CN205509092U - Electrical connector structure - Google Patents

Abstract

The utility model relates to an electrical connector structure contains conducting shell, the base has last plug mouth and reaches plug mouth down, and conducting shell is located to the base, separating the heat -conducting piece from top to bottom, having last division board, front panel and division board down, go up the division board and have the upper shed, lower division board has the under shed, separates the heat -conducting piece from top to bottom and separates conducting shell for last plug channel and plug channel down, the heat -conducting piece has last heat conduction face, descends heat conduction face and first air current channel, and first air current channel is located between heat conduction face and the lower heat conduction face, and the heat -conducting piece sets up in separating the heat -conducting piece from top to bottom, go up the heat -conducting plate, have last heat conduction shell fragment, go up the heat -conducting plate and locate the upper shed and connect the heat conduction face of going up, the heat -conducting plate has lower heat conduction shell fragment down, and lower heat -conducting plate is located the under shed and is connected heat conduction face down. Therefore, the utility model discloses simply the structure reduces the temperature of plug channel under the electric connector.

Description

Electric connector structure

Technical field

This utility model relates to a kind of electric connector structure, and particularly relating to one can reduce electricity with easy structure The temperature device of channel is plugged under adapter.

Background technology

Electric connector is commonly applied to the transmission of electronic installation data, but general electric connector is at transmission number Temperature is caused to promote according to passage often can be plugged under occurring because heat radiation is difficult to.To this end, the U.S. The heat-conducting plate of 2013/0164970 A1 patent of invention has main wall or at least one sidewall (U or L), bullet Property finger piece support plate be fixed on sidewall, the characteristic of thermal contact resistance can be reduced by resilient fingers, with will During electric connector running, produced heat energy is transferred to heat-conducting plate, the most again by the heat radiation outside heat-conducting plate Sheet dispels the heat.But, it is limited to the use environment of electric connector, in electric connector side by side, heat-conducting plate The heatsink transverse sector-meeting of main wall occupies too much environment space；It addition, resilient fingers support plate passes through heat conduction Plate is assembled on electric connector, all aobvious complexity of its assembling process and structure；Furthermore, the upper of electric connector is inserted Pull out channel and lower plug channel all installs resilient fingers support plate additional and can make contact force and the plug of plug-in and pull-off device Power is difficult to take into account simultaneously.

Therefore, how to invent a kind of electric connector structure, so that it can reduce electrical connection with easy structure Plug the temperature of channel under device, will be that the present invention is intended to actively disclose part.

Utility model content

Between the shortcoming of above-mentioned prior art, inventor's thoughts its do not reach perfection, then exhaust its intelligence and know Heart research overcomes, and then develops a kind of electric connector structure, to reaching to reduce electricity with easy structure The purpose of the temperature of channel is plugged under adapter.

For reaching above-mentioned purpose and other purposes, the first aspect of the present utility model provides a kind of electric connector knot Structure, it comprises: heat conduction shell；At least one pedestal, it has upper plug-and-pull port and lower plug-and-pull port, this base Seat is arranged at this 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, this front panel is connected between the front side of demarcation strip on this and the front side of this lower demarcation strip, On this, demarcation strip has upper shed, and this lower demarcation strip has under shed, and this separates heat-conducting piece separation up and down should Heat conduction shell is that upper plug passage and lower plug passage are with respectively to going up plug-and-pull port and this 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 the first gas channel, is somebody's turn to do First gas channel is on this between thermal conductive surface and this lower thermal conductive surface, and this heat-conducting piece is arranged at this and divides up and down In heat-conducting piece；Heat-conducting plate at least one, it has heat conducting spring plate at least one, heat-conducting plate on this Being arranged at this upper shed and connect thermal conductive surface on this, on this, heat conducting spring plate protrudes from this in plug passage； And at least one lower heat-conducting plate, it has at least one lower heat conducting spring plate, and this lower heat-conducting plate is arranged at this Under shed and connect this lower thermal conductive surface, this lower heat conducting spring plate protrudes from this lower plug passage.

