JP2019152387A - Water-cooled heat exchanger - Google Patents

Abstract

To provide a water-cooled heat exchanger from which a solenoid valve can be readily removed at replacement or cleaning.SOLUTION: A water-cooled heat exchanger 1 includes: a radiator 12 disposed inside a housing 11; a piping part 13 for introducing cooling water for cooling the radiator; and a solenoid valve 14 connected to the piping part outside the housing. A cover 15 for the solenoid valve is separable from the housing 11 of the heat exchanger 1, whereby the solenoid valve can be removed outside the housing; thus, replacement and cleaning are performed easier than before.SELECTED DRAWING: Figure 5

Description

  The present invention relates to a water-cooled heat exchanger.

  As described in Patent Document 1, a water-cooled heat exchanger that is a heat exchanger using water is known. The water-cooled heat exchanger described in Patent Literature 1 includes a radiator, a piping unit to which the radiator is connected, and an electromagnetic valve in a housing.

JP 2005-127568 A

  By the way, it is necessary to perform exchange and cleaning about the solenoid valve used for this heat exchanger in the environment where water quality is bad. However, when the solenoid valve is arranged in the housing, replacement work or the like is difficult.

  The inventor of the present case tried to solve the problem by diligently examining this point. An object of the present invention is to facilitate removal of a solenoid valve used in a water-cooled heat exchanger.

  In order to solve the above problems, a radiator disposed in a housing, a piping portion for introducing cooling water to cool the radiator, and an electromagnetic valve connected outside the piping portion and the housing, A water-cooled heat exchanger is provided.

  In addition, it is preferable that a cover that covers the solenoid valve is provided so as to be separable from the housing.

  Moreover, it is preferable to make it the structure which equipped the solenoid valve with the cover attachment part used in the case of attachment of a cover.

  Moreover, it is preferable that the housing includes an input / output line part for inputting / outputting a power cord of the solenoid valve, and the cover is covered with the cover.

  Moreover, it is preferable to set it as the structure provided with the check valve connected outside the housing | casing and the waste_water | drain part which drains the cooling water introduced into the radiator.

  In the present invention, it becomes easy to remove the electromagnetic valve used in the water-cooled heat exchanger, and it becomes possible to easily replace and clean the electromagnetic valve.

It is the perspective view which looked at the state which attached the water-cooling type heat exchanger in embodiment to the electric equipment storage box from the front upper direction. It is the perspective view which looked at the water cooling type heat exchanger in embodiment from the back. It is the perspective view which looked at the water cooling type heat exchanger in an embodiment from the front lower part. It is the perspective view which looked at the water cooling type heat exchanger in an embodiment from the front lower part. However, the cover is omitted. It is a disassembled perspective view of the water cooling type heat exchanger in an embodiment. It is an enlarged view of the lower part of the water cooling type heat exchanger in embodiment. However, the lid and the cover are omitted. It is a perspective view of the water cooling type heat exchanger with which the cover which covers a drain pipe etc. was attached. It is a block diagram showing the state where the solenoid valve is not electrically connected to the substrate. It is a block diagram showing the state by which the solenoid valve was electrically connected with respect to the board | substrate.

  The form for implementing this invention is shown below. As understood from FIGS. 1 to 5, the water-cooled heat exchanger 1 of the present embodiment includes a radiator 12 disposed in the casing 11 and a cooling unit for cooling the radiator 12. It is set as the structure provided with the piping part 13 which introduces water, and the solenoid valve 14 connected outside the said piping part 13 and the housing | casing 11. FIG. For this reason, it is possible to easily remove the electromagnetic valve 14 used in the water-cooled heat exchanger 1. In addition, the size of the housing 11 can be suppressed. Even when heat is generated in the electromagnetic valve 14, the inside of the housing 11 is hardly heated.

  The water-cooled heat exchanger 1 of the embodiment is installed outside the electric equipment storage box 10 and is used to cool hot air in the electric equipment storage box 10. The water-cooled heat exchanger 1 includes a housing 11 having an outer shape formed by a main body 31 and a lid 32 that covers the front side of the main body 31. In addition, air is cooled by using a radiator 12 installed inside the housing 11. The lid portion 32 is fixed by screws using an attachment hole 38 formed outside the opening 39 of the main body portion 31.

