CN209639571U - Radiator - Google Patents

Abstract

The utility model provides a kind of radiator, including an ontology and an at least thermal conductor, the ontology has a top surface, the side of the top surface has an engaging portion, the corresponding combination that is in contact with the top surface or engaging portion in the thermal conductor one end, it is designed by the structure of the utility model, can not only be substantially improved outside horizontal heat radiation function can also be substantially improved the heat dissipation effect of integral heat dissipation means.

Description

Radiator

Technical field

The utility model relates to a kind of radiator, espespecially a kind of heat dissipation dress that integral level heat dissipation effect can be substantially improved It sets.

Background technique

Temperature-uniforming plate is a kind of common and is often applied to the radiator that field of radiating uses, and is often used to be made The material of warm plate has the materials such as copper, aluminium, stainless steel, these described materials are easy to produce potential difference when manufacture and current potential occurs Phenomena such as difference corrosion, in addition, if tradition is applied on large industry equipment with samming made of the materials such as copper, aluminium, stainless steel Temperature-uniforming plate is to ask sufficient intensity its bulky and weight extremely heavy, if being applied to wisdom mobile phone or plate or described these are hand-held On device, and since it is desired that very thinization causes the excessively thin intensity that leads to the problem of of the thickness of temperature-uniforming plate insufficient, therefore also there is industry in recent years Person is used the advanced radiator manufacture applied to field of radiating of titanium matter.

Titanium is a kind of metal material with the characteristics such as light weight, strong structural strength, corrosion-resistant, and existing titanium is answered extensively In each field, however, due to the coefficient of heat conduction (thermal conductivity, also known as K value) of titanium and copper, aluminium etc. Material, which is compared, to be come slightly lower, and poor using the thermal conduction effect of its horizontal direction of radiator made of titanium.

Also referring to Figure 1A, thus there is the outer peripheral edge lip of dealer's radiator 1 made of titanium (such as: temperature-uniforming plate) Place 10 is sticked an at least thermal conductor 11 (such as: graphite flake, heat pipe, copper sheet etc.) to increase the thermal conduction effect of horizontal direction, And at lip above-mentioned 10 mean that two plate bodys of temperature-uniforming plate are connected to each other after, then impose heating (such as: welding) or pressuring method for two The outer peripheral edge of plate body is mutually closed at the position of engagement, also, since the working fluid 13 filled inside temperature-uniforming plate can not flow 10 to the lip, thus cause at the lip 10 to be an inactive area for not having steam-condensate circulating effect, changes due to existing Thermal conductor 11 is only attached at the lip of temperature-uniforming plate 10 and does not directly contact temperature-uniforming plate with heat transfer by kind method The working region (as shown in Figure 1B, there is 12 place of chamber, i.e. working fluid 13 carries out the region of steam-condensate circulating effect) of effect, Therefore the actually basic thermal conduction effect that can not also increase horizontal direction by the setting of thermal conductor 11, certainly its heat dissipation The whole heat dissipation effect of device 1 can not also be promoted.

Therefore how to solve the problems, such as above-mentioned existing and missing, the as inventor of this case and phase engaged in this industry Shutout quotient wants to study improved direction place.

Utility model content

In this way, the main purpose of the utility model is to provide one kind to be substantially improved effectively to solve the problem above-mentioned The structure of radiator horizontal direction thermal conduction effect.

In order to achieve the above object, the utility model provides a kind of radiator characterized by comprising

One ontology has a top surface；And

An at least thermal conductor, the corresponding combination that is in contact with the top surface of one end.

The radiator, in which: the ontology has a upper plate and a lower plate, and the corresponding lid of the upper plate, lower plate amounts to With a chamber is defined, the top surface is correspondingly formed in the outside of the chamber.

The radiator, in which: the upper plate, lower plate material are identical or different materials.

The radiator, in which: the upper plate, lower plate material are gold or silver or copper or aluminium or iron or stainless steel or pottery Made by porcelain or commercial pure titanium or titanium alloy.

The radiator, in which: the upper plate is condensation side, and the lower plate is heat absorbing side.

The radiator, in which: the thermal conductor is graphite or graphene or heat pipe or copper sheet.

The radiator, in which: the thermal conductor passes through bonding or bonding or diffusion bonding or welding or sintering Or the corresponding contact of mode of laser welding is attached at the top surface.

In order to achieve the above object, the utility model also provides a kind of radiator characterized by comprising

One ontology, has a top surface, and the side of the top surface has an engaging portion；And

An at least thermal conductor, the corresponding combination that is in contact with the top surface or engaging portion of one end.

The radiator, in which: the ontology has a upper plate and a lower plate, and the corresponding lid of the upper plate, lower plate amounts to With a chamber is defined, the top surface and engaging portion correspond to the outside for being divided into the chamber.

The radiator, in which: the upper plate, lower plate material are identical or different materials.

