CN108036664A - Radiator compression-resistant structure - Google Patents

Abstract

The present invention provides a kind of radiator compression-resistant structure, comprising：One body；The body has a chamber and a bending part, the chamber has a top side and a bottom side, the chamber corresponds to setting primary antibody casting die at the bending part, the chamber bottom side is equipped with a capillary structure, the top side and the capillary structure surface of the chamber are supported respectively in the resistance to compression part both sides, a working fluid is filled with the chamber, the body interior steam chamber with bending R angles can be made not because of bending setting by the resistance to compression part to be deformed reducing or damage.

Description

Radiator compression-resistant structure

Technical field

The present invention relates to a kind of radiator compression-resistant structure, it is espespecially a kind of can ensure that the radiator with warp architecture its The steam chamber at curved position is in bending but still possesses the radiator compression-resistant structure of its complete steam chamber.

Background technology

The heat dissipation element that existing temperature-uniforming plate and flat plate heat tube system is commonly used for the heat dissipation of each field and uses, temperature-uniforming plate and flat Plate-type heat-pipe cardinal principle inside this by by establishing a vacuum tight chamber and capillary structure and work being set in the chamber Make liquid, working fluid its boiling point in the environment of vacuum is then less than general environment, therefore vapour-liquid can be quickly carried out in chamber and followed Ring, therefore reach rapid large-area heat transfer or distal end heat transfer and other effects.

But used to meet each application surface in each field, temperature-uniforming plate or flat plate heat tube have no longer been only conventional flat plate Aspect, existing dealer is moulding by modes such as bending or folding or curlings by temperature-uniforming plate or flat plate heat tube, is applied with meeting Part；And temperature-uniforming plate or flat plate heat tube certainly will will then make its internal chamber used as steam channel when being subject to moulding Deformation is squeezed, and then influences the efficiency of steam-condensate circulating, also has dealer by setting copper post to be used as supporter, but in convex Columnar supporter can not be simultaneously arranged at R angles or the excessive part of angle of bend so that chamber still can not be supported and Generation is caved in or narrow phenomenon, furthermore, the capillary structure of crooked position as bending and cause warpage or the feelings such as come off Condition, makes temperature-uniforming plate or flat plate heat tube heat conduction efficiency be greatly reduced and notably disable, therefore how to improve foregoing existing missing then For the target of the first weight of dealer in this field.

The content of the invention

In this way, the shortcomings that to solve the above-mentioned prior art, the main object of the present invention, there is provided one kind prevents temperature-uniforming plate or flat The internal chamber of plate-type heat-pipe bending place prevent from caving in or inside contract influence working fluid steam-condensate circulating radiator compression-resistant structure.

In order to achieve the above object, the present invention provides a kind of radiator compression-resistant structure, it is characterized in that comprising：

One body, has a chamber and a bending part, and the chamber has a top side and a bottom side, and the chamber corresponds to should Primary antibody casting die is set at bending part, and the bottom side of the chamber is equipped with a capillary structure, and the chamber is supported in the resistance to compression part both sides respectively Top side and the capillary structure surface, is filled with working fluid in the chamber.

The radiator compression-resistant structure, wherein：The body has one first plate body, one second plate body and a pipe Body, first plate body, the second plate body correspond to and cover and clamp the tube body at the same time and define the chamber jointly, and the tube body is with being somebody's turn to do Chamber is connected.

The radiator compression-resistant structure, wherein：First plate body, the second plate body are metal material or ceramic material Matter, the metal material is gold, silver, copper, aluminium, stainless steel, titanium matter any of which.

The radiator compression-resistant structure, wherein：The bending part both ends each extend over connection one first extension and One second extension, has an angle between first extension, the second extension.

The radiator compression-resistant structure, wherein：The bending part has a bending rounded corner.

The radiator compression-resistant structure, wherein：The capillary structure is grid body or sintered powder or groove or fibre Tie up body.

The radiator compression-resistant structure, wherein：The resistance to compression part is metal or nonmetallic, the metal be copper, aluminium, Stainless steel, titanium any of which, it is described it is nonmetallic be rubber or plastics or other have flexible materials.

The radiator compression-resistant structure, wherein：The body is the main body or a flat plate heat tube of a temperature-uniforming plate Main body.

The radiator compression-resistant structure, wherein：The resistance to compression part has a first end and a second end, and this first The first extension, the second extension that end, second end are connected along the surface of the chamber and the capillary structure to the bending part prolong Stretch setting.

The radiator compression-resistant structure, wherein：There is the resistance to compression part one the 3rd end and one the 4th end to be arranged on the bending Portion, and setting is extended laterally towards the body, which has an at least hole, and at least a hole connects the chamber for this.

