JP5687454B2 - Air cooling system - Google Patents

Description

  The present invention relates to an air cooling system for air cooling a printed circuit board.

  In electronic devices that make up communication equipment, etc., the amount of heat generation tends to increase as device elements increase in speed, and the amount of heat generated by an electronic device as a whole with multiple printed circuit boards mounted with high-temperature devices is also increased. Will increase.

  For this reason, it is important to take measures against heat dissipation in the electronic apparatus, and usually the electronic devices on the printed circuit board are cooled by air blown from a fan (Fan) attached to the cabinet.

  Patent documents 1 and 2 are proposed as conventional technology which improved the cooling capacity at the time of fan exchange.

JP 2002-6994 A JP 7-72955 A

  If the fan is operating normally when the electronic device is operating, the air from the fan is sent to the printed circuit board housed in the cabinet, and the electronic device mounted on the printed circuit board is cooled. .

  However, when the fan is removed during the operation of the electronic device to replace or check the fan due to the life or failure of the fan, in the conventional cabinet structure, the wind sent from other fans is removed. There was a problem of leaking from the hole.

For this reason, the amount of air sent to the printed circuit board is greatly reduced, and the temperature of the electronic device may rapidly increase and exceed the allowable temperature.
This invention is made in view of such a point, and it aims at providing the air-cooling system which prevented the wind leak at the time of extraction of an air-cooling unit, and aimed at suppression of a temperature rise.

In order to solve the above problems, an air cooling system for air cooling a printed circuit board is provided. The air cooling system includes a cabinet in which a printed circuit board is accommodated, a pluggable air cooling unit that is mounted in the cabinet and air-cools the printed circuit board, and the printed circuit board and the air cooling unit are mounted. Through the insertion hole provided in the part of the cabinet, it is mounted on the cabinet, and includes a pluggable closing plate that closes a hole generated when the air cooling unit is pulled out , and the cabinet is provided with a stopper, The air cooling unit is provided with a recess that engages with the stopper. When the closing plate is not mounted and the air cooling unit is mounted, the stopper is engaged with the recess. The air cooling unit is locked .

  It is possible to prevent wind leakage when the air cooling unit is removed and to suppress the temperature rise.

It is a figure which shows the external appearance of an air cooling system. It is a figure which shows the external appearance of a fan air cooling system. It is a figure which shows the flow of the wind produced | generated by a fan unit. It is a figure which shows the flow of the wind produced | generated by a fan unit. It is sectional drawing which looked at FIG. 1 from the A direction. It is the figure of the fan unit periphery which looked at FIG. 1 from the B direction. It is DD sectional drawing of FIG. It is a figure which shows a mode that the wind leak is prevented by the block plate. FIG. 6 is a detailed view of a part C in FIG. 5. FIG. 6 is a detailed view of a part C in FIG. 5. FIG. 6 is a detailed view of a part C in FIG. 5. It is a figure which shows the detailed structure of the E section of FIG. It is a figure which shows the detailed structure of the F section of FIG. It is a figure which shows the detailed structure of the E section of FIG. It is a figure which shows the detailed structure of the G section of FIG. It is a figure which shows the structure of an alarm switch and an alarm detection part. It is a figure which shows the air cooling system of a pull system. It is a figure which shows the air cooling system of a push pull system.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a view showing the appearance of an air cooling system. The air cooling system 1 includes air cooling units 10-1 to 10-4, a cabinet 20, and a closing plate 5, and a printed circuit board 30 is accommodated so that the printed circuit board 30 is air-cooled.

  The air cooling units 10-1 to 10-4 can be inserted into and removed from the cabinet 20, and are mounted on the cabinet 20 to cool the printed circuit board 30 with air. The closing plate 5 can be inserted into and removed from the cabinet 20 and is mounted on the cabinet 20 so as to close a hole generated when the air cooling units 10-1 to 10-4 are removed.

  The closing plate 5 is a plate-like member having a sufficient area and airtightness in order to close the extraction hole and suppress wind leakage. Further, an insertion hole 51 into which the closing plate 5 can be inserted and removed is provided in a portion of the cabinet 20 between the printed circuit board 30 and the air cooling units 10-1 to 10-4. 5 is implemented.

