CN216852942U - Intelligent information-based heat dissipation equipment - Google Patents

Abstract

The utility model provides intelligent information-based heat dissipation equipment, which comprises a box body shell, a heat dissipation fan, a compression spring, a water cooling plate, a movable heat dissipation plate and a heat exchange assembly; the heat radiation fan is arranged at the bottom of the box body shell; the two groups of water cooling plates are respectively arranged at two ends of the bottom surface in the box body shell in a sliding manner; one side of the water cooling plate is connected with the inner side wall of the box body shell through the compression spring, and a plurality of movable heat dissipation plates are arranged on the other side of the water cooling plate; under the action of the elastic force of the compression spring, the two groups of water cooling plates have the tendency of approaching to each other; the heat exchange assembly comprises a heat exchanger, an input hose and an output hose, the water cooling plate is provided with a water inlet and a water outlet, the output hose is connected with the heat exchanger and the water inlet, and the input hose is connected with the heat exchanger and the water outlet; the utility model discloses a radiator fan and water-cooling component's cooperation effectively strengthens the radiating effect to the intelligent information equipment that generates heat.

Description

Intelligent information-based heat dissipation equipment

Technical Field

The utility model relates to a technical field of information-based equipment, especially an intelligent information-based heat dissipation equipment.

Background

The informatization is based on modern communication, network and database technologies, and various elements of a researched object are gathered to a database for a technology that various behaviors such as life, work, study, aid decision and the like of a specific crowd are combined with various behaviors closely related to human beings.

SUMMERY OF THE UTILITY MODEL

To the above defect, the utility model aims to provide an intelligent information ization heat radiation equipment solves prior art intelligent information ization equipment heat dispersion poor, has the potential safety hazard and influences equipment life's problem.

To achieve the purpose, the utility model adopts the following technical proposal:

an intelligent information-based heat dissipation device comprises a box body shell, a heat dissipation fan, a compression spring, a water cooling plate, a movable heat dissipation plate and a heat exchange assembly; the heat radiation fan is arranged at the bottom of the box body shell; the two groups of water cooling plates are respectively arranged at two ends of the bottom surface in the box body shell in a sliding manner; one side of the water cooling plate is connected with the inner side wall of the box body shell through the compression spring, and a plurality of movable heat dissipation plates are arranged on the other side of the water cooling plate; under the action of the elastic force of the compression spring, the two groups of water cooling plates have the tendency of approaching to each other; the heat exchange assembly is provided with two sets of and respectively with two sets of the water-cooling plate is connected, the heat exchange assembly is including heat exchanger, input hose and output hose, the water-cooling plate is provided with water inlet and delivery port, output hose connects the heat exchanger with the water inlet, input hose connects the heat exchanger with the delivery port.

Preferably, the bottom surface of the inner part of the box body shell is provided with two groups of guide rails, the two groups of guide rails can be provided with sliding blocks in a sliding manner, and two ends of the water cooling plate are respectively and fixedly arranged on the two groups of sliding blocks on the guide rails.

Preferably, the inner side wall of the box body shell is provided with a limiting column, the compression spring is sleeved on the outer side of the limiting column, one end of the compression spring is connected with the inner side wall of the box body shell, and the other end of the compression spring is connected with the sliding block.

Preferably, a support plate is further arranged inside the box body shell, the support plate is arranged above the guide rail, and the support plate is provided with a abdicating hole and a plurality of air outlets; the air outlet is arranged above the heat radiation fan.

Preferably, a cooling channel is arranged inside the water cooling plate, and the cooling channel comprises a left side cooling section and a right side cooling section; the left cooling section and the right cooling section are both in a snake shape; one end of the left cooling section is communicated with the water inlet, and the other end of the left cooling section is communicated with the right cooling section; one end of the right cooling section is communicated with the left cooling section, and the other end of the right cooling section is communicated with the water outlet.

Preferably, the movable heat dissipation plate comprises a fixed part, a return spring and an expansion part, a sliding cavity is arranged inside the fixed part, and the expansion part is slidably arranged in the sliding cavity; the reset spring is arranged in the sliding cavity, and the telescopic part has a trend of being far away from the fixing part under the elastic action of the reset spring.

Preferably, the opening part of the fixing part is provided with a limiting flange, and one end of the telescopic part is provided with a limiting block.

Preferably, one end of the movable heat dissipation plate is provided with heat conduction silica gel.

Preferably, the input hose and the output hose are both spiral, and the input hose and the output hose can freely stretch and contract.

One of the above technical solutions has the following advantages or beneficial effects:

this intelligent information ization heat radiation equipment, through radiator fan and water-cooling module's cooperation, effectively strengthened the radiating effect to the intelligent information equipment who generates heat, under compression spring's effect, paste the surface of tight equipment that generates heat with the activity heating panel, the heat can transmit to the water-cooling board rapidly through the activity heating panel, then absorbs the heat rapidly through the water-cooling board, is favorable to improving the radiating effect.