In the electric connector structure of above-mentioned first aspect, when this pedestal is multiple, described pedestal is transversely arranged Being arranged at this heat conduction shell, this electric connector structure also comprises separation heat-conducting plate, this left side about at least one Part on the right side, every heat-conducting plate, there is multiple left heat conducting spring plate and multiple right heat conducting spring plate, separate heat-conducting plate about this and divide The described upper plug passage adjacent every left and right, described separation heat-conducting piece and described lower plug passage, institute up and down State left heat conducting spring plate and protrude from this in plug passage and in this lower plug passage respectively, described right heat conduction bullet In sheet protrudes from this plug passage respectively and in this lower plug passage.

In the electric connector structure of above-mentioned first aspect, this front panel separating heat-conducting piece up and down has at least One front gas flow opening, this pedestal have at least one second gas channel on this plug-and-pull port and this lower insert Pulling out between mouth, this front gas flow opening, this first gas channel and this second gas channel sequentially connect.

In the electric connector structure of above-mentioned first aspect, the upper thermal conductive surface of this heat-conducting piece is plane, this heat conduction The lower thermal conductive surface of part is plane.

In the electric connector structure of above-mentioned first aspect, on this, heat-conducting plate separates the upper of heat-conducting piece up and down with this Demarcation strip is one-body molded, and the lower demarcation strip that this lower heat-conducting plate separates heat-conducting piece up and down with this is one-body molded.

In the electric connector structure of above-mentioned first aspect, when on this, the upper heat conducting spring plate of heat-conducting plate is multiple, In described upper heat conducting spring plate protrudes from plug passage on this respectively and contact the upper thermal conductive surface of this heat-conducting piece, should When the lower heat conducting spring plate of lower heat-conducting plate is multiple, described lower heat conducting spring plate protrudes from this lower plug passage respectively In and contact the lower thermal conductive surface of this heat-conducting piece.

In the electric connector structure of above-mentioned first aspect, also comprise plug-in and pull-off device and lead to be placed in plug on this Road maybe this lower plug passage, and contact the lower heat conduction of the upper heat conducting spring plate of heat-conducting plate maybe this lower heat-conducting plate on this Shell fragment.

In the electric connector structure of above-mentioned first aspect, also comprise plug-in and pull-off device and lead to be placed in plug on this Road maybe this lower plug passage, and contact the lower heat conduction of the upper heat conducting spring plate of heat-conducting plate maybe this lower heat-conducting plate on this Shell fragment, and contact and about this, separate the left heat conducting spring plate of heat-conducting plate or right heat conducting spring plate.

In the electric connector structure of above-mentioned first aspect, also comprise at least one radiating piece, this heat conduction shell Having at least one open top, this radiating piece is arranged at this open top, and dashes forward in the bottom of this radiating piece For in plug passage on this.

For reaching above-mentioned purpose and other purposes, the second aspect of the present utility model provides a kind of electric connector knot Structure, it comprises: heat conduction shell；At least one pedestal, it has upper plug-and-pull port and lower plug-and-pull port, this base Seat is arranged at this 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, this front panel is connected between the front side of demarcation strip on this and the front side of this lower demarcation strip, On this, demarcation strip has upper shed, and this lower demarcation strip has under shed, and this separates heat-conducting piece separation up and down should Heat conduction shell is that upper plug passage and lower plug passage are with respectively to going up plug-and-pull port and this 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 the first gas channel, is somebody's turn to do First gas channel is on this between thermal conductive surface and this lower thermal conductive surface, and this heat-conducting piece is arranged at this and divides up and down In heat-conducting piece；Heat-conducting block at least one, it is arranged at this upper shed and connects thermal conductive surface on this, is somebody's turn to do Upper heat-conducting block protrudes from this in plug passage；And at least one lower heat-conducting block, it is arranged under this and opens Mouthful and connect this lower thermal conductive surface, this lower heat-conducting block protrudes from this lower plug passage.

In the electric connector structure of above-mentioned second aspect, when this pedestal is multiple, described pedestal is transversely arranged Being arranged at this heat conduction shell, this electric connector structure also comprises separation heat-conducting plate, this left side about at least one Part on the right side, every heat-conducting plate, there is multiple left heat conducting spring plate and multiple right heat conducting spring plate, separate heat-conducting plate about this and divide The described upper plug passage adjacent every left and right, described separation heat-conducting piece and described lower plug passage, institute up and down State left heat conducting spring plate and protrude from this in plug passage and in this lower plug passage respectively, described right heat conduction bullet In sheet protrudes from this plug passage respectively and in this lower plug passage.

