CN107664298A - A kind of heat-exchange device - Google Patents

Abstract

The invention discloses a kind of heat-exchange device, including housing, light source, the first blower fan, the first radiating subassembly, condenser pipe and the second radiating subassembly；In hollow structure and provided with the thermal cycle passage of closure in housing, the first blower fan, the first radiating subassembly and light source are successively set in housing and are respectively positioned in thermal cycle passage from the bottom to top；First radiating subassembly is connected by condenser pipe with the circulation of the second radiating subassembly.In the present invention, can solve the problems, such as that light source part can not be provided simultaneously with radiating and rainproof effect in the prior art.

Description

A kind of heat-exchange device

Technical field

The present invention relates to stage lighting technical field, more particularly to a kind of heat-exchange device.

Background technology

Modern stage lamp use range is more and more wider, is no longer only satisfied with indoor performance, is also widely used out of doors Live action performance, theme park, city lighting engineering, this proposes more waterproof requirements to light fixture in itself.Actually make in conventional In, in rainwater weather, light fixture can only could meet outdoor actual operation requirements by auxiliary rain-proof equipment.Modern stage lighting Tool (stage lamp of particularly shaking the head) generally can be divided into base, U-shaped frame and head three parts, and base is mainly responsible for power supply supply And main body control, U-shaped frame mainly realize level, vertical orientations rotation sweep, translation-angle, head is mainly various light efficiency functions Change.The main securement head tail end of lamp light source, for the benefit of light source heat radiation, is often set to split type by the shell of lamp holder, and in lamp The two sides of tail face of head sets open type heat radiating slot to be used to radiate, and therefore, is difficult at present using stage lighting outdoor out of doors Occasion use, easily cause at rainy day the key positions such as lamp holder light source intake, light source part can not be provided simultaneously with radiating with Rainproof effect, so as to cause light fixture to damage.

The content of the invention

For overcome the deficiencies in the prior art, it is an object of the invention to provide a kind of heat-exchange device.Can solve existing Light source part can not be provided simultaneously with radiating and the problem of rainproof effect in technology, can meet that stage lamp can be to greatest extent The requirement not used independently by auxiliary rain-proof equipment in rainwater environment.

The purpose of the present invention is realized using following technical scheme：

A kind of heat-exchange device, including housing, light source, the first blower fan, the first radiating subassembly, condenser pipe and the second radiating group Part；

In hollow structure and provided with the thermal cycle passage of closure in housing, the first blower fan, the first radiating subassembly and light source by Under supreme be successively set in housing and be respectively positioned in thermal cycle passage；

First radiating subassembly is connected by condenser pipe with the circulation of the second radiating subassembly.

Further, in addition to the second blower fan, the second blower fan are fixedly installed in thermal cycle passage and above light source.

Further, the first radiating subassembly is provided with first through hole, and the second radiating subassembly is provided with the second through hole, condenser pipe Head end connects with end, also, condenser pipe sequentially passes through first through hole and the second through hole.

Further, in addition to kinetic pump, kinetic pump are located on condenser pipe.

Further, condenser pipe is provided with the first full of twists and turns portion, and first through hole is run through in the first full of twists and turns portion.

Further, some first kinks are interval with the first full of twists and turns portion.

Further, condenser pipe is provided with the second full of twists and turns portion, and the second through hole is run through in the second full of twists and turns portion.

Further, some second kinks are interval with the second full of twists and turns portion.

Further, the first radiating subassembly includes some first heat transmission fins, and some first heat transmission fins overlap Form complete first radiating subassembly；

Second radiating subassembly includes some second heat transmission fins, and some second heat transmission fins overlap composition completely Second radiating subassembly.

Further, in addition to water-proof fan, water-proof fan are fixedly installed on above the second radiating subassembly.

Compared with prior art, the beneficial effects of the present invention are：Due to including housing, light source, the first blower fan, the first radiating Component, condenser pipe and the second radiating subassembly, it is in hollow structure that the housing is interior, and the thermal cycle of closure is formed in the housing Passage, the first blower fan, the first radiating subassembly and light source are fixedly mounted in housing successively from the bottom to top, and ensure the first wind Machine, the first radiating subassembly and light source are respectively positioned in thermal cycle passage, in addition, the first radiating subassembly is radiated by condenser pipe and second Component realizes circulation connection.When the heat-exchange device is operated, heat caused by light source works is most of by the One radiating subassembly is absorbed, and still, still has fraction heat not absorbed by the first radiating subassembly, this fraction heat leaves The first blower fan in being rotated after first radiating subassembly extracts so that and this fraction heat is circulated in thermal cycle passage, To arrive at the first radiating subassembly again and to be absorbed by the first radiating subassembly (i.e. so that not absorbing heat by the first radiating subassembly Amount circulation can be carried out in thermal cycle passage), and the heat that the first radiating subassembly is absorbed by condenser pipe conduct to In second radiating subassembly, and then the heat is distributed to the external world, radiating efficiency can be improved, and need not be in the back of the body of light source Face is mounted directly fin and radiated, and greatly reduces the volume of stage lamp and reduces the weight of stage lamp.Solve existing Light source part can not be provided simultaneously with radiating and the problem of rainproof effect in technology, can meet that stage lamp can be to greatest extent The requirement not used independently by auxiliary rain-proof equipment in rainwater environment.

