CN208937890U - Radiator and projector - Google Patents

Abstract

The utility model discloses a kind of radiator, the radiator includes thermally conductive mounting plate, heat conducting pipe and radiating fin group, wherein, the thermally conductive mounting plate is equipped with the link slot to extend internally from its side, the radiating fin group includes being arranged side by side and successively several radiating fins of snapping, the connecting hole being successively connected to each other is provided on several radiating fins, the heat conducting pipe runs through the radiating fin group by the connecting hole, and one end is inserted into the link slot, and the heat conducting pipe is contacted and formed a fixed connection with the inner wall of the link slot and connecting hole respectively.A kind of projector is also disclosed in the utility model.The heat sink applications of the utility model improve radiating efficiency in projector.

Description

Radiator and projector

Technical field

The utility model relates to porjector technology field, in particular to a kind of radiator and projector.

Background technique

Projector utilizes imaging technique, realizes large screen display high-definition by optical system amplification, is entirely throwing Opticator is the core of imaging display in shadow instrument structure, and wherein light bulb, lamp plate and its neighbouring optical device are main heat Volume production source of students, and be the component being easy by pyrolytic damage.In order to guarantee the normal operation of projector, by pacifying inside projector Dress radiator radiates to core, but is currently installed in the radiator in projector there are absorber plate endotherm areas Problem small, radiating efficiency is low.

Utility model content

The main purpose of the utility model is to propose a kind of radiator and projector, it is intended to solve existing apply in projector The problem of interior radiator heat-dissipation low efficiency.

To achieve the above object, the utility model proposes a kind of radiator, which includes thermally conductive mounting plate, heat conducting pipe With radiating fin group, wherein the thermally conductive mounting plate is equipped with the link slot to extend internally from its side, the radiating fin group Including being arranged side by side and successively several radiating fins of snapping, the connection being successively connected to each other is provided on several radiating fins Hole, the heat conducting pipe runs through the radiating fin group by the connecting hole, and one end is inserted into the link slot, described to lead Heat pipe is contacted and is formed a fixed connection with the inner wall of the link slot and connecting hole respectively.

Preferably, the link slot runs through the heat dissipation contact surface of the thermally conductive mounting plate, and the heat conducting pipe is flush to described Radiate contact surface.

Preferably, the heat conducting pipe is two disposed in parallel, the connecting hole phase of the link slot and the radiating fin It should be set as two.

Preferably, be provided in the hole week of the connecting hole with the integrally formed annular turn-up portion of the radiating fin, it is described The inner wall of annular turn-up portion is contacted with the heat conducting pipe.

Preferably, the periphery of the radiating fin be equipped with several integrally formed fasteners, the fastener include with it is described Radiating fin first connecting portion connected vertically and the first extension extended inwardly from the end of the first connecting portion.

Preferably, the periphery of the radiating fin is equipped with several integrally formed block pieces.

Preferably, the block piece includes connecting with radiating fin second connecting portion connected vertically and from described second The second extension that the end in portion extends inwardly.

Preferably, one end of the radiating fin is waveform.

Preferably, several mounting holes are provided on the thermally conductive mounting plate.

The utility model also proposes a kind of projector, including body, the lamp source being arranged on the body, is located in body The optical system and radiator in portion, wherein the radiator is above-mentioned radiator.

The utility model has the beneficial effects that: heating element is mounted on the thermally conductive mounting plate of radiator, thermally conductive peace Loading board and heat conducting pipe contact with heating element and carry out heat exchange, and heat is transferred to heat dissipation through thermally conductive mounting plate and heat conducting pipe It is dispersed into air after fins group, increases endotherm area, improve radiating efficiency.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of radiator in an embodiment of the present invention；

Fig. 2 is the assembly structure diagram of two radiating fins in Fig. 1.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clear, complete description, it is clear that described embodiment is only a part of the embodiment in the utility model, rather than all Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are not making creative work premise Under every other embodiment obtained, fall within the protection scope of the utility model.