In the electric connector structure of above-mentioned second aspect, this front panel separating heat-conducting piece up and down has at least One front gas flow opening, this pedestal have at least one second gas channel on this plug-and-pull port and this lower insert Pulling out between mouth, this front gas flow opening, this first gas channel and this second gas channel sequentially connect.

In the electric connector structure of above-mentioned second aspect, the upper thermal conductive surface of this heat-conducting piece is plane, this heat conduction The lower thermal conductive surface of part is plane.

In the electric connector structure of above-mentioned second aspect, also comprise plug-in and pull-off device and lead to be placed in plug on this Road maybe this lower plug passage, and contact heat-conducting block maybe this lower heat-conducting block on this.

In the electric connector structure of above-mentioned second aspect, also comprise plug-in and pull-off device and lead to be placed in plug on this Road maybe this lower plug passage, and contact heat-conducting block maybe this lower heat-conducting block on this, and contact to separate about this and lead The left heat conducting spring plate of hot plate or right heat conducting spring plate.

In the electric connector structure of above-mentioned second aspect, also comprise at least one radiating piece, this heat conduction shell Having at least one open top, this radiating piece is arranged at this open top, and dashes forward in the bottom of this radiating piece For in plug passage on this.

Therefore, electric connector structure of the present utility model can reduce plug letter under electric connector with easy structure The temperature in road.

Accompanying drawing explanation

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

Fig. 2 is the exploded pictorial of this utility model the first preferred embodiment electric connector structure side Figure；

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

Fig. 4 is the combination schematic diagram one of this utility model the first preferred embodiment electric connector structure；

Fig. 5 is the combination schematic diagram two of this utility model the first preferred embodiment electric connector structure；

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

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

Fig. 8 is heat-conducting block and lower heat-conducting block and heat-conducting piece in this utility model the second preferred embodiment Combination schematic diagram；

Fig. 9 be in this utility model the first preferred embodiment heat-conducting plate and lower heat-conducting plate with separate up and down The integrated schematic diagram of heat-conducting piece；

Figure 10 is that first and second preferred embodiment electric connector structure of this utility model comprises plug The decomposing schematic representation of device；

Figure 11 is first and second preferred embodiment electric connector structure temperature simulation of this utility model Schematic diagram.

[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

5 ' upper heat-conducting blocks

6 times heat-conducting plates

61 times heat conducting spring plates

Heat-conducting block under 6 '

About 7 separate heat-conducting plate

71 left heat conducting spring plates

72 right heat conducting spring plates

8 radiating pieces

Bottom 81

82 radiating fins

9 backboards

Gas flow opening after 91

10 plug-in and pull-off devices

Detailed description of the invention

It is for being fully understood by the purpose of this utility model, feature and effect, existing by following specific embodiment, And coordinate accompanying drawing, this utility model is described in further details, is described as follows:

Refer to Fig. 1 to Fig. 5, as it can be seen, the first aspect of the present utility model provides one electrical connection Device structure, its comprise heat conduction shell 1, at least one pedestal 2, at least one separate up and down heat-conducting piece 3, At least one heat-conducting piece 4, heat-conducting plate 5 and at least one lower heat-conducting plate 6 at least one.Wherein, should Heat conduction shell 1 can be cuboid；This pedestal 2 has upper plug-and-pull port 21 and lower plug-and-pull port 22, this pedestal 2 may be disposed at the rear side in this heat conduction shell 1, and the junction 24 that is electrically connected of this pedestal 2 exposes to this heat conduction Housing 1 is with electrical connection circuit plate (not shown)；This separate up and down heat-conducting piece 3 have upper demarcation strip 31, Front panel 33 and lower demarcation strip 32, this front panel 33 be connected on this front side of demarcation strip 31 with under this Between the front side of demarcation strip 32, on this, demarcation strip 31 has upper shed 311, and this lower demarcation strip 32 has Have under shed 321, this separate up and down heat-conducting piece 3 separate this heat conduction shell 1 for upper plug passage 11 and Lower plug passage 12 is with respectively to going up plug-and-pull port 21 and this lower plug-and-pull port 22, and this separates up and down leads The quantity of warmware 3 is to should the quantity 2 of pedestal；This heat-conducting piece 4 has upper thermal conductive surface 41, lower heat conduction Face 42 and at least one the first gas channel 43, this first gas channel 43 is positioned at thermal conductive surface 41 on this And between this lower thermal conductive surface 42, this heat-conducting piece 4 is arranged at this and separates in heat-conducting piece 3 up and down, this heat conduction The quantity of part 4 be to should the quantity of pedestal 2, lead it addition, the both sides of this heat-conducting piece 4 can have respectively Body of light accommodating area 44 is to house light conductor 25 respectively；On this, heat-conducting plate 5 has heat conduction bullet at least one Sheet 51, on this, heat-conducting plate 5 is arranged at this upper shed 311 and can be with riveted, trip, heat-conducting cream or weldering Material connects thermal conductive surface 41 on this, and on this, heat conducting spring plate 51 protrudes from this in plug passage 11 with contact Plug-in and pull-off device, on this quantity of heat-conducting plate 5 be to should the quantity of heat-conducting piece 4, if heat conducting spring plate on this 51 is in-line, then on this, the free end of heat conducting spring plate 51 is towards plug-and-pull port 21 on this, to avoid on this Heat conducting spring plate 51 stops plug-in and pull-off device, if heat conducting spring plate 51 is the arc of level on this, then and heat conduction on this The free end of shell fragment 51 can be towards plug-and-pull port on this 21 or plug-and-pull port 21 on this dorsad；This lower heat-conducting plate 6 Having at least one lower heat conducting spring plate 61, this lower heat-conducting plate 6 is arranged at this under shed 321 and can be with riveting This lower thermal conductive surface 42 of conjunction, trip, heat-conducting cream or solder connection, this lower heat conducting spring plate 61 protrudes under this To contact plug-in and pull-off device in plug passage 12, the quantity of this lower heat-conducting plate 6 is to should heat-conducting piece 4 Quantity, if this lower heat conducting spring plate 61 is in-line, then the free end of this lower heat conducting spring plate 61 is towards under this Plug-and-pull port 22, to avoid this lower heat conducting spring plate 61 to stop plug-in and pull-off device, if this lower heat conducting spring plate 61 is The arc of level, then the free end of this lower heat conducting spring plate 61 can be towards this lower plug-and-pull port 22 or dorsad under this Plug-and-pull port 22.

Refer to Fig. 6 to Fig. 8, as it can be seen, the second aspect of the present utility model provides another kind to be electrically connected Connecing device structure, it is with the difference of the electric connector structure of the first aspect, being electrically connected of the first aspect Connect in device structure, there is the upper heat-conducting plate 5 of upper heat conducting spring plate 51 and be arranged at and separate heat-conducting piece 3 up and down Upper shed 311 and can with the upper thermal conductive surface 41 of riveted, trip, heat-conducting cream or solder connection heat-conducting piece 4, Additionally go up heat conducting spring plate 51 to protrude from plug passage 11 to contact plug-in and pull-off device, there is lower heat conduction bullet The lower heat-conducting plate 6 of sheet 61 be arranged at up and down separate heat-conducting piece 3 under shed 321 and can be with riveted, card The lower thermal conductive surface 42 of tenon, heat-conducting cream or solder connection heat-conducting piece 4, additionally descends heat conducting spring plate 61 to protrude from To contact plug-in and pull-off device in lower plug passage 12, the electric connector structure of the second aspect is then upper heat conduction Block 5 ' is arranged at the upper shed 311 separating heat-conducting piece 3 up and down and the upper thermal conductive surface 41 connecting heat-conducting piece 4, Additionally going up heat-conducting block 5 ' to protrude from plug passage 11 to contact plug-in and pull-off device, lower heat-conducting block 6 ' sets It is placed in the under shed 321 separating heat-conducting piece 3 up and down and the lower thermal conductive surface 42 connecting heat-conducting piece 4, additionally It is interior to contact plug-in and pull-off device that lower heat-conducting block 6 ' protrudes from lower plug passage 12.

