CN204761939U - Heat pipe reason control module - Google Patents

Abstract

The utility model discloses a heat pipe reason control module, it includes: heat pipe reason control assembly includes: radiator unit, holding chamber and first upper cover. First upper cover and radiator unit holding chamber electricity are connected, cover on first and are equipped with a plurality of exhaust vents, and the aperture of exhaust vent is 2mm-4mm. The installation frame includes: two make the siding track with the fixed heat pipe reason control assembly of centre gripping that forms and to be relative setting by metal material, are made by metal material that form and be cavity and opening form in upper portion sets up the external lug holding chamber with the holding external lug, second upper cover. External lug holding chamber be located between the rail of both sides and with the both sides rail coupling, and the equal electricity of second upper cover, exterior structure holding chamber and both sides rail is connected. The tip that external lug holding chamber was kept away from to the both sides rail do not is equipped with the hangers, and the first curb plate of hangers can be dismantled with the siding track and be connected, and the second curb plate of hangers can be dismantled with the rack and be connected, external lug holding chamber was kept away from to the both sides rail tip still be equipped with can with subrack fixed connection's screw thread through -hole.

Description

Heat management control module

Technical field

The utility model relates to electronic equipment dissipating heat technical field, particularly relates to a kind of heat management control module be arranged on rack or subrack.

Background technology

Along with the develop rapidly of electronic technology; the performance of equipment improves constantly; equipment power dissipation also promotes rapidly; the heat dissipation problem of electronic device is more outstanding; the general radiating module arranged in the electronic device; in order to evacuate the heat in heat-generating components inside actual motion, thus the electronic devices and components of proterctive equipment inside are without prejudice, and the reliable versatility of heat dissipation equipment under extraordinary adverse circumstances also become the problem that everybody pays close attention to.

Currently marketed similar heat management control module often needs for equipment Selective customization, and the versatility of single heat management control module is not strong, if the follow-up performance upgrade of equipment, there will be the waste that needs redesign.In addition, heat management control module is difficult to guarantee electromagnetic compatibility.

Utility model content

The main object of the utility model is: provide one to improve versatility, but also can guarantee the heat management control module of Electromagnetic Compatibility

For achieving the above object, the utility model provides a kind of heat management control module, and this heat management control module comprises:

Heat management control assembly, for going out the heat dissipation of rack or subrack; It comprises: the radiating subassembly flowed for driving air, formed by metal material manufacture and be hollow and upper opening shape is arranged with the radiating subassembly containing cavity of accommodating described radiating subassembly, and being formed the first upper cover of the upper opening being overlying on described radiating subassembly containing cavity by metal material manufacture; Wherein, described first upper cover is electrically connected with described radiating subassembly containing cavity, covers and be provided with some exhaust vents on described first, and the aperture of described exhaust vent is 2mm ~ 4mm;

Installation frame, for being fixed on described rack or subrack by described heat management control assembly; It comprises: two to be formed by metal material manufacture and in the siding track to grip described heat management control assembly be oppositely arranged, formed by metal material manufacture and be hollow and upper opening shape arrange with the external lug containing cavity of accommodating external lug, be overlying on the second upper cover of the upper opening of described external lug containing cavity; Wherein, described external lug containing cavity is being connected with siding track described in two between siding track described in two; And described second upper cover, external structure containing cavity and two siding tracks are all electrically connected; Siding track described in two is respectively equipped with away from the end of described external lug containing cavity: a L-shaped setting is to be fixed on the hangers on rack by siding track, first side plate and the described siding track of described hangers removably connect, and the second side plate and the described rack of described hangers removably connect; Siding track described in two is also provided with the tapped through hole that can be fixedly connected with subrack away from the end of described external lug containing cavity.

Preferably, the aperture of described exhaust vent is 4mm.

Preferably, the spacing between described exhaust vent is 8mm ~ 10mm.

Preferably, the first upper cover is fixedly connected with described radiating subassembly containing cavity by the first screw.

Preferably, described second upper cover is fixedly connected with described external lug containing cavity by the second screw.

Preferably, heat management control module also comprises voltage changing module, and 12V, 24V, 48V voltage transformation can be converted to galvanic current source by described voltage changing module, uses for described radiating subassembly.

Preferably, heat management control module also comprises the air rate adjustment module of the air output of the ambient temperature adjustment radiating subassembly according to rack or subrack, described air rate adjustment module comprises and is located at radiating subassembly air inlet and the temp probe of output temperature signal, the control module of described radiating subassembly air output is adjusted for the temperature signal that exports according to described temp probe and default reference value, the output of described temp probe is connected with the temperature signal input of described control module, and the control signal output of described control module is connected with described radiating subassembly controlled end.