Next, before explaining the details of the air cooling system 1, a general fan air cooling system in which wind leakage occurs when the fan is removed will be described.
FIG. 2 is a view showing the appearance of the fan air cooling system. The fan air cooling system 100 is a system that performs push-type air cooling, and includes a cabinet 101. An intake port 102 is provided on the bottom surface of the cabinet 101, and an exhaust port 103 is provided on the back surface of the cabinet 101. In addition, fan units 111 to 114 that can be inserted into and removed from the cabinet 101 are mounted below the cabinet 101.

  In the push-type air cooling, air is sucked up from the air inlet 102 by the fan 11 provided in the fan units 111 to 114 attached to the bottom surface. The sucked air is sent into the cabinet 101 from the bottom surface to the top surface, and air-cools the printed circuit board 30 accommodated in the cabinet 101. From the exhaust port 103, the air-cooled wind is exhausted.

  FIG. 3 is a diagram showing the flow of wind generated by the fan unit. All the fan units 111-114 are inserted in the lower part of the cabinet 101, and the fan 11 is driving normally is shown. In this case, all the wind from the fan 11 is sent to the printed circuit board 30 located at the upper part, and the electronic devices on the printed circuit board 30 are cooled.

  FIG. 4 is a diagram showing the flow of wind generated by the fan unit. The state when the fan unit 113 is removed is shown. It is assumed that the fan unit 113 has been removed due to replacement or inspection due to the life or failure of the fan 11.

  In a state where the fan unit 113 is removed during the operation of the apparatus, a large amount of wind sent from the fan 11 provided in the other fan units 111, 112, 114 leaks from the hole at the time of removal with a small ventilation resistance. . That is, when the fan unit 113 is inserted and removed, the wind leaks from the hole on the front surface and the air inlet 102 below the fan unit 113.

  For this reason, the air volume and wind speed to the printed circuit board 30 are significantly reduced, the temperature of the electronic device mounted on the printed circuit board 30 is increased, and there is a risk that the electronic device exceeds the allowable temperature.

  Conventionally, the time from when the fan unit is removed to when it is inserted is specified to be equal to or less than the time until the electronic device reaches the allowable temperature. However, due to the increase in power consumption of electronic devices in recent years, there is a possibility that the allowable temperature will be reached in a short time after removing the fan unit, making it difficult to specify the removal time. Yes.

  In the above description, the push system has been described. However, the pull system and the push / pull system have the same problem. The air-cooling system 1 of the present technology has been made in view of the above-described problems, and efficiently prevents wind leakage when the air-cooling unit is removed, thereby suppressing a temperature rise.

  Next, the structure of the air cooling system 1 will be described with reference to FIGS. 1 and 5 to 7 (the push method will be described as an example). Hereinafter, the air cooling unit 10 is referred to as a fan unit 10.

  FIG. 5 is a cross-sectional view of FIG. 1 viewed from the A direction. FIG. 6 is a view of the periphery of the fan unit when FIG. 1 is viewed from the B direction, and shows a state where the fan unit 10-3 is removed and the closing plate 5 is inserted.

  1, 5, and 6, the air cooling system 1 includes a cabinet 20. Further, the cabinet 20 is provided with an intake port 21, an air chamber 22, a rectifying plate 23, a rack portion 24, and an exhaust port 25.

  Further, an insertion for inserting the closing plate 5 from the front surface of the cabinet 20 into a portion between the cabinets 20 on which the fan units 10-1 to 10-4 (generally referred to as the fan unit 10) and the air chamber 22 are mounted. A hole 51 and a guide rail 53 that slides the closing plate 5 onto the insertion hole 51 are provided.

