CN100562798C - The radiating module that is used for projection arrangement - Google Patents

Abstract

The present invention is a kind of radiating module that is used for projection arrangement, and this radiating module is particularly useful for the heat radiation of DMD module; It comprises heat-transfer device, at least one heat pipe and at least one fin, and heat-transfer device will accumulate on the heat of DMD module, conduct to fin by heat pipe, utilizes the outside loss of fin; Can be along on the direction of light source between fin, part is overlapped, and to reach shaded effect simultaneously, the light scatter of avoiding light source is to casing.

Description

The radiating module that is used for projection arrangement

Technical field

The present invention relates to a kind of radiating module that is used for projection arrangement; Be particularly related to a kind of radiating module that is used for digital light processing projector.

Background technology

Projector has become the vision facilities that ground such as office, family and meeting room generally use at present, and projector commonly used at present mainly can be divided into liquid crystal type (LCD) and digital optical processing, and (Digital LightProcessing, DLP) projector is two kinds.Wherein, DLP projector really utilizes digital projection and display technique, enjoys market to attract attention.

Wherein, the core technology of DLP is digital micro-mirror device (Digital Micromirror Device, DMD) module, the DMD module is to utilize the miniature mirror array of semiconductor fabrication process gained to form, each sheet minute surface is promptly represented a pixel, and when light source projects was to the DMD module, the DMD module can be with it together with received picture signal, be sent to the camera lens of ray machine together, and then imaging.

Yet the trimmed book body has certain energy, when light is gathered in the DMD module, promptly can produce heat, how to carry out efficiently radiates heat at the DMD module, just becomes important subject under discussion.Traditional heat dissipation technology is to utilize heat radiator, directly is attached to the DMD back side, or further cooperates fan to reach.Known DLP projector 10 as shown in Figure 1, wherein, the part light that light source 11 is produced reflexes to ray machine 13 through DMD module 15, for projection imaging.Generally speaking, DMD module 15 can so that heat conduction is come out, be avoided being accumulated on the DMD module 15 in abutting connection with a heat radiator 16.At least one fan 12 that can cooperate DLP projector 10 inside in addition again to produce cooling airflow, is used to provide the heat radiator 16 that is adjacent to DMD module 15 and the heat radiation of other system element.

And along with the trend of high lumen projection machine development, the heating wattage and the efficient of light source 11 day by day improve, and is relative, and the energy (luminous energy and heat energy) that is gathered on the DMD module 15 is also more and more higher.In traditional heat dissipation technology, no matter be to strengthen heat radiator 16 or increase air quantity, all can't satisfy the radiating requirements of present DMD module 15.And, be subject to the standard of product size and noise, DLP projector product must be controlled the size of heat radiator 16 and the rotating speed of fan 12, so, more increased the heat radiation difficulty of DMD module 15, overheated temperature even shorten life-span of DMD module 15 finishes the normal operation of projection arrangement in advance.

In addition; enough cooling airflow when DLP projector 10 heat radiation is provided; usually can on casing 19, keep air vent 191; with the heat exchanging pipe between construction system inside and surrounding environment; especially as the system of DLP projector 10 this golf calorific values, indispensable project when air vent 191 designs especially.Yet, because the light source 11 of projector inside has high brightness, the part of light source 11 is failed to provide to ray machine inside and then is supplied with the light that DMD module 15 is used, may leak to outside the casing 19 by air vent 191, this diffuses to outside spurious rays, easily causes the discomfort of user's eyes, and the light of projection environment harm, the remote effect image appearance, what is more, the heat that it produced may cause the high temperature destruction of casing 19 and user's careless scald.Be head it off, known technology usually can be provided with anti-dazzling screen 17 near air vent 191, leaks or avoid can be by system's outside direct-view light source 11 with the blocking-up internal light.So,,, can increase the resistance to flow of cooling airflow on the contrary, be unfavorable for DLP projector 10 internal heat dissipatings because of anti-dazzling screen 17 places air vent 191 places though can eliminate light leakage phenomena; And, also might increase the noise of system owing to the increase of resistance to flow.

In view of this, provide the radiating module that can be used for projection arrangement and have shade function concurrently, just become the industry problem demanding prompt solution.