Drawings

Fig. 1 is a schematic overall appearance diagram of an embodiment of the present invention;

fig. 2 is a top view of the internal structure of one embodiment of the present invention;

fig. 3 is a side view of the internal structure of one embodiment of the present invention;

fig. 4 is a schematic structural diagram of a support plate according to an embodiment of the present invention;

fig. 5 is a cross-sectional view of a water cooled panel according to an embodiment of the present invention;

fig. 6 is a sectional view of a movable heat dissipating plate according to an embodiment of the present invention.

Wherein: the cooling device comprises a box body shell 1, a guide rail 11, a slide block 12, a limiting column 13, a cooling fan 2, a compression spring 3, a water cooling plate 4, a cooling channel 40, a left cooling section 401, a right cooling section 402, a water inlet 41, a water outlet 42, a movable cooling plate 5, a fixing part 51, a sliding cavity 510, a limiting flange 511, a return spring 52, a telescopic part 53, a limiting block 531, heat-conducting silica gel 54, a heat exchange assembly 6, a heat exchanger 61, an input hose 62, an output hose 63, a supporting plate 7, a abdicating hole 71 and an air outlet 72.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, features defined as "first" and "second" may explicitly or implicitly include one or more of the features for distinguishing between descriptive features, non-sequential, non-trivial and non-trivial.

In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The intelligent information-based heat dissipation device according to the embodiment of the present invention is described below with reference to fig. 1 to 6, and includes a box body housing 1, a heat dissipation fan 2, a compression spring 3, a water cooling plate 4, a movable heat dissipation plate 5, and a heat exchange assembly 6; the heat radiation fan 2 is arranged at the bottom of the box body shell 1; two groups of water cooling plates 4 are arranged, and the two groups of water cooling plates 4 are respectively arranged at two ends of the bottom surface in the box body shell 1 in a sliding manner; one side of the water cooling plate 4 is connected with the inner side wall of the box body shell 1 through the compression spring 3, and a plurality of movable heat dissipation plates 5 are arranged on the other side; under the action of the elastic force of the pressing spring 3, the two groups of water cooling plates 4 have the tendency of approaching to each other; the heat exchange assembly 6 is provided with two sets and is respectively connected with the two sets of water-cooling plates 4, the heat exchange assembly 6 comprises a heat exchanger 61, an input hose 62 and an output hose 63, the water-cooling plates 4 are provided with a water inlet 41 and a water outlet 42, the output hose 63 is connected with the heat exchanger 61 and the water inlet 41, and the input hose 62 is connected with the heat exchanger 61 and the water outlet 42.

Specifically, in this embodiment, the external air is blown into the box housing 1 by the heat dissipation fan 2, the box housing 1 is provided with a plurality of air outlets for blowing out the heat dissipated from the inside of the box housing 1 outside the box body, so as to achieve the air cooling effect, most importantly, the two ends of the inside of the box housing 1 are respectively provided with the water cooling assemblies, each water cooling assembly comprises a water cooling plate 4, a movable heat dissipation plate 5, a compression spring 3 and a heat exchange assembly 6, the heating device is installed between the two sets of water cooling assemblies, under the elastic action of the compression spring 3, the two sets of water cooling plates 4 have a trend of being close to each other, so that the movable heat dissipation plate 5 is close to the heating device, the heat is transferred from the movable heat dissipation plate 5 to the water cooling plates 4, in this process, the heat dissipation fan 2 can perform air-cooling auxiliary heat dissipation on the heat dissipated from the movable heat dissipation plate 5, and the heat exchange assembly 6 works simultaneously, the cooling water is conveyed to the water cooling plate 4 through the output hose 63, enters the inside of the water cooling plate 4 from the water inlet 41, absorbs the heat of the water cooling plate 4 by using the cooling water, so that the cooling and heat dissipation effects are achieved, and finally the cooling water which absorbs the heat enters the input hose 62 from the water outlet 42 and is conveyed to the heat exchanger 61 for cooling, so that the cooling effect on the water cooling plate 4 is achieved; this application is through radiator fan 2 and water-cooling module's cooperation, has effectively strengthened the radiating effect to the intelligent information equipment that generates heat, under compression spring 3's effect, pastes movable heat dissipation board 5 tightly at the surface of the equipment that generates heat, and the heat can transmit to water-cooling board 4 rapidly through movable heat dissipation board 5, then absorbs the heat rapidly through water-cooling board 4, is favorable to improving the radiating effect.

Furthermore, the bottom surface of the interior of the box body shell 1 is provided with two groups of guide rails 11, the two groups of guide rails 11 can be provided with sliding blocks 12 in a sliding manner, and two ends of the water cooling plate 4 are respectively and fixedly arranged on the two groups of sliding blocks 12 on the guide rails 11.

