CN107293882A - Electric connector structure - Google Patents

Abstract

A kind of electric connector structure, includes heat conduction shell；Pedestal, with upper plug-and-pull port and lower plug-and-pull port, pedestal is located at heat conduction shell；Separate heat-conducting piece up and down, with upper demarcation strip, front panel and lower demarcation strip, upper demarcation strip has upper shed, and lower demarcation strip has under shed, it is upper plug channel and lower plug channel that heat-conducting piece is separated up and down and separates heat conduction shell；Heat-conducting piece, with upper thermal conductive surface, lower thermal conductive surface and the first air-flow channel, the first air-flow channel is located between upper thermal conductive surface and lower thermal conductive surface, and heat-conducting piece is arranged to be separated in heat-conducting piece up and down；Upper heat-conducting plate, with upper heat conducting spring plate, upper heat-conducting plate is located at upper shed and the upper thermal conductive surface of connection；Lower heat-conducting plate, with lower heat conducting spring plate, lower heat-conducting plate is located under shed and the lower thermal conductive surface of connection.Therefore, the present invention can reduce the temperature that channel is plugged under electric connector with easy structure.

Description

Electric connector structure

Technical field

The present invention relates to a kind of electric connector structure, more particularly to one kind can be with plug under easy structure reduction electric connector The temperature device of channel.

Background technology

Electric connector is commonly applied to the transmission of electronic installation data, but general electric connector often can in transmission data Occur lower plug passage because radiating is difficult and caused by temperature lifted.Therefore, U.S.'s 2013/0164970A1 patents of invention Heat-conducting plate has main wall or at least one side wall (U or L), and resilient fingers support plate is fixed on the wall of side, passes through resilient fingers The characteristic of thermal contact resistance can be reduced, produced heat energy is transferred to heat-conducting plate when electric connector is operated, afterwards again by leading Fin radiating outside hot plate.However, the use environment of electric connector is limited to, in electric connector side by side, heat-conducting plate The heatsink transverse sector-meeting of main wall occupies excessive environment space；In addition, resilient fingers support plate is assembled in by heat-conducting plate and is electrically connected Connect on device, its assembling process and structure all show complexity；Furthermore, the upper plug channel and lower plug channel of electric connector install bullet additional Property finger piece support plate can be such that the contact force and contact engaging and separating force of plug-in and pull-off device is difficult to while taking into account.

Therefore, a kind of electric connector structure how is invented, so that it can be with plug under easy structure reduction electric connector The temperature of channel, will be that the present invention is intended to actively disclose part.

The content of the invention

Between the shortcoming of above-mentioned prior art, it does not reach perfection inventor's thoughts, then exhausts its intelligence and concentrates one's attention on research gram Clothes, and then a kind of electric connector structure is developed, the temperature that channel is plugged under electric connector can be reduced with easy structure to reach The purpose of degree.

For up to above-mentioned purpose and other purposes, the first aspect of the invention provides a kind of electric connector structure, and it is included：Lead Hot housing；At least one pedestal, it has upper plug-and-pull port and lower plug-and-pull port, and the pedestal is arranged at the heat conduction shell；At least one Separate heat-conducting piece up and down, it has upper demarcation strip, front panel and lower demarcation strip, the front panel is connected to the front side of demarcation strip on this Between the front side of the lower demarcation strip, demarcation strip has upper shed on this, and the lower demarcation strip has under shed, should up and down separate and lead Warmware separate the heat conduction shell for it is upper plug passage and lower plug passage with respectively to plug-and-pull port and the lower plug-and-pull port should be gone up；Extremely A few heat-conducting piece, it has upper thermal conductive surface, lower thermal conductive surface and at least one first gas channel, and first gas channel is located at On this between thermal conductive surface and the lower thermal conductive surface, the heat-conducting piece is arranged at this and separated up and down in heat-conducting piece；Heat-conducting plate at least one, It has heat conducting spring plate at least one, and heat-conducting plate is arranged at the upper shed and connects thermal conductive surface on this on this, heat conduction bullet on this Piece is protruded from and plugged on this in passage；And at least one lower heat-conducting plate, it has at least one lower heat conducting spring plate, the lower heat conduction Plate is arranged at the under shed and connects the lower thermal conductive surface, and the lower heat conducting spring plate is protruded from the lower plug passage.

