CN203703903U - Sleeve connection radiator for lamp - Google Patents

Abstract

The utility model discloses a sleeve connection radiator for a lamp. The sleeve connection radiator comprises a heat conducting module, a first radiator body and a second radiator body, wherein the heat conducting module comprises a heat conducting base, a first heat pipe, a second heat pipe and a pressing-drawing plate; the first heat pipe and the second heat pipe are erected on the heat conducting base in an overlapping way; the pressing-drawing plate is crimped with the first heat pipe and the second heat pipe to be combined with the heat conducting base; the first radiator body comprises a main barrel and a plurality of secondary barrels which are annularly arranged on the inner and outer peripheries of the main barrel; the two ends of the first heat pipe are inserted into each secondary barrel; the heat conducting module and a first radiator body are sleeved with the second radiator body in a replaceable manner; a holding groove through which the two ends of the second heat pipe are connected respectively in a penetrating manner is formed in the second radiator body. The radiator bodies can adapt to various lamps of different power.

Description

For the socket joint type radiator of light fixture

Technical field

The utility model is about a kind of radiator, espespecially a kind of socket joint type radiator for light fixture.

Background technology

By light emitting diode (Light-Emitting Diode, LED) illumination that is applied in light fixture has been trend of the times, light emitting diode has advantages of that brightness is high, power saving and long service life, and generally had an optimistic view of by market, and the module forming along with light emitting diode can produce high-power, and therefore light emitting diode has now become one of principal light source meeting energy-conserving and environment-protective theme.

But, along with power, light emitting diode that brightness is larger, its heat relatively producing is higher, remove the heat of accumulation if cannot effectively fall apart, except meeting affects going out light quality of light emitting diode, when serious, also may cause the corrupted of light emitting diode, and shorten the service life of light emitting diode, therefore good heat dissipation design can make light emitting diode present preferably to go out light quality and extend the service life of light emitting diode.Again, in the past for the radiator of light fixture, be mostly only to design for a certain specific power, for the necessary radiator of design specialized in addition of light fixture of different capacity, therefore have a large amount of die cost and inventory cost problem.Moreover the radiator of commonly using, after being combined, mostly not possessing and has the structure that can Gong unload, thereby has lost the mechanism of recycling, is urgently overcome and solves.

Utility model content

Main purpose of the present utility model is to provide a kind of socket joint type radiator for light fixture, and it can carry out suitability use to the second radiator in response to the light fixture of various different capacities.

In order to reach above-mentioned purpose, the utility model provides a kind of socket joint type radiator for light fixture, comprising:

One heat conducting module, comprise a heat-conducting seat, one first heat pipe, one second heat pipe and and press plate, this first heat pipe and this second heat pipe erecting at this heat-conducting seat of splicing interlaced with each other, this presses this first heat pipe of plate crimping and this second heat pipe to be combined with this heat-conducting seat;

One first radiator, comprises a main cylinder and ring and is located at multiple cylindrical shells of outer peripheral edges in this main cylinder, the two ends of this first heat pipe respectively cross-under in each this cylindrical shell; And

One second radiator, is socketed in this heat conducting module and this first radiator, and this second radiator is provided with a storage tank of the two ends cross-under that supplies respectively this second heat pipe.

This first heat pipe and this second heat pipe are all a U-shaped, this first heat pipe have flat first evaporator section and certainly the two ends of this first evaporator section extend respectively circular first condensation segment upwards, this second heat pipe have flat second evaporator section and certainly the two ends of this second evaporator section extend respectively circular second condensation segment upwards, this first evaporator section of this first heat pipe splices above this second evaporator section of this second heat pipe.

This heat-conducting seat comprises a base plate, and this base plate is provided with multiple intermediate plates of mutual correspondence, and respectively this intermediate plate bending is pressed on this second evaporator section of this second heat pipe.

This heat-conducting seat more comprises from the upwardly extending coaming plate of this base plate periphery, correspondence respectively this coaming plate of this intermediate plate be respectively equipped with a breach, this second condensation segment of this second heat pipe passes from this breach.

This presses plate and is provided with two grooves and is formed on the compressing of one between this two groove section, and this compressing section is crimped on this first evaporator section of this first heat pipe, and this two groove passes for respectively this first condensation segment of this first heat pipe respectively.