As it has been described above, the electric connector structure of first and second aspect of this utility model can be by separating up and down Heat-conducting piece 3, upper heat-conducting plate 5 (upper heat conducting spring plate 51) and upper heat-conducting block 5 ', heat-conducting piece 4 and lower heat conduction Plate 6 (lower heat conducting spring plate 61) and lower heat-conducting block 6 ' are by heat energy produced by the plug-in and pull-off device of electric connector It is transferred to heat conduction shell 1, is transferred to environment space by heat conduction shell 1 the most again, to avoid centralized heat energy The temperature causing specific region in specific region rises, and the especially plug at lower plug channel 12 fills Put.It addition, the heat-conducting piece 4 of the electric connector structure of first and second aspect of this utility model has first Gas channel 43, it can increase heat-conducting area to promote the transmission efficiency of heat energy.Therefore, this practicality is new The electric connector structure of type can reduce the temperature plugging channel under electric connector with easy structure.

Refer again to Fig. 1 and Fig. 6, as it can be seen, the electric connector structure of first and second aspect above-mentioned In, when this pedestal 2 is multiple, the transversely arranged rear side being arranged in this heat conduction shell 1 of described pedestal 2, This electric connector structure also can comprise separation heat-conducting plate 7 about at least one, separates heat-conducting plate 7 about this There is multiple left heat conducting spring plate 71 and multiple right heat conducting spring plate 72, separate heat-conducting plate 7 about this and separate a left side Right adjacent described upper plug passage 11, described separation heat-conducting piece 3 and described lower plug passage 12 up and down, In described left heat conducting spring plate 71 protrudes from this plug passage 11 respectively and in this lower plug passage 12 with Contact plug-in and pull-off device, in described right heat conducting spring plate 72 protrudes from this plug passage 11 respectively and this lower is inserted Pulling out passage 12 interior to contact plug-in and pull-off device 10, the quantity separating heat-conducting plate 7 about this is this pedestal 2 Quantity subtracts one, and this left heat conducting spring plate 71 and the quantity of this right heat conducting spring plate 72 and arrangement mode are not limited to figure Aspect shown in 1 and Fig. 6, it can do other settings needed for actual.If it addition, this left heat conduction bullet Sheet 71 and this right heat conducting spring plate 72 are in-line, then this left heat conducting spring plate 71 and this right heat conducting spring plate 72 Free end towards plug-and-pull port 11 maybe this lower plug-and-pull port 12 on this, with avoid this left heat conducting spring plate 71 and This right heat conducting spring plate 72 stops plug-in and pull-off device, if this left heat conducting spring plate 71 and this right heat conducting spring plate 72 are Sagittal arc, then the free end of this left heat conducting spring plate 71 and this right heat conducting spring plate 72 can be towards on this Plug-and-pull port 21 maybe this lower plug-and-pull port 22, or plug-and-pull port 21 maybe this lower plug-and-pull port 22 on this dorsad.Therefore, When described pedestal 2 side by side time, heat energy produced by the plug-in and pull-off device of electric connector can be again by about this point It is transferred to heat conduction shell 1 every heat-conducting plate 7, is transferred to environment space by heat conduction shell 1 the most again, to keep away Exempt from centralized heat energy causes the temperature of specific region to rise, especially at lower plug channel in specific region The plug-in and pull-off device of 12.

Refer again to Fig. 1 and Fig. 6, as it can be seen, the electric connector structure of first and second aspect above-mentioned In, this front panel 33 separating heat-conducting piece 3 up and down can have gas flow opening 331 before at least one, should Pedestal 2 can have at least one second gas channel 23 plug-and-pull port 21 and this lower plug-and-pull port 22 on this Between, this front gas flow opening 331, this first gas channel 43 and this second gas channel 23 sequentially connect Logical.It addition, the electric connector structure of first and second aspect of this utility model also can comprise backboard 9 with even Be connected to the rear side of this heat conduction shell 1 and be positioned at this (s) the rear side of pedestal 2, this backboard 9 can have at least After one, gas flow opening 91 connects with the second gas channel 23 with this pedestal 2.Therefore, this practicality is new The electric connector structure of first and second aspect of type is empty except transferring thermal energy to environment by said structure Outside between, it is possible to again by this front gas flow opening 331, this first gas channel 43, this second gas channel 23 and this rear gas flow opening 91 produce thermal convection current to promote further the transmission efficiency of heat energy.

