CN204922902U - Can be along with lamps and lanterns in 0 - 90 interval rotatory gravity heat pipe systems that use - Google Patents

Abstract

The utility model belongs to LED illumination heat dissipation field is specifically said to relate to a can be along with lamps and lanterns in 0 - 90 interval rotatory gravity heat pipe systems that use. Include the thermo -contact face in evaporation chamber and evaporate chamber, radiator, connecting pipe to the thermo -contact face level of evaporating the chamber is put to the benchmark, and the heat pipe cooling ware is located evaporation chamber top, and the heat pipe cooling ware can selection in 0 - 80 intervals with the angle of putting of thermo -contact face. Have the connecting pipe between heat pipe cooling ware and the evaporation chamber, the connecting pipe is selected in 20 - 90 intervals with the angle of thermo -contact face. The connecting pipe divide into evaporating pipe and back flow, and the heat pipe cooling ware can be for individual layer or multilayer. In the multi -angle rotating along with lamps and lanterns uses, can guarantee that the working medium in the gravity heat pipe cooling ware system can keep gas -liquid phase transition circulation unobstructed under the action of gravity, reach high -efficient radiating purpose.

Description

One can with light fixture 0 °-90 ° interval gravity assisted heat pipe systems rotating use

Technical field

The utility model belongs to LED illumination field of radiating, and relating to one specifically can with light fixture at 0 °---and 90 ° interval rotates the gravity assisted heat pipe systems used.

Background technology

Heat-pipe radiator is the most efficiently radiates heat configuration of LED high-power lamp tool, but the Projecting Lamp in LED will need often conversion light fixture irradiating angle according to scene, and the radiating principle of gravity force heat pipe radiator is the gravity circulation of gas-liquid phase transition, if heat pipe pipeline loses some necessary gravity position relations of gravity circulation in along with the rotation transformation of light fixture, so gravity assisted heat pipe just cannot realize the gas-liquid phase transition circulation of working medium, and then also just cannot reach radiating effect.So, if meet the multi-angle rotary instructions for use of LED projector lamp, will design and a kind ofly under multiple angles, rotate the gravity assisted heat pipe device that still can ensure that in heat pipe, working medium gas-liquid phase transition circulates unimpeded, this just requires that evaporation cavity in its pipeline, evaporation tube, heat abstractor are overall all will keep the gravity position of key with fitting structure, making hot-pipe system not losing gravity circulation effect along with when light fixture rotates and uses, reaching the object of hot tube high-efficiency heat radiation.

Summary of the invention

The utility model will provide one can with light fixture at 0 °---and 90 ° interval rotates the gravity assisted heat pipe systems used, comprise thermal interface and evaporation cavity, radiator, the tube connector of evaporation cavity, put as benchmark with the thermal interface level of evaporation cavity, heat-pipe radiator is positioned at above evaporation cavity, and the angles of heat-pipe radiator and thermal interface can at 0 °---select in 80 ° of intervals.Have tube connector between heat-pipe radiator and evaporation cavity, the angle of tube connector and thermal interface is at 20 °---select in 90 ° of intervals.Tube connector is divided into evaporation tube and return duct, and heat-pipe radiator can be single or multiple lift.

The technical problems to be solved in the utility model: in the multi-angle rotary along with light fixture uses, how to enable the working medium in gravity force heat pipe radiator system keep gas-liquid phase transition to circulate under gravity unobstructed, to reach high efficiency and heat radiation object.

The utility model will solve the problems of the technologies described above taked technical scheme: a kind of gravity assisted heat pipe cooling system that can use in rotation with light fixture, comprises three part-structure main bodys: Part I is evaporation cavity, and its bottom surface is thermal interface; Part II is heat-pipe radiator, and be the heat pipe pipeline of single or multiple lift coiling, monnolithic case is pancake; Part III is tube connector: be the pipeline portions close to evaporation cavity in the connecting line between evaporation cavity and heat-pipe radiator, heat-pipe radiator and evaporation cavity are put at angle.

Concrete measure is: bottom surface and the thermal interface of evaporation cavity are equipped with LED light source, so thermal interface is also lamp luminescence face, put as benchmark with thermal interface level, be set to 0 °, evaporation cavity is positioned at below, and the bottom surface of evaporation cavity is thermal interface, and heat-pipe radiator is positioned at the top of evaporation cavity, and put at angle with it, there is pipeline to be connected between evaporation cavity with heat-pipe radiator.When thermal interface level is put, namely 0 ° time, light irradiates vertically downward, when thermal interface does 0 ° around rotating shaft---when 90 ° of angles rotate, light irradiates from irradiating progressively steering horizontal dead ahead vertically downward, realize lamp luminescence face at 0 °---90 ° of interval multi-angle irradiations, and whole gravity assisted heat pipe system also rotates thereupon.