The radiator compression-resistant structure, wherein：The resistance to compression part has one first side and one second side, first side Width be more than the second side, which, which corresponds to, abuts the capillary structure, and the second side corresponds to the surface for abutting the chamber.

The radiator compression-resistant structure, wherein：The upper and lower both sides of body exterior define a heat absorbing side and one respectively Condensation side, the heat absorbing side are located at the opposite side of the bottom side of the body interior chamber, which is located at the body interior chamber Top side opposite side.

Compared with prior art, the invention has the advantages that：Completely comply with that docile this is curved by the resistance to compression part The chamber surfaces of folding part and the capillary surface are set, and the firm chamber supported at the bending part and prevent capillary structure warpage, are made Chamber keeps complete do not produce to inside contract or ensure phenomena such as caving in that the steam-condensate circulating of working fluid in chamber stablizes operation.

Brief description of the drawings

Fig. 1 is the three-dimensional exploded view of radiator compression-resistant structure first embodiment of the present invention；

Fig. 2 is the assembled sectional view of radiator compression-resistant structure first embodiment of the present invention；

Fig. 3 is the three-dimensional exploded view of radiator compression-resistant structure second embodiment of the present invention；

Fig. 4 is the assembled sectional view of radiator compression-resistant structure second embodiment of the present invention；

Fig. 5 is the combination partial sectional view of radiator compression-resistant structure 3rd embodiment of the present invention；

Fig. 6 is the combination partial sectional view of radiator compression-resistant structure fourth embodiment of the present invention.

Description of reference numerals：Body 1；Chamber 11；Top side 11a；Bottom side 11b；Heat absorbing side 11c；Condensation side 11d；Bending part 12；Resistance to compression part 13；First side 131；Second side 132；First end 133；Second end 134；3rd end 135；4th end 136；Hole 137；Capillary structure 14；Working fluid 2；First plate body 1a；Second plate body 1b；Tube body 1c；First extension 1d；Second extension 1e；Angle 1f.

Embodiment

The above-mentioned purpose and its structure of the present invention and characteristic functionally, will give according to the preferred embodiment of institute's accompanying drawings Explanation.

Please refer to Fig.1, Fig. 2, be the stereo decomposing and combination section view of radiator compression-resistant structure first embodiment of the present invention Figure, as shown in the figure, the radiator compression-resistant structure, comprising：One body 1；

The body 1 of the present embodiment is the structural body 1 of a temperature-uniforming plate, and the body 1 has a chamber 11 and a bending part 12, the chamber 11 has an a top side 11a and bottom side 11b, and the chamber 11, which corresponds to, sets primary antibody casting die at the bending part 12 13,11 bottom side 11b of the chamber is equipped with a capillary structure 14, and the top side 11a of the chamber 11 is supported in 13 both sides of resistance to compression part respectively And 14 surface of capillary structure, the chamber 11 is interior to be filled with a working fluid 2.

The upper and lower both sides in the outside of body 1 define an a heat absorbing side 11c and condensation side 11d, i.e., described resistance to compression part 13 respectively Both sides are attached at the chamber 11 and correspond to the capillary knot at the top side 11a surfaces of the bending part 12 and being arranged at the bending part 12 The surface of structure 14, the both ends of the resistance to compression part 13 are extended along 11 surface of chamber to 12 both ends of bending part, the resistance to compression part 13 be that (grid body or corpus fibrosum or sintered powder or solid convex rib any of which) the resistance to compression part 13 is that metal is (copper, aluminium, stainless Steel, titanium) or it is nonmetallic (rubber or plastics or flexible material etc.), and the capillary structure 14 is grid body or sintered powder , should or groove or corpus fibrosum any of which, heat absorbing side 11c are located at the opposite side of the bottom side 11b of the inside of body 1 chamber 11 Condensation side 11b is located at the opposite side of the top side 11a of 1 internal chamber 11 of body.

The body 1 have one first plate body 1a and one second plate body 1b and tube body a 1c, the first and second plate body 1a, 1b is corresponded to and is covered and clamp tube body 1c at the same time and define the chamber 11 jointly, and the tube body 1c is connected with the chamber 11, institute It is metal material or ceramic material any of which to state first and second plate body 1a, 1b, and the metal material is gold, silver, copper, aluminium, stainless Steel, titanium matter any of which.

The both ends of the bending part 12 of the body 1 have one first extension 1d and one second extension 1e, the bending 12 both ends of portion link first and second extension 1d, 1e respectively, and make and have an angle between described first and second extension 1d, 1e 1f, the bending part 12 have a first end 133 and a second end 134 in a bending rounded corner, the resistance to compression part 13, and this First, first and second extension that two ends 133,134 are connected along the chamber 11 and the longitudinal direction of capillary structure 14 to the bending part 12 1d, 1e are extended.

