CN201653234U - Uniform temperature plate structure - Google Patents

Abstract

The utility model discloses a uniform temperature plate structure. Fluid is filled in the uniform temperature plate. The uniform temperature plate structure comprises a main body and a seal pipe connected with the main body. The main body is provided with a holding groove and a hollowed hole which are communicated, wherein the hollowed hole penetrates through the two opposite side surfaces of the main body, and fluid is filled in the holding groove; the seal pipe is arranged in the hollowed hole and communicated with the holding groove. As the seal pipe is completely put in the hollowed hole, and the seal pipe can be protected from deformation or damage due to external impact.

Description

Equalizing plate structure

Technical field

The utility model relates to a kind of temperature-uniforming plate, particularly a kind of equalizing plate structure with the hollow hole that connects kenel.

Background technology

Along with the function of electronic installation increases year by year, such as central processing unit (Central Processing Unit, CPU), chipset or the arithmetic speed of the electronic building brick of display unit be also along with growth.Therefore, the heat that produced of electronic building brick unit interval is also more and more.If the heat of electronic building brick can't in time leave, then can influence the running of whole electronic installation, or cause the permanent damage of electronic building brick.

Usually the heat abstractor that adopts on electronic building brick is nothing more than dispelling the heat by the radiating subassembly as radiating fin, heat pipe or fan, and radiating fin contacted thermal source and via heat pipe or the heat of fan conduction electron assembly to the external world.If but heat concentrates on single point, then must be by installing temperature-uniforming plate (heatspreader) additional between electronic building brick and radiating fin.Acting as of temperature-uniforming plate is distributed to heat on the integral slab face of temperature-uniforming plate, and then prevents that electronic building brick is because of the too concentrated problem that causes the electronic building brick damage of the heat of single-point.

Figure 1 shows that the schematic diagram of existing equalizing plate structure.Equalizing plate structure 10a has a housing 12a, and tube sealing 14a is arranged at the side of equalizing plate structure 10a, and fluid can be injected into housing 12a inside via tube sealing 14a.After the fluid injection was finished, the opening of tube sealing 14a must be closed to avoid fluid to overflow from tube sealing 14a.Yet the tube sealing 14a of existing equalizing plate structure 10a shown in Figure 1 outside being exposed to fully, there is no any protection mechanism.If equalizing plate structure 10a drops or when being subjected to external force collision; tube sealing 14a is not improving under the situation of protection; as easy as rolling off a log so and rupture, so fluid overflows from tube sealing 14a is impaired, and causes equalizing plate structure 10a inner forfeiture vacuum state and can't act on.Worse situation is, may cause the electronic building brick that is attached to equalizing plate structure 10a to make moist and damages from the liquid of the outflow of tube sealing 14a.

Therefore, the improvement of manufacturer at this problem proposition equalizing plate structure arranged then, i.e. structural representation as shown in Figure 2.As shown in the figure, the tube sealing 14b of equalizing plate structure 10b is arranged among the depressed part 15b of cover plate 11b and cover plate 13b.In this existing form graphic is that the axial direction that will be parallel to tube sealing 14b is defined as X-direction, is parallel to cover plate 13b and vertical X-direction is defined as Y direction, is defined as Z-direction perpendicular to the direction of cover plate 13b.Though tube sealing 14b by the setting of cover plate 11b, cover plate 13b and depressed part 15b, is not subjected to the stressed impact of X-axis and Y direction with protection tube sealing 14b.But because depressed part 15b sets to the concave from the edge of equalizing plate structure 10b to form, so external force still might and be damaged from the opening part bump tube sealing 14b of depressed part 15b.That is to say that existing temperature-uniforming plate shown in Figure 2 still can't provide tube sealing 14b effective and complete protective effect.

In order to improve above-mentioned problem; the structural representation of the existing temperature-uniforming plate of another kind of kenel as shown in Figure 3; the tube sealing 14c of this equalizing plate structure 10c can be subjected to the complete preservation of housing 12c, depressed part 15c and housing 16c, is subjected to the impact of external force to prevent tube sealing 14c.Yet manufacturer must additionally increase the manufacturing cost of equalizing plate structure 10c in order to produce housing 16c, and also must have more the operation of one assemble case 12c and housing 16c when assembling equalizing plate structure 10c.

