CN203951726U - Bending-type energy-saving heat radiator - Google Patents

Abstract

The utility model discloses a kind of radiator, especially a kind of bending-type energy-saving heat radiator, comprise base, fin, fin is vertical on base, and described base back is provided with groove, and described fin is integral type serpentine configuration, the bending part of fin one side is embedded in the groove of base, and the size of described groove and fin bending part match.The utility model is simple in structure, by by the structural design of bionics application and radiator, makes fin become bending-type by original one chip, and area of dissipation increases by 100%, and radiating efficiency improves 20%.

Description

Bending-type energy-saving heat radiator

Technical field

The utility model relates to a kind of radiator, especially a kind of bending-type energy-saving heat radiator.

Background technology

Along with scientific and technical progress, the raising of the level of the productive forces, electricity is opened in people's life the inside, and increasing equipment needs electricity to maintain operation.But electric equipment will inevitably produce certain heat in the running, if heat discharge not in time, not only can damage equipment, reduce useful life, serious, the life safety that also can threaten user, therefore, radiator is generally applied in electric equipment.

Application number is 201110028167.5 the efficient easy-formation mainboard heat ink of one, comprise radiating fin group and two fixtures, radiating fin group is clipped between two fixtures, wherein, radiating fin group is to be made up of multiple radiating fin stacks, body in the middle of each radiating fin comprises and the both wings of body both sides, radiating fin body is provided with the rivet hole passing for rivet; Fixture is block structure, be divided into upper fixing element and lower fixture, fixture is to be also made up of multiple stator stacks, each fixture is provided with the rivet hole passing for rivet, the edge of the edge of fixture and radiating fin body coincide, and rivet gets up three's riveted through upper fixing element, lower fixture and the radiating fin group upper and lower fixture.Described radiator, structure practicality, handling ease, radiating effect is outstanding, has broad application prospects; But described fin is one chip fin, and base is connected by rivet with fin, and contact effect is undesirable, causes radiating effect bad, is unfavorable for equally the useful life of equipment and user's life safety.

Therefore, working out one can either be connected with the fixing safety of base, has and can effectively increase area of dissipation, and the radiator of raising radiating efficiency is one of current radiator industry problem that need to solve.

Utility model content

Goal of the invention: the purpose of this utility model is in order to solve the deficiencies in the prior art, provides a kind of radiating effect that can effectively improve to have the bending-type energy-saving heat radiator that can save consumptive material.

Technical scheme: in order to realize above object, a kind of bending-type energy-saving heat radiator described in the utility model, comprise base, fin, fin is vertical on base, and described base back is provided with groove, and described fin is integral type serpentine configuration, the bending part of fin one side is embedded in the groove of base, and the size of described groove and fin bending part match.The utility model, by by integral heat sink design formula structure, can effectively increase area of dissipation, improves radiating efficiency; Because the bending part of described fin is embedded in groove, effectively increase the contact area of base and fin again, improve the radiating efficiency of radiator.

Described fin and base punching press are connected, and fin is combined into one by mode and the base of punching press, not only make radiator integral structure more firm, increase the service life, and are conducive to improve fin and base contact area, improve heat transfer effect.

Further, the utility model, by set up heat sink strip on described fin, increases the surface area of fin, effectively improves radiating efficiency.

In order to improve the radiating efficiency of radiator, the front end of described base is provided with heat-conducting layer, and heat-conducting layer can import base by the heat energy of heating element rapidly, and by fin, heat energy is dispersed in time, effectively improve the radiating efficiency of radiator, the stable operation of position machine.

Described heat-conducting layer is heat-conducting silica gel sheet.

Described base is provided with reinforcement, and described reinforcement and base are one-body molded, and the utility model, by set up reinforcement on base, not only can improve the compression resistance of base, and and base.

Beneficial effect: a kind of bending-type radiator that the utility model provides, has the following advantages:

The heat efficiency is high: heat sink design is become to snakelike, by by the structural design of bionics application and radiator, make fin become bending-type by original one chip, area of dissipation increases by 100%; Due to fin is combined into one by mode and the base of punching press, improve the contact area of fin and base, thereby radiating efficiency is improved more than 20% again; Owing to setting up heat sink strip on described fin, can further increase the radiating effect of fin again.

