Invention content
Based on this, it is necessary to easy to produce high temperature when load is higher for existing socket, be wrapped in conductive surface
Insulating layer be easy heated combustion, there are the defect of security risk, provide that a kind of heat dissipation effect is preferable, and insulating layer does not allow easy firing
Heat conduction socket, eliminate security risk well.
A kind of heat conduction socket of improving radiating effect, including:
Shell, the shell include shell bottom, and the shell bottom is provided with supporting block, the first protection cylinder, the second protection cylinder and external tapping,
The first protection cylinder and the second protection cylinder are integrally formed with the shell bottom, the first protection cylinder and second protection
It being respectively arranged with the first conductor and the second conductor in cylinder, the supporting block is provided with first through hole and the second through-hole, and described first
Through-hole is connected to the first protection cylinder, and second through-hole is connected to the second protection cylinder, and the first of first conductor
End is arranged in the first through hole, and the first end of second conductor is arranged in second through-hole, and the of first conductor
The second end of two ends and second conductor may be contained within the external tapping;
Inserted sheet is fixedly installed in the supporting block, and the inserted sheet respectively with the first end of first conductor and described
The first end of two conductors connects;
Panel is fastened on the shell, and the panel is provided with jack, and the jack is corresponding with the inserted sheet;
Radiating piece, the radiating piece fit in the housing outer surface.
In one embodiment, the radiating piece includes radiating seat and fin, and fitting on one side for the radiating seat is described
The outer surface of side wall, the another side of the radiating seat and with the fin be integrally formed.
In one embodiment, multiple rows of fin is provided on the radiating seat.
In one embodiment, multiple rows of fin is mutually parallel.
In one embodiment, the radiating seat thickness is 2~6mm.
In one embodiment, the radiating seat thickness is 3-5mm.
In one embodiment, the radiating seat thickness is 4mm.
In one embodiment, the radiating piece fits in shell bottom back.
In one embodiment, there is the shell side wall, the radiating piece to fit in the outer surface of the side wall.
Above-mentioned heat conduction socket is made with the first protection cylinder and the second protection cylinder that are wrapped in outside the first conductor and the second conductor
For insulating layer, the first protection cylinder and the second protection cylinder have stronger heat resistance and thermal conductivity, can be effectively by the first conductor of heat
Heat transfer with the second conductor distributes heat to shell bottom, and by shell, and the first protection cylinder and the second protection cylinder are not easy
Burning, eliminates security risk well.
Specific implementation mode
To facilitate the understanding of the present invention, below with reference to relevant drawings to invention is more fully described.In attached drawing
Give the better embodiment of the present invention.But the present invention can realize in many different forms, however it is not limited to herein
Described embodiment.On the contrary, the purpose of providing these embodiments is that making to understand more the disclosure
Add thorough and comprehensive.
It should be noted that when element is referred to as " being set to " another element, it can be directly on another element
Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be directly connected to
To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ",
" right side " and similar statement for illustrative purposes only, are not offered as being unique embodiment.
Unless otherwise defined, all of technologies and scientific terms used here by the article and belong to the technical field of the present invention
The normally understood meaning of technical staff is identical.Used term is intended merely to description tool in the description of the invention herein
The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more
Any and all combinations of relevant Listed Items.
For example, a kind of Radiating socket, including shell, the shell include shell bottom, the shell bottom is provided with supporting block, first
Cylinder, the second protection cylinder and external tapping, the first protection cylinder and the second protection cylinder is protected to be integrally formed with the shell bottom, institute
It states in the first protection cylinder and the second protection cylinder and is respectively arranged with the first conductor and the second conductor, the supporting block is provided with the
One through-hole and the second through-hole, the first through hole are connected to the first protection cylinder, and second through-hole is protected with described second
Cylinder connection, the first end of first conductor are arranged in the first through hole, and the first end of second conductor is arranged in described
The second end of second through-hole, the second end of first conductor and second conductor may be contained within the external tapping;Inserted sheet, Gu
Surely be set in the supporting block, and the inserted sheet respectively with the first end of first conductor and second conductor first
End connection;Panel is fastened on the shell, and the panel is provided with jack, and the jack is corresponding with the inserted sheet.