In the electric connector structure of above-mentioned first aspect, when the pedestal is multiple, the pedestal is transversely arranged to be arranged at this Heat conduction shell, the electric connector structure also separates heat-conducting plate comprising at least one left and right, and left and right separation heat-conducting plate has multiple Left heat conducting spring plate and multiple right heat conducting spring plates, the left and right separate heat-conducting plate and separate the adjacent upper plug passage, described in left and right Separate heat-conducting piece and the lower plug passage up and down, the left heat conducting spring plate is protruded from respectively to be plugged in passage and the underthrust on this Pull out in passage, the right heat conducting spring plate is protruded from this in plug passage and in the lower plug passage respectively.

In the electric connector structure of above-mentioned first aspect, the front panel of heat-conducting piece should be separated up and down has at least one preceding gas Stream opening, the pedestal has at least one second gas channel between plug-and-pull port on this and the lower plug-and-pull port, and the preceding air-flow is opened Mouth, first gas channel and second gas channel are sequentially connected.

In the electric connector structure of above-mentioned first aspect, the upper thermal conductive surface of the heat-conducting piece is to lead under plane, the heat-conducting piece Hot face is plane.

In the electric connector structure of above-mentioned first aspect, heat-conducting plate was with that should separate the upper demarcation strip one of heat-conducting piece up and down on this Body formed, the lower heat-conducting plate is integrally formed with that should separate the lower demarcation strip of heat-conducting piece up and down.

In the electric connector structure of above-mentioned first aspect, on this upper heat conducting spring plate of heat-conducting plate for it is multiple when, it is described on lead Thermoelastic piece protrudes from the upper thermal conductive surface for plugging in passage and contacting the heat-conducting piece on this, the lower heat conducting spring plate of the lower heat-conducting plate respectively For it is multiple when, the lower heat conducting spring plate protrudes from the lower plug passage and contacted the lower thermal conductive surface of the heat-conducting piece respectively.

In the electric connector structure of above-mentioned first aspect, also comprising plug-in and pull-off device be placed on this plug passage or this under Passage is plugged, and contacts the lower heat conducting spring plate of the upper heat conducting spring plate of heat-conducting plate or the lower heat-conducting plate on this.

In the electric connector structure of above-mentioned first aspect, also comprising plug-in and pull-off device be placed on this plug passage or this under Passage is plugged, and contacts the lower heat conducting spring plate of the upper heat conducting spring plate of heat-conducting plate or the lower heat-conducting plate on this, and contacts the left and right point Every the left heat conducting spring plate or right heat conducting spring plate of heat-conducting plate.

In the electric connector structure of above-mentioned first aspect, also comprising at least one radiating piece, the heat conduction shell has at least One open top, the radiating piece is arranged at the open top, and the bottom of the radiating piece is protruded from this in plug passage.

For up to above-mentioned purpose and other purposes, the second aspect of the invention provides a kind of electric connector structure, and it is included：Lead Hot housing；At least one pedestal, it has upper plug-and-pull port and lower plug-and-pull port, and the pedestal is arranged at the heat conduction shell；At least one Separate heat-conducting piece up and down, it has upper demarcation strip, front panel and lower demarcation strip, the front panel is connected to the front side of demarcation strip on this Between the front side of the lower demarcation strip, demarcation strip has upper shed on this, and the lower demarcation strip has under shed, should up and down separate and lead Warmware separate the heat conduction shell for it is upper plug passage and lower plug passage with respectively to plug-and-pull port and the lower plug-and-pull port should be gone up；Extremely A few heat-conducting piece, it has upper thermal conductive surface, lower thermal conductive surface and at least one first gas channel, and first gas channel is located at On this between thermal conductive surface and the lower thermal conductive surface, the heat-conducting piece is arranged at this and separated up and down in heat-conducting piece；Heat-conducting block at least one, It is arranged at the upper shed and connects thermal conductive surface on this, and heat-conducting block is protruded from and plugged on this in passage on this；And at least one Lower heat-conducting block, it is arranged at the under shed and connects the lower thermal conductive surface, and the lower heat-conducting block is protruded from the lower plug passage.

In the electric connector structure of above-mentioned second aspect, when the pedestal is multiple, the pedestal is transversely arranged to be arranged at this Heat conduction shell, the electric connector structure also separates heat-conducting plate comprising at least one left and right, and left and right separation heat-conducting plate has multiple Left heat conducting spring plate and multiple right heat conducting spring plates, the left and right separate heat-conducting plate and separate the adjacent upper plug passage, described in left and right Separate heat-conducting piece and the lower plug passage up and down, the left heat conducting spring plate is protruded from respectively to be plugged in passage and the underthrust on this Pull out in passage, the right heat conducting spring plate is protruded from this in plug passage and in the lower plug passage respectively.

