CN108561854A - Compact fluorescent colour wheel radiator - Google Patents

Abstract

The invention discloses a kind of compact fluorescent colour wheel radiators, it is characterised in that：Including the first radiating fin group, the second radiating fin group and heat pipe, the evaporator section of the heat pipe is threaded through in the first radiating fin group, and the condensation segment of the heat pipe is threaded through in the second radiating fin group；The middle section of the first radiating fin group is formed with the evacuation chamber being recessed inwardly, and the first radiating fin group is arranged stretches into evacuation intracavitary installation in the surface of the fluorescence colour wheel and the fluorescence colour wheel.The present invention matches the radiator of fluorescence colour wheel heat dissipation, the radiating mode coordinated using radiating fin and heat pipe, and fully and rationally use the structure space of fluorescence colour wheel come improve heat dissipation effect, reduce integral heat sink cost, while it is compact-sized, small, occupied space is few.

Description

Compact fluorescent colour wheel radiator

Technical field

The present invention relates to technical field of heat dissipation, are related to a kind of radiator, and in particular to one kind radiates for fluorescence colour wheel Compact thermal device.

Background technology

Fluorescence colour wheel is widely used in the fields such as laser light source illumination, projection, optics phototypesetting and optical storage.For example, In high definition or high lumen laser projection device, white light is generated using the LASER Excited Fluorescence colour wheel of laser light source generation, with The raising of source device output optical power, the heat power consumption on fluorescence colour wheel also rise therewith, and the efficiency of fluorescent powder stimulated luminescence is with temperature It increases and declines, when temperature is more than certain critical point, efficiency then rapid decrease.Based on this, the heat dissipation problem of fluorescence colour wheel becomes An important factor for restricting fluorescence colour wheel luminous efficiency.

The heat dissipation of conventional fluorescent colour wheel is radiated using multiple fans and multiple radiating fin convection types, entire heat dissipation dress The volume set is big, of high cost, and radiating efficiency and heat dissipation effect are undesirable.

Invention content

The technical problem to be solved in the present invention is to provide a kind of compact fluorescent colour wheel radiator, compact-sized, volumes It is small, occupied space is few, at low cost, increase substantially heat exchange efficiency.

In order to solve the above technical problem, the present invention provides a kind of compact fluorescent colour wheel radiators, including first The evaporator section of radiating fin group, the second radiating fin group and heat pipe, the heat pipe is threaded through in the first radiating fin group, the heat The condensation segment of pipe is threaded through in the second radiating fin group；The middle section of the first radiating fin group is formed with to be recessed inwardly Evacuation chamber, the first radiating fin group is arranged stretches into evacuation in the surface of the fluorescence colour wheel and the fluorescence colour wheel Intracavitary is installed.

In a preferred embodiment of the present invention, further comprise that it further includes hot-swappable fans, the hot-swappable fans are close to glimmering Photochromic wheel setting.

In a preferred embodiment of the present invention, further comprise that the first radiating fin group has multiple be longitudinally extended First radiating fin, each first radiating fin are laterally intervally arranged, have between first radiating fin two-by-two successively The gap of convection channel is formed, the convection channel is longitudinally through.

In a preferred embodiment of the present invention, further comprise that the bottom of each first radiating fin is installed in bottom plate On, the bottom plate be equipped be connected to convection channel to inflow entrance；It is installed in top at the top of each first radiating fin On plate, the top plate be equipped be connected to convection channel to outflux.

In a preferred embodiment of the present invention, further comprise that the evaporator section of the heat pipe extends transversely through each described first and dissipates Hot fin.

In a preferred embodiment of the present invention, further comprise that the top of the first radiating fin group is equipped on metal Lid, the metal top cover are connected to the top of top plate, have to external radiation to ebb interval between the metal top cover and top plate.

In a preferred embodiment of the present invention, further comprise being connected with support plate on the metal top cover, the heat pipe Intermediate position be threaded through in support plate.

In a preferred embodiment of the present invention, further comprise that the second radiating fin group has multiple be longitudinally extended Second radiating fin, each second radiating fin are laterally intervally arranged successively, and the condensation segment of the heat pipe extends transversely through each institute State the second radiating fin.

In a preferred embodiment of the present invention, further comprise that the first radiating fin group and the second radiating fin group are horizontal To setting gradually.

In a preferred embodiment of the present invention, if further comprising, the heat pipe has interval and parallel arrangement successively Dry root.

The present invention matches the radiator of fluorescence colour wheel heat dissipation, the radiating mode coordinated using radiating fin and heat pipe, and The structure space of fluorescence colour wheel is fully and rationally used to improve heat dissipation effect, reduce integral heat sink cost, while compact-sized, body Product is small, occupied space is few.

Description of the drawings

Fig. 1 is the structural schematic diagram at the first visual angle of radiator in the preferred embodiment of the present invention；

Fig. 2 is the structural schematic diagram at the second visual angle of radiator in the preferred embodiment of the present invention.