For another example, as shown in Figure 1, it is a preferred embodiment of the present invention heat conduction socket 10, including:Shell 100, inserted sheet
200, panel 300, shrapnel 400 and radiating piece 500.
Shell 100, the shell 100 include shell bottom 110, and the shell bottom 110 is provided with supporting block 120, first and protects cylinder
101, the second protection cylinder 102 and external tapping 103, for example, the supporting block 120 is fixedly connected with the shell bottom 110, for example, institute
It states supporting block 120 to be integrally formed with the shell bottom 110, the first protection cylinder 101 and described second protects cylinder 102 and the shell
Bottom 110 is integrally formed, and the first conductor 601 and the are respectively arranged in the first protection cylinder 101 and the second protection cylinder 102
Two conductors 602, the supporting block 120 are provided with first through hole 121 and the second through-hole 122, the first through hole 121 and described the
One protection cylinder 101 is connected to, and second through-hole 122 is connected to the second protection cylinder 102, and the first of first conductor 601
End is arranged in the first through hole 121, and the first end of second conductor 602 is arranged in second through-hole 122, and described first
The second end of conductor 601 and the second end of second conductor 602 may be contained within the external tapping 103;
The inserted sheet 200 is fixedly installed in the supporting block 120, and the inserted sheet 200 respectively with first conductor 601
First end is connected with the first end of second conductor 602;The panel 300 is fastened on the shell 100, and the panel
300 are provided with jack 310, and the jack 310 is corresponding with the inserted sheet 200.
Power supply circuit is connected respectively to first conductor 601 and second conductor 602 by the external tapping 103,
Electric energy is provided to the Radiating socket 10, for example, first conductor 601 connects zero curve, second conductor 602 connects fire
The first end of line, first conductor 601 is connect across the first through hole 121 with inserted sheet 200, second conductor 602
First end is connect across second through-hole 122 with inserted sheet 200, in use, plug is inserted into the jack 310 so that plug
It is connect with inserted sheet 200, so that the Radiating socket 10 is powered for plug.
In this way, protecting cylinder to be wrapped in the first protection cylinder 101 and second outside the first conductor 601 and the second conductor 602
102 are used as insulating layer, and the first protection cylinder 101 and second protects cylinder 102 to have stronger heat resistance and thermal conductivity, when the first conductor
601 and 602 load of the second conductor it is larger, when generating a large amount of heat, first protection cylinder 101 and second protect cylinder 102 can be effective
By the heat transfer of heat the first conductor 601 and the second conductor 602 to shell bottom 110, and heat, and are distributed by shell 100
One protection cylinder 101 and second protects cylinder 102 not allow easy firing, eliminates security risk well.
It should be understood that due to the first protection cylinder 101 and the second protection cylinder 102 and the shell bottom 110 1
Body formed, therefore, the first protection cylinder 101 and the second protection cylinder 102 can be rapidly by 601 Hes of the first conductor
The heat transfer of second conductor 602 is to shell bottom 110, for example, the shell 100 is made of plastics, first made of plastics
Cylinder 101 and second is protected to protect cylinder 102 that there is good insulation performance, but the first protection cylinder 101 and second made of plastics is protected
102 heat conduction of casing newly can be bad, and heat resistance is not strong, in order to improve the thermal conductivity and heat resistance of the shell 100, for example,
The shell 100 is made of ceramics, and the first protection cylinder 101 and second protects cylinder 102 to be integrally formed with the shell 100,
Such as fire simultaneously, in this way, the first protection cylinder 101 and second made of ceramics protects cylinder 102 to have preferable thermal conductivity,
And there is extremely strong heat resistance, it is very unlikely to burn, substantially eliminates security risk.
In order to further increase the heat dissipation performance of the heat conduction socket 10, for example, the invention also includes radiating piece 500, institute
It states radiating piece 500 and fits in 100 outer surface of the shell, the heat of first conductor 601 and second conductor 602 passes through
The first protection cylinder 101 and the second protection cylinder 102 are transferred to shell 100, and the shell 100 will by radiating piece 500
Heat distributes, and substantially increases the emission efficiency of heat.