In the electric connector structure of above-mentioned second aspect, the front panel of heat-conducting piece should be separated up and down has at least one preceding gas Stream opening, the pedestal has at least one second gas channel between plug-and-pull port on this and the lower plug-and-pull port, and the preceding air-flow is opened Mouth, first gas channel and second gas channel are sequentially connected.

In the electric connector structure of above-mentioned second aspect, the upper thermal conductive surface of the heat-conducting piece is to lead under plane, the heat-conducting piece Hot face is plane.

In the electric connector structure of above-mentioned second aspect, also comprising plug-in and pull-off device be placed on this plug passage or this under Passage is plugged, and contacts heat-conducting block or the lower heat-conducting block on this.

In the electric connector structure of above-mentioned second aspect, also comprising plug-in and pull-off device be placed on this plug passage or this under Passage is plugged, and contacts heat-conducting block or the lower heat-conducting block on this, and contacts left heat conducting spring plate or the right side that the left and right separates heat-conducting plate Heat conducting spring plate.

In the electric connector structure of above-mentioned second aspect, also comprising at least one radiating piece, the heat conduction shell has at least One open top, the radiating piece is arranged at the open top, and the bottom of the radiating piece is protruded from this in plug passage.

Therefore, electric connector structure of the invention can reduce the temperature that channel is plugged under electric connector with easy structure.

Brief description of the drawings

Fig. 1 is the decomposing schematic representation one of the first preferred embodiment electric connector structure of the invention；

Fig. 2 is the decomposing schematic representation of the first preferred embodiment electric connector structure side of the invention；

Fig. 3 is the decomposing schematic representation two of the first preferred embodiment electric connector structure of the invention；

Fig. 4 is the combination diagram one of the first preferred embodiment electric connector structure of the invention；

Fig. 5 is the combination diagram two of the first preferred embodiment electric connector structure of the invention；

Fig. 6 is the decomposing schematic representation one of the second preferred embodiment electric connector structure of the invention；

Fig. 7 is the decomposing schematic representation two of the second preferred embodiment electric connector structure of the invention；

Fig. 8 is the combination diagram of heat-conducting block and lower heat-conducting block and heat-conducting piece in the second preferred embodiment of the invention；

Fig. 9 be in the first preferred embodiment of the invention heat-conducting plate and lower heat-conducting plate with separate up and down heat-conducting piece one into The schematic diagram of type；

Figure 10 is that decomposition of first and second preferred embodiment electric connector structure comprising plug-in and pull-off device of the invention is shown It is intended to；

Figure 11 is the schematic diagram of first and second preferred embodiment electric connector structure temperature simulation of the invention.

【Symbol description】

1 heat conduction shell

Passage is plugged on 11

12 times plug passages

13 open tops

2 pedestals

Plug-and-pull port on 21

22 times plug-and-pull ports

23 second gas channels

24 are electrically connected junction

25 light conductors

About 3 separate heat-conducting piece

Demarcation strip on 31

311 upper sheds

32 times demarcation strips

321 under sheds

33 front panels

Gas flow opening before 331

4 heat-conducting pieces

Thermal conductive surface on 41

42 times thermal conductive surfaces

43 first gas channels

44 light conductor accommodating areas

Heat-conducting plate on 5

Heat conducting spring plate on 51

Heat-conducting block on 5 '

6 times heat-conducting plates

61 times heat conducting spring plates

Heat-conducting block under 6 '

7 or so separate heat-conducting plate

71 left heat conducting spring plates

72 right heat conducting spring plates

8 radiating pieces

81 bottoms

82 radiating fins

9 backboards

Gas flow opening after 91

10 plug-in and pull-off devices

Embodiment

To be fully understood by the purpose of the present invention, feature and effect, now by following specific embodiments, and coordinate accompanying drawing, The present invention is described in further details, is described as follows：