Wherein：2- the first radiating fin groups, 4- the second radiating fin groups, 6- heat pipes, 8- hot-swappable fans；

21- avoids chamber, and the first radiating fins of 22-, 23- convection channels, 24- bottom plates, 25- is to inflow entrance, 26- top plates, 27- To outflux, 28- metal top covers, 29- support plates；The second radiating fins of 41-.

Specific implementation mode

The invention will be further described in the following with reference to the drawings and specific embodiments, so that those skilled in the art can be with It more fully understands the present invention and can be practiced, but illustrated embodiment is not as a limitation of the invention.

Embodiment

As described in Fig. 1-2, present embodiment discloses a kind of compact fluorescent colour wheel radiators, including the first radiating fin The 2, second radiating fin group 4 of group and heat pipe 6, the evaporator section of above-mentioned heat pipe 6 are threaded through in the first radiating fin group 2, above-mentioned heat pipe 6 Condensation segment be threaded through in the second radiating fin group 4, above-mentioned first radiating fin group 2 be arranged above-mentioned fluorescence colour wheel just on Side.First radiating fin group 2 absorbs the heat generated in the fluorescence colour wheel course of work, passes through the conduction of heat pipe 6 to the second radiating fin It in piece group 4, is radiated to fluorescence colour wheel with this, it is ensured that the normal luminous efficiency of fluorescence colour wheel.

In the present embodiment technical solution, the intermediate position of above-mentioned first radiating fin group 2 is formed with keeping away of being recessed inwardly Chamber 21 and above-mentioned fluorescence colour wheel is allowed to stretch into installation in evacuation chamber 21.The whole straddle-type of namely the first radiating fin group 2 approaches glimmering Photochromic wheel (heat source) installation, 2 enclosed of the first radiating fin group are mounted on the outside of fluorescence colour wheel, do not influence the normal work of fluorescence colour wheel In the case of work, the heat that fluorescence colour wheel generates quickly can be conducted to the greatest extent, this structure design and peace Dress mode can greatly improving radiating effect, and to the greatest extent using fluorescence colour wheel heat radiation exchange heat, improve heat dissipation effect Rate.

In the present embodiment technical solution, above-mentioned first radiating fin group 2, the second radiating fin group 4 and heat pipe 6 preferably have Body structure and layout mode is as follows：

1., above-mentioned first radiating fin group 2 and the second radiating fin group 4 laterally set gradually, heat pipe 6 extends transversely through successively First radiating fin group 2 and the second radiating fin group 4, while optimizing heat dissipation effect, in the present embodiment technical solution The layout type of one radiating fin group 2, the second radiating fin group 4 and heat pipe 6 so that entire construction for heat radiating device is compact, volume It is small, occupied space is few.

2., above-mentioned first radiating fin group 2 have multiple the first radiating fins 22 being longitudinally extended, it is each it is above-mentioned first heat dissipation Fin 22 is laterally intervally arranged successively, has the gap for forming convection channel 23 between above-mentioned first radiating fin 22 two-by-two, on It is longitudinally through to state convection channel 23；The bottom of each above-mentioned first radiating fin 22 is installed on bottom plate 24, on above-mentioned bottom plate 24 Equipped with being connected to convection channel 23 to inflow entrance 25；The top of each above-mentioned first radiating fin 22 is installed on top plate 26, Above-mentioned top plate 26 be equipped be connected to convection channel 23 to outflux 27；The condensation segment of above-mentioned heat pipe 6 extends transversely through each above-mentioned First radiating fin 22.

First radiating fin 22 absorbs heat rear portion and is conducted to the second radiating fin group 4, another part by heat pipe 6 It is conducted to outside radiator through convection channel 23.In order to improve the thermal conduction effect of convection channel 23, the present embodiment technical solution In, also there are above-mentioned radiator hot-swappable fans 8, above-mentioned hot-swappable fans 8 to approach fluorescence colour wheel and be arranged, the setting of hot-swappable fans 8, On the one hand air fluid interchange in evacuation chamber 21 is driven, on the other hand accelerates air flowing, guides heat exchange air-flow from convection channel It is discharged in 23, improves radiating efficiency.Specifically, above-mentioned hot-swappable fans 8 have approach the setting of fluorescence colour wheel two, and two are changed Towards vertical, the outlet air surface of one of hot-swappable fans 8 is parallel to the wheel face setting of fluorescence colour wheel, another for the outlet air of Hot-air fan 8 The side of the outlet air surface face fluorescence colour wheel of a hot-swappable fans 8 is arranged.Certainly, in order to improve heat transfer effect, above-mentioned hot-swappable fans 8 Quantity can also be more, can be arranged with the wheel face of face fluorescence colour wheel, can also face fluorescence colour wheel side setting, The quantity of more hot-swappable fans 8 is not limited herein.The hot-swappable fans 8 of the side setting of outlet air surface face fluorescence colour wheel drive Air fluid interchange in chamber 21 is avoided, outlet air surface is parallel to the hot-swappable fans 8 of fluorescence colour wheel wheel face setting, on the one hand driving evacuation On the other hand air fluid interchange in chamber 21 guides air-flow and enters in convection channel 23.Vertically disposed two of the above outlet air surface Or more hot-swappable fans 8 can further be accelerated to radiate, and improve radiating efficiency and heat dissipation effect.