Preferably, described radiating subassembly comprises 1 ~ 6 aerofoil fan.

Preferably, heat management control module also comprises fault warning module, described fault warning module comprises: for the measure voltage & current unit of the voltage/current output voltage values or current value that detect described aerofoil fan, for exporting the control unit of control signal according to described magnitude of voltage or current value, and start the state display lamp of bright light according to described control signal; Wherein, the output of described current detecting unit is connected with the input of described control unit, and the control signal output of described control unit is connected with described state display lamp.

The heat management control module that the utility model provides, the first upper cover in this heat management control module and radiating subassembly containing cavity are electrically connected and form an airtight space, thus realize electromagnetic-field-shielded to radiating subassembly.The second upper cover in this heat management control module and external lug containing cavity are electrically connected and form an airtight space, thus realize electromagnetic-field-shielded to external lug reality.In order to take into account the air output of heat management control module and electromagnetic-field-shielded, the aperture of the exhaust vent of the first upper cover is set to 2mm ~ 4mm.In addition, the heat management control module in the utility model not only can be arranged on rack by hangers, can also be threaded connection and be arranged on subrack, thus improves the versatility of heat management control module.

Accompanying drawing explanation

Fig. 1 is the structure chart of the utility model heat management control module;

Fig. 2 is the amplification assumption diagram at A place in Fig. 1;

Fig. 3 is the structure chart of the installation frame in the utility model heat management control module;

Fig. 4 is the structure chart of the heat management control assembly in the utility model heat management control module.

The realization of the utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Embodiment

Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The utility model provides a kind of heat management control module.

With reference to the structure chart that figure 1 ~ 4, Fig. 1 is the utility model heat management control module; Fig. 2 is the amplification assumption diagram at A place in Fig. 1; Fig. 3 is the structure chart of the installation frame in the utility model heat management control module; Fig. 4 is the structure chart of the heat management control assembly in the utility model heat management control module.The heat management control module that the present embodiment provides, this heat management control module comprises: heat management control assembly 10, installation frame 20.

Heat management control assembly 10 is for going out the heat dissipation of rack or subrack.Particularly, heat management control assembly 10 comprises: radiating subassembly 101, radiating subassembly containing cavity 102 and the first upper cover 103.Radiating subassembly 101 flows for driving air, to be gone out by the heat dissipation in rack or subrack.Radiating subassembly 101 is made up of fan.In the present embodiment, radiating subassembly 101 is made up of aerofoil fan.Aerofoil fan can arrange 1 ~ 6, and concrete quantity can be arranged according to the caloric value of rack or subrack.Radiating subassembly containing cavity 102 is for accommodating radiating subassembly 101, and all right shield electromagnetic of this radiating subassembly containing cavity 102, this radiating subassembly 101 of the interference of electromagnetic field produced to avoid external equipment, or the normal operation of other equipment of magnetic interference of radiating subassembly 101 generation.Radiating subassembly containing cavity 102 is formed by metal material manufacture.This radiating subassembly containing cavity 102 is hollow and upper opening shape is arranged.Radiating subassembly 101 is positioned in radiating subassembly containing cavity 102.First upper cover 103 is formed by metal material manufacture.This first upper cover 103 is overlying on the upper opening of radiating subassembly containing cavity 102, to form an airtight space, thus realizes electromagnetic-field-shielded for radiating subassembly 101.It should be noted that the first upper cover 103 forms by the manufacture of metallic aluminium section bar with radiating subassembly containing cavity 102, and the first upper cover 103 is electrically connected with radiating subassembly 101.In the present embodiment, the first upper cover 103 is fixedly connected with by the first screw 104 with radiating subassembly 101, and the first upper cover 103 and radiating subassembly 101 are electrically connected by the first screw 104.In addition, the first upper cover 103 is provided with some exhaust vents 1031.For taking into account overall air output and Electro Magnetic Compatibility, the aperture of exhaust vent 1031 is 2mm ~ 4mm.Preferably, the aperture of exhaust vent 1031 is 4mm.Spacing between exhaust vent 1031 is 8mm ~ 10mm.Preferably, the spacing between exhaust vent 1031 is 9mm.