Fig. 1 to Fig. 5 is refer to, as illustrated, the first aspect of the present invention provides a kind of electric connector structure, it includes and led Hot housing 1, at least one pedestal 2, at least one separation heat-conducting piece 3, at least one heat-conducting piece 4, heat conduction at least one up and down Plate 5 and at least one lower heat-conducting plate 6.Wherein, the heat conduction shell 1 can be cuboid；The pedestal 2 has upper plug-and-pull port 21 and underthrust Mouth 22 is pulled out, the rear side that the pedestal 2 may be disposed in the heat conduction shell 1, the junction 24 that is electrically connected of the pedestal 2 exposes to the heat conduction shell 1 with electrical connection circuit plate (not shown)；Heat-conducting piece 3 should be separated up and down has upper demarcation strip 31, front panel 33 and lower demarcation strip 32, the front panel 33 is connected on this between front side of demarcation strip 31 and the front side of the lower demarcation strip 32, and demarcation strip 31 has on this There is upper shed 311, the lower demarcation strip 32 has under shed 321, the separation heat conduction shell 1 of heat-conducting piece 3 should be separated up and down and is inserted to be upper Passage 11 and lower plug passage 12 is pulled out, respectively to plug-and-pull port 21 and the lower plug-and-pull port 22 should be gone up, heat-conducting piece 3 should to be separated up and down Quantity be to should pedestal quantity 2；The heat-conducting piece 4 has upper thermal conductive surface 41, lower thermal conductive surface 42 and at least one first gas Circulation road 43, first gas channel 43 is located on this between thermal conductive surface 41 and the lower thermal conductive surface 42, and the heat-conducting piece 4 is arranged at this Separate up and down in heat-conducting piece 3, the quantity of the heat-conducting piece 4 be to should pedestal 2 quantity, in addition, the both sides difference of the heat-conducting piece 4 There can be light conductor accommodating area 44 to house light conductor 25 respectively；Heat-conducting plate 5 has heat conducting spring plate 51 at least one on this, should Upper heat-conducting plate 5 is arranged at the upper shed 311 and can led with riveted, trip, heat-conducting cream or solder connection thermal conductive surface 41 on this, on this Thermoelastic piece 51 is protruded from and plugged on this in passage 11 to contact plug-in and pull-off device, and quantity of heat-conducting plate 5 is to should heat-conducting piece 4 on this Quantity, if on this heat conducting spring plate 51 be in-line, free end of heat conducting spring plate 51 is towards plug-and-pull port on this 21 on this, to keep away Exempt from heat conducting spring plate 51 on this and stop plug-in and pull-off device, if heat conducting spring plate 51 is horizontal arc, heat conducting spring plate 51 on this on this Free end can towards plug-and-pull port on this 21 or dorsad on this plug-and-pull port 21；The lower heat-conducting plate 6 has at least one lower heat conducting spring plate 61, the lower heat-conducting plate 6 be arranged at the under shed 321 and can with riveted, trip, heat-conducting cream or solder connection the lower thermal conductive surface 42, The lower heat conducting spring plate 61 is protruded from the lower plug passage 12 to contact plug-in and pull-off device, and the quantity of the lower heat-conducting plate 6 is to should The quantity of heat-conducting piece 4, if the lower heat conducting spring plate 61 is in-line, the free end of the lower heat conducting spring plate 61 is towards the lower plug-and-pull port 22, to avoid the lower heat conducting spring plate 61 from stopping plug-in and pull-off device, if the lower heat conducting spring plate 61 is horizontal arc, the lower heat conduction bullet The free end of piece 61 can towards the lower plug-and-pull port 22 or dorsad lower plug-and-pull port 22.

Fig. 6 to Fig. 8 is refer to, as illustrated, the second aspect of the present invention provides another electric connector structure, it is with the The difference of the electric connector structure of one aspect is, in the electric connector structure of the first aspect, with upper heat conducting spring plate 51 Upper heat-conducting plate 5 be arranged at up and down separate heat-conducting piece 3 upper shed 311 and can be led with riveted, trip, heat-conducting cream or solder connection The upper thermal conductive surface 41 of warmware 4, upper heat conducting spring plate 51, which is protruded from, in addition plugs in passage 11 to contact plug-in and pull-off device, is led under having The lower heat-conducting plate 6 of thermoelastic piece 61 is arranged at the under shed 321 of separation heat-conducting piece 3 up and down and can be with riveted, trip, heat-conducting cream or weldering The lower thermal conductive surface 42 of material connection heat-conducting piece 4, descends heat conducting spring plate 61 to protrude from lower plug passage 12 to contact plug-in and pull-off device in addition, And to be then upper heat-conducting block 5 ' be arranged at the electric connector structure of the second aspect separates the upper shed 311 and connection of heat-conducting piece 3 up and down The upper thermal conductive surface 41 of heat-conducting piece 4, upper heat-conducting block 5 ', which is protruded from, in addition plugs in passage 11 to contact plug-in and pull-off device, lower heat-conducting block 6 ' are arranged at the under shed 321 for separating heat-conducting piece 3 up and down and the lower thermal conductive surface 42 for connecting heat-conducting piece 4, descend heat-conducting block 6 ' to dash forward in addition Plugged for lower in passage 12 to contact plug-in and pull-off device.