Brief description of the drawings

Fig. 1 is a kind of structural representation of embodiment of heat-exchange device of the present invention；

Fig. 2 is the cross section structure diagram of heat-exchange device shown in Fig. 1；

Fig. 3 is the group of the first radiating subassembly in heat-exchange device shown in Fig. 1, the second radiating subassembly, kinetic pump and condenser pipe Close structural representation；

Fig. 4 is the structural scheme of mechanism of the first radiating subassembly in heat-exchange device shown in Fig. 1；

Fig. 5 is the structural scheme of mechanism of the second radiating subassembly in heat-exchange device shown in Fig. 1；

Fig. 6 is the structural scheme of mechanism of condenser pipe in heat-exchange device shown in Fig. 1.

In figure：1st, housing；2nd, light source；3rd, the first blower fan；4th, the first radiating subassembly；41st, first through hole；5th, condenser pipe； 511st, the first kink；521st, the second kink；6th, the second radiating subassembly；61st, the second through hole；7th, the second blower fan；8th, kinetic pump； 9th, water-proof fan.

Embodiment

Below, with reference to accompanying drawing and embodiment, the present invention is described further：

Fig. 1-Fig. 6 is referred to, the present invention relates to a kind of heat-exchange device, including housing 1, light source 2, the first blower fan 3, first Radiating subassembly 4, condenser pipe 5, the second radiating subassembly 6, the second blower fan 7, kinetic pump 8 and water-proof fan 9.

It is in hollow structure in housing 1, and the thermal cycle passage of closure is formed in housing 1, by the first blower fan 3, the One radiating subassembly 4, the blower fan 7 of light source 2 and second are fixedly mounted in housing 1 successively from the bottom to top, and the first blower fan 3 of guarantee, (i.e. the second blower fan 7 is fixedly mounted in thermal cycle passage from the bottom to top for first radiating subassembly 4, the blower fan 7 of light source 2 and second In thermal cycle passage and positioned at the top of light source 2).

When the heat-exchange device is operated, light source 2 works caused heat major part by the first radiating group Part 4 is absorbed, and still, still has fraction heat not absorbed by the first radiating subassembly 4, and this fraction heat leaves first and dissipated The first blower fan 3 and the second blower fan 7 in being rotated successively after hot component 4 extract so that this fraction heat is in thermal cycle passage Inside circulated, to arrive at the first radiating subassembly 4 again and to be absorbed by the first radiating subassembly 4 (i.e. so that not by first Radiating subassembly 4 absorbs heat can carry out circulation in thermal cycle passage), the efficiency of heat absorption can be improved, and then Improve radiating efficiency.

Eight first through hole 41 are formed on the first radiating subassembly 4, and eight first through hole 41 are evenly distributed on On first radiating subassembly 4, eight the second through holes 61 are formed on the second radiating subassembly 6, and this eight the second through holes 61 are equal It is even to be distributed on the second radiating subassembly 6, and the head end of condenser pipe 5 and end are connected with each other (so that being flooded with the condenser pipe 5 of condensate liquid One SAPMAC method system of Inner Constitution), and condenser pipe 5 sequentially passes through the through hole 61 of first through hole 41 and second, that is, causes first Radiating subassembly 4 is connected by condenser pipe 5 with the circulation of the second radiating subassembly 6.

In the present embodiment, eight first through hole 41 are formed on the first radiating subassembly 4.In other embodiments, first is logical The quantity in hole 41 can be changed according to actual conditions, for example, the quantity of first through hole 41 can be six, or, first The quantity of through hole 41 can be seven, or, the quantity of first through hole 41 can be nine.

In the present embodiment, eight the second through holes 61 are formed on the second radiating subassembly 6.In other embodiments, second is logical The quantity in hole 61 can be changed according to actual conditions, for example, the quantity of the second through hole 61 can be six, or, second The quantity of through hole 61 can be seven, or, the quantity of the second through hole 61 can be nine.