The radiator, in which: the upper plate, lower plate material are gold or silver or copper or aluminium or iron or stainless steel or pottery Made by porcelain or commercial pure titanium or titanium alloy.

The radiator, in which: the upper plate is condensation side, and the lower plate is heat absorbing side.

The radiator, in which: the thermal conductor is graphite or graphene or heat pipe or copper sheet.

The radiator, in which: the thermal conductor has a first side, the first side and the top surface Correspondence is flush.

The radiator, in which: the thermal conductor passes through bonding or glued or diffusion bonding or welding or sintering Or the corresponding contact of mode of laser welding is attached at the engaging portion or top surface.

Wherein, it should be noted that, the ontology of the utility model has a upper plate and a lower plate and corresponding lid closes and forms a chamber Room, the chamber interior have a working fluid, which is the position that a steam-condensate circulating effect can be carried out by the working fluid Place, in addition the ontology more forms a lip, which is when the position of the ontology most external periphery is combined closing Region, therefore the lip is the inactive area acted on without steam-condensate circulating.

Therefore pass through the design of this structure of the utility model, extend the connection contact top surface by one end of the thermal conductor Or the engaging portion, when the side of the radiator is in contact with a heat source to be attached, Yu Suoshu chamber interior starts to carry out vapour-liquid Ringing is to form the effect of heat transfer and thermal diffusion, at this time by being contacted with setting on the top surface or the engaging portion On thermal conductor one end transfer heat to the thermal conductor other end, in this way, can improve it is existing by thermal conductor only It is attached at the lip of the ontology and is unable to reach the missing of heat transfer effects, the heat transfer of the radiator horizontal direction is significantly increased And heat dissipation effect.

Detailed description of the invention

Figure 1A is the three-dimensional combination figure of existing radiator；

Figure 1B is the cross-sectional view of existing radiator；

Fig. 2 is the stereogram exploded view of the first embodiment of the utility model radiator；

Fig. 3 is the three-dimensional combination figure of the first embodiment of the utility model radiator；

Fig. 4 is the cross-sectional view of the first embodiment of the utility model radiator；

Fig. 5 is the cross-sectional view of the second embodiment of the utility model radiator.

Description of symbols: radiator 1；10 at lip；Thermal conductor 11；Chamber 12；Working fluid 13；Radiator 2；Ontology 20；Upper plate 20a；Lower plate 20b；Top surface 200；Engaging portion 201；Lip 202；Chamber 203；Thermal conductor 3；First side 30；Capillary structure 4；Working fluid 5；Heat source 6.

Specific embodiment

The above-mentioned purpose and its structure of the utility model and characteristic functionally, by the preferred embodiment according to institute's accompanying drawings It is explained.

Fig. 2, Fig. 3, Fig. 4 are please referred to, is stereogram exploded view, the three-dimensional group of the first embodiment of the utility model radiator Figure and cross-sectional view are closed, as shown, a kind of radiator 2, including an ontology 20 and an at least thermal conductor 3, the ontology 20 tool There is a top surface 200, the side of the top surface 200 has an engaging portion 201, and in this present embodiment, 20 system of ontology is with a samming Plate explains, but does not regard it as and be limited, which is also possible to a heat pipe, a hot plate or other radiators.

Ontology 20 above-mentioned has an a upper plate 20a and lower plate 20b, and the corresponding lid of the upper plate, lower plate 20a, 20b amounts to same Define a chamber 203, the corresponding outside for being divided into the chamber 203 in the top surface 200 and engaging portion 201, and tool in the chamber 203 There are a capillary structure 4 and a working fluid 5, the upper plate, lower plate 20a, 20b material can be that two is identical or two different materials are combined And form the ontology 20, the upper plate, lower plate 20a, 20b material may be selected to be gold or silver or copper or aluminium or iron or stainless steel or Made by ceramics or commercial pure titanium or titanium alloy any of them, and it is cold that (i.e. top surface) on the outside of upper plate 20a are defined as one Solidifying side, the lower plate outside 20b (i.e. bottom surface) are defined as a heat absorbing side.

In this present embodiment, the corresponding combination that is in contact with the top surface 200 in 3 one end of thermal conductor, the thermal conductor 3 are optional It is selected as graphite or graphene is any, and the thermal conductor 3 passes through bonding or glued or diffusion bonding or welding or burning Knot or the corresponding contact of any mode of laser welding are attached at the top surface 200.

It should be noted that the working fluid 5 in the chamber 203 of the utility model is the position for the steam-condensate circulating effect that carries out Place, in addition, the lip 202 is that the position of 20 most external periphery of ontology is tied in being more formed with a lip 202 on the ontology 20 Region when closing is closed, therefore the lip 202 is the inactive area without steam-condensate circulating effect.