As described above, the electric connector structure of first and second of the invention aspect can by separate up and down heat-conducting piece 3, on lead Hot plate 5 (upper heat conducting spring plate 51) and upper heat-conducting block 5 ', heat-conducting piece 4 and lower heat-conducting plate 6 (lower heat conducting spring plate 61) and lower heat conduction Heat energy produced by the plug-in and pull-off device of electric connector is transferred to heat conduction shell 1 by block 6 ', is transferred to ring by heat conduction shell 1 again afterwards Border space, to avoid centralized heat energy from causing the temperature of specific region to rise in specific region, especially in lower plug channel 12 Plug-in and pull-off device.In addition, the heat-conducting piece 4 of the electric connector structure of first and second aspect of the invention has the first gas channel 43, it can increase heat-conducting area to lift the transmission efficiency of heat energy.Therefore, electric connector structure of the invention can be with easy structure Reduce the temperature that channel is plugged under electric connector.

Fig. 1 and Fig. 6 is refer again to, as illustrated, in the electric connector structure of first and second above-mentioned aspect, the pedestal 2 For it is multiple when, the transversely arranged rear side being arranged in the heat conduction shell 1 of the pedestal 2, the electric connector structure can also be comprising extremely Few one or so separation heat-conducting plate 7, the left and right, which separates heat-conducting plate 7, has multiple left heat conducting spring plates 71 and multiple right heat conducting spring plates 72, the left and right separates heat-conducting plate 7 and separates the adjacent upper plug passage 11 in left and right, described separates heat-conducting piece 3 and described up and down Lower plug passage 12, the left heat conducting spring plate 71 protrude from respectively plugged on this in passage 11 and the lower plug passage 12 in connect Touch plug-in and pull-off device, the right heat conducting spring plate 72 protrude from respectively on this plug passage 11 in and this it is lower plug passage 12 in contact Plug-in and pull-off device 10, the left and right separates the quantity of heat-conducting plate 7 and subtracts one for the quantity of the pedestal 2, and the left heat conducting spring plate 71 and the right side are led The quantity and arrangement mode of thermoelastic piece 72 are not limited to the aspect shown in Fig. 1 and Fig. 6, and it can set according to other are done needed for reality. If in addition, the left heat conducting spring plate 71 and the right heat conducting spring plate 72 are in-line, the left heat conducting spring plate 71 and the right heat conducting spring plate 72 free end is towards plug-and-pull port on this 11 or the lower plug-and-pull port 12, to avoid the left heat conducting spring plate 71 and the right heat conducting spring plate 72 Stop plug-in and pull-off device, if the left heat conducting spring plate 71 and the right heat conducting spring plate 72 are sagittal arc, the left heat conducting spring plate 71 And the free end of the right heat conducting spring plate 72 can towards plug-and-pull port on this 21 or the lower plug-and-pull port 22, or dorsad on this plug-and-pull port 21 or The lower plug-and-pull port 22.Therefore, when the pedestal 2 side by side when, the heat energy produced by the plug-in and pull-off device of electric connector can be again by this Left and right separates heat-conducting plate 7 and is transferred to heat conduction shell 1, environment space is transferred to by heat conduction shell 1 again afterwards, to avoid centralized heat energy The temperature for causing specific region in specific region rises, especially the plug-in and pull-off device in lower plug channel 12.

Fig. 1 and Fig. 6 is refer again to, as illustrated, in the electric connector structure of first and second above-mentioned aspect, should divide up and down There can be at least one preceding gas flow opening 331 every the front panel 33 of heat-conducting piece 3, the pedestal 2 there can be at least one second air-flow Passage 23 between plug-and-pull port on this 21 and the lower plug-and-pull port 22, the preceding gas flow opening 331, first gas channel 43 and this Two gas channels 23 are sequentially connected.In addition, the electric connector structure of first and second aspect of the invention can also be comprising backboard 9 with even The rear side and the rear side positioned at this (s) pedestal 2 of the heat conduction shell 1 are connected to, the backboard 9 there can be at least one rear gas flow opening 91 are connected with the second gas channel 23 with the pedestal 2.Therefore, the electric connector structure of first and second of the invention aspect is except can Transferred thermal energy to by said structure outside environment space, can also pass through the preceding gas flow opening 331, first gas channel again 43rd, second gas channel 23 and the rear gas flow opening 91 produce thermal convection current further to lift the transmission efficiency of heat energy.

