15 is mounted with the outlet 17 and the suction port 18 opened in the inner surface of the door body 4 and the rear portion is mounted so as to protrude from the outer surface of the door body 4. Thus, each part of the cabinet body 2 of the control panel is not changed.
[0033]
In addition, since the cooler 15 is disposed at the front center of the door body 15, various control devices attached to the cabinet body 2 are forcibly cooled by cool air from the front center of the cabinet body 2 and can be efficiently cooled.
[0034]
In addition, since the cooler 15 is attached to the outer surface of the small door body 15b arranged at the center of the cabinet body 2 among the small door bodies 15a to 15c reduced by division, the vertical direction applied to the door body is increased. The moment can be small, the load on the door of the cooler 15 can be kept small, and good opening and closing movement of the door can be guaranteed.
[0035]
FIG. 4 shows a second embodiment of the present invention.
[0036]
In the present embodiment, the operating status of the cooler 15 is displayed on the wall surface of the casing 14 of the cooler 15 that faces in the same direction as the outer surface of the small door body 4c provided with the window 11, here, the back of the casing 14. This is provided with a display unit 40 for a cooler.
[0037]
In this way, both the operation state of the pump and the operation state of the cooler can be easily confirmed when the window 11 and the cooler display 40 are viewed from the same direction such as the front of the cabinet 1.
[0038]
FIG. 5 shows a third embodiment of the present invention.
[0039]
In the present embodiment, a cabinet body 1 employing a single door body 4 is employed, and a cooler 15 is provided on a central outer surface of the door body 4.
[0040]
Even in this case, the same effect as in the first embodiment can be obtained.
[0041]
However, in FIGS. 4 and 5, the same parts as those in the first embodiment are denoted by the same reference numerals, and the description thereof is omitted.
[0042]
The present invention is not limited to the above-described first to third embodiments, and may be variously modified and implemented without departing from the gist of the present invention. For example, in the above-described embodiment, the structure of the main body portion is used, in which the front and rear portions are divided into the inside and outside of the refrigerator.
[0043]
【The invention's effect】
As described above, according to the first aspect of the present invention, it is possible to forcibly cool a control device with heat generation, which is contained in a closed space, to a temperature equal to or lower than an allowable temperature value without taking in outside air. , The operation of the pump can be controlled stably and with high reliability.
[0044]
According to the second aspect of the present invention, since the cooler is attached to the door, various coolers can be attached to the various control panels simply by replacing the door. Therefore, it is possible to quickly respond to a change in the control panel. In addition, there is an advantage that maintenance work such as cooler replacement work and inspection work can be easily performed.
[0045]
According to the third aspect of the present invention, the cooler is mounted with the outlet and the suction opening opened on the inner surface of the door body and the rear portion is mounted so as to project from the outer surface of the door body. There is no need to worry about changing each part of the cabinet body of the control panel.
[0046]
According to the invention of claim 4, there is an advantage that the operation state of the pump and the operation state of the cooler can be easily confirmed from the same direction, and both operations can be easily grasped.
[0047]
According to the fifth aspect of the invention, since the cooler is disposed at the front center of the door body, various control devices are forcibly cooled from the front center of the cabinet main body, and there is an advantage that the control devices can be efficiently cooled.
[0048]
According to the invention of claim 6, there is an advantage that the vertical moment of the door caused by the load load of the cooler can be further reduced, and a favorable opening and closing movement of the door can be guaranteed.
[Brief description of the drawings]
FIG. 1A is a front view of a pump control panel according to a first embodiment of the present invention.
(B) is the side view which sectioned a part of the control panel.
FIG. 2 is a front view showing the inside of the cabinet body when the door is removed.
FIG. 3 is a cross-sectional view of the cooler along the line AA in FIG. 1 (b).
FIG. 4 is a front view of a pump control panel according to a second embodiment of the present invention.
FIG. 5 is a front view of a pump control panel according to a third embodiment of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Enclosed cabinet 2 ... Cabinet main body 3 ... Equipment accommodating space 4 ... Doors 4a-4c ... Small doors 8a-8c ... Inverter (control apparatus with heat generation)
13 display unit 14 housing 15 cooler 16 body unit 17 outlet 18 inlet 20 evaporator 21 cross flow fan (blowing fan)
35 Refrigeration cycle device 36 Control part 37 Temperature sensor 40 Display part.

Claims (6)

A closed cabinet having therein a sealed equipment housing space, and in which the control equipment with heat generation for controlling the operation of the pump is housed,
A control panel for a pump, comprising: a cooler provided in the closed cabinet and configured to cool the control device to a temperature equal to or lower than an allowable temperature value. The closed cabinet has an opening at the front surface, the interior of the cabinet having the equipment housing space therein, and the equipment housing equipment having the control device housed therein, and a door closing the front opening of the cabinet body. And having
The pump control panel according to claim 1, wherein the cooler is provided on the door body. The cooler is provided with a cool air outlet and an internal suction port on a front surface thereof, and has a cold air outlet and an internal suction hole on the front surface opened to an inner surface of the door body, and is fixed so that a rear portion protrudes from an outer surface of the door body. A refrigeration cycle device that cools the air in the equipment housing space sucked from the suction port in the refrigerator by heat exchange with an evaporator, and the air cooled by the evaporator. A main unit configured to include a blower fan that can blow out the cold air outlet into the device housing space,
A temperature sensor for detecting a temperature of the device housing space,
A control unit that is provided in the housing and controls an operation of the refrigeration cycle device so that a temperature of the device housing space is equal to or lower than an allowable temperature value of the control device according to a temperature detected by the temperature sensor. The control panel for a pump according to claim 2, wherein the control panel is configured by: The door body has a visual recognition unit for visually recognizing the operation state of the pump on the outer surface,
The cooler is provided with a cool air outlet and an internal suction port on a front surface thereof, and has a cold air outlet and an internal suction hole on the front surface opened to an inner surface of the door body, and is fixed so that a rear portion protrudes from an outer surface of the door body. A refrigeration cycle device that cools the air in the equipment housing space sucked from the suction port in the refrigerator by heat exchange with an evaporator, and the air cooled by the evaporator. A main unit configured to include a blower fan that can blow out the cold air outlet into the device housing space,
A temperature sensor for detecting a temperature of the device housing space,
A control unit that is provided in the housing and controls the operation of the refrigeration cycle device so that the temperature of the device housing space is equal to or lower than the allowable temperature value of the control device according to the temperature detected by the temperature sensor.
The pump according to claim 2, further comprising: a display unit that is provided on a wall surface of the housing facing the same direction as an outer surface of the door body and that displays an operation state of the cooler. control panel. The pump control panel according to claim 3, wherein the main body of the cooler is provided at a front center of the door body. The door body is configured by combining a plurality of small door bodies, and a main body portion of the cooler is provided on an outer surface of a small door body disposed at the center of the cabinet body among the small door bodies. The pump control panel according to claim 5.

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