  This water-cooled heat exchanger 1 is used as follows. First, hot air is introduced into the housing 11 from the air inlet 34 using the fan 33. The introduced hot air is brought into contact with the radiator 12 and cooled. Then, it returns to the space where the electric equipment is arrange | positioned from the exhaust port 35 provided in the lower part of the housing | casing 11. FIG. In addition, when water leaks from the radiator 12, a water shielding plate 61 is formed at the exhaust port 35 so that the accumulated water does not enter the electric device storage box 10. The water shielding plate 61 is fixed to the main body 31 of the water-cooled heat exchanger 1.

  The water-cooled heat exchanger 1 according to the embodiment includes a pipe portion 13 used for introducing cooling water. More specifically, the water-cooled heat exchanger 1 is configured as follows. The cooling water introduction port and the cooling water discharge port provided in the radiator 12 are connected to the pipe portions 13 respectively. Cooling water that has passed through the piping 13 connected to the cooling water inlet side of the radiator 12 is guided to the radiator 12. The cooling water passes through the radiator 12 and is then discharged through the piping portion 13 (drainage portion 37) connected to the cooling water discharge port side. By setting it as such a structure, the heat of the radiator 12 warmed by the hot air is taken away. As a result, the radiator 12 can effectively cool the hot air.

  The piping part 13 includes a connection part 16 fixed to the housing 11. An electromagnetic valve 14 is connected to the connection portion 16 outside the housing 11. For this reason, it becomes the structure where the solenoid valve 14 for cooling water is not arrange | positioned inside the housing | casing 11. FIG. Therefore, the space for bending the pipe portion 13 can be widened inside the housing 11. Moreover, the connection part 16 of embodiment is comprised by the joint member which can connect the piping part 13 and the valve part 41 of the solenoid valve 14 by insertion. For this reason, tightening is also unnecessary for fixing the piping part 13 and the electromagnetic valve 14 through which the cooling water passes. Therefore, it is possible to prevent parts such as the piping portion 13 and the valve portion 41 from being excessively deformed due to excessive tightening.

  The electromagnetic valve 14 according to the embodiment includes a valve part 41 and an electromagnetic part 42. The solenoid valve 14 is connected to the water supply side of the radiator 12. The electromagnetic valve 14 is opened when new cooling water is introduced into the radiator 12. The solenoid valve 14 is closed when the radiator 12 is inspected or when no new cooling water is introduced, such as when the radiator 12 is abnormal. The valve part 41 of the electromagnetic valve 14 is preferably arranged so that water can flow by gravity. In this case, it is possible to make it difficult to collect dust or the like in the valve portion 41. The electromagnetic valve 14 may be connected to the drain side.

  The valve portion 41 includes a cover attachment portion 43 that is used when attaching the cover 15 that covers the electromagnetic valve 14. The cover 15 is provided so as to be separable from the lid portion 32 of the housing 11. By adopting such a configuration, the cover 15 can be attached without the need to make a hole in the main body portion 31 and the joint member is covered. As can be understood from FIG. 6, the cover attachment portion 43 of the embodiment is a hole provided in the valve portion 41. The cover attaching portion 43 can be inserted with a screw when the cover 15 is attached. The cover attaching portion 43 can also be provided on the electromagnetic portion 42. In addition, the cover 15 of the embodiment is configured to cover the electromagnetic valve 14 from three directions. This is because the attachment and detachment is easy and the ease of maintenance of the electromagnetic valve 14 is not impaired.

  The cover 15 is formed with a notch 71 so that a part of the connecting portion 16 is exposed. The cutout portion 71 of the cover 15 is disposed so as to be engageable with the connection portion 16. With such a configuration, the rotation of the cover 15 is suppressed, so that the screws used for fixing the cover 15 can be reduced.

  A check valve 17 is provided on the side of the drainage portion 37 where the cooling water introduced into the radiator 12 is drained to suppress the backflow of the cooling water. The check valve 17 is configured to automatically close the valve when water pressure or the like is applied so that water flows in a direction opposite to the normal direction. In the embodiment, the check valve 17 is also configured to be located outside the housing 11. That is, the check valve 17 is connected to the drainage part 37 outside the housing 11. Therefore, the check valve 17 can be cleaned and replaced relatively easily.