Energy-conservation: by heat sink design is become to snakelike, to increase area of dissipation and improve the heat efficiency, thereby make the radiator of smaller size smaller just can reach same radiating effect, be conducive to save consumptive material.

Long service life: the utility model, by fin and base punching press are connected, is combined into one fin and base, makes heat spreader structures more firm, effectively improves the useful life of radiator.

Heat conduction is fast: the utility model, by increasing heat-conducting layer at base front end, can improve the heat transfer efficiency of radiator, ensures that radiator can be more in time by dissipation of heat.

Brief description of the drawings

Fig. 1 is the structural representation of bending-type energy-saving heat radiator;

Wherein: 1. base, 2. fin, 3. heat sink strip, 4. heat-conducting layer, 11. reinforcements.

Embodiment

Below in conjunction with drawings and Examples, further illustrate the utility model.

A kind of bending-type energy-saving heat radiator as shown in Figure 1, comprise base 1, fin 2, fin 2 is vertical on base 1, it is characterized in that: described base 1 back is provided with groove, described fin 2 is integral type serpentine configuration, and the bending part of fin 2 one sides is embedded in the groove of base 1, and the size of described groove and fin 2 bending parts match; Described fin 2 is connected with base 1 punching press; Heat sink strip 3 on described fin 2; The front end of described base 1 is provided with heat-conducting layer 4; Described heat-conducting layer 4 is heat-conducting silica gel sheet; Described base 1 is provided with reinforcement 11, and described reinforcement 11 is one-body molded with base 1.

Embodiment 1

When use, the heat-conducting layer 4 of the back of heating electric appliance and foot of radiator 1 is fitted, described heat-conducting layer 4 is heat-conducting silica gel sheet, because heat-conducting silica gel sheet has excellent heat conductivility, can in time heating electric appliance running be produced to heat and can be passed to foot of radiator 1, foot of radiator 1 transfers to heat the fin 2 being embedded in its groove, and described fin 2 is snakelike integral structure, area of dissipation increases by 100%, effectively improves 20% radiating efficiency.

Embodiment 2

The heat sink strip 3 of being located on fin 2 is integral type structure with it, and the utility model can further increase area of dissipation by increase heat sink strip 3 on fin 2, improves radiating efficiency.

Embodiment 3

Described base 1 is provided with reinforcement 11, and the utility model, by increasing reinforcement 11, not only can further increase area of dissipation, and can improve the compression resistance of base, makes it be applicable to more heavy mechanical equipment, improves applicability.

Above-described embodiment is only explanation technical conceive of the present utility model and feature, its objective is to allow to be familiar with these those skilled in the art and can to understand content of the present utility model enforcement according to this, can not limit protection range of the present utility model with this.All equivalents of having done according to the utility model Spirit Essence or modification, within all should being encompassed in protection range of the present utility model.

Claims (6)

1. a bending-type energy-saving heat radiator, comprise base (1), fin (2), fin (2) is vertical on base (1), it is characterized in that: described base (1) back is provided with groove, described fin (2) is integral type serpentine configuration, and the bending part of fin (2) one sides is embedded in the groove of base (1), and the size of described groove and fin (2) bending part matches.

2. bending-type energy-saving heat radiator according to claim 1, is characterized in that: described fin (2) is connected with base (1) punching press.

3. bending-type energy-saving heat radiator according to claim 1, is characterized in that: the upper heat sink strip (3) of described fin (2).

4. bending-type energy-saving heat radiator according to claim 1, is characterized in that: the front end of described base (1) is provided with heat-conducting layer (4).

5. bending-type energy-saving heat radiator according to claim 4, is characterized in that: described heat-conducting layer (4) is heat-conducting silica gel sheet.

6. bending-type energy-saving heat radiator according to claim 1, is characterized in that: described base (1) is provided with reinforcement (11), and described reinforcement (11) is one-body molded with base (1).