Summary of the invention

One object of the present invention is to provide a kind of radiating module that is used for projection arrangement, by heat pipe and radiating fin are set, more effectively the heat conduction that will accumulate on the DMD module is come out, significantly improve the radiating efficiency that is used for the DMD module, and then reduce the operating temperature of DMD module and prolong its serviceable life.

Another object of the present invention is to provide a kind of radiating module that is used for projection arrangement, and wherein, fin also can have the effect of shading concurrently except can quick heat radiating.By towards between the fin of light source direction,, can in heat radiation, block part scattered beam from light source to the design that small part overlaps each other.

For achieving the above object, the present invention discloses a kind of radiating module that is used for projection arrangement, wherein projection arrangement comprises the DMD module, and this radiating module comprises heat-transfer device, at least one heat pipe and at least one fin, heat-transfer device contacts with the DMD module, the second portion that heat pipe then has first and is connected with first heat conduction, the first of this heat pipe is connected with heat-transfer device, and fin then is connected with the second portion of this heat pipe; Like this, the DMD module is able to by heat-transfer device because of handling the heat that light is given birth to, and again by heat pipe, is passed to outwards loss behind the fin.And fin can be as required, and the design of adopting part to overlap each other is to have shaded effect simultaneously.

For above-mentioned purpose of the present invention, technical characterictic and advantage can be become apparent, hereinafter be elaborated with the preferred embodiment conjunction with figs..

Description of drawings

Fig. 1 is the inner structure synoptic diagram of known DLP projector;

Fig. 2 is the inner structure synoptic diagram of projection arrangement of the present invention;

Fig. 3 is the synoptic diagram of radiating module of the present invention;

Fig. 4 A～4C is among the present invention, the various embodiment synoptic diagram of heat-transfer device;

Fig. 5 is another preferred embodiment synoptic diagram of the inner structure of projection arrangement of the present invention;

Fig. 6 is the preferred embodiment synoptic diagram of radiating module among Fig. 5;

Fig. 7 is another preferred embodiment synoptic diagram of radiating module among Fig. 5;

Fig. 8 is the another preferred embodiment synoptic diagram of radiating module among Fig. 5;

Fig. 9 is a preferred embodiment synoptic diagram again of radiating module among Fig. 5;

Figure 10 is the another preferred embodiment synoptic diagram of the inner structure of projection arrangement of the present invention; And

Figure 11 is the floor map that can connect the fin of two heat pipes.

The main element description of symbols

10 DLP projectors, 11 light sources

12 fans, 13 ray machines

15 DMD modules, 16 heat radiator

17 anti-dazzling screens, 19 casings

191 air vents, 20 projection arrangements

21 light sources, 22 fans

221 cooling airflows, 23 ray machines

24 fans, 25 DMD modules

251 dmd chips, 26 printed circuit board (PCB)s

29 casings, 291 air vents

30 radiating modules, 31 heat-transfer devices

311 contact site 311a, first side

311b second side 313 heat-radiating substrates

313a substrate fin 33 heat pipes

331 firsts, 333 second portions

35 fins, 350 fin portions

351 first sides, 352 kinks

353 second sides

Embodiment

Figure 2 shows that first example structure of projection arrangement 20 of the present invention.Generally speaking, projection arrangement 20 comprises light source 21, ray machine 23, DMD module 25 and radiating module 30, the necessary element when projection arrangement 20 also can comprise other projection, and for example printed circuit board (PCB) 26 or the like is not given unnecessary details especially at this.In addition, can in position be provided with fan 22,24 among this embodiment, to form cooling airflow in projection arrangement 20, said elements all is arranged within the casing 29, in order to carry out normal projecting function.

Wherein, DMD module 25 also comprises dmd chip 251, and this dmd chip 251 is used for handling the light that light source 21 is provided, and the picture signal of input, so become main heating part.Radiating module 30 of the present invention provides heat sinking function at DMD module 25, more clearly, provides heat sinking function at the dmd chip 251 of DMD module 25.