The utility model proposes a kind of radiators, and referring to Figures 1 and 2, which includes thermally conductive mounting plate 100, thermally conductive Pipe 200 and radiating fin group 300, wherein thermally conductive mounting plate 100 is equipped with the link slot 110 to extend internally from its side, heat dissipation Fins group 300 includes being arranged side by side and successively several radiating fins 310 of snapping, is provided with successively on several radiating fins 310 The connecting hole 311 being connected to each other, heat conducting pipe 200 runs through radiating fin group 300 by connecting hole 311, and link slot is inserted into one end In 110, heat conducting pipe 200 is contacted and is formed a fixed connection with the inner wall of link slot 110 and connecting hole 311 respectively.It is practical new at this In type embodiment, thermally conductive mounting plate 100, heat conducting pipe 200 and radiating fin 310 are made of the metal material with heating conduction, Such as aluminium, copper etc..Heat conducting pipe 200 is contacted with the inner wall of link slot 110 and the connecting hole 311 of radiating fin 310 and interference is matched It closes, is on the one hand to increase heat transfer area, be on the other hand being fixedly connected between realizing component.Radiating fin 310 is scattered for increasing Heat area, improve radiating efficiency, radiating fin group 300 can be arranged on each radiating fin 310 fastener 312 and successively snapping with The stable structure of radiating fin group 300 is kept, so that the spacing between radiating fin is consistent two-by-two and guarantees adjacent heat radiation fin Between have enough heat-dissipating spaces.

In one preferred embodiment of the utility model, heating element is mounted on the thermally conductive mounting plate 100 of radiator, is led Hot mounting plate 100 and heat conducting pipe 200 contact with heating element and carry out heat exchange, and heat is through thermally conductive mounting plate 100 and leads Heat pipe 200 is dispersed into air after being transferred to radiating fin group 300, increases endotherm area, improves radiating efficiency.

In one preferred embodiment of the utility model, referring to Fig.1, link slot 110 connects through the heat dissipation of thermally conductive mounting plate 100 Contacting surface 120, heat conducting pipe 200 are flush to heat dissipation contact surface 120.Heat conducting pipe 200 and link slot 110 are interference fitted, and reinforce heat conducting pipe Connective stability between 200 and thermally conductive mounting plate 100；In addition, heat dissipation contact surface 120 be thermally conductive mounting plate 100 on circuit The direct contact surface of the heating elements such as plate, so that heat conducting pipe 200 is flush to heat dissipation contact surface 120, increasing and heating element Contact area, improve radiating efficiency.Wherein, thermally conductive mounting plate 100 is aluminum profile, and heat conducting pipe 200 is the sky filled with copper powder Heart copper pipe, can quick draw heat, heat conductive can be strong.

In one preferred embodiment of the utility model, referring to Figures 1 and 2, heat conducting pipe 200 is two disposed in parallel, even The connecting hole 311 of access slot 110 and radiating fin 310 is accordingly set as two.Two heat conducting pipes 200 are set and are separately connected thermally conductive Mounting plate 100 and radiating fin group 300 not only make the overall structure of radiator more firm, and two-way are divided to conduct heat, increase Big heat transfer area improves radiating efficiency.

In one preferred embodiment of the utility model, referring to Figures 1 and 2, the hole week of connecting hole 311 is provided with and heat radiating fin The integrally formed annular turn-up portion 313 of piece 310, the inner wall of annular turn-up portion 313 are contacted with heat conducting pipe 200.Heat conducting pipe 200 passes through It connecting hole 311 on radiating fin 310 and is interference fitted with connecting hole 311, heat conducting pipe 200 directly connects with annular turn-up portion 313 Touching.On the one hand the setting of annular turn-up portion 313 increases the contact area of heat conducting pipe 200 and radiating fin 310, to increase biography Heat area improves radiating efficiency；On the other hand, two radiating fins of space between adjacent guarantee to have between two radiating fins enough Heat-dissipating space.

In one preferred embodiment of the utility model, referring to Figures 1 and 2, the periphery of radiating fin 310 is equipped with several one Body formed fastener 312, fastener 312 include with the first connecting portion 10 connected vertically of radiating fin 310 and from first connecting portion The first extension 20 that 10 end extends inwardly.Fastener can be the one or more that the periphery of radiating fin 310 is arranged in, number Amount and position are herein without limitation.The first connecting portion 10 of the fastener 312 of radiating fin 310 makes adjacent heat radiation fin 310 Between there is heat-dissipating space, and the first extension 20 of the fastener 312 of radiating fin 310 is then in the fastener of adjacent heat radiation fin Indentation, there is engaged with adjacent heat radiation fin, keeps the globality of the heat radiation fin structure link of radiating fin group 300, enhancing heat dissipation The structural stability of fins group 300.

In one preferred embodiment of the utility model, referring to Figures 1 and 2, the periphery of radiating fin 310 is equipped with several one Body formed block piece 314.By two radiating fins of several 314 space between adjacent of block piece, it is enough to guarantee that radiating fin 310 has Heat-dissipating space.Block piece 314 can be the one or more that the periphery of radiating fin 310 is arranged in, and quantity and position are not done herein It limits.