It is noted that since the first protection cylinder 101 and the second protection cylinder 102 are connected to the shell bottom
110, therefore the heat highest at shell bottom 110, it is therefore desirable to preferentially radiate to shell bottom 110, for example, as shown in figures 1 to 6,
The radiating piece 500 fits in 110 back of shell bottom, in this way, the radiating piece 500 can be rapidly by the shell bottom 110
Heat absorption is simultaneously distributed to outside, improves radiating efficiency.
In a further embodiment, as shown in Fig. 2, there is the shell 100 side wall 104, the radiating piece 500 to fit in
The outer surface of the side wall 104 increases in this way, substantially increasing the contact area of the shell 100 and the radiating piece 500
Area of heat transfer so that the heat of the shell 100 can efficiently be transmitted to the radiating piece 500, scattered to improve
The thermal efficiency, for example, the shell 100 is cylinder, the side wall 104 is cylinder, and the radiating piece 500 described in this way is in closed-loop
Shape is connected to the outer surface of the side wall 104;For example, the shell 100 is rectangular, there are four mutually hang down for the tool of the shell 100
Straight side wall 104, the radiating piece 500 are connected to the outer surface of four side walls 104 respectively.
In order to further increase the radiating efficiency of the radiating piece 500, for example, Fig. 1, Fig. 2 and Fig. 6 are referred to, it is described to dissipate
Warmware 500 includes radiating seat 510 and fin 520, the outer surface for fitting in the side wall 104 on one side of the radiating seat 510, institute
It states the another side of radiating seat 510 and is integrally formed with the fin 520, the radiating seat 510 has good thermal conductivity, can be with
By the heat absorption of the shell 100 and it is transferred to fin 520 rapidly, since the fin 520 has larger surface area, with
External contact area is big, can distribute heat to outside rapidly, for example, as shown in fig. 6, when the heat conduction socket 10 is mounted on
When in wall, the fin 520 can rapidly distribute heat to wall, for example, the heat conduction socket 10 is mounted on wall
When external, the fin 520 can rapidly distribute heat into air.For example, the fin is cylindrical shape or rectangular
Shape, and array is set to the radiating seat 510, in order to construct and install.For another example, the fin has cylindrical shape
Or rectangular shape, and its terminal part far from the radiating seat is cone or prism shape.For another example, the terminal part is also
Several sliding slots are provided with, for accommodating the rubbish such as soil bits when mounted.Preferably, each sliding slot is arc line shaped or spiral
Shape.For another example, respectively row's fin is arranged in parallel.
In order to improve the radiating efficiency of the radiating piece 500, for example, the radiating piece 500 is metal heat sink 500, example
Such as, the radiating piece 500 is aluminium radiating piece 500, for example, the radiating piece 500 is copper radiating piece 500, for example, the radiating piece
500 be albronze radiating piece 500, and copper and aluminium all have extraordinary heat conductivility so that the radiating piece 500 can be quick
By the heat absorption of the shell 100, and distribute to the heat conduction socket 10.
It should be understood that the thickness of the radiating seat 510 is unsuitable blocked up, too thick radiating seat 510 is so that the heat conduction
The volume of socket 10 is too big, is unfavorable for installing, and the thickness of the radiating seat 510 also should not be too thin, too thin then so that described dissipate
The heat absorption of hot seat 510 or the capacity of heat transmission is not high, influences heat conduction efficiency, in order to improve the heat conduction efficiency of the radiating seat 510,
For example, 510 thickness of the radiating seat is 2~6mm, it is preferable that 510 thickness of the radiating seat is 3-5mm, it is preferable that described to dissipate
510 thickness of hot seat is 4mm, in this way, may make the radiating seat 510 to have the preferable capacity of heat transmission, but also the heat conduction
The volume of socket 10 is suitable for installation, while saving consumptive material, reduces production cost.