Condenser pipe 5 forms the first full of twists and turns portion, and first through hole 41 is run through in the first full of twists and turns portion, wherein first is circuitous Go back to interval on zigzag part and form seven the first kinks 511, the first full of twists and turns portion can be allowd more to be uniformly distributed On the first radiating subassembly 4, when the heat-exchange device is operated, the first radiating subassembly 4 can preferably absorb heat Measure and so that the heat absorbed is conducted to the first full of twists and turns portion.

In the present embodiment, the quantity of the first kink 511 is seven.In other embodiments, the number of the first kink 511 Amount can be changed according to actual conditions, for example, the quantity of the first kink 511 can be six, or, the first kink 511 quantity can be seven, or, the quantity of the first kink 511 can be nine, as long as ensureing in the first roundabout song The first kink 511 being molded on folding part, can allow the first full of twists and turns portion to be more evenly distributed on the first radiating group On part 4.

Condenser pipe 5 forms the second full of twists and turns portion, and the second through hole 61 is run through in the second full of twists and turns portion, wherein second is circuitous Go back to interval on zigzag part and form seven the second kinks 521, the second full of twists and turns portion can be allowd more to be uniformly distributed On the second radiating subassembly 6, when the heat-exchange device is operated, the second radiating subassembly 6 can preferably absorb heat Amount is distributed to the external world.

In the present embodiment, the quantity of the second kink 521 is seven.In other embodiments, the number of the second kink 521 Amount can be changed according to actual conditions, for example, the quantity of the second kink 521 can be six, or, the second kink 521 quantity can be seven, or, the quantity of the second kink 521 can be nine, as long as ensureing in the second roundabout song The second kink 521 being molded on folding part, can allow the second full of twists and turns portion to be more evenly distributed on the second radiating group On part 6.

Kinetic pump 8 is arranged on condenser pipe 5, the kinetic pump 8 can provide power for the circulation of SAPMAC method system, at this When heat-exchange device is operated, the caused heat that worked by the first radiating subassembly 4 light source 2 absorbs, and The heat that first radiating subassembly 4 is absorbed is conducted into the first full of twists and turns portion of condenser pipe 5, due to the head end of condenser pipe 5 and end End is mutually communicated so that is flooded with condenser pipe 5 Inner Constitution, one SAPMAC method system of condensate liquid, is conducted to the of condenser pipe 5 Heat in one full of twists and turns portion is conducted into the second full of twists and turns portion of condenser pipe 5 again by the condensate liquid in condenser pipe 5, And distributed described heat to the external world by the second radiating subassembly 6, and dissipate effect of the condensate liquid in kinetic pump 8 of heat Under turn again in the first full of twists and turns portion, so as to form a SAPMAC method system so that heat can constantly from first dissipate Conduction, in addition, water-proof fan 9 is fixedly mounted on into the top of the second radiating subassembly 6, turns into the second radiating subassembly 6 in hot component 4 Water-proof fan 9 in dynamic can accelerate to distribute to the external world so that conducting to the heat of the second radiating subassembly 6, can improve radiating effect Rate.Wherein, the first radiating subassembly 4 includes some first heat transmission fins, and some first heat transmission fins, which overlap, have been formed The first whole radiating subassembly 4, the second radiating subassembly 6 include some second heat transmission fins, and some second heat transmission fins overlap Complete second radiating subassembly 6 is formed together.

In the present embodiment, the quantity of the first heat transmission fin is 38.In other embodiments, first heat transmission fin Quantity can be changed according to actual conditions, for example, the quantity of the first heat transmission fin can be 30, or, first leads The quantity of hot fin can be 34, or, the first heat transmission fin can be 42, or, the first heat conduction wing The quantity of piece can be 46, as long as ensureing that some first heat transmission fins overlap forms complete first radiating Component 4.

In the present embodiment, the quantity of the second heat transmission fin is 38.In other embodiments, second heat transmission fin Quantity can be changed according to actual conditions, for example, the quantity of the second heat transmission fin can be 30, or, second leads The quantity of hot fin can be 34, or, the second heat transmission fin can be 42, or, the second heat conduction wing The quantity of piece can be 46, as long as ensureing that some second heat transmission fins overlap forms complete second radiating Component 6.