In addition, an opening / closing door 22 a-1 is provided on the front wall 22 a of the air chamber 22, and a fan stopper s 1 is provided on the rear wall 22 b of the air chamber 22.
A printed circuit board 30 is accommodated in the rack portion 24. A mother board 40 is provided on the inner rear surface of the cabinet 20. The motherboard 40 is provided with a printed circuit board connector 41 for connecting to a plurality of printed circuit boards 30, a fan unit connector 42 for connecting to the fan unit 10, and an alarm switch sw. The alarm switch sw is installed at a position on the mother board 40 that can be pressed by the rear end of the closing plate 5 when the closing plate 5 is inserted into the insertion hole 51.

  Here, when performing the air cooling operation of the printed circuit board 30 during the operation of the apparatus, the air is sucked up from the air inlet 21 by the rotation of the fan 11 provided in the fan unit 10. The sucked air passes through the air chamber 22 and the rectifying plate 23, passes through the printed circuit board 30 accommodated in the rack portion 24, cools the electronic device on the printed circuit board 30, and then Is discharged from the exhaust port 25.

  The air chamber 22 is a cavity provided in order to make the wind speed from the fan 11 uniform. As the fan 11, a general axial fan is often used, but the central portion of the wind sent from the axial fan has a portion where the wind speed is weak. For this reason, the air is branched and joined in the air chamber 22 to equalize the wind speed, and then sent to the printed circuit board 30 to be cooled.

  The rectifying plate 23 is a perforated plate provided between the air chamber 22 and the printed circuit board 30 accommodated in the rack portion 24. The rectifying plate 23 is provided to eliminate vortices caused by the plurality of fans 11, to make uniform the airflow resistance that differs depending on the printed circuit board 30, and to blow an appropriate wind to the printed circuit board 30 having a large airflow resistance. Is.

  On the other hand, the fan units 10-1 to 10-4 have two fans 11 at the front and rear, an LED (Light Emitting Diode) 12 for alarm display is provided on the front of the unit, and a fan unit is provided on the back of the unit. A connector 13 for coupling with the connector 42 is provided. In addition, a recess 14 is provided on the upper surface of the fan unit 10 for locking the fan unit 10 with the fan stopper s1 when the fan unit 10 is inserted.

  The fan units 10-1 to 10-4 are inserted between the air inlet 21 and the air chamber 22, and when inserted, the connector 13 and the fan connector 42 are coupled and connected to the mother board 40. The fan unit 10 can be inserted and removed between the air inlet 21 and the air chamber 22.

  The LED 12 indicates the operating state of the fan 11. For example, if the fan 11 is operating normally, it is displayed in green, and if the fan 11 fails and stops, or if the rotational force is reduced due to its life, etc., the display is red, and the maintenance personnel Inform the operating status.

  Further, the connector 13 and the fan connector 42 are coupled and connected to the mother board 40, whereby a drive signal for the fan 11 or an electric signal for displaying the LED 12 is supplied from the mother board 40.

  7 is a cross-sectional view taken along the line DD of FIG. The fan units 10-1, 10-2, 10-4 are inserted into the lower part of the air cooling system 1, the closing plate 5 is inserted into the upper part of the fan unit 10-3, and the fan unit 10-3 is removed. It shows a state.

  The closing plate 5 has a size that completely closes the hole 22c on the bottom surface of the air chamber 22 formed by removing the fan unit 10-3, and the closing plate 5 is inserted into the insertion hole 51 above the fan unit 10-3. By doing so, the extraction hole can be closed.

  Next, the flow of wind when the closing plate 5 is mounted when the fan unit 10 is removed will be described. FIG. 8 is a diagram illustrating a state in which wind leakage is prevented by the blocking plate. Fan units 10-1, 10-2, 10-4 are inserted into the lower part of cabinet 20, closing plate 5 is inserted into the upper position of fan unit 10-3, and fan unit 10-3 is removed. It shows a state.

  The closing plate 5 is not inserted during normal operation, and is mounted or stored outside the cabinet 20 or the like. Then, only when the fan unit is removed, the fan unit is inserted along the guide rail 53 from the insertion hole 51 immediately above the target fan unit before removal.

  As described above, the closing plate 5 has a size and a sealing property that completely closes the hole 22c (FIG. 7) on the bottom surface of the air chamber 22 formed by removing the fan unit 10. For this reason, as shown in FIG. 8, even if the fan unit 10-3 is removed, the removal hole is completely closed by the closing plate 5.