Fig. 3 is the structural representation of this radiating module 30.Radiating module 30 is made up of a heat-transfer device 31, at least one heat pipe 33 and at least one fin 35 basically, in the present embodiment, describes with a heat pipe 33 and a plurality of fin 35.Heat pipe 33 has first 331 and second portion 333, and wherein first 331 is connected with heat-transfer device 31, and second portion 333 then is connected between a plurality of fins 35.Because first 331 is connected with second portion 333 mutual heat conduction, so DMD module 25 is because of handling the heat that light produced, be able to contact (more clearly with DMD module 25 by this heat-transfer device 31, contact with this dmd chip 251), pass through this heat pipe 33 again, be passed to fin 35 outwards loss of back.When actual manufacturing was produced, heat pipe 33 can be one-body molded with heat-transfer device 31, also can again heat pipe 33 be welded or be attached on the heat-transfer device 31 in manufacture process.

The diagrammatic cross-section of heat-transfer device 31 shown in Fig. 4 A, wherein a kind of embodiment of its open heat-transfer device 31.Heat-transfer device 31 comprises contact site 311, contact site 311 has the first side 311a and with respect to the second side 311b of the first side 311a, the first side 311a can be in abutting connection with dmd chip 251 when using, and the first 331 of heat pipe 33 then can connect this second side 311b.Preferably, heat-transfer device 31 also comprises heat-radiating substrate 313, and in abutting connection with the second side 311b of contact site 311, and compared to contact site 311, this heat-radiating substrate 313 has bigger area, to improve radiating efficiency.Clearly, the first 331 of heat pipe 33 connects and embeds fully in the heat-radiating substrate 313 at this moment, and contacts with the second side 311b of contact site 311 in fact.More preferably, heat-radiating substrate 313 is formed with at least one substrate fin 313a (or other simple heat-transfer device) on the lateral surface of relative contact site 311, by the heat exchange area of substrate fin 313a increase with cooling airflow, more helps to improve radiating efficiency.

Fig. 4 B and Fig. 4 C are other possible implementation of heat-transfer device 31, and different with aforesaid embodiment is that in Fig. 4 B, the first 331 of heat pipe 33 sticks on the lateral surface of this heat-radiating substrate 313, and is oppositely arranged with contact site 311; And in Fig. 4 C, the first 331 of heat pipe 33 is partially submerged in the heat-radiating substrate 313 from the lateral surface of heat-radiating substrate 313.

What must illustrate is that in Fig. 4 A, 4B, 4C, though accompanying drawing shows heat-radiating substrate 313 and substrate fin 313a, its setting is not in order to limit the necessary element of present embodiment only in order to improve radiating efficiency.

Please referring again to Fig. 2, radiating module 30 of the present invention also comprises fan 22, be adjacent to fin 35, this fan 22 can produce cooling airflow 221, auxiliary cooling is from the hot-air of fin 35 outside loss, because cooling airflow 221 flowing in projection arrangement 20 can be set up a cooling stream field, so also helps the heat radiation of other element.Preferably, the position of adjustable rectification campaign fan 22 makes its cooling airflow that produces 221 in fact towards the inside of projection arrangement, is more preferred from towards light source 21, because light source 21 is generally the heater of the highest temperatures in the projection arrangement 20, will help its heat radiation towards the cooling airflow 221 of light source 21.

In addition, be the easier formation of the stream field that impels cooling airflow, projection arrangement 20 of the present invention can be provided with a plurality of air vents 291 on casing 29, also can cooperate other fan 24 again, in order to the heat radiation of all elements in the projection arrangement 20.With the present embodiment is the example explanation, and above-mentioned other fan 24 is arranged on the opposite side of a plurality of air vents 291, and carries out the action of suction airstream, so that the foundation of inner air stream field is more complete and efficient.Certainly, the position that is provided with of other fan 24 is not limited to this, and it changes and is arranged at homonymy or other position that can help dispel the heat of a plurality of air vents 291, is alternative selection.

Under ideal state, the light that light source 21 is produced should all provide to ray machine 23 using when the projection, yet when practical application, the scattering of light is difficult to avoid.For convenience of description, divide into first's light and second portion light (not shown) at this light that light source 21 is produced; Wherein, first light imports ray machine and uses for projection, second portion light then be scattering outside ray machine, unserviceable light.The heat that DMD module 25 is given birth to promptly be derived from first's light that light source 21 is produced, and second portion light may scatter outside the casing 29, causes to use to go up to reach the obstacle that quality presents.