Fig. 1 and Fig. 6 is refer again to, as illustrated, in the electric connector structure of first and second above-mentioned aspect, the heat-conducting piece 4 upper thermal conductive surface 41 can be plane, and the lower thermal conductive surface 42 of the heat-conducting piece 4 can be plane.Therefore, on this heat-conducting plate 5 and this on lead Hot block 5 ' can be easy to be connected with thermal conductive surface on this 41, and the lower heat-conducting plate 6 and the lower heat-conducting block 6 ' can be easy to and the lower thermal conductive surface 42 Connection.

Fig. 1 and Fig. 6 is refer again to, as illustrated, in the electric connector structure of first and second above-mentioned aspect, can also include At least one radiating piece 8, the radiating piece 8 can have at least one radiating fin 82, and the heat conduction shell 1 has at least one top Opening 13, the radiating piece 8 is arranged at the open top 13, and the bottom 81 of the radiating piece 8 is protruded from this in plug passage 11 To contact plug-in and pull-off device.Therefore, the electric connector structure of first and second of the invention aspect is except can be by said structure by heat energy It is transferred to outside environment space, also can produces thermal convection current to lift the transmission efficiency of heat energy by the radiating piece 8 again.

Refer to Fig. 9, as illustrated, in the electric connector structure of above-mentioned first aspect, on this heat-conducting plate 5 can with above and below this The upper demarcation strip 31 for separating heat-conducting piece 3 is integrally formed, and the lower heat-conducting plate 6 can separate the lower demarcation strip 32 of heat-conducting piece 3 up and down with this It is integrally formed.Therefore, the electric connector structure of first and second aspect of the invention can simplify structure.

Fig. 9 is refer again to, as illustrated, in the electric connector structure of above-mentioned first aspect, the upper heat conduction of heat-conducting plate 5 on this When shell fragment 51 is multiple, the upper heat conducting spring plate 51 is protruded from respectively to be plugged in passage 11 to contact plug-in and pull-off device and contact on this The upper thermal conductive surface 41 of the heat-conducting piece 4, when the lower heat conducting spring plate 61 of the lower heat-conducting plate 6 is multiple, the lower heat conducting spring plate 61 is distinguished Protrude from the lower thermal conductive surface 42 to contact plug-in and pull-off device and contact the heat-conducting piece 4 in the lower plug passage 12.Therefore, led on described Thermoelastic piece 51 and the lower heat conducting spring plate 61 can contact the heat-conducting piece 4 and plug-in and pull-off device really to lift the transmission efficiency of heat energy.

Figure 10 is refer to, as illustrated, in the electric connector structure of first and second above-mentioned aspect, can also include plug dress Put 10 and plug passage 11 or the lower plug passage 12 to be placed on this, and contact on this upper heat conducting spring plate 51 of heat-conducting plate 5 or Heat-conducting block 5 ' on this, or the lower heat-conducting plate 6 lower heat conducting spring plate 61 or the lower heat-conducting block 6 '.Therefore, the plug-in and pull-off device 10 is produced Raw heat energy can be transferred to environment space really.

Figure 10 is refer again to, as illustrated, in the electric connector structure of first and second above-mentioned aspect, can also include plug Device 10 plugs passage 11 or the lower plug passage 12 to be placed on this, and contacts the upper heat conducting spring plate 51 of heat-conducting plate 5 on this Or heat-conducting block 5 ' on this, or the lower heat-conducting plate 6 lower heat conducting spring plate 61 or the lower heat-conducting block 6 ', and contact the left and right separate heat conduction The left heat conducting spring plate 71 or right heat conducting spring plate 72 of plate 7.Therefore, the heat energy produced by the plug-in and pull-off device 10 can be transferred to environment really Space.