3., above-mentioned second radiating fin group 4 have multiple the second radiating fins 41 being longitudinally extended, it is each it is above-mentioned second heat dissipation Fin 41 is laterally intervally arranged successively, and the evaporator section of above-mentioned heat pipe 6 extends transversely through each above-mentioned second radiating fin 41.

The condensation segment and evaporator section of above-mentioned heat pipe 6 extend transversely through the second radiating fin 41 and the first radiating fin 22 respectively Afterwards, it is welded as a whole with each radiating fin, that is, the first radiating fin group 2, the second radiating fin group 4 and 6 three of heat pipe exist It has been welded as a whole using preceding, has formed the main body of entire radiator, when installing and using, by the first radiating fin group 2 The installation of fluorescence colour wheel is ridden, it is time saving and energy saving, it is quick and easy for installation.

The top of above-mentioned first radiating fin group 2 is equipped with metal top cover 28, and above-mentioned metal top cover 28 is connected to top plate 26 Top has to external radiation between above-mentioned metal top cover 28 and top plate 26 to ebb interval.On the one hand metal top cover 28 forms whole The external installation base plate of a radiator, cover board of another aspect metal material itself have excellent heat-conducting effect, more favorably In the raising of heat dissipation effect.Meanwhile by being conducted to external radiation to the quick heat of ebb interval between upper cover 28 and top plate 26 To outside radiator.

The usage quantity of above-mentioned heat pipe 6 can be flexible and changeable according to actual demand, in the present embodiment technical solution, above-mentioned heat Pipe 6 is it is preferable to use three, and three heat pipes 6 are spaced successively and parallel arrangement, in the premise for not increasing radiator overall volume Under, meet cooling requirements.

Support plate 29 is connected on above-mentioned metal top cover 28, the intermediate position of above-mentioned heat pipe 6 is threaded through in support plate 29.Heat 6 both ends of pipe are respectively welded on the first radiating fin 22 and the second radiating fin 41, and intermediate position is welded in support plate 29, is made It obtains and is mutually supported between the first radiating fin group 2, the second radiating fin group 4 and heat pipe 6, there is higher intensity, service life Long, heat dissipation is stable.

Embodiment described above is only to absolutely prove preferred embodiment that is of the invention and being lifted, protection model of the invention It encloses without being limited thereto.Those skilled in the art on the basis of the present invention made by equivalent substitute or transformation, in the present invention Protection domain within.Protection scope of the present invention is subject to claims.

Claims (10)

1. a kind of compact fluorescent colour wheel radiator, it is characterised in that：Including the first radiating fin group, the second radiating fin group And heat pipe, the evaporator section of the heat pipe are threaded through in the first radiating fin group, the condensation segment of the heat pipe is threaded through the second heat dissipation In fins group；The middle section of the first radiating fin group is formed with the evacuation chamber being recessed inwardly, first heat radiating fin Piece group is arranged stretches into evacuation intracavitary installation in the surface of the fluorescence colour wheel and the fluorescence colour wheel.

2. compact fluorescent colour wheel radiator as described in claim 1, it is characterised in that：It further includes hot-swappable fans, institute Hot-swappable fans are stated close to fluorescence colour wheel to be arranged.

3. compact fluorescent colour wheel radiator as described in claim 1, it is characterised in that：The first radiating fin group tool There are multiple the first radiating fins being longitudinally extended, each first radiating fin is laterally intervally arranged successively, and two-by-two described first Have the gap for forming convection channel, the convection channel longitudinally through between radiating fin.

4. compact fluorescent colour wheel radiator as claimed in claim 3, it is characterised in that：Each first radiating fin Bottom is installed on bottom plate, the bottom plate be equipped be connected to convection channel to inflow entrance；Each first radiating fin Top be installed on top plate, the top plate be equipped be connected to convection channel to outflux.

5. compact fluorescent colour wheel radiator as claimed in claim 3, it is characterised in that：The evaporator section of the heat pipe is lateral Through each first radiating fin.

6. compact fluorescent colour wheel radiator as claimed in claim 4, it is characterised in that：The first radiating fin group Top is equipped with metal top cover, and the metal top cover is connected to the top of top plate, has between the metal top cover and top plate outside Radiation to ebb interval.

7. compact fluorescent colour wheel radiator as claimed in claim 6, it is characterised in that：It is connected on the metal top cover The intermediate position of support plate, the heat pipe is threaded through in support plate.

8. compact fluorescent colour wheel radiator as described in claim 1, it is characterised in that：The second radiating fin group tool Have multiple the second radiating fins being longitudinally extended, each second radiating fin is laterally intervally arranged successively, the heat pipe it is cold Solidifying section extends transversely through each second radiating fin.

9. compact fluorescent colour wheel radiator as described in claim 1, it is characterised in that：The first radiating fin group and Second radiating fin group is laterally set gradually.

10. compact fluorescent colour wheel radiator as described in claim 1, it is characterised in that：Between the heat pipe has successively Every and several of parallel arrangement.