The arrangement of the second embodiment of the present invention is the preferred embodiment of the second portion light that can solve leakage simultaneously.As shown in Figure 5, the radiating module 30 of present embodiment can cooperate fan 24, produces cooling airflow, in order to cooling fin 35.

Please with further reference to Fig. 6, it is the synoptic diagram of radiating module 30 in the present embodiment, wherein, a plurality of fins 35 are provided with along the length direction sequential parallel of the second portion 333 of heat pipe 33 in fact, 35 of fins form a plurality of parallel spaces, for the cooling draught circulation, and then this hot-air of loss.For convenience of description, definition respectively this fin 35 has first side 351 and second side 353, and this first side 351 is about the second portion 333 of heat pipe 33, and is relative with second side 353.Wherein, the second side 353 of the fin that each first side 351 is adjacent on the direction S of the second portion light that this light source 21 is produced, overlaps each other to small part, represents as the dotted line among Fig. 6.Furthermore, in this embodiment, a plurality of fins 35 all and 333 formations of the second portion of heat pipe 33 be essentially non-perpendicular angle, to form lap in order to shading; When practical application, also can be the angle that is essentially 90 degree, this moment, fin 35 did not promptly provide preferable shade function.

The embodiment of another a plurality of fins 35 as shown in Figure 7, this fin 35 kink 352 of having fin portion 350 and being connected respectively wherein with fin portion 350, first side 351 is formed at fin portion 350, and second side 353 then is formed at kink 352.Furthermore, in this embodiment, each fin portion 350 is essentially vertical angle with 333 formations of second portion of heat pipe 33,333 of the second portions of each kink 352 and heat pipe 33 then constitute non-perpendicular in fact angle, and fin 35 also can be designed to have a plurality of kinks 352, to increase the part of overlapping shading.By this set, kink 352 and fin portion 350 overlap each other to small part, to reach shaded effect on the direction S of the second portion light that this light source 21 is produced.

Figure 8 shows that another preferred embodiment, fin 35 in the first side 351 and second side 353 all be formed with kink 352, be more preferred from the opposite direction, be beneficial on the direction S of second portion light, form lap.

Figure 9 shows that a preferred embodiment again, fin portion 350 is essentially arc, center by each fin 35, and 353 formed alternate position spikes in first side 351 and second side make it on the direction S of second portion light, but form the lap of shading.

Radiating module 30 of the present invention is not limited to single forming heat pipe, as shown in figure 10, the second portion 333 of heat pipe 33 comprises two sections that constitute angle, and fin 35 is provided with respectively with these two sections and is connected, though accompanying drawing is not represented the various arrangements of a plurality of heat pipes especially, but can infer, no matter the first of heat pipe 33 or second portion all can be as required, with multiple arrangement, the arrange in pairs or groups setting of multiple fin 35 is to help the heat radiation and the adapted space of DMD module 25.For instance, when a plurality of heat pipe 33 of fin of the present invention 35 collocation, the floor map of fin portion 350 as shown in figure 11, fin portion 350 has two holes, can run through connection for two heat pipes 35 simultaneously, the design of hole is looked closely the quantity of heat pipe 35 and is decided, to reach the radiating efficiency of expection

By above-mentioned disclosing, radiating module 30 of the present invention can utilize heat pipe 33 and fin 35, significantly improve radiating efficiency at DMD module 25, and fin 35 is except the function with quick heat radiating, the design that 35 small parts of fin overlap each other can also have shaded effect simultaneously, save the setting of shadow shield, more help the design of inner small space and the effectively foundation of cooling stream field.

In addition, select configuration as other of previous embodiment, fan 24 is located at opposite side, homonymy or other position of a plurality of air vents 291, designs with the suction or the mode of brushing air-flow, is all the alternate manner that the embodiment of Fig. 5 and Figure 10 can select.

The above embodiments only are used for exemplifying embodiments of the present invention, and explain technical characterictic of the present invention, are not to be used for limiting protection scope of the present invention.Any person of ordinary skill in the field can unlabored change or the arrangement of the isotropism scope that all belongs to the present invention and advocated, and the scope of the present invention should be as the criterion with claim.

