CN206365211U - A kind of double-sided elements heat abstractor of FPC - Google Patents

Abstract

The utility model discloses a kind of double-sided elements heat abstractor of FPC, including the component body being welded at the top of FPC, the component body is hollow structure, and multiple first standing grooves are offered in the top inner wall of component body, thermal conductive network is fixed with the inwall of first standing groove, and multiple first heat conductive rods are welded with the top of thermal conductive network, mounting groove is offered on the component body, and mounting groove is located at the top of the first standing groove, the inside of the mounting groove is placed with heat conduction transverse slat, and the junction of heat conduction transverse slat and mounting groove is provided with the first heat insulation layer, it is in contact at the top of the bottom of the heat conduction transverse slat and the first heat conductive rod, multiple heat conduction risers are welded with the top of the heat conduction transverse slat, and the top of component body is extended at the top of heat conduction riser.The utility model is economical and practical, and the double-sided elements heat abstractor of FPC can quickly be radiated to the heat produced by double-sided elements, it is ensured that the normal operation of double-sided elements.

Description

A kind of double-sided elements heat abstractor of FPC

Technical field

The utility model is related to double-sided elements heat abstractor technical field, more particularly to a kind of FPC two-sided member Part heat abstractor.

Background technology

Flexible PCB is also known as " soft board ", and being can on the printed circuit being made of flexible insulating substrate, flexible PCB Operationally to have certain loss due to welding double-sided elements, double-sided elements, most loss becomes heat, if not adopting Cooling measure is taken, temperature can reach or more than the junction temperature of permission, and double-sided elements will easily be damaged, in order to solve double-sided elements Heat dissipation problem, it is proposed that a kind of double-sided elements heat abstractor of FPC.

Utility model content

The purpose of this utility model is and a kind of FPC proposed in order to solve shortcoming present in prior art Double-sided elements heat abstractor.

To achieve these goals, the utility model employs following technical scheme：

A kind of double-sided elements heat abstractor of FPC, including it is welded on the component body at the top of FPC, The component body is to offer multiple first standing grooves on hollow structure, and the top inner wall of component body, and described first puts Put to be fixed with the inwall of groove at the top of thermal conductive network, and thermal conductive network and be welded with multiple first heat conductive rods, the component body it is upper Mounting groove is offered, and mounting groove is located at the top of the first standing groove, the inside of the mounting groove is placed with heat conduction transverse slat, and leads The junction of hot transverse slat and mounting groove, which is provided with the top of the first heat insulation layer, the bottom of the heat conduction transverse slat and the first heat conductive rod, to connect Touch, multiple heat conduction risers be welded with the top of the heat conduction transverse slat, and extend to the top of component body at the top of heat conduction riser, The both sides of the heat conduction riser are provided tiltedly with multiple first radiating fins, and the first radiating fin is located at the upper of component body Side, the upper horizontal of the component body is provided with heat sink, and the bottom of heat sink is mutually welded with the top of heat conduction riser, described The two bottom sides of heat conduction riser are welded with supporting plate, and the bottom of two supporting plates is separately fixed at the top two of component body Multiple heat emission holes are offered in side, the supporting plate, the top of the heat sink equidistantly offers multiple mounting holes, the peace Thermal column is welded with the inwall for filling hole, the both sides of the thermal column are welded with multiple second radiating fins.

It is preferred that, top rectangular array distribution of multiple mounting holes in heat sink.

It is preferred that, first radiating fin is located between heat sink and component body, and component body is double-sided elements.

It is preferred that, first standing groove is that to individual, and the first standing groove equidistantly distributed is in the top of component body On wall.

It is preferred that, first heat conductive rod is three to five, and the heat conduction riser is between five to eight, and heat conduction riser etc. Away from the top for being distributed in component body.

It is preferred that, the heating column extends to the top of heat sink, and the second radiating fin is located at the top of heat sink.

It is preferred that, it is adiabatic that first heat conductive rod and heat conduction riser are coated with second with the junction of component body respectively Layer.