Therefore, because the shortcoming of aforementioned prior art must propose a solution, do not needing additionally to increase under the prerequisite of assembly, the tube sealing that protects equalizing plate structure effectively is with the impulsive force of opposing from all directions.

The utility model content

In view of above problem; the utility model provides a kind of equalizing plate structure; can't effectively protect tube sealing can directly not be subjected to the impact of external force so as to improving existing equalizing plate structure; and must on equalizing plate structure, additionally increase if desire the complete preservation tube sealing and to protect assembly, thereby cause problems such as the manufacturing cost increase of temperature-uniforming plate and assembling procedure be numerous and diverse.

The utility model discloses a kind of equalizing plate structure, and temperature-uniforming plate inside is filled with a fluid.Equalizing plate structure includes a body and a tube sealing, and body has a storage tank and a hollow hole that is connected.Wherein, storage tank is arranged at body interior and is placed in wherein for fluid, and hollow hole is to run through body and be arranged in the body.Tube sealing is arranged in the hollow hole and is connected in body, and tube sealing is connected with storage tank.

Wherein, the diameter dimension of the tube sealing of the utility model equalizing plate structure is less than or equal to the degree of depth of hollow hole.

Wherein, the body of the utility model equalizing plate structure includes one first plate body and one second plate body of mutual applying, and a side of first plate body or second plate body has storage tank.

Wherein, first plate body or second plate body that equalizing plate structure of the present utility model has storage tank have a locating slot, locating slot is communicated in hollow hole and storage tank, and tube sealing has the first relative end and second end, first end is arranged in the locating slot and with storage tank and is connected, and second distal process is stretched in the hollow hole.

Wherein, first plate body of equalizing plate structure of the present utility model has one first open-work, and second plate body has one second open-work that corresponds to first open-work, and first open-work and second open-work formation hollow hole.

Effect of the present utility model is, because hollow hole is in retraction and the body that is arranged at equalizing plate structure, and tube sealing submerges in the hollow hole of equalizing plate structure body fully, therefore when equalizing plate structure is subjected to impulsive force and clashes into, can protect the impact that all directions reach tube sealing by body.In addition, because of hollow hole is arranged on the body, thus need not design extra assembly, and avoid increasing the design cost of equalizing plate structure.

Below in conjunction with the drawings and specific embodiments the utility model is described in detail, but not as to qualification of the present utility model.

Description of drawings

Fig. 1 is the schematic perspective view of existing equalizing plate structure;

Fig. 2 is the schematic perspective view of existing another equalizing plate structure;

Fig. 3 is the existing schematic perspective view of an equalizing plate structure again;

Fig. 4 A is the schematic perspective view of the equalizing plate structure of the utility model first embodiment;

Fig. 4 B is the cross sectional side view along the 4B-4B section of Fig. 4 A;

Fig. 5 is the combination schematic diagram of equalizing plate structure setting of the present utility model and electronic building brick and radiating subassembly;

Fig. 6 A is the three-dimensional exploded view of the equalizing plate structure of the utility model second embodiment;

Fig. 6 B is the three-dimensional combination figure of the equalizing plate structure of the utility model second embodiment; And

Fig. 6 C is the generalized section along the 6C-6C section of Fig. 6 B.

Wherein, Reference numeral

10a, 10b, 10c, 100,200: equalizing plate structure

11b, 13b: cover plate

12a, 12c: housing

14a, 14b, 14c, 120,230: tube sealing

15b, 15c: depressed part

16c: housing

110,201: body

111: upper face

112,240: storage tank

113: lower face

114,202: hollow hole

116: side wall

210: the first plate bodys

212: the first open-works

220: the second plate bodys

222: the second open-works

232: the first ends

234: the second ends

250: locating slot

300: radiating subassembly

400: electronic building brick

D, D ': diameter dimension

E, E ': the degree of depth

The specific embodiment

Below in conjunction with accompanying drawing structural principle of the present utility model and operation principle are done concrete description:

Chat bright in advance, the following stated equalizing plate structure of the present utility model all comprises a body and a tube sealing, and the coordinate of equalizing plate structure all meets following definitions: the axial direction of tube sealing is an X-direction, being parallel to body and being Y direction perpendicular to the direction of X-axis, is Z-direction perpendicular to the direction of body.