Refer again to Fig. 1 and Fig. 6, as it can be seen, the electric connector structure of first and second aspect above-mentioned In, the upper thermal conductive surface 41 of this heat-conducting piece 4 can be plane, and the lower thermal conductive surface 42 of this heat-conducting piece 4 can be flat Face.Therefore, on this heat-conducting plate 5 and on this heat-conducting block 5 ' can be easy to be connected with thermal conductive surface on this 41, This lower heat-conducting plate 6 and this lower heat-conducting block 6 ' can be easy to be connected with this lower thermal conductive surface 42.

Refer again to Fig. 1 and Fig. 6, as it can be seen, the electric connector structure of first and second aspect above-mentioned In, also can comprise at least one radiating piece 8, this radiating piece 8 can have at least one radiating fin 82, This heat conduction shell 1 has at least one open top 13, and this radiating piece 8 is arranged at this open top 13, And the bottom 81 of this radiating piece 8 protrudes from this in plug passage 11 to contact plug-in and pull-off device.Therefore, The electric connector structure of first and second aspect of this utility model is except being transmitted by heat energy by said structure Outside environment space, it is possible to produce thermal convection current to promote the transmission efficiency of heat energy by this radiating piece 8 again.

Refer to Fig. 9, as it can be seen, in the electric connector structure of above-mentioned first aspect, heat-conducting plate on this 5 can separate the upper demarcation strip 31 of heat-conducting piece 3 up and down with this one-body molded, and this lower heat-conducting plate 6 can be with this The lower demarcation strip 32 separating heat-conducting piece 3 up and down is one-body molded.Therefore, this utility model first and second The electric connector structure of aspect can simplify structure.

Refer again to Fig. 9, as it can be seen, in the electric connector structure of above-mentioned first aspect, heat conduction on this When the upper heat conducting spring plate 51 of plate 5 is multiple, described upper heat conducting spring plate 51 protrudes from plug on this respectively and leads to To contact plug-in and pull-off device and to contact the upper thermal conductive surface 41 of this heat-conducting piece 4 in road 11, this lower heat-conducting plate 6 When lower heat conducting spring plate 61 is multiple, described lower heat conducting spring plate 61 protrudes from this lower plug passage 12 respectively Interior to contact plug-in and pull-off device and to contact the lower thermal conductive surface 42 of this heat-conducting piece 4.Therefore, described upper heat conduction bullet Sheet 51 and described lower heat conducting spring plate 61 can contact this heat-conducting piece 4 and plug-in and pull-off device really to promote heat energy Transmission efficiency.

Refer to Figure 10, as it can be seen, in the electric connector structure of first and second aspect above-mentioned, also Plug-in and pull-off device 10 can be comprised to be placed in plug passage 11 maybe this lower plug passage 12 on this, and contact The upper heat conducting spring plate 51 of heat-conducting plate 5 maybe heat-conducting block 5 ' on this on this, maybe this lower heat-conducting plate is led for 6 times Thermoelastic sheet 61 maybe this lower heat-conducting block 6 '.Therefore, heat energy produced by this plug-in and pull-off device 10 can pass really It is handed to environment space.

Refer again to Figure 10, as it can be seen, in the electric connector structure of first and second aspect above-mentioned, Also can comprise plug-in and pull-off device 10 to be placed in plug passage 11 maybe this lower plug passage 12 on this, and connect Touch on this maybe heat-conducting block 5 ', maybe this lower heat-conducting plate 6 times on this of upper heat conducting spring plate 51 of heat-conducting plate 5 Heat conducting spring plate 61 maybe this lower heat-conducting block 6 ', and contact the left heat conducting spring plate separating heat-conducting plate 7 about this 71 or right heat conducting spring plates 72.Therefore, heat energy produced by this plug-in and pull-off device 10 can be transferred to environment really Space.