In a upper embodiment, block piece 314 includes with the second connecting portion 30 connected vertically of radiating fin 310 and from second The end of interconnecting piece 30 inwardly and extend the second extension 40.Block piece 314 can be the periphery for being oppositely arranged on radiating fin 310 One or more, quantity and position are herein without limitation.Radiating fin 310 by the second extension 40 of block piece 314 with Another piece of radiating fin contact, separates two adjacent radiating fins, so that radiating fin 310 has enough heat-dissipating spaces；And And the consistency in the same size to guarantee spacing between radiating fin of second connecting portion 30 of each radiating fin.

In one preferred embodiment of the utility model, referring to Figures 1 and 2, one end of radiating fin 310 is waveform.It dissipates Hot fin 310 is that wavy one end is provided with fan, and fan dries to radiating fin 310, accelerates radiating rate.And heat radiating fin One end of piece 310 is set as waveform, linear compared to ordinary straight to be more easier to enter the wind, and improves radiating efficiency, increases heat dissipation effect Fruit.

Wherein, referring to Fig.1, several mounting holes 130 are provided on thermally conductive mounting plate 100.Several mounting holes 130 include First mounting hole 131 of the heat dissipation contact surface 120 of thermally conductive mounting plate 100 is set and is arranged in thermally conductive 100 one side of mounting plate The second mounting hole 132.Wherein, the first mounting hole 131 is two sides that are multiple and being symmetricly set on link slot 110, for installing Heating element；Second mounting hole 132 is used to radiator being mounted on instrument and equipment, and structure is simple, is easily installed.Wherein, Mounting hole 130 can be screw hole.

The utility model also proposes a kind of projector, including body, the lamp source being arranged on body, positioned at internal body Optical system and radiator, wherein radiator is the radiator in any of the above-described embodiment.The cores such as the circuit by projector Divide and be mounted on the thermally conductive mounting plate 100 of radiator, radiating and cooling is carried out to it by radiator, guarantees the normal fortune of projector Row, extends the service life of projector.Wherein, it the heating elements such as circuit board in projector and thermally conductive mounting plate 100 and leads Heat pipe 200 directly contacts, and increases heat transfer area, improves radiating efficiency.

Therefore above part for being only the utility model or preferred embodiment, either text or attached drawing cannot all limit The range of the utility model protection processed is illustrated under all designs with one entirety of the utility model using the utility model Equivalent structure transformation made by book and accompanying drawing content, or directly/be used in other related technical areas indirectly and be included in this In the range of utility model protection.

Claims (10)

1. a kind of radiator, including thermally conductive mounting plate, heat conducting pipe and radiating fin group, which is characterized in that the thermally conductive mounting plate It is equipped with the link slot to extend internally from its side, the radiating fin group includes arranged side by side and successively several heat dissipations of snapping Fin is provided with the connecting hole being successively connected to each other on several radiating fins, and the heat conducting pipe is run through by the connecting hole The radiating fin group, and one end is inserted into the link slot, the heat conducting pipe respectively with the link slot and connecting hole Inner wall is contacted and is formed a fixed connection.

2. radiator according to claim 1, which is characterized in that the link slot runs through the heat dissipation of the thermally conductive mounting plate Contact surface, the heat conducting pipe are flush to the heat dissipation contact surface.

3. radiator according to claim 1, which is characterized in that the heat conducting pipe is two disposed in parallel, the company The connecting hole of access slot and the radiating fin is accordingly set as two.

4. radiator according to claim 1, which is characterized in that the hole week of the connecting hole is provided with and the heat radiating fin The integrally formed annular turn-up portion of piece, the inner wall of the annular turn-up portion are contacted with the heat conducting pipe.

5. radiator according to claim 1, which is characterized in that the periphery of the radiating fin be equipped with several one at The fastener of type, the fastener include with radiating fin first connecting portion connected vertically and from the end of the first connecting portion The first extension that portion extends inwardly.

6. radiator according to claim 1, which is characterized in that the periphery of the radiating fin be equipped with several one at The block piece of type.

7. radiator according to claim 6, which is characterized in that the block piece includes connect vertical with the radiating fin Second connecting portion and the second extension for extending inwardly from the end of the second connecting portion.

8. radiator according to claim 1, which is characterized in that one end of the radiating fin is waveform.

9. radiator according to claim 1, which is characterized in that be provided with several installations on the thermally conductive mounting plate Hole.

10. a kind of projector, including body, the lamp source being arranged on the body, positioned at internal body optical system and dissipate Hot device, which is characterized in that the radiator is radiator of any of claims 1-9.