Please refer to Fig. 4 A and Fig. 4 B, its be respectively the utility model first embodiment equalizing plate structure schematic perspective view and along the cross sectional side view of the 4B-4B section of Fig. 4 A.

The equalizing plate structure 100 of the utility model first embodiment comprises a body 110 and a tube sealing 120.The structure that body 110 is formed in one can be shaped to body 110 structures of present embodiment with single plate by processing modes such as bending forming or punch formings, but not exceed in above-mentioned machine-shaping mode.

Body 110 of the present utility model is divided into two zones haply, be respectively storage tank 112 and hollow hole 114, and storage tank 112 is to be interconnected with hollow hole 114, wherein storage tank 112 is the inside that is arranged at body 110, and hollow hole 114 is to run through the two opposite side faces of body 110 in Z-direction, and hollow hole 114 is to be arranged in the body 110, but not is arranged on the marginal position of body 110.That is to say, hollow hole 114 of the present utility model be the position in the bounds that outer rim constituted of body 110, and do not cause the sealing kenel structure of opening at body 110 edges.In addition, hollow hole 114 does not run through two relative sides of body 110 with respect to X-direction or Y direction.

Tube sealing 120 is arranged in the hollow hole 114 and is connected in body 110, and the fluid (not shown) that removes heat in order to loose is to be filled by tube sealing 120 to be injected in the storage tank 112 of equalizing plate structure 100 inside, and after the fluid filling is finished, is about to tube sealing 120 sealings.The fluid that injects has the characteristic of phase change when equalizing plate structure 100 contact thermals source, fast the single-point temperature-averaging is conducted on the body 110 for equalizing plate structure 100.Please refer to the combination schematic diagram of equalizing plate structure setting of the present utility model shown in Figure 5 and electronic building brick and radiating subassembly, body 110 has a upper face 111 and a lower face 113, the user can be attached at upper face 111 or lower face 113 on the electronic building brick 400, and another side is attached on the radiating subassembly 300, as radiating fin or fan, so that electronic building brick 400 is done the action of heat radiation.Preferably, a capillary structure (not shown) is set in the storage tank 112, and capillary structure is distributed in the inner surface (not shown) of body 110, and makes fluid in capillary structure, flow.

Shown in Fig. 4 A and Fig. 4 B, tube sealing 120 is a columniform hollow tube.Tube sealing 120 has a diameter dimension D in the radial direction perpendicular to X-axis, and hollow hole 114 has a degree of depth E in Z-direction, and diameter dimension D is not more than (being less than or equal to) degree of depth E.Therefore, tube sealing 120 can not protrude in hollow hole 114 and body 110 on Z-direction.So that equalizing plate structure 100 is subjected to external force to do the time spent, tube sealing 120 can not be subjected to the external force effect and damage on the Z axle.In addition, hollow hole 114 forms side wall 116 and is surrounded on hollow hole 114 after running through body 110 in body 110, and tube sealing 120 is arranged at side wall 116 near on the side of storage tank 112.So, can protect the external force effect of tube sealing 120 by side wall 116, to avoid tube sealing 120 to be subjected to causing distortion or to damage from the external force of X-axis and Y direction in X-direction and Y direction.Learnt that by above-mentioned equalizing plate structure 100 of the present utility model is by the hollow hole 114 through body 110, protection tube sealing 120 effectively avoids tube sealing 120 stressed collision backs to produce the corrupted problem in the stressed effect from X-direction, Y direction and Z-direction.

Please refer to the utility model second embodiment equalizing plate structure shown in Fig. 6 A, Fig. 6 B and Fig. 6 C three-dimensional exploded view, Fig. 6 A three-dimensional combination figure and along the generalized section of the 6C-6C section of Fig. 6 B.