  Therefore, when the hole 22c on the bottom surface of the air chamber 22 is closed, the air hole on the front surface when the fan unit 10-3 is inserted and removed as in the state shown in FIG. It is possible to prevent the wind from leaking to the outside through the mouth 21.

  For this reason, there is no wind leakage, and all the wind from the fans 11 of the other fan units 10-1, 10-2, 10-4 can be sent to the printed circuit board 30 and the electronic device can be effectively used. Can be cooled to.

Next, the structural relationship between the fan unit 10 and the closing plate 5 will be described. The structural relationship between the fan unit 10 and the closing plate 5 in the air cooling system 1 has the following two features.
(1) When the mounted fan unit 10 is removed from the cabinet 20, the closing plate 5 is inserted into the insertion hole 51 at the top of the fan unit 10 and the closing plate 5 is not mounted first. The fan unit 10 must have a structure that cannot be removed.

  (2) When removing the mounted cover plate 5 from the cabinet 20, the fan unit 10 must be inserted first, and the cover plate 5 cannot be removed unless it is installed below the cover plate 5. Having.

The structural relationship (1) will be described. FIG. 9 is a detailed view of part C of FIG. The fan unit 10 is inserted into the lower part of the cabinet 20 and the closing plate 5 is not inserted.
The front wall 22a of the air chamber 22 is provided with an opening / closing door 22a-1 in the vicinity of the closing plate insertion hole 51a. The opening / closing door 22a-1 is, for example, a hinge provided with a spring, and when the closing plate 5 is inserted into the closing plate insertion hole 51a, the opening / closing door 22a-1 is pushed inward and upward at the end surface of the closing plate 5. When the cover plate 5 is removed, it is closed.

  In the state shown in FIG. 9, the opening / closing door 22a-1 completely closes the closing plate insertion hole 51a because the closing plate 5 is not inserted. Thereby, the air leakage which blows off from the air chamber 22 or the block board insertion hole 51a when the fan unit 10 is installed is prevented.

  On the other hand, a fan stopper s 1 is provided on the rear wall 22 b of the air chamber 22, and a recess 14 is provided on the upper surface of the fan unit 10. The fan stopper s1 prevents the fan unit 10 from being removed when the fan unit 10 is installed in the lower part of the cabinet 20 and the cover plate 5 is not mounted, and when the cover plate 5 is mounted, the fan unit 10 It is a stopper for enabling the removal of the.

  As shown in FIG. 9, when the fan unit 10 is inserted into the lower part of the cabinet 20, the fan stopper s <b> 1 is locked by being caught in the recess 14 so that the fan unit 10 cannot be removed.

  10 and 11 are detailed views of part C in FIG. FIG. 10 shows a state where the fan unit 10 is inserted in the lower part of the cabinet 20 and the closing plate 5 is inserted. FIG. 11 shows a state in which the fan unit 10 is removed with the closing plate 5 inserted.

  When the closing plate 5 is inserted into the insertion hole 51, the open / close door 22 a-1 is pushed inward at the end surface of the closing plate 5 to be in an open state. In this case, since the lower end surface of the opening / closing door 22a-1 and the upper surface of the closing plate 5 are in contact with each other and no gap is formed, the wind does not leak from the closing plate insertion hole 51a.

  Further, when the closing plate 5 is inserted into the insertion hole 51, the fan stopper s1 is raised upward, so that it is not caught by the recess 14, the lock is released, and the fan unit 10 can be removed.

  As described above, when the mounted fan unit 10 is removed from the cabinet 20, the closing plate 5 is inserted into the insertion hole 51 at the top of the fan unit 10 and the closing plate 5 is not mounted first. The fan unit 10 has a structure that cannot be removed. As a result, it is possible to prevent the fan unit 10 from being removed when the cover plate 5 is not mounted and the wind leaking from the removal hole.

  Next, the structural relationship (2) will be described. 12 is a diagram showing a detailed configuration of the E portion of FIG. 7, and FIG. 13 is a diagram showing a detailed configuration of the F portion of FIG. The state where the fan unit 10 is inserted in the lower part of the cabinet 20 and the closing plate 5 is inserted is shown.