In order to enable the heat on the radiating seat 510 can be distributed by the fin 520 as soon as possible, for example, described
Multiple rows of fin 520 is provided on radiating seat 510, multiple rows of fin 520 considerably increases the contact area with outside, makes
Obtaining heat can distribute rapidly;When the heat conduction socket 10 is installed on outside wall, in order to improve 520 surface of the fin
Air passage rates, for example, as shown in figs. 1,2 and 6, multiple rows of fin 520 is mutually parallel, in this way, be mutually parallel
The fin 520 is conducive to the circulation of air, improves the rate of heat exchange of air and the fin 520, so that described
The radiating efficiency of fin 520 improves.
In order to further increase the radiating efficiency of the fin 520, for example, 520 surface of the fin is set as striated,
In this way, increasing the surface area of the fin 520, the radiating efficiency of the fin 520 is improved, for example, 520 surface of the fin
It is provided with spherical concave surface, has equally reached the surface area for increasing the fin 520, improves the radiating efficiency of the fin 520
Effect.
In order to enable heat dissipation base is easily installed, as shown in figs. 1,2 and 6, the invention also includes two shrapnels 400,
Two shrapnels 400 are metal clips 400, and two shrapnels 400 are set in the external tapping 103, and respectively with institute
The second end for stating the first conductor 601 is connected with the second end of second conductor 602, in this way, power supply circuit can be directly sandwiched in
It can be fixedly connected with the shrapnel 400 by the elastic force of the shrapnel 400 in shrapnel 400, for example, as shown in fig. 7, the shrapnel
400 include sequentially connected first end 401, bending part 403 and the second end 402, and the first end 401, bending part
403 and the second end 402 be integrally formed, the external tapping 103 includes interface inner wall 103a, the second of two shrapnels 400
End 402 is connect with the second end of the second end of first conductor 601, second conductor 602 respectively, specifically, one
The second end 402 of a shrapnel 400 is connect with the second end of first conductor 601, and the of another shrapnel 400
Two ends 402 are connect with the second end of second conductor 602, and the bending part 403 of two shrapnels 400 is connected to described connect
Mouth inner wall 103a pushes the first end 401 of the shrapnel 400 aside, then in this way, after installing the heat conduction socket 10
The conductor of power supply circuit is inserted directly into the external tapping 103, the first end 401 of the shrapnel 400, the shrapnel are discharged
400 401 return of first end, the conductor of power supply circuit is abutted with the first end 401 of the shrapnel 400, in the bending
Under the elastic force effect in portion 403, the conductor of power supply circuit is clipped in the first end 401 by the first end 401 of the shrapnel 400
Between the interface inner wall 103a, so that power supply circuit is electrically connected with the shrapnel 400, to realize power supply circuit pair
The power supply of the heat conduction socket 10.
In order to enable first conductor 601 and second conductor 602 can be efficiently transfer to described first respectively
Protect cylinder 101 and the second protection cylinder 102,102 side of being respectively set to of the first protection cylinder 101 and the second protection cylinder
Shape, for example, the cross section of the first protection cylinder 101 and the second protection cylinder 102 is respectively set to rectangular, described first leads
Body 601 and second conductor 602 are set as rectangular, the shape point of the first conductor 601 described in this way and second conductor 602
It is not matched with the shape of the first protection cylinder 101 and the second protection cylinder 102 so that contact area between the two is more
Greatly, it is more advantageous to the transmission of heat;In order to enable the resistance smaller of first conductor 601 and second conductor 602, to
Reduce first conductor 601 and 602 calorific value of the second conductor, and rectangular conductor is easy to cause point discharge, therefore,
First conductor 601 and second conductor 602 need to be set as cylindrical, for example, the first protection cylinder 101 and described the
Two protection cylinders 102 are respectively set to circle, as shown in figure 8, the cross of the first protection cylinder 101 and the second protection cylinder 102
Section is respectively set to circle, and first conductor 601 and second conductor 602 are circle, in this way, being on the one hand conducive to heat
On the other hand the transmission of amount reduces calorific value, while also avoiding point discharge.