The beneficial effects of the utility model：By offering multiple first standing grooves in component body top inner wall, and The inside of first standing groove is mounted on thermal conductive network, and thermal conductive network can fully be contacted with the heat inside component body, led Heat is sent on heat conduction transverse slat by heat supply network by the first heat conductive rod, and heat conduction transverse slat is again passed most of heats by heat conduction riser It is sent on heat sink, heat sink is provided with multiple heating columns, and heating column is provided with multiple second radiating fins, and heat sink can be with Quick heat exchange is carried out with outside air so that the double-sided elements heat abstractor of FPC can be in element body The heat in portion carries out quick heat radiating, in addition heat conduction transverse slat by heat conduction riser to heat sink transmit heat when, heat conduction riser On the first radiating fin the heat on heat conduction riser and air are also subjected to heat exchange, then flowed out, entered by heat emission hole One step improves the heat dispersion of the double-sided elements heat abstractor of FPC, and then ensure that the normal fortune of double-sided elements OK, the utility model is economical and practical, and the double-sided elements heat abstractor of FPC can be to the heat produced by double-sided elements Quickly radiated, it is to avoid double-sided elements because temperature is too high and caused by damage.

Brief description of the drawings

Fig. 1 be the utility model proposes a kind of FPC double-sided elements heat abstractor structural representation；

Fig. 2 be the utility model proposes the structure of heat sink of double-sided elements heat abstractor of FPC a kind of show It is intended to.

In figure：1 FPC, 2 component bodies, 3 thermal conductive networks, 4 first heat conductive rods, 5 first heat insulation layers, 6 heat conduction transverse slats, 7 supporting plates, 8 heat emission holes, 9 heat conduction risers, 10 first radiating fins, 11 heat sinks, 12 thermal columns, 13 second radiating fins, 14 Mounting hole.

Embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.

Reference picture 1-2, a kind of double-sided elements heat abstractor of FPC, including it is welded on the top of FPC 1 Component body 2, component body 2 be hollow structure, and the top inner wall of component body 2 on offer multiple first standing grooves, Thermal conductive network 3 is fixed with the inwall of first standing groove, and the top of thermal conductive network 3 is welded with multiple first heat conductive rods 4, component body Mounting groove is offered on 2, and mounting groove is located at the top of the first standing groove, the inside of mounting groove is placed with heat conduction transverse slat 6, and The junction of heat conduction transverse slat 6 and mounting groove is provided with the top phase of the first heat insulation layer 5, the bottom of heat conduction transverse slat 6 and the first heat conductive rod 4 Contact, the top of heat conduction transverse slat 6 is welded with multiple heat conduction risers 9, and the top of heat conduction riser 9 extends to the upper of component body 2 Side, the both sides of heat conduction riser 9 are provided tiltedly with multiple first radiating fins 10, and the first radiating fin 10 is located at component body 2 Top, the upper horizontal of component body 2 is provided with heat sink 11, and the bottom of heat sink 11 is mutually welded with the top of heat conduction riser 9 Connect, the two bottom sides of heat conduction riser 9 are welded with supporting plate 7, and the bottom of two supporting plates 7 is separately fixed at component body 2 Top both sides, multiple heat emission holes 8 are offered in supporting plate 7, and supporting plate 7 is resistant to elevated temperatures supporting plate, the top of heat sink 11 Portion equidistantly offers and thermal column 12 is welded with multiple mounting holes 14, the inwall of mounting hole 14, the both sides welding of thermal column 12 There are multiple second radiating fins 13, multiple mounting holes 14 are in the top rectangular array distribution of heat sink 11, the first radiating fin 10 are located between heat sink 11 and component body 2, and component body 2 is double-sided elements, and the first standing groove is 16 to 20, and the One standing groove equidistantly distributed is in the top inner wall of component body 2, and the first heat conductive rod 4 is three to five, and heat conduction riser 9 is five To eight, and the equidistantly distributed of heat conduction riser 9, at the top of component body 2, heating column 12 extends to the top of heat sink 11, and Second radiating fin 13 is located at the top of heat sink 11, the connection of the first heat conductive rod 4 and heat conduction riser 9 respectively with component body 2 Place is coated with the second heat insulation layer.