Refer to Fig. 1, Fig. 6 and Figure 11, Figure 11 is the schematic diagram of electric connector structure temperature simulation, Under same test environmental condition, upper figure is the Temperature Distribution of general electric connector structure, and figure below is this reality Upper thermal conductive surface by the Temperature Distribution of the electric connector structure of first and second aspect novel, i.e. heat-conducting piece 4 41 and lower thermal conductive surface 42 connect heat-conducting plate 5 and lower heat-conducting plate 6 respectively or connect upper heat-conducting block 5 ' respectively And the Temperature Distribution of the electric connector structure of lower heat-conducting block 6 '.Wherein, temperature picking point is that each plug is led to Temperature shown by the central point of the plug-in and pull-off device that road is housed, as it can be seen, general electric connector knot The heat energy of structure is difficult to transmission, and therefore heat energy is concentrated in specific region, causes the temperature of specific region to rise, Especially at the plug-in and pull-off device of lower plug channel, it reaches 5 degree to 8 degree with the temperature difference in other regions, and The heat energy of the electric connector structure of first and second aspect of this utility model easily transmits, and therefore heat energy will not Concentrate on specific region so that the Temperature Distribution of electric connector structure is more uniform, between regional The temperature difference is only 1 degree to 2 degree.

This utility model is disclosed by preferred embodiment the most, but is familiar with those skilled in the art It should be understood that this embodiment is only used for describing this utility model, and it is new to be not construed as limiting this practicality The scope of type.It should be noted that every change equivalent with this embodiment and displacement, all should be set to contain In category of the present utility model.Therefore, protection domain of the present utility model should be with claims institute Define in the range of standard.

Claims (16)

1. an electric connector structure, it is characterised in that comprise:

Heat conduction shell；

At least one pedestal, it has upper plug-and-pull port and lower plug-and-pull port, and this pedestal is arranged at this 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, before this Panel is connected between the front side of demarcation strip on this and the front side of this lower demarcation strip, on this, demarcation strip has Opening, this lower demarcation strip has under shed, and this separates heat-conducting piece up and down and separates this heat conduction shell is upper plug Passage and lower plug passage are with respectively to going up plug-and-pull port and this 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 the first gas channel, This first gas channel is on this between thermal conductive surface and this lower thermal conductive surface, and it is upper and lower that this heat-conducting piece is arranged at this Separate in heat-conducting piece；

Heat-conducting plate at least one, it has heat conducting spring plate at least one, and on this, heat-conducting plate is arranged at this Upper shed and connect thermal conductive surface on this, on this, heat conducting spring plate protrudes from this in plug passage；And

At least one descends heat-conducting plate, and it has at least one lower heat conducting spring plate, and this lower heat-conducting plate is arranged at this Under shed and connect this lower thermal conductive surface, this lower heat conducting spring plate protrudes from this lower plug passage.

2. electric connector structure as claimed in claim 1, it is characterised in that when this pedestal is multiple, Described pedestal is transversely arranged is arranged at this heat conduction shell, and this electric connector structure also comprises about at least one Separate heat-conducting plate, separate heat-conducting plate about this and there is multiple left heat conducting spring plate and multiple right heat conducting spring plate, should Left and right separates heat-conducting plate and separates the adjacent described upper plug passage in left and right, described separation heat-conducting piece and institute up and down State lower plug passage, in described left heat conducting spring plate protrudes from this plug passage respectively and this lower plug passage In, in described right heat conducting spring plate protrudes from this plug passage respectively and in this lower plug passage.

3. electric connector structure as claimed in claim 1, it is characterised in that this separates heat conduction up and down The front panel of part has gas flow opening before at least one, this pedestal have at least one second gas channel in On this between plug-and-pull port and this lower plug-and-pull port, this front gas flow opening, this first gas channel and this second gas Circulation road sequentially connects.

4. electric connector structure as claimed in claim 1, it is characterised in that lead on this heat-conducting piece Hot side is plane, and the lower thermal conductive surface of this heat-conducting piece is plane.

5. electric connector structure as claimed in claim 1, it is characterised in that on this heat-conducting plate with should The upper demarcation strip separating heat-conducting piece up and down is one-body molded, and this lower heat-conducting plate separates under heat-conducting piece up and down with this Demarcation strip is one-body molded.