Claims (19)

1. radiating module that is used for projection arrangement, this projection arrangement comprises digital micro-mirror device module and light source, and this light source produces first's light and second portion light, it is characterized in that this radiating module comprises:

Heat-transfer device contacts with this digital micro-mirror device module;

At least one heat pipe, the second portion that has first and be connected with this first's heat conduction, this at least one heat pipe is connected with this heat-transfer device in this first; And

A plurality of fins, be connected with the second portion of this heat pipe, respectively this fin has first side and second side, this first side is about the second portion of this heat pipe, relative with this second side, the second side of the fin that is adjacent of this first side respectively on the direction of the second portion light that this light source produced, overlaps each other to small part;

Therefore, the digital micro-mirror device module is able to by this heat-transfer device because of handling the heat that first's light is given birth to, and through this heat pipe, is passed to outwards loss behind these a plurality of fins again.

2. radiating module according to claim 1 is characterized in that comprising in fact a heat pipe.

3. radiating module according to claim 2, it is characterized in that this digital micro-mirror device module also comprises the digital micro-mirror device chip, this heat-transfer device contacts with this digital micro-mirror device chip, and wherein this digital micro-mirror device chip is for handling the main heating part of this first's light.

4. radiating module according to claim 2 is characterized in that this heat-transfer device comprises:

Contact site has first side and with respect to second side of this first side, this first side is in abutting connection with this digital micro-mirror device module; The first of this heat pipe connects this second side.

5. radiating module according to claim 2 is characterized in that this heat-transfer device also comprises:

Contact site has first side and with respect to second side of this first side, this first side is in abutting connection with this digital micro-mirror device module;

Heat-radiating substrate, in abutting connection with second side of this contact site, and compared to this contact site, this heat-radiating substrate has bigger area; The first of this heat pipe then connects this heat-radiating substrate.

6. radiating module according to claim 5, it is characterized in that this heat-radiating substrate with this contact site opposite external side face on, be formed with at least one substrate fin.

7. radiating module according to claim 5 is characterized in that this heat pipe sticks on the lateral surface of this heat-radiating substrate, and is oppositely arranged with this contact site.

8. radiating module according to claim 5 is characterized in that the lateral surface of this heat pipe section by this heat-radiating substrate, embeds in this heat-radiating substrate, and is oppositely arranged with this contact site.

9. radiating module according to claim 5 is characterized in that this heat pipe embeds in this heat-radiating substrate fully, and in fact with second contacts side surfaces of this contact site.

10. radiating module according to claim 2 is characterized in that this heat pipe and this heat-transfer device are formed in one.

11. radiating module according to claim 2 is characterized in that this heat pipe is welded on this heat-transfer device.

12. radiating module according to claim 2 is characterized in that also comprising fan, is adjacent to this a plurality of fins, this fan can produce cooling airflow, and auxiliary cooling is from the hot-air of the outside loss of this fin.

13. radiating module according to claim 2 is characterized in that also comprising fan, can produce cooling airflow, auxiliary cooling is from the hot-air of the outside loss of above-mentioned these fins.

14. radiating module according to claim 13 is characterized in that this cooling airflow is in fact towards the inside of this projection arrangement.

15. radiating module according to claim 14 is characterized in that these a plurality of fins in fact along the length direction sequential parallel setting of the second portion of this heat pipe, and forms a plurality of parallel spaces, for this hot-air of loss.

16. radiating module according to claim 15 is characterized in that the kink that this fin respectively has fin portion and is connected with this fin portion, this first side is formed at this fin portion, and this second side then is formed at this kink.

17. radiating module according to claim 15 is characterized in that constituting between the second portion of these a plurality of fins and this heat pipe non-perpendicular in fact angle.

18. radiating module according to claim 16 is characterized in that constituting between the second portion of respectively this fin portion and this heat pipe and is essentially vertical angle; And respectively constitute non-perpendicular in fact angle between the second portion of this kink and this heat pipe.

19. radiating module according to claim 2 is characterized in that the second portion of this heat pipe has two sections that constitute angle, above-mentioned these fins promptly are connected with these two sections respectively.

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