Because light fixture needs multi-angle irradiation in rotation, for ensureing that light fixture gravity assisted heat pipe system in rotary course does not lose gravity position, can gas-liquid phase transition be kept under gravity unobstructed, must design liquid box evaporation cavity, heat-pipe radiator, tube connector position put relation.That determines three position puts relation, first rotary shaft position will be determined, and then the angles relation determining between hot-pipe system three part-structure, the feature that arranges of rotating shaft is: because heat-pipe radiator entirety is pancake, so we can regard a plane as it, because heat-pipe radiator and thermal interface are placed at an angle, so heat-pipe radiator place plane and thermal interface place plane must have an intersection, then rotating shaft is set to parallel with this intersection or overlaps.After above requirement setting rotary shaft position, and then determine the angles relation between hot-pipe system three part-structure further.Put as benchmark with evaporation cavity bottom surface and thermal interface horizontal pendulum, namely 0 °, heat-pipe radiator is positioned at above evaporation cavity, tube connector is had between heat-pipe radiator and evaporation cavity, angles between heat-pipe radiator and thermal interface can at 0 °---selects in 80 ° of intervals, heat-pipe radiator is inclined upwardly, and the position that heat-pipe radiator is connected with tube connector is minimum.Tube connector also will be put by certain angle, and the angle between tube connector and thermal interface is at 20 °---and select in 90 ° of intervals, tube connector is divided into evaporation tube and return duct.Angle is set with 20 ° for starting point, mainly in order to consider the needs of processing technology, as seen from the above, hot-pipe system is made up of three parts, with evaporation cavity bottom surface---thermal interface level is put as standard, heat-pipe radiator is above evaporation cavity, centre is tube connector, impel the normal circulation of hot-pipe system working medium in rotation, radiator will determine the position relationship with thermal interface according to certain angle, equally, the connection of tube connector and evaporation cavity also will determine the position relationship with thermal interface by certain angle, connecting above-mentioned three part-structure objects by certain angle to be: hot-pipe system is at 0 °---in 90 ° of interval rotary courses, Each part is not all lost and can be impelled working medium normal circulation, there is the position of Action of Gravity Field, its design principle is: tube connector be gasify in evaporation cavity working medium by way of first passage, gas flowing upwards runs, so, when thermal interface (light-emitting area) is at 0 °---in 90 ° of rotary irradiations, tube connector position can not lower than horizontal plane, namely can not be downward-sloping.If tube connector position is lower than horizontal plane, the working medium that so gasifies in pipe, owing to cannot upwards flow, can form vapour lock, causes whole hot-pipe system not circulate.If tube connector and thermal interface position relationship are greater than 90 °, so when thermal interface rotates to 90 °, tube connector position will lower than horizontal plane, gas in pipe is caused to flow, so, the angle relation of putting of tube connector and thermal interface should when at 20 °,---in 90 ° of intervals, guarantee thermal interface is at 0 °---rotates in 90 ° of intervals, and tube connector position is not less than horizontal plane.In like manner, the flowing of the working medium that gasifies in heat-pipe radiator is also upwards, simultaneously, the liquefaction working medium formed after catching a cold in heat-pipe radiator needs Action of Gravity Field just can be back to evaporation cavity, so in rotation, position can not lower than horizontal plane, in order to better heat radiation for heat-pipe radiator, a little more than horizontal plane, namely should be inclined upwardly.If the relation of putting of heat-pipe radiator and thermal interface is greater than 80 °, so when thermal interface rotates to 90 °, heat-pipe radiator position will be waited higher or lower than horizontal plane, liquefaction working medium so in heat-pipe radiator cannot upwards be run, and liquefaction working medium also cannot rely on Action of Gravity Field to be back to evaporation cavity.All angular relationships are all put as benchmark with the level of thermal interface above.

Accompanying drawing explanation

Fig. 1 is hot-pipe system structural representation of the present utility model

Fig. 2 is the schematic diagram of light fixture rotary irradiation of the present utility model

Fig. 3 is the schematic diagram of light fixture rotary irradiation of the present utility model

Reference numeral in accompanying drawing is as follows:

1, evaporation cavity; 2, tube connector; 3, thermal interface; 4, LED light source; 5, heat-pipe radiator; α, angle between heat-pipe radiator and thermal interface; β, angle between tube connector and thermal interface.

Detailed description of the invention

Below in conjunction with accompanying drawing, embodiment of the present utility model is described further; but conduct is not to restriction of the present utility model; the content that protection domain of the present utility model is recorded with claim is as the criterion; any equivalent technical elements of making according to this description is replaced and is modified, and does not all depart from protection domain of the present utility model.

Embodiment

Describe, by α=30 °, during β=90 °, as an embodiment explanation for clearer.Put as benchmark with evaporation cavity 1 bottom surface and thermal interface 3 level, thermal interface 3 posts LED light source 4, heat-pipe radiator 5 and thermal interface 3 are put by a α=30 ° angle swing, determine that rotating shaft is parallel with the intersection of thermal interface 3 with heat-pipe radiator 5 or overlap, tube connector 2 is according to β=90 °, namely vertical with thermal interface 3 direction is connected heat-pipe radiator 5 and evaporation cavity 1, whole lamp is around rotating shaft, at 0 °---rotary irradiation in 90 ° of intervals, in rotary course, in hot-pipe system, working medium can realize normal gravity circulation, to reach high efficiency and heat radiation object.

Claims (3)

1. the gravity assisted heat pipe systems that can use 0 °-90 ° interval rotations with light fixture, comprise thermal interface and evaporation cavity, radiator, the tube connector of evaporation cavity, it is characterized in that: put as benchmark with the thermal interface level of evaporation cavity, heat-pipe radiator is positioned at above evaporation cavity, and the angles of heat-pipe radiator and thermal interface can be selected in 0 ° of-80 ° of interval.

2. one according to claim 1 can with light fixture 0 °-90 ° interval gravity assisted heat pipe systems rotating use, and it is characterized in that: have tube connector between heat-pipe radiator and evaporation cavity, the angle of tube connector and thermal interface is selected in 20 ° of-90 ° of intervals.

3. one according to claim 1 with light fixture 0 °-90 ° interval gravity assisted heat pipe systems rotating use, can is characterized in that: tube connector is divided into evaporation tube and return duct, and heat-pipe radiator can be single or multiple lift.