  Note that the cover 15 may cover the check valve 17 and the drain pipe 36, as can be understood from FIG. 4 and FIG. The cover 15 shown in FIGS. 1 to 3, 5, and 7 covers the electromagnetic valve 14 and the connection portion 16, and when cooling water is ejected from the connection location of the electromagnetic valve 14 and the connection portion 16, Cooling water can be prevented from scattering over a wide area.

  The cover 15 may be attached to the housing 11. For example, it can be attached to the main body 31 of the housing 11. When attaching to the main body 31, the cover 15 is preferably fixed using an attachment hole 38 formed outside the opening 39 of the main body 31. If it does in this way, even if the screw of cover 15 loosens, it can control that water penetrates the inside of case 11.

  Although the electromagnetic valve 14 is outside the housing 11, the power cord 59 necessary for the operation of the electromagnetic valve 14 can be extended from the inside of the housing 11. If the input / output line portion 18 for entering / exiting the power cord 59 is also covered with the cover 15, the appearance can be improved. In the embodiment, the power cord 59 is also covered with the cover 15. Moreover, in embodiment, the incoming / outgoing line part 18 is arrange | positioned in the depth direction of the connection part 16 by the side of water supply. For this reason, when the solenoid valve 14 is cleaned, it is suppressed that the incoming / outgoing line part 18 becomes obstruction.

  By the way, since the electromagnetic valve 14 is installed outside the housing 11, there is a possibility that the electromagnetic valve 14 may be forgotten to be electrically connected to the substrate 54. For this reason, it is preferable to prevent the operation of the water-cooled heat exchanger 1 unless the electromagnetic valve 14 is electrically connected to the substrate 54.

  For example, as can be understood from FIGS. 8 and 9, the first connector 51 provided at the output end of the substrate 54 that moves the water-cooled heat exchanger 1 and the input end of the electromagnetic valve 14 are provided. What is necessary is just to make it the structure which can supply electric power to the solenoid valve 14 etc., when the 2nd connector 52 is connected. In the example shown in FIGS. 8 and 9, when the first connector 51 and the second connector 52 are connected, each of the inside of the housing 11 passes through the short-circuit portion 53 provided in the second connector 52. The power supply can be supplied to the device and the electromagnetic valve 14.

  The means for preventing the water-cooled heat exchanger 1 from operating unless the electromagnetic valve 14 is electrically connected to the substrate 54 is not limited to this. For example, the substrate 54 may be energized so that the operation of the water-cooled heat exchanger 1 can be performed by detecting a connection signal of the electromagnetic valve 14. The water-cooled heat exchanger 1 of the embodiment takes in electricity sent from the external power source 56 from a terminal block 55 provided on the back surface of the main body 31.

  As described above, the present invention has been described by taking the embodiment as an example. However, the present invention is not limited to the above-described embodiment, and various aspects can be adopted. For example, the cover need not be configured to cover the electromagnetic valve from three directions, and may be configured to cover from four directions.

DESCRIPTION OF SYMBOLS 1 Water-cooling type heat exchanger 11 Case 12 Radiator 13 Piping part 14 Electromagnetic valve 15 Cover 17 Check valve 18 Input / output part 41 Valve part 43 Cover attaching part 59 Power cord

Claims (5)

A radiator disposed in the housing;
A piping section for introducing cooling water to cool the radiator,
A solenoid valve connected outside the casing with the piping part;
A water-cooled heat exchanger.   The water-cooled heat exchanger according to claim 1, wherein a cover that covers the solenoid valve is provided so as to be separable from the housing.   The water-cooled heat exchanger according to claim 2, wherein the electromagnetic valve is provided with a cover attachment portion used for attaching the cover. The housing is equipped with an entry / exit section for entering / exiting the power cord of the solenoid valve,
The water-cooled heat exchanger according to claim 2 or 3, wherein the input / output line portion is covered with a cover.   The water-cooled heat exchanger according to any one of claims 1 to 4, further comprising a check valve connected outside the casing and a drainage section for draining the cooling water introduced into the radiator.

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