6. electric connector structure as claimed in claim 5, it is characterised in that on this, heat-conducting plate is upper When heat conducting spring plate is multiple, in described upper heat conducting spring plate protrudes from this plug passage respectively and contact this and lead The upper thermal conductive surface of warmware, when the lower heat conducting spring plate of this lower heat-conducting plate is multiple, described lower heat conducting spring plate is respectively Protrude from this lower plug passage and contact the lower thermal conductive surface of this heat-conducting piece.

7. electric connector structure as claimed in claim 1, it is characterised in that also comprise plug-in and pull-off device To be placed in plug passage maybe this lower plug passage on this, and contact heat-conducting plate on this upper heat conducting spring plate or The lower heat conducting spring plate of this lower heat-conducting plate.

8. electric connector structure as claimed in claim 2, it is characterised in that also comprise plug-in and pull-off device To be placed in plug passage maybe this lower plug passage on this, and contact heat-conducting plate on this upper heat conducting spring plate or The lower heat conducting spring plate of this lower heat-conducting plate, and contact and about this, separate the left heat conducting spring plate of heat-conducting plate or right heat conduction Shell fragment.

9. electric connector structure as claimed in claim 1, it is characterised in that also comprise at least one Radiating piece, this heat conduction shell has at least one open top, and this radiating piece is arranged at this open top, And the bottom of this radiating piece protrudes from this in plug passage.

10. an electric connector structure, it is characterised in that comprise:

Heat conduction shell；

At least one pedestal, it has upper plug-and-pull port and lower plug-and-pull port, and this pedestal is arranged at this 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, before this Panel is connected between the front side of demarcation strip on this and the front side of this lower demarcation strip, on this, demarcation strip has Opening, this lower demarcation strip has under shed, and this separates heat-conducting piece up and down and separates this heat conduction shell is upper plug Passage and lower plug passage are with respectively to going up plug-and-pull port and this 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 the first gas channel, This first gas channel is on this between thermal conductive surface and this lower thermal conductive surface, and it is upper and lower that this heat-conducting piece is arranged at this Separate in heat-conducting piece；

Heat-conducting block at least one, it is arranged at this upper shed and connects thermal conductive surface on this, heat-conducting block on this Protrude from this in plug passage；And

At least one descends heat-conducting block, and it is arranged at this under shed and connects this lower thermal conductive surface, this lower heat-conducting block Protrude from this lower plug passage.

11. electric connector structures as claimed in claim 10, it is characterised in that this pedestal is multiple Time, described pedestal is transversely arranged is arranged at this heat conduction shell, and this electric connector structure also comprises at least one Left and right separates heat-conducting plate, separates heat-conducting plate and have multiple left heat conducting spring plate and multiple right heat conduction bullet about this Sheet, separates heat-conducting plate and separates the adjacent described upper plug passage in left and right, described separates heat conduction up and down about this Part and described lower plug passage, in described left heat conducting spring plate protrudes from this plug passage respectively and this lower is inserted Pull out in passage, in described right heat conducting spring plate protrudes from this plug passage respectively and in this lower plug passage.

12. electric connector structures as claimed in claim 10, it is characterised in that this separates up and down leads The front panel of warmware has gas flow opening before at least one, and this pedestal has at least one second gas channel On this between plug-and-pull port and this lower plug-and-pull port, this front gas flow opening, this first gas channel and this second Gas channel sequentially connects.

13. electric connector structures as claimed in claim 10, it is characterised in that this heat-conducting piece upper Thermal conductive surface is plane, and the lower thermal conductive surface of this heat-conducting piece is plane.

14. electric connector structures as claimed in claim 10, it is characterised in that also comprise plug dress Put to be placed in plug passage maybe this lower plug passage on this, and contact heat-conducting block maybe this lower heat conduction on this Block.

15. electric connector structures as claimed in claim 11, it is characterised in that also comprise plug dress Put to be placed in plug passage maybe this lower plug passage on this, and contact heat-conducting block maybe this lower heat conduction on this Block, and contact and about this, separate the left heat conducting spring plate of heat-conducting plate or right heat conducting spring plate.

16. electric connector structures as claimed in claim 10, it is characterised in that also comprise at least one Individual radiating piece, this heat conduction shell has at least one open top, and this radiating piece is arranged at this open top, And the bottom of this radiating piece protrudes from this in plug passage.