  A projection 2a for partitioning the inserted fan unit 10 is provided on the inner back surface of the cabinet 20, and a blocking plate stopper s2 is attached to the projection 2a. In addition, a recess 52 is provided on one side surface of the closing plate 5.

The closing plate stopper s2 is, for example, a hinge provided with a spring, and one end portion of the closing plate stopper s2 is fixed to the protruding portion 2a, and the other end portion is movable.
When the fan unit 10 is inserted, the movable side end s2-1 of the closing plate stopper s2 is pushed by the side wall 10a of the fan unit 10, and the movable side end s2-1 is closed. In the state in which the movable side end s2-1 is closed, the clogging plate 5 is not locked because the clogging with the recess 52 of the capping plate 5 is not performed. That is, when the fan unit 10 is inserted, the closing plate 5 can be freely inserted and removed.

  FIG. 14 is a diagram showing a detailed configuration of part E in FIG. 7, and FIG. 15 is a diagram showing a detailed configuration of part G in FIG. The state where the fan unit 10 is removed from the lower part of the cabinet 20 and the closing plate 5 is inserted is shown.

  If the fan unit 10 is removed while the closing plate 5 is inserted, the movable side end s2 is not pressed against the movable side end s2-1 of the closing plate stopper s2 from the side wall 10a. -1 is an open shape. Then, the movable side end s <b> 2-1 is hooked on the recess 52 provided in the closing plate 5, the closing plate 5 is locked, and the closing plate 5 cannot be removed.

  As described above, when the mounted cover plate 5 is removed from the cabinet 20, the fan unit 10 must be inserted first and installed at the lower portion of the cover plate 5, so that the cover plate 5 cannot be removed. did. As a result, it is possible to prevent the closing plate 5 from being removed when the fan unit 10 is not mounted and the wind leaking from the removal hole.

  Next, alarm detection will be described. When the cover plate 5 is inserted, the alarm switch sw is pushed on the rear end face of the cover plate 5 to generate an alarm. When the cover plate 5 is removed, the alarm switch sw is returned and the alarm generation is stopped. .

  FIG. 16 is a diagram illustrating the configuration of the alarm switch and the alarm detection unit. The alarm detection unit 6 includes a photocoupler 61 and resistors R1 and R2. The alarm detection unit 6 is mounted on the alarm collection printed circuit board 60, for example. The alarm collection printed circuit board 60 is connected to the mother board 40 via the connector C0. The photocoupler 61 includes a light emitting element and a light receiving element. Usually, a photodiode d is used as the light emitting element, and a phototransistor T is used as the light receiving element.

  Regarding the connection relationship of the constituent elements, the switch terminal a of the alarm switch sw is connected to GND (common ground) on the mother board 40, and the switch terminal b of the alarm switch sw is connected to the anode of the photodiode d in the photocoupler 61. Connecting. The cathode of the photodiode d is connected to one end of the resistor R1, and the other end of the resistor R1 is connected to a reference voltage of −48V.

  The collector of the phototransistor T in the photocoupler 61 is connected to a voltage of +3.3 V, and the emitter of the phototransistor T is connected to one end of the resistor R2. An alarm signal is output from the other end of the resistor R2.

  Here, when the closing plate 5 is inserted into the cabinet 20 and the rear end of the closing plate 5 pushes the alarm switch sw, the switch terminal a is connected to the switch terminal b. Then, the anode of the photodiode d in the photocoupler 61 is connected to GND and becomes conductive, and an electric signal flows through the photodiode d to be converted into light.

  The light emitted from the photodiode d is received by the base of the phototransistor T, an electric signal flows from the collector to the emitter through the resistor R2, and is output as an alarm signal from the other end of the resistor R2.

  As described above, the alarm switch sw and the alarm detection unit 6 are provided, and an alarm signal is generated when the closing plate 5 is inserted. As a result, it is possible to accurately notify the maintenance person that the fan unit 10 has been removed.