Specifically, in this embodiment, water-cooling plate 4 passes through slider 12 to be fixed on guide rail 11 to the realization is to water-cooling plate 4 spacing and guide effect, and water-cooling plate 4's both ends utilize slider 12 spacing respectively on guide rail 11, make water-cooling plate 4 move along guide rail 11's direction all the time, and play the effect of direction, parallel when guaranteeing water-cooling plate 4's both ends simultaneously and moving, make water-cooling plate 4 move more smoothly and stably.

In the preferred embodiment, the inner side wall of the box casing 1 is provided with a limiting column 13, the compression spring 3 is sleeved outside the limiting column 13, one end of the compression spring 3 is connected with the inner side wall of the box casing 1, and the other end is connected with the sliding block 12.

Specifically, in this embodiment, establish the periphery at spacing post 13 with 3 covers of pressure spring, spacing post 13 plays the effect of location and direction to pressure spring 3, can comparatively accurate location installation pressure spring 3, guarantees that pressure spring 3's both ends are connected respectively the inside wall and the slider 12 of box shell 1, in pressure spring 3's concertina movement, spacing post 13 plays the effect of direction, avoids pressure spring 3 to take place at the crooked or condition of buckling of flexible in-process.

In the preferred embodiment, a supporting plate 7 is further disposed inside the box casing 1, the supporting plate 7 is disposed above the guide rail 11, and the supporting plate 7 is provided with a relief hole 71 and a plurality of air outlets 72; the receding hole 71 is disposed above the guide rail 11, and the air outlets 72 are arranged above the heat dissipation fan 2.

Specifically, in this embodiment, the supporting plate 7 is fixed above the guide rail 11, and can be used for fixing the equipment generating heat, and the equipment generating heat is erected, and is ventilated through the air outlets 72, and the air of the heat dissipation fan 2 can be blown into the inside of the box shell 1 through the air outlets 72, so that the heat dissipation efficiency of the equipment generating heat is improved, the slider 12 passes through the yielding hole 71 to be connected with the guide rail 11, and the slider 12 realizes sliding motion in the yielding hole 71, and drives the water-cooling plate 4 to perform sliding motion above the supporting plate 7.

In the preferred embodiment, a cooling channel 40 is arranged inside the water-cooling plate 4, and the cooling channel 40 comprises a left cooling section 401 and a right cooling section 402; the left cooling section 401 and the right cooling section 402 are both in a snake shape; one end of the left cooling section 401 is communicated with the water inlet 41, and the other end is communicated with the right cooling section 402; one end of the right cooling section 402 is communicated with the left cooling section 401, and the other end is communicated with the water outlet 42.

Specifically, in this embodiment, the coolant liquid gets into the back from water inlet 41, flows through left side cooling zone 401, carries out water-cooling to the left side board of water-cooling plate 4, absorbs the heat of left side limit, then flows through right side cooling zone 402 again, carries out water-cooling to the right side board of water-cooling plate 4, absorbs the heat of right side limit, discharges from delivery port 42 again at last, left side cooling zone 401 and right side cooling zone 402 all are the snake type form, can strengthen the coolant liquid and absorb thermal scope and time to improve the cooling effect.

In the preferred embodiment, the movable heat dissipation plate 5 includes a fixed portion 51, a return spring 52 and an expansion portion 53, a sliding cavity 510 is disposed inside the fixed portion 51, and the expansion portion 53 is slidably disposed inside the sliding cavity 510; the return spring 52 is disposed in the sliding cavity 510, and the telescopic part 53 has a tendency to be away from the fixing part 51 under the elastic force of the return spring 52.

Specifically, when pressure spring 3 pushes away water-cooling plate 4 and movable heat dissipation plate 5 to pasting the heating device, expansion part 53 and the heating device contact of movable heat dissipation plate 5, under the pressure effect, expansion part 53 moves towards the direction that is close to fixed part 51 in sliding cavity 510, reset spring 52 will be compressed, under reset spring 52's elastic force effect, further compress tightly expansion part 53 on the heating device and absorb the heat, utilize reset spring 52 effectively to protect the heating device simultaneously, when avoiding pressure spring 3 to promote movable heat dissipation plate 5, movable heat dissipation plate 5 striking heating device causes the damage.

In the preferred embodiment, a limiting flange 511 is disposed at an opening of the fixing portion 51, and a limiting block 531 is disposed at one end of the telescopic portion 53.

Specifically, under the action of the elastic force of the return spring 52, the telescopic portion 53 moves in the direction away from the fixing portion 51, and when the telescopic portion 53 moves to the opening of the fixing portion 51, the limiting block 531 will abut against the inner side of the limiting flange 511, so that the limiting flange 511 blocks the limiting block 531, the telescopic portion 53 is prevented from falling out of the sliding cavity 510, and the stability of the overall structure is improved.