Fig. 3, Fig. 4 are referred to, is that the stereo decomposing of the second embodiment of radiator compression-resistant structure of the present invention and combination are cutd open View, as shown in the figure, the present embodiment part-structure is identical with aforementioned first embodiment, therefore will not be described in great detail, only this implementation herein Example is that the body 1 is the main body of a flat plate heat tube with aforementioned first embodiment difference, and the resistance to compression part 13 is arranged at Bending part 12, so make the steam channel of the chamber 11 at flat plate heat tube bending part 12 keep the unimpeded not draw or cave in and into One step lifts overall construction intensity.

Referring to Fig. 5, it is the resistance to compression part stereogram of radiator compression-resistant structure of the present invention, as shown in the figure, the present embodiment portion Separation structure is identical with aforementioned first embodiment, therefore will not be described in great detail herein, is the difference of the present embodiment and aforementioned first embodiment Being in the described resistance to compression part 13 there is one the 3rd end 135 and one the 4th end 136 to be arranged on the bending part 12, and along the body 1 Setting is extended laterally, and the resistance to compression part 13 has an at least hole 137, which connects the chamber 11.

Referring to Fig. 6, it is the resistance to compression part stereogram of radiator compression-resistant structure of the present invention, as shown in the figure, the present embodiment portion Separation structure is identical with aforementioned first embodiment, therefore will not be described in great detail herein, is the difference of the present embodiment and aforementioned first embodiment Be in has one first side 131 and one second side 132 in the resistance to compression part 13, and the width of first side 131 is more than the second side 132, and first side 131 corresponds to and abuts the capillary structure 14, the second side 132 corresponds to the surface for abutting the chamber 11.

The present invention is mainly completely bonded the bending by that in temperature-uniforming plate or flat plate heat tube bending place need to be set to pre-set The upper and lower plate body at place and then chamber is supported, and then lift structure intensity prevents the chamber of bending place from caving in or causes the draw And make and lose effectiveness as the chamber that steam channel uses.

Claims (12)

1. a kind of radiator compression-resistant structure, it is characterized in that comprising：

One body, has a chamber and a bending part, and the chamber has a top side and a bottom side, and the chamber corresponds to the bending Primary antibody casting die is set at portion, and the bottom side of the chamber is equipped with a capillary structure, and the top of the chamber is supported in the resistance to compression part both sides respectively Side and the capillary structure surface, the chamber is interior to be filled with working fluid.

2. radiator compression-resistant structure according to claim 1, it is characterised in that：The body have one first plate body, One second plate body and a tube body, first plate body, the second plate body correspond to and cover and clamp the tube body at the same time and define this jointly Chamber, the tube body are connected with the chamber.

3. radiator compression-resistant structure according to claim 2, it is characterised in that：First plate body, the second plate body are Metal material or ceramic material, the metal material is gold, silver, copper, aluminium, stainless steel, titanium matter any of which.

4. radiator compression-resistant structure according to claim 1, it is characterised in that：The bending part both ends each extend over company One first extension and one second extension are connect, there is an angle between first extension, the second extension.

5. radiator compression-resistant structure according to claim 1, it is characterised in that：The bending part has a bending rounding Angle.

6. radiator compression-resistant structure according to claim 1, it is characterised in that：The capillary structure is grid body or burning Tie powder or groove or corpus fibrosum.

7. radiator compression-resistant structure according to claim 1, it is characterised in that：The resistance to compression part is metal or non-gold Belong to, the metal is copper, aluminium, stainless steel, titanium any of which, it is described it is nonmetallic be rubber or plastics or other have pliability Material.

8. radiator compression-resistant structure according to claim 1, it is characterised in that：The body is the main body of a temperature-uniforming plate Or one flat plate heat tube main body.

9. radiator compression-resistant structure according to claim 4, it is characterised in that：The resistance to compression part has a first end and one Second end, and the first extension that the first end, second end are connected along the surface of the chamber and the capillary structure to the bending part Portion, the second extension are extended.

10. radiator compression-resistant structure according to claim 1, it is characterised in that：The resistance to compression part have one the 3rd end and One the 4th end is arranged on the bending section, and extends laterally setting towards the body, which has an at least hole, this at least one Hole connects the chamber.

11. radiator compression-resistant structure according to claim 1, it is characterised in that：The resistance to compression part have one first side and One second side, the width of first side are more than the second side, which, which corresponds to, abuts the capillary structure, and the second side corresponds to and supports Connect the surface of the chamber.

12. radiator compression-resistant structure according to claim 1, it is characterised in that：The upper and lower both sides of body exterior point Do not define a heat absorbing side and a condensation side, which is located at the opposite side of the bottom side of the body interior chamber, the condensation side Opposite side positioned at the top side of the body interior chamber.