Continue referring to Figure 4 together, therefore pass through the design of this structure of the utility model, as the lower plate 20b of the radiator 2 Outside (i.e. heat absorbing side) is in contact with a heat source 6 when attaching, and starts to carry out steam-condensate circulating effect inside Yu Suoshu chamber 203 with shape At heat transfer and the effect of thermal diffusion, heat is transferred heat to by 3 one end of thermal conductor being attached on the top surface 200 at this time The other end of conducting piece 3 into the heat transfer and heat dissipation effect to promote 20 horizontal direction of ontology, and can further pass through The other end of the thermal conductor 3 docks a heat dissipation element (not shown) and is able to distribute heat, which can be one Radiator or a radiating fin group are any, existing thermal conductor 3 are only attached at the ontology 20 in this way, can improve Lip 202 and the missing for being unable to reach heat transfer effects, reach integral heat sink effect that radiator 2 is substantially improved.

In addition, it should be noted that, 3 end thereof contacts of thermal conductor are connected to the quantity and size of the top surface 200 It is not restricted, the quantity and size of the thermal conductor 3 can be adjusted according to the configuration and demand of user.

Finally, referring to Fig. 5, being the cross-sectional view of the second embodiment of the utility model radiator, as shown, this reality It is identical as aforementioned first embodiment to apply a part-structure, therefore will not be described in great detail herein, only the present embodiment and aforementioned first embodiment Difference be, corresponding combination, and the structure aspect of the engaging portion 201 of being in contact with the engaging portion 201 in 3 one end of thermal conductor In a flange, which extends outward to form the lip 202 again, the set-up mode of the flange can in continuously or discontinuously its Middle either type arrangement, aspect of the schema system of the present embodiment in such a way that flange is in continuous arrangement are presented, the thermal conductor 3 Corresponding can the be flush setting (as shown in Figure 5) or can not be flush of a first side 30 and the top surface 200 of the ontology 20 set Set (i.e. the first side 30 may be selected low or be higher than the top surface 200, not show in figure).

The above, the utility model have the advantage that compared to existing

1. horizontal heat transfer and heat dissipation effect is substantially improved；

2. integral heat sink effect of radiator is substantially improved.

It is described above to be merely exemplary for the utility model, and not restrictive, those of ordinary skill in the art Understand, without departing from the spirit and scope defined by the claims, many modifications, variation or equivalent can be made, but It falls within the protection scope of the utility model.

Claims (15)

1. a kind of radiator characterized by comprising

One ontology has a top surface；And

An at least thermal conductor, the corresponding combination that is in contact with the top surface of one end.

2. radiator as described in claim 1, it is characterised in that: the ontology have a upper plate and a lower plate, the upper plate, The corresponding lid of lower plate is amounted to a chamber is defined, and the top surface is correspondingly formed in the outside of the chamber.

3. radiator as claimed in claim 2, it is characterised in that: the upper plate, lower plate material are identical or different materials.

4. radiator as claimed in claim 2, it is characterised in that: the upper plate, lower plate material are gold or silver or copper or aluminium Or made by iron or stainless steel or ceramics or commercial pure titanium or titanium alloy.

5. radiator as claimed in claim 2, it is characterised in that: the upper plate is condensation side, and the lower plate is heat absorbing side.

6. radiator as described in claim 1, it is characterised in that: the thermal conductor be graphite or graphene or heat pipe or Copper sheet.

7. radiator as described in claim 1, it is characterised in that: the thermal conductor is connect by bonding or bonding or diffusion It closes or the corresponding contact of the mode of welding or sintering or laser welding is attached at the top surface.

8. a kind of radiator characterized by comprising

One ontology, has a top surface, and the side of the top surface has an engaging portion；And

An at least thermal conductor, the corresponding combination that is in contact with the top surface or engaging portion of one end.

9. radiator as claimed in claim 8, it is characterised in that: the ontology have a upper plate and a lower plate, the upper plate, The corresponding lid of lower plate is amounted to a chamber is defined, and the top surface and engaging portion correspond to the outside for being divided into the chamber.

10. radiator as claimed in claim 9, it is characterised in that: the upper plate, lower plate material are identical or different materials Matter.

11. radiator as claimed in claim 9, it is characterised in that: the upper plate, lower plate material are gold or silver or copper or aluminium Or made by iron or stainless steel or ceramics or commercial pure titanium or titanium alloy.

12. radiator as claimed in claim 9, it is characterised in that: the upper plate is condensation side, and the lower plate is heat absorption Side.

13. radiator as claimed in claim 8, it is characterised in that: the thermal conductor is graphite or graphene or heat pipe Or copper sheet.

14. radiator as claimed in claim 8, it is characterised in that: the thermal conductor has a first side, and described the One side is corresponding with the top surface to be flush.

15. radiator as claimed in claim 8, it is characterised in that: the thermal conductor passes through bonding or glued or diffusion The corresponding contact of the mode of engagement or welding or sintering or laser welding is attached at the engaging portion or top surface.