  Next, pull-type and push-pull-type air cooling systems will be described. FIG. 17 is a diagram showing a pull-type air cooling system. In the pull-type air cooling system 1 a, the fan unit 10 is mounted on the upper part of the cabinet 20. The basic structure and basic operation are the same as those of the air cooling system 1. The present technology can also be applied to such a pull system.

  FIG. 18 is a diagram showing a push-pull type air cooling system. In the push-pull type air cooling system 1 b, the fan unit 10 is mounted on the upper portion of the cabinet 20, and the fan unit 10 is mounted on the lower portion of the cabinet 20. The basic structure and basic operation are the same as those of the air cooling system 1. The present technology can also be applied to such a push-pull system.

  As described above, the air cooling system 1 has a structure in which the extraction hole formed by removing the air cooling unit can always be blocked by the closing plate, so that air leakage from the air chamber to the extraction hole can be prevented. it can. Thereby, it becomes possible to suppress the temperature rise of the electronic device caused by wind leakage.

As mentioned above, although embodiment was illustrated, the structure of each part shown by embodiment can be substituted by the other thing which has the same function. Moreover, other arbitrary structures and processes may be added.
(Appendix 1) a cabinet in which a printed circuit board is accommodated;
An air-cooling unit that is mounted in the cabinet and can be inserted and removed to air-cool the printed circuit board,
A pluggable plug that is mounted in the cabinet through an insertion hole provided in a part of the cabinet while the printed circuit board and the air cooling unit are mounted, and plugs a hole that is generated when the air cooling unit is removed. The board,
An air cooling system characterized by comprising:

(Appendix 2) The cabinet is provided with a stopper, and the air cooling unit is provided with a recess that engages with the stopper.
2. The air cooling according to claim 1, wherein when the airtight unit is not mounted and the air cooling unit is mounted, the stopper engages with the recess to lock the air cooling unit. system.

  (Supplementary Note 3) When the closing plate is mounted, the stopper is removed from the recess by the pressing of the closing plate when inserted into the insertion hole, and the locking of the air cooling unit by the stopper is released. The air-cooling system according to appendix 2, characterized by:

(Appendix 4) The cabinet is provided with a stopper, and the closing plate is provided with a recess that engages with the stopper.
2. The air cooling system according to claim 1, wherein when the cover plate is mounted and the air cooling unit is not mounted, the stopper engages the recess and locks the cover plate.

  (Supplementary Note 5) When the air cooling unit is mounted, the stopper is removed from the recess by the pressing of the air cooling unit when inserted into the cabinet, and the locking of the closing plate by the stopper is released. The air-cooling system according to appendix 4, which is characterized.

(Additional remark 6) The alarm switch arrange | positioned in the position inside the said cabinet pressed from the said obstruction board at the time of mounting of the said obstruction board, and an alarm detection part further,
2. The air cooling according to claim 1, wherein the alarm detection unit emits an alarm signal for notifying that the cover plate is mounted when the alarm switch is turned on by pressing from the cover plate. system.

(Appendix 7) In a cabinet in which a printed circuit board is accommodated,
With respect to the insertable / removable air-cooling unit for air-cooling the printed circuit board, the printed circuit board and the air-cooling unit are mounted with an insertion hole that allows insertion / extraction of a closing plate that closes a hole generated when the air-cooling unit is removed. A cabinet characterized in that it is provided in a part between the two.

(Supplementary Note 8) A stopper is provided that engages with a recess provided in the air cooling unit,
8. The appendix according to claim 7, wherein when the closing plate is not mounted and the air cooling unit is mounted, the stopper engages with the recess to lock the air cooling unit. cabinet.

  (Additional remark 9) The said stopper is removed from the said hollow by the press of the said obstruction board at the time of being inserted in the said insertion hole at the time of mounting of the said obstruction board, The latching of the said air cooling unit is cancelled | released, It is characterized by the above-mentioned. The cabinet according to appendix 8.

(Supplementary Note 10) A stopper is provided to engage with a recess provided in the closing plate,
The cabinet according to appendix 7, wherein the stopper is engaged with the recess to lock the closing plate when the closing plate is mounted and the air cooling unit is not mounted.