Fig. 1, Fig. 6 and Figure 11 are refer to, Figure 11 is the schematic diagram of electric connector structure temperature simulation, in same test environment Under the conditions of, upper figure is the Temperature Distribution of general electric connector structure, and figure below is the electric connector of first and second aspect of the invention The upper thermal conductive surface 41 and lower thermal conductive surface 42 of the Temperature Distribution of structure, i.e. heat-conducting piece 4 connect heat-conducting plate 5 and lower heat-conducting plate 6 respectively Or the Temperature Distribution of the electric connector structure of upper heat-conducting block 5 ' and lower heat-conducting block 6 ' is connected respectively.Wherein, temperature picking point is each Temperature shown by the central point for the plug-in and pull-off device that plug passage is housed, as illustrated, the heat of general electric connector structure Transmission can be difficult, therefore heat energy is concentrated in specific region, causes the temperature of specific region to rise, especially in lower plug channel Plug-in and pull-off device, the temperature difference in itself and other regions reaches 5 degree to 8 degree, and the electric connector knot of first and second aspect of the invention The heat energy of structure is easily transmitted, therefore heat energy is not concentrated in specific region so that the Temperature Distribution of electric connector structure is more equal Even, the temperature difference between regional is only 1 degree to 2 degree.

The present invention hereinbefore disclosed by preferred embodiment, but be familiar with it will be understood by those skilled in the art that The embodiment is only used for describing the present invention, and is not construed as limiting the scope of the present invention.It should be noted that the every and implementation Example equivalent change and displacement, all should be set to be covered by scope of the invention.Therefore, protection scope of the present invention should be with power The scope that sharp claim is defined is defined.

Claims (16)

1. a kind of electric connector structure, it is characterised in that include：

Heat conduction shell；

At least one pedestal, it has upper plug-and-pull port and lower plug-and-pull port, and the pedestal is arranged at the heat conduction shell；

At least one separates heat-conducting piece up and down, and it has upper demarcation strip, front panel and lower demarcation strip, and the front panel is connected on this Between the front side of demarcation strip and the front side of the lower demarcation strip, demarcation strip has upper shed on this, and the lower demarcation strip has under shed, Should up and down separate heat-conducting piece separate the heat conduction shell for it is upper plug passage and lower plug passage with respectively to should go up plug-and-pull port and The lower plug-and-pull port；

At least one heat-conducting piece, it has upper thermal conductive surface, lower thermal conductive surface and at least one first gas channel, and first air-flow leads to Road is located on this between thermal conductive surface and the lower thermal conductive surface, and the heat-conducting piece is arranged at this and separated up and down in heat-conducting piece；

Heat-conducting plate at least one, it has heat conducting spring plate at least one, and heat-conducting plate is arranged at the upper shed and connection on this Thermal conductive surface on this, heat conducting spring plate is protruded from and plugged on this in passage on this；And

At least one lower heat-conducting plate, it has at least one lower heat conducting spring plate, and the lower heat-conducting plate is arranged at the under shed and connection The lower thermal conductive surface, the lower heat conducting spring plate is protruded from the lower plug passage.

2. electric connector structure as claimed in claim 1, it is characterised in that when the pedestal is multiple, the pedestal is laterally arranged Row are arranged at the heat conduction shell, and the electric connector structure also separates heat-conducting plate comprising at least one left and right, and the left and right separates heat conduction Plate has multiple left heat conducting spring plates and multiple right heat conducting spring plates, and the left and right separates heat-conducting plate and separates the adjacent upper plug in left and right Passage, separation heat-conducting piece and the lower plug passage up and down, the left heat conducting spring plate protrude from plug passage on this respectively In the interior and lower plug passage, the right heat conducting spring plate is protruded from this in plug passage and in the lower plug passage respectively.

3. electric connector structure as claimed in claim 1, it is characterised in that should separate the front panel of heat-conducting piece up and down has extremely A few preceding gas flow opening, the pedestal has at least one second gas channel between plug-and-pull port on this and the lower plug-and-pull port, The preceding gas flow opening, first gas channel and second gas channel are sequentially connected.

4. electric connector structure as claimed in claim 1, it is characterised in that the upper thermal conductive surface of the heat-conducting piece is plane, and this is led The lower thermal conductive surface of warmware is plane.

5. electric connector structure as claimed in claim 1, it is characterised in that heat-conducting plate was with that should separate heat-conducting piece up and down on this Upper demarcation strip is integrally formed, and the lower heat-conducting plate is integrally formed with that should separate the lower demarcation strip of heat-conducting piece up and down.

6. electric connector structure as claimed in claim 5, it is characterised in that upper heat conducting spring plate of heat-conducting plate is multiple on this When, the upper heat conducting spring plate protrudes from the upper thermal conductive surface for plugging in passage and contacting the heat-conducting piece on this, the lower heat-conducting plate respectively Lower heat conducting spring plate for it is multiple when, the lower heat conducting spring plate protrude from respectively this it is lower plug passage in and contact under the heat-conducting piece Thermal conductive surface.