In the preferred embodiment, one end of the movable heat dissipation plate 5 is provided with a heat conductive silicone 54. Specifically, in this embodiment, the outside end of movable heat dissipation plate 5 is provided with heat conduction silica gel 54, and when movable heat dissipation plate 5 contacted or collided with the equipment that generates heat, the effect of buffer protection was played through heat conduction silica gel 54, avoided movable heat dissipation plate 5 striking equipment that generates heat to cause the damage, heat conduction silica gel 54 had good heat conductivility simultaneously, was favorable to thermal transmission, can transmit the heat rapidly.

Further, the input hose 62 and the output hose 63 are both helical, and the input hose 62 and the output hose 63 are capable of freely extending and contracting. Specifically, in this embodiment, the input hose 62 and the output hose 63 are both spiral, and both the input hose 62 and the output hose 63 can freely extend and contract during the sliding motion of the water-cooling plate 4, when the water-cooling plate 4 moves away from the heat exchanger 61, the input hose 62 or the output hose 63 extends along with the water-cooling plate 4, and when the water-cooling plate 4 moves toward the heat exchanger 61, the input hose 62 or the output hose 63 naturally contracts under its own elasticity, so as to achieve the purpose of being connected with the water-cooling plate 4 all the time, and ensure stable delivery of the cooling liquid without leakage.

Other configurations and operations of an intelligent information-based heat dissipation device according to an embodiment of the present invention are known to those skilled in the art and will not be described in detail herein.

In the description of the present specification, references to the description of the terms "embodiment," "example," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (9)

1. The utility model provides an intelligent information ization radiator unit which characterized in that: the heat exchanger comprises a box body shell, a heat radiating fan, a compression spring, a water cooling plate, a movable heat radiating plate and a heat exchange assembly; the heat radiation fan is arranged at the bottom of the box body shell; the two groups of water cooling plates are respectively arranged at two ends of the bottom surface in the box body shell in a sliding manner; one side of the water cooling plate is connected with the inner side wall of the box body shell through the compression spring, and a plurality of movable heat dissipation plates are arranged on the other side of the water cooling plate; under the action of the elastic force of the compression spring, the two groups of water cooling plates have the tendency of approaching to each other; the heat exchange assembly is provided with two sets of water cooling plates and is respectively connected with the two sets of water cooling plates, the heat exchange assembly comprises a heat exchanger, an input hose and an output hose, the water cooling plates are provided with a water inlet and a water outlet, the output hose is connected with the heat exchanger and the water inlet, and the input hose is connected with the heat exchanger and the water outlet.

2. The intelligent information-based heat dissipation device according to claim 1, wherein: the bottom surface of the interior of the box shell is provided with two groups of guide rails, the two groups of guide rails can be provided with sliding blocks in a sliding mode, and the two ends of the water cooling plate are fixedly arranged on the two groups of sliding blocks on the guide rails respectively.

3. The intelligent information-based heat dissipation device according to claim 2, wherein: the inside wall of box shell is provided with spacing post, the housing spring of pressure spring is located the outside of spacing post, pressure spring's one end with the inside wall of box shell is connected, the other end with the slider is connected.

4. The intelligent information-based heat dissipation device according to claim 2, wherein: a support plate is further arranged inside the box body shell and arranged above the guide rail, and the support plate is provided with a abdicating hole and a plurality of air outlets; the air outlet is arranged above the heat radiation fan.

5. The intelligent information-based heat dissipation device according to claim 1, wherein: a cooling channel is arranged in the water cooling plate and comprises a left cooling section and a right cooling section; the left cooling section and the right cooling section are both in a snake shape; one end of the left cooling section is communicated with the water inlet, and the other end of the left cooling section is communicated with the right cooling section; one end of the right cooling section is communicated with the left cooling section, and the other end of the right cooling section is communicated with the water outlet.

6. The intelligent information-based heat dissipation device according to claim 1, wherein: the movable heat dissipation plate comprises a fixed part, a return spring and a telescopic part, a sliding cavity is arranged in the fixed part, and the telescopic part can be slidably arranged in the sliding cavity; the reset spring is arranged in the sliding cavity, and the telescopic part has a trend of being far away from the fixing part under the elastic action of the reset spring.

7. The intelligent information-based heat dissipation device according to claim 6, wherein: the opening part of fixed part is provided with spacing flange, the one end of pars contractilis is provided with the stopper.

8. The intelligent information-based heat dissipation device according to claim 1, wherein: one end of the movable heat dissipation plate is provided with heat conduction silica gel.

9. The intelligent information-based heat dissipation device according to claim 1, wherein: the input hose and the output hose are both in a spiral shape and can freely stretch out and draw back.

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