  (Additional remark 11) When the said air-cooling unit is mounted, the said stopper is removed from the said hollow by the press of the said air-cooling unit when inserting in the said cabinet, The latching of the said obstruction board is cancelled | released, It is characterized by the above-mentioned. The cabinet of appendix 10.

  (Additional remark 12) The alarm switch is further provided in the position pressed from the block at the time of mounting of the block, and the alarm switch is connected to the alarm switch by being turned on by the pressure from the block The cabinet according to appendix 7, wherein the detection unit is driven to output an alarm signal for notifying that the cover plate has been mounted.

(Supplementary note 13) In an air cooling unit that performs air cooling,
It can be inserted into and removed from the cabinet in which the printed circuit board is housed, and has a recess for engaging with a stopper provided in the cabinet,
An air-cooling unit for air-cooling the printed circuit board in a state of being locked to the cabinet by engaging the recess and the stopper when mounted on the cabinet.

  (Additional remark 14) When the block which closes the hole produced when an own unit is extracted from the said cabinet is not mounted with respect to the said cabinet, the said hollow and the said stopper will engage, and with respect to the said cabinet The air cooling unit according to appendix 13, wherein the air cooling unit is locked.

  (Supplementary note 15) The air cooling unit according to supplementary note 14, wherein the stopper is removed from the recess and the locking with respect to the cabinet is released by the pressing of the closing plate when the closing plate is mounted.

(Supplementary Note 16) In the closing plate that closes the hole,
It can be inserted into and removed from the cabinet in which the printed circuit board is housed, and has a recess for engaging with a stopper provided in the cabinet,
When mounting on the cabinet, the hole generated when the air cooling unit for air cooling the printed circuit board is removed in a state of being locked to the cabinet by engaging the recess and the stopper. A closing plate characterized by that.

  (Additional remark 17) When the said air-cooling unit is not mounted with respect to the said cabinet, the said hollow and the said stopper will engage and it will latch with respect to the said cabinet.

  (Supplementary note 18) The closing plate according to supplementary note 17, wherein the stopper is removed from the recess by the pressing of the air cooling unit when the air cooling unit is mounted, and the locking to the cabinet is released.

1 Air Cooling System 5 Blocking Plate 10-1 to 10-4 Air Cooling Unit 20 Cabinet 30 Printed Circuit Board 51 Insertion Hole

Claims (5)

A cabinet that houses the printed circuit board;
An air-cooling unit that is mounted in the cabinet and can be inserted and removed to air-cool the printed circuit board,
A pluggable plug that is mounted in the cabinet through an insertion hole provided in a part of the cabinet while the printed circuit board and the air cooling unit are mounted, and plugs a hole that is generated when the air cooling unit is removed. The board,
With
The cabinet is provided with a stopper, and the air cooling unit is provided with a recess that engages with the stopper.
When the closing plate is not mounted and the air cooling unit is mounted, the stopper engages the recess to lock the air cooling unit.
Air cooling system comprising a call. When the closing plate is mounted, the stopper is removed from the recess by the pressing of the closing plate when inserted into the insertion hole, and the locking of the air cooling unit by the stopper is released. The air cooling system according to claim 1 . The cabinet is further provided with a closing plate stopper,
The closing plate is provided with a closing plate recess that engages with the closing plate stopper,
2. The device according to claim 1, wherein when the closing plate is mounted and the air cooling unit is not mounted, the closing plate stopper engages with the closing plate recess to lock the closing plate. Air cooling system. When the air cooling unit is mounted, the closing plate stopper is removed from the closing plate recess by the pressing of the air cooling unit when inserted into the cabinet, and the locking of the closing plate by the closing plate stopper is released. The air cooling system according to claim 3.
An alarm switch disposed at a position inside the cabinet that is pressed from the closing plate when the closing plate is mounted, and an alarm detection unit;
2. The alarm detection unit according to claim 1, wherein the alarm detection unit generates an alarm signal for notifying that the cover plate is mounted when the alarm switch is turned on by pressing from the cover plate. Air cooling system.

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