Installation frame 20 is for being fixed on rack or subrack by heat management control assembly 10.Particularly, installation frame 20 comprises: two siding tracks 201, external lug containing cavity 202 and the second upper cover 203.Two siding tracks 201 form by metal material manufacture.This two siding track 201 grips heat management control assembly 10 in being oppositely arranged.Particularly, two siding tracks 201 grip the both sides of radiating subassembly containing cavity 102.During installation, radiating subassembly containing cavity 102 slides along two siding tracks 201, inserts or extracts the position between two siding tracks 201 out, thus realizes heat management control assembly 10 and be arranged on installation frame 20.External lug containing cavity 202 is formed by metal material manufacture, and this external lug containing cavity 202 is hollow and upper opening shape is arranged, and for accommodating external lug 30, thus can shield the interference of electromagnetic field signal of external lug 30.Particularly, the position of external lug containing cavity 202 between two siding tracks 201.Particularly, one end of external lug containing cavity 202 is fixed with the first siding track 201 and is electrically connected, and the other end of external lug containing cavity 202 is fixed with the second siding track 201 and is electrically connected.Second upper cover 203 is formed by metal material manufacture.This second upper cover 203 is overlying on the upper opening of external lug containing cavity 202, to form an airtight space, thus the interference of electromagnetic field of shielding external lug 30.It should be noted that the second upper cover 203 is electrically connected with external lug containing cavity 202.In the present embodiment, the second upper cover 203 is fixed with external lug containing cavity 202 by the second screw 204, and the second upper cover 203 and external lug containing cavity 202 are electrically connected by the second screw 204.It should be noted that external lug select can shield electromagnetic interference external lug.

Two siding tracks 201 are respectively equipped with for siding track 201 is fixed on hangers 205 on rack away from the end of external lug containing cavity 202.The L-shaped setting of this hangers 205.Particularly, hangers 205 comprises the first side plate 2051 and the second side plate 2052.First side plate 2051 removably connects with described siding track 201.In the present embodiment, the first side plate 2051 is removably connected by screw and siding track 201.Second side plate 2052 is removably connected by screw and rack.By two hangers 205 on two siding tracks 201, thus realize heat management control module to be fixedly mounted on rack.In addition, in order to improve the versatility of heat management control module, two siding tracks 201 are also provided with the tapped through hole (not shown) that can be fixedly connected with subrack away from the end of external structure containing cavity.When heat management control module is arranged on subrack by needs, the hangers 205 on siding track 201 is disassembled, then the mode that two siding tracks 201 are threaded connection is fixedly mounted on subrack, thus achieve heat management control module is arranged on subrack.

The heat management control module that the utility model provides, the first upper cover 103 in this heat management control module and radiating subassembly containing cavity 102 are electrically connected and form an airtight space, thus realize electromagnetic-field-shielded to radiating subassembly 101.The second upper cover 203 in this heat management control module and external lug containing cavity 202 are electrically connected and form an airtight space, thus realize electromagnetic-field-shielded to external lug 30 reality.In order to take into account the air output of heat management control module and electromagnetic-field-shielded, the aperture of the exhaust vent 1031 of the first upper cover 103 is set to 3mm ~ 5mm.In addition, the heat management control module in the utility model not only can be arranged on rack by hangers 205, and the mode that can also be threaded connection is arranged on subrack, thus improves the versatility of heat management control module.

Based on above-described embodiment, in order to improve the compatibility of heat management control module to voltage, in the present embodiment, heat management control module also comprises voltage changing module (not shown), 12V, 24V, 48V voltage transformation can be converted to galvanic current source by voltage changing module, use for radiating subassembly 101, thus improve the versatility of heat management control module further.

Based on above-described embodiment, in order to improve the intellectuality of heat management control module heat radiation, in the present embodiment, heat management control module also comprises the air rate adjustment module (not shown) of the air output of the ambient temperature adjustment radiating subassembly 101 according to rack or subrack, described air rate adjustment module comprises and is located at radiating subassembly 101 air inlet and the temp probe 40 of output temperature signal, the control module of described radiating subassembly 101 air output is adjusted for the temperature signal that exports according to described temp probe 40 and default reference value, the output of described temp probe 40 is connected with the temperature signal input of described control module, the control signal output of described control module is connected with described radiating subassembly 101 controlled end.