One body 201 of the equalizing plate structure 200 of the utility model second embodiment comprises and a tube sealing 230.Wherein, the main difference of the present embodiment and first embodiment is that the body 201 of present embodiment has one first plate body 210 and one second plate body 220, and body 201 member that to be first plate body 210 and second plate body 220 be fits and form mutually, and the side that second plate body 220 fits in first plate body 210 has a storage tank 240.Offer first open-work 212 that runs through on first plate body 210, and offer second open-work 222 that runs through on second plate body 220 corresponding to first open-work 212.After first plate body 210 and second plate body 220 mutually combined, first open-work 212 and second open-work 222 promptly constituted the hollow hole 202 of the body 201 of equalizing plate structure 200.On a side of second plate body 220, a locating slot 250 can be set, and locating slot 250 is to be positioned on the same side of second plate body 220 with storage tank 240.Therefore, locating slot 250 can be communicated in hollow hole 202 and storage tank 240 and in order to place tube sealing 230.Tube sealing 230 has one first relative end 232 and one second end, 234, the first ends 232 and is arranged in the locating slot 250 and is communicated in storage tank 240, and second end, 234 projections and being communicated in the hollow hole 202.

Yet, storage tank 240 does not limit and only is arranged on second plate body 220, also visual actual demand is arranged at first plate body 210 on the side of second plate body 220, even be on first plate body 210 and second plate body 220, storage tank 240 to be set respectively simultaneously, do not exceed with the form that present embodiment was disclosed.In addition, the also visual storage tank 240 of locating slot 250 the position is set, and be arranged in the lump on the same plate body with storage tank 240.Moreover the mode that first plate body 210 and second plate body 220 do not limit to fit interfixes, and also can adopt modes such as engaging, locking or welding that first plate body 210 and second plate body 220 are interfixed.

When manufacturer with first plate body 210, second plate body 220 and after tube sealing 230 engages, fluid can be injected the storage tank 240 that is connected with first end 232 of tube sealing 230 by second end 234 of tube sealing 230, storage tank 240 has a capillary structure (not shown).Ensuing fluid is identical with first embodiment with the embodiment of capillary structure, therefore repeats no more.In addition, in the present embodiment, the diameter dimension D ' of tube sealing 230 also is not more than the degree of depth E ' of (being less than or equal to) hollow hole 202.So, also can pass through the described embodiment of first embodiment, protection tube sealing 230 is damaged to avoid tube sealing 230 stressed effect backs in the stressed effect of X-axis, Y-axis and Z-direction.

The disclosed equalizing plate structure of the utility model is the hollow hole that is provided with intercrossing type in its body construction, so that tube sealing is submerged fully in the hollow hole.Therefore, when equalizing plate structure is subjected to the bump of extraneous strength, because the diameter dimension of tube sealing is not more than the degree of depth of hollow hole, and hollow hole around side wall be surrounded on tube sealing around, therefore the impact that can complete protection be passed to tube sealing from each axial direction, avoid tube sealing directly to bear external force, effectively avoid tube sealing to take place because of the stressed situation of being out of shape or even damaging.

In addition; temperature-uniforming plate of the present utility model only needs to offer the hollow hole that runs through in body can effectively protect tube sealing; therefore must not design extra protection assembly, significantly reduce the complexity of manufacturing cost, assembling procedure and the design of temperature-uniforming plate, also can improve prouctiveness simultaneously.

Certainly; the utility model also can have other various embodiments; under the situation that does not deviate from the utility model spirit and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the utility model, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the utility model.

Claims (5)

1. equalizing plate structure, this equalizing plate structure inside is filled with a fluid, it is characterized in that, and this equalizing plate structure includes:

One body has the storage tank and the hollow hole that are connected, and this storage tank is arranged at this body interior, is placed in wherein for this fluid, and this hollow hole runs through this body, and is arranged in this body; And

One tube sealing is arranged in this hollow hole and is connected in this body, and this tube sealing is connected with this storage tank.

2. equalizing plate structure according to claim 1 is characterized in that, the diameter dimension of this tube sealing is less than or equal to the degree of depth of this hollow hole.

3. equalizing plate structure according to claim 1 is characterized in that, this body includes one first plate body and one second plate body of mutual applying, and a side of this first plate body or this second plate body has this storage tank.

4. equalizing plate structure according to claim 3, it is characterized in that, this first plate body or this second plate body with this storage tank also have a locating slot, be communicated in this hollow hole and this storage tank, this tube sealing has one first relative end and one second end, this first end is arranged in this locating slot, and is connected with this storage tank, and this second distal process is stretched in this hollow hole.

5. equalizing plate structure according to claim 3 is characterized in that, this first plate body has one first open-work, and this second plate body has one second open-work corresponding to this first open-work, and this first open-work and this second open-work constitute this hollow hole.

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