During using the present invention, due to including housing 1, light source 2, the first blower fan 3, the first radiating subassembly 4, condenser pipe 5, second Radiating subassembly 6, the second blower fan 7, kinetic pump 8 and water-proof fan 9, be in hollow structure in the housing 1, and the housing 1 it is interior into Type has the thermal cycle passage of closure, and the first blower fan 3, the first radiating subassembly 4, the blower fan 7 of light source 2 and second is solid successively from the bottom to top Dingan County ensures that the first blower fan 3, the first radiating subassembly 4, the blower fan 7 of light source 2 and second are respectively positioned on thermal cycle and led in housing 1 In road, in addition, the first radiating subassembly 4 realizes that circulation is connected (in the first radiating subassembly 4 by condenser pipe 5 with the second radiating subassembly 6 On form first through hole 41, the second through hole 61 is formed on the second radiating subassembly 6, the head end of condenser pipe 5 connects with end (to be made 5 Inner Constitution of condenser pipe, one SAPMAC method system of condensate liquid must be flooded with), and condenser pipe 5 sequentially passes through first through hole 41 With the second through hole 61, kinetic pump 8 is arranged on condenser pipe 5 in addition, the kinetic pump 8 can provide for the circulation of SAPMAC method system Power).When the heat-exchange device is operated, light source 2 works caused heat major part by the first radiating subassembly 4 Absorbed, still, still there is fraction heat not absorbed by the first radiating subassembly 4, this fraction heat leaves the first radiating The first blower fan 3 and the second blower fan 7 in being rotated after component 4 are extracted so that this fraction heat is carried out in thermal cycle passage Circulation, to arrive at the first radiating subassembly 4 again and to be absorbed by the first radiating subassembly 4 (i.e. so that not by the first radiating group Part 4 absorb heat circulation can be carried out in thermal cycle passage), and the heat that the first radiating subassembly 4 is absorbed pass through it is cold Solidifying pipe 5 is conducted into the second radiating subassembly 6, in addition, water-proof fan 9 is fixedly mounted on into the top of the second radiating subassembly 6, in rotation Water-proof fan 9 can accelerate to distribute to the external world so that conducting to the heat of the second radiating subassembly 6, radiating efficiency can be improved, And fin need not be mounted directly at the back side of light source 2 and radiated, greatly reduce the volume of stage lamp and reduce and wave The weight of desk lamp tool.Solve the problems, such as that light source part can not be provided simultaneously with radiating and rainproof effect in the prior art, can be maximum The requirement that meets stage lamp and can independently not used by auxiliary rain-proof equipment in rainwater environment of limit.

It will be apparent to those skilled in the art that technical scheme that can be as described above and design, make other various Corresponding change and deformation, and all these changes and deformation should all belong to the protection domain of the claims in the present invention Within.

Claims (10)

1. A kind of 1. heat-exchange device, it is characterised in that：Including housing, light source, the first blower fan, the first radiating subassembly, condenser pipe and Second radiating subassembly；

   In hollow structure and provided with the thermal cycle passage of closure, first blower fan, the first radiating subassembly and light in the housing Source is successively set in the housing and is respectively positioned in the thermal cycle passage from the bottom to top；

   First radiating subassembly is connected by the condenser pipe with second radiating subassembly circulation.
2. 2. heat-exchange device according to claim 1, it is characterised in that：Also include the second blower fan, second blower fan is consolidated Surely it is arranged in the thermal cycle passage and above light source.
3. 3. heat-exchange device according to claim 1, it is characterised in that：It is logical that first radiating subassembly is provided with first Hole, second radiating subassembly are provided with the second through hole, and the condenser pipe head end connects with end, also, the condenser pipe according to It is secondary to run through first through hole and the second through hole.
4. 4. heat-exchange device according to claim 3, it is characterised in that：Also include kinetic pump, the kinetic pump is located at cold On solidifying pipe.
5. 5. heat-exchange device according to claim 3, it is characterised in that：The condenser pipe is provided with the first full of twists and turns portion, First through hole is run through in the first full of twists and turns portion.
6. 6. heat-exchange device according to claim 5, it is characterised in that：If it is interval with the first full of twists and turns portion Dry first kink.
7. 7. heat-exchange device according to claim 3, it is characterised in that：The condenser pipe is provided with the second full of twists and turns portion, The second through hole is run through in the second full of twists and turns portion.
8. 8. heat-exchange device according to claim 7, it is characterised in that：If it is interval with the second full of twists and turns portion Dry second kink.
9. 9. heat-exchange device according to claim 1, it is characterised in that：First radiating subassembly is led including some first Hot fin, some first heat transmission fins, which overlap, forms complete first radiating subassembly；

   Second radiating subassembly includes some second heat transmission fins, and some second heat transmission fins, which overlap, have been formed The second whole radiating subassembly.
10. 10. according to the heat-exchange device any one of claim 1-9, it is characterised in that：Also include water-proof fan, it is described Water-proof fan is fixedly installed on above the second radiating subassembly.