Based on above-described embodiment, for detecting the fault of heat management control module in real time, in the present embodiment, heat management control module also comprises fault warning module (not shown).Particularly, fault warning module comprises measure voltage & current unit (not shown), control unit (not shown) and state display lamp 50.The voltage of measure voltage & current unit inspection aerofoil fan or the size of electric current, and the magnitude of voltage arrived at its output output detections or current value.The magnitude of voltage that control unit receiver voltage current detecting unit exports or current value.When the magnitude of voltage that control unit receives or magnitude of voltage are 0, control unit then outputting alarm controls signal to state display lamp 50.When the magnitude of voltage that control unit receives or magnitude of voltage are not 0, control unit then output state normal control signal to state display lamp 50.It should be noted that state display lamp 50 comprises red-light LED 501 and green light LED 502.When state display lamp 50 receives control unit outputting alarm control signal, green light LED 502 extinguishes, and red-light LED 501 is lighted, and breaks down to warn staff's heat management control module.When state display lamp 50 receives control unit output state normal control signal, green light LED 502 is lighted, and red-light LED 501 extinguishes, normal to represent heat management control module state.If it should be noted that in heat management control module and be provided with multiple fan, as long as one of them fan breaks down, fault warning module all can be reported to the police by startup separator.

These are only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every utilize the utility model specification and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (9)

1. a heat management control module, is characterized in that, comprising:

Heat management control assembly, for going out the heat dissipation of rack or subrack; It comprises: the radiating subassembly flowed for driving air, formed by metal material manufacture and be hollow and upper opening shape is arranged with the radiating subassembly containing cavity of accommodating described radiating subassembly, and being formed the first upper cover of the upper opening being overlying on described radiating subassembly containing cavity by metal material manufacture; Wherein, described first upper cover is electrically connected with described radiating subassembly containing cavity, covers and be provided with some exhaust vents on described first, and the aperture of described exhaust vent is 2mm ~ 4mm;

Installation frame, for being fixed on described rack or subrack by described heat management control assembly; It comprises: two to be formed by metal material manufacture and in the siding track to grip described heat management control assembly be oppositely arranged, formed by metal material manufacture and be hollow and upper opening shape arrange with the external lug containing cavity of accommodating external lug, be overlying on the second upper cover of the upper opening of described external lug containing cavity; Wherein, described external lug containing cavity is being connected with siding track described in two between siding track described in two; And described second upper cover, external structure containing cavity and two siding tracks are all electrically connected; Siding track described in two is respectively equipped with away from the end of described external lug containing cavity: a L-shaped setting is to be fixed on the hangers on rack by siding track, first side plate and the described siding track of described hangers removably connect, and the second side plate and the described rack of described hangers removably connect; Siding track described in two is also provided with the tapped through hole that can be fixedly connected with subrack away from the end of described external lug containing cavity.

2. heat management control module as claimed in claim 1, it is characterized in that, the aperture of described exhaust vent is 4mm.

3. heat management control module as claimed in claim 1, it is characterized in that, the spacing between described exhaust vent is 8mm ~ 10mm.

4. heat management control module as claimed in claim 1, it is characterized in that, the first upper cover is fixedly connected with described radiating subassembly containing cavity by the first screw.

5. heat management control module as claimed in claim 1, it is characterized in that, described second upper cover is fixedly connected with described external lug containing cavity by the second screw.

6. the heat management control module as described in any one of claim 1 ~ 5, is characterized in that, also comprise voltage changing module, and 12V, 24V, 48V voltage transformation can be converted to galvanic current source by described voltage changing module, uses for described radiating subassembly.

7. the heat management control module as described in any one of claim 1 ~ 5, it is characterized in that, also comprise the air rate adjustment module of the air output of the ambient temperature adjustment radiating subassembly according to rack or subrack, described air rate adjustment module comprises and is located at radiating subassembly air inlet and the temp probe of output temperature signal, the control module of described radiating subassembly air output is adjusted for the temperature signal that exports according to described temp probe and default reference value, the output of described temp probe is connected with the temperature signal input of described control module, the control signal output of described control module is connected with described radiating subassembly controlled end.

8. the heat management control module as described in any one of claim 1 ~ 5, is characterized in that, described radiating subassembly comprises 1 ~ 6 aerofoil fan.

9. heat management control module as claimed in claim 8, it is characterized in that, also comprise fault warning module, described fault warning module comprises: for the measure voltage & current unit of the voltage/current output voltage values or current value that detect described aerofoil fan, for exporting the control unit of control signal according to described magnitude of voltage or current value, and start the state display lamp of bright light according to described control signal; Wherein, the output of described current detecting unit is connected with the input of described control unit, and the control signal output of described control unit is connected with described state display lamp.