In order to reduce the first protection cylinder 101 and the second protection occupied sky in the shell 100 of cylinder 102
Between, for example, as shown in figure 3, the first protection cylinder 101 and the second protection cylinder 102 are mutually perpendicular to, for example, the support
Block 120 is located at the described first right angle angle for protecting cylinder 101 and the second protection cylinder 102, for example, the shell 100 is
Rectangular, 103 quantity of the external tapping is two, and two external tappings 103 are respectively arranged at two of square casing 100 mutually
On vertical side wall 104, in this way, power supply circuit zero curve then and firewire are then connected to the two of the rectangular heat conduction socket 10
External tapping 103 on a orthogonal side wall 104;For example, the shell 100 is rectangular, 103 quantity of the external tapping is two
A, two external tappings 103 are set on the side wall 104 of the circular shell 100, the cambered surface between two external tappings 103
It it is 90 °, for example, as shown in Fig. 2, two external tappings 103 are set to the shell bottom 110, convenient for the access of power supply circuit.
It is shared in the shell 100 in order to further decrease the first protection cylinder 101 and the second protection cylinder 102
Space, for example, as shown in figure 4, the first protection cylinder 101 and the second protection cylinder 102 are mutually parallel, in this way, institute
Stating external tapping 103 then only needs setting one, and an external tapping 103 can simultaneously be connect with the zero curve of power supply circuit and firewire, essence
The letter structure of the heat conduction socket 10.
In order to avoid the distance between first conductor 601 and second conductor 602 are too close, and lead to heat excessively
It concentrates, it is difficult to distribute, for example, as shown in Figure 1 and Figure 5, the first protection cylinder 101 and the second protection cylinder 102 are set relatively
It sets, for example, the first protection cylinder 101 and the second protection cylinder 102 with the supporting block 120 are symmetrical point symmetry and opposite
Setting, in this way, maximum magnitude increase the spacing of first conductor 601 and second conductor 602, avoid described the
The heat of one conductor 601 and second conductor 602 is concentrated, and more conducively heat distributes.
In order to reduce the calorific value of first conductor 601 and second conductor 602, the first protection 101 He of cylinder
The internal diameter of the second protection cylinder 102 is disposed as 8mm~16mm, it should be understood that the resistance of conductor and conductor it is transversal
Area is inversely proportional, and therefore, when the cross-sectional area of first conductor 601 and second conductor 602 is bigger, described first leads
The resistance of body 601 and second conductor 602 is smaller, then the calorific value of first conductor 601 and second conductor 602 is got over
Small, therefore, the internal diameter of the first protection cylinder 101 and the second protection cylinder 102 is when being disposed as 8mm~16mm, and described the
The internal diameter that the diameter of one conductor 601 and second conductor 602 protects cylinder 101 and the second protection cylinder 102 with described first
It is identical, on the one hand so that first conductor 601 and second conductor 602 respectively with the first protection cylinder 101 and described
Second protection cylinder 102 comes into full contact with so that first conductor 601 and second conductor 602 can be efficiently transfer to institute
The first protection cylinder 101 and the second protection cylinder 102 are stated, on the other hand then so that first conductor 601 and described second is led
602 cross-sectional area of body is larger, so that first conductor 601 and 602 calorific value of the second conductor are smaller.
It is noted that the internal diameter of the first protection cylinder 101 and the second protection cylinder 102 can not be excessive, mistake
Volume that is big then increasing the first protection cylinder 101 and the second protection cylinder 102, to increase manufacturing cost, but also
Spare space inside the shell 100 reduces, and is unfavorable for radiating, it is therefore preferred that the first protection cylinder 101 and described
The internal diameter of second protection cylinder 102 is disposed as 10~14mm;Preferably, the first protection cylinder 101 and the second protection cylinder
102 internal diameter is disposed as 12mm, in this way, on the one hand so that first conductor 601 and 602 calorific value of the second conductor compared with
It is small, on the other hand, reduce the volume of the first protection cylinder 101 and the second protection cylinder 102 so that the shell 100
Internal spare space increases, to improve radiating efficiency.
Each technical characteristic of embodiment described above can be combined arbitrarily, to keep description succinct, not to above-mentioned reality
It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited
In contradiction, it is all considered to be the range of this specification record.
Several embodiments of the invention above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously
It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art
It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the protection of the present invention
Range.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.