Operation principle：Multiple first standing grooves are offered in the top inner wall of component body 2, and the inside of the first standing groove is equal Thermal conductive network 3 is installed, thermal conductive network 3 can fully be contacted with the heat inside component body 2, thermal conductive network 3 is by component body 2 Internal heat is sent on heat conduction transverse slat 6 by the first heat conductive rod 4, and heat conduction transverse slat 6 is again by heat conduction riser 9 by most of warm Amount be sent on heat sink 11, in addition heat conduction transverse slat 6 by heat conduction riser 9 to heat sink 11 transmit heat when, heat conduction erect Heat on heat conduction riser 9 and air are also carried out heat exchange by the first radiating fin 10 on plate 9, and the air with heat is again Heat emission hole 8 on support column 7 is flowed out, and because heat sink 11 is provided with multiple heating columns 12, and heating column 12 is provided with Multiple second radiating fins 13, the heat being transferred on heat sink 11 passes through heating column 12, and then is transferred to the second radiating fin 13, the heat on the second radiating fin 13 can carry out quick heat exchange with outside air so that FPC it is double Bin part heat abstractor can carry out quick heat radiating to the heat inside element body 2, it is to avoid double-sided elements are too high because of temperature And cause to damage.

It is described above, only the utility model preferably embodiment, but protection domain of the present utility model is not This is confined to, any one skilled in the art is in the technical scope that the utility model is disclosed, according to this practicality New technical scheme and its utility model design are subject to equivalent substitution or change, should all cover in protection model of the present utility model Within enclosing.

Claims (7)

1. a kind of double-sided elements heat abstractor of FPC, including it is welded on the component body at the top of FPC (1) (2), it is characterised in that the component body (2) is multiple to be offered on hollow structure, and the top inner wall of component body (2) Be fixed with first standing groove, the inwall of first standing groove at the top of thermal conductive network (3), and thermal conductive network (3) be welded with it is multiple Mounting groove is offered on first heat conductive rod (4), the component body (2), and mounting groove is located at the top of the first standing groove, institute The inside for stating mounting groove is placed with heat conduction transverse slat (6), and the junction of heat conduction transverse slat (6) and mounting groove is provided with the first heat insulation layer (5), it is in contact at the top of the bottom of the heat conduction transverse slat (6) and the first heat conductive rod (4), the top weldering of the heat conduction transverse slat (6) Multiple heat conduction risers (9) are connected to, and the top of component body (2), the heat conduction riser are extended at the top of heat conduction riser (9) (9) both sides are provided tiltedly with multiple first radiating fins (10), and the first radiating fin (10) is located at the upper of component body (2) Side, the upper horizontal of the component body (2) is provided with heat sink (11), and bottom and the heat conduction riser (9) of heat sink (11) Top is mutually welded, and the two bottom sides of the heat conduction riser (9) are welded with supporting plate (7), and the bottom point of two supporting plates (7) It is not fixed on the top both sides of component body (2), the supporting plate (7) and offers multiple heat emission holes (8), the heat sink (11) top equidistantly offers and is welded with thermal column (12) on multiple mounting holes (14), the inwall of the mounting hole (14), The both sides of the thermal column (12) are welded with multiple second radiating fins (13).

2. a kind of double-sided elements heat abstractor of FPC according to claim 1, it is characterised in that multiple installations Top rectangular array distribution of the hole (14) in heat sink (11).

3. the double-sided elements heat abstractor of a kind of FPC according to claim 1, it is characterised in that described first Radiating fin (10) is located between heat sink (11) and component body (2), and component body (2) is double-sided elements.

4. the double-sided elements heat abstractor of a kind of FPC according to claim 1, it is characterised in that described first Standing groove is 16 to 20, and the first standing groove equidistantly distributed is in the top inner wall of component body (2).

5. the double-sided elements heat abstractor of a kind of FPC according to claim 1, it is characterised in that described first Heat conductive rod (4) is three to five, and the heat conduction riser (9) is five to eight, and heat conduction riser (9) equidistantly distributed is in element sheet The top of body (2).

6. a kind of double-sided elements heat abstractor of FPC according to claim 1, it is characterised in that the heat conduction Post (12) extends to the top of heat sink (11), and the second radiating fin (13) is located at the top of heat sink (11).

7. the double-sided elements heat abstractor of a kind of FPC according to claim 1, it is characterised in that described first The junction of heat conductive rod (4) and heat conduction riser (9) respectively with component body (2) is coated with the second heat insulation layer.