7. electric connector structure as claimed in claim 1, it is characterised in that plugged also comprising plug-in and pull-off device with being placed on this Passage or the lower plug passage, and contact the lower heat conducting spring plate of the upper heat conducting spring plate of heat-conducting plate or the lower heat-conducting plate on this.

8. electric connector structure as claimed in claim 2, it is characterised in that plugged also comprising plug-in and pull-off device with being placed on this Passage or the lower plug passage, and the lower heat conducting spring plate of the upper heat conducting spring plate of heat-conducting plate or the lower heat-conducting plate on this is contacted, and connect Touch left heat conducting spring plate or right heat conducting spring plate that the left and right separates heat-conducting plate.

9. electric connector structure as claimed in claim 1, it is characterised in that also comprising at least one radiating piece, the heat conduction shell Body has at least one open top, and the radiating piece is arranged at the open top, and the bottom of the radiating piece protrudes from and inserted on this Pull out in passage.

10. a kind of electric connector structure, it is characterised in that include：

Heat conduction shell；

At least one pedestal, it has upper plug-and-pull port and lower plug-and-pull port, and the pedestal is arranged at the heat conduction shell；

At least one separates heat-conducting piece up and down, and it has upper demarcation strip, front panel and lower demarcation strip, and the front panel is connected on this Between the front side of demarcation strip and the front side of the lower demarcation strip, demarcation strip has upper shed on this, and the lower demarcation strip has under shed, Should up and down separate heat-conducting piece separate the heat conduction shell for it is upper plug passage and lower plug passage with respectively to should go up plug-and-pull port and The lower plug-and-pull port；

At least one heat-conducting piece, it has upper thermal conductive surface, lower thermal conductive surface and at least one first gas channel, and first air-flow leads to Road is located on this between thermal conductive surface and the lower thermal conductive surface, and the heat-conducting piece is arranged at this and separated up and down in heat-conducting piece；

Heat-conducting block at least one, it is arranged at the upper shed and connects thermal conductive surface on this, and heat-conducting block is protruded from and inserted on this on this Pull out in passage；And

At least one lower heat-conducting block, it is arranged at the under shed and connects the lower thermal conductive surface, and the lower heat-conducting block protrudes from the underthrust Pull out in passage.

11. electric connector structure as claimed in claim 10, it is characterised in that when the pedestal is multiple, the pedestal is horizontal Spread configuration is in the heat conduction shell, and the electric connector structure also separates heat-conducting plate comprising at least one left and right, and the left and right, which separates, leads Hot plate has multiple left heat conducting spring plates and a multiple right heat conducting spring plates, and the left and right, which separates heat-conducting plate and separates adjacent described in left and right, upper inserts Passage, separation heat-conducting piece and the lower plug passage up and down are pulled out, the left heat conducting spring plate, which protrudes to plug on this respectively, to be led to In road and in the lower plug passage, the right heat conducting spring plate is protruded from this in plug passage and in the lower plug passage respectively.

12. electric connector structure as claimed in claim 10, it is characterised in that should separate the front panel of heat-conducting piece up and down has At least one preceding gas flow opening, the pedestal have at least one second gas channel in plug-and-pull port on this and the lower plug-and-pull port it Between, the preceding gas flow opening, first gas channel and second gas channel are sequentially connected.

13. electric connector structure as claimed in claim 10, it is characterised in that the upper thermal conductive surface of the heat-conducting piece is plane, should The lower thermal conductive surface of heat-conducting piece is plane.

14. electric connector structure as claimed in claim 10, it is characterised in that inserted also comprising plug-in and pull-off device with being placed on this Passage or the lower plug passage are pulled out, and contacts heat-conducting block or the lower heat-conducting block on this.

15. electric connector structure as claimed in claim 11, it is characterised in that inserted also comprising plug-in and pull-off device with being placed on this Passage or the lower plug passage are pulled out, and contacts heat-conducting block or the lower heat-conducting block on this, and contacts the left side that the left and right separates heat-conducting plate Heat conducting spring plate or right heat conducting spring plate.

16. electric connector structure as claimed in claim 10, it is characterised in that also comprising at least one radiating piece, the heat conduction Housing has at least one open top, and the radiating piece is arranged at the open top, and the bottom of the radiating piece is protruded from this Plug in passage.