This heat-conducting seat comprises a base plate, is provided with multiple double-screw bolts at this base plate, and this presses plate and is provided with corresponding respectively multiple perforation of this double-screw bolt, wears respectively this perforation with solid with this double-screw bolt spiral shell by multiple locked assemblies.

This heat-conducting seat comprises a base plate, is provided with multiple screws at this base plate, and this presses plate and is provided with corresponding respectively multiple perforation of this screw, wears respectively this perforation with solid with this screw spiral shell by multiple locked assemblies.

Respectively this cylindrical shell comprises the multiple inner sides time cylindrical shell that is positioned at this main cylinder inside and the multiple outsides time cylindrical shell that is positioned at this main cylinder outside, between two adjacent inferior cylindrical shells in this outside in office, is outward extended with a fin from this main cylinder.

Respectively this outside time cylindrical shell is connected with this main cylinder by a linking arm, and is extended with multiple heat sink strips at the each inside and outside wall of the inferior cylindrical shell in this outside.

This second radiator has a cylinder, this cylinder inwall extends to the inside certainly multiple long radiating fin and multiple short radiating fin, this short radiating fin configures between in office two these long radiating fins, this storage tank is a semicircle shape and is formed on the inside of this cylinder, and this cylinder is provided with multiple air admission holes.

This second radiator is to be socketed in this heat conducting module and this first radiator replaceablely.

Adopt after such scheme, the utlity model has following effect:

1, it utilizes the characteristic that heat conducting module and the first radiator can be shared, offers cost and inventory cost so as to reducing significantly mould;

2, by offer air admission hole on cylinder, be beneficial to outside cryogenic gas is imported in cylinder and takes away inner heat, and then heat radiation usefulness;

3, utilizing the semicircle storage tank of the second radiator to have provides each condensation segment to be easy to the mechanism that group connects or separates.

Accompanying drawing explanation

Fig. 1 is heat conducting module three-dimensional exploded view of the present utility model;

Fig. 2 is heat conducting module combination schematic diagram of the present utility model;

Fig. 3 is the utility model radiator and each lens three-dimensional exploded view;

Fig. 4 is the utility model radiator and each lens combination schematic diagram;

Fig. 5 is that the utility model heat sink applications is in lamp combination cutaway view;

Fig. 6 is that the utility model heat sink applications is in another visual angle cutaway view of light fixture;

Fig. 7 is the utility model radiator combination top view;

Fig. 8 is the combination schematic diagram that the utility model is applied to projection lamp fitting;

Fig. 9 is that another embodiment of the utility model radiator combines top view.

The specific embodiment

Relevant detailed description of the present utility model and technology contents, coordinate graphic being described as follows, but appended graphic reference and the explanation use of only providing is not used for the utility model to be limited.

Refer to shown in Fig. 1 to Fig. 4, the utility model provides a kind of socket joint type radiator for light fixture, it is mainly that to be applied in power be 20 watts (W) above light fixture, especially be the radiating effect that 25 ~ 40 watts of light fixtures between (W) have optimization at power, this socket joint type radiator 1 mainly comprises a heat conducting module 10, one first radiator 20 and one second radiator 30.

Consult shown in Fig. 1 and Fig. 2, heat conducting module 10 comprises a heat-conducting seat 11, one first heat pipe 12, one second heat pipe 13 and and presses plate 14, heat-conducting seat 11 is made with copper, aluminium or its alloy, roughly be one discoid, mainly formed by a base plate 111 and from the upwardly extending coaming plate 112 of base plate 111 peripheries, on base plate 111, be provided with multiple double-screw bolts 113 and screw 114; The another intermediate plates 115 that are provided with two pairs of mutual correspondences in the outside of double-screw bolt 113; On the coaming plate 112 of the each intermediate plate 115 of correspondence, be respectively equipped with a breach 116 again.

The first heat pipe 12 and the second heat pipe 13 are all a U-shaped, the first heat pipe 12 has flat first evaporator section 121 and extends respectively circular first condensation segment 122 upwards from the two ends of the first evaporator section 121, the second heat pipe 13 also has flat second evaporator section 131 and extends respectively circular second condensation segment 132 upwards from the two ends of the second evaporator section 131, the first heat pipe 12 and the second heat pipe 13 erect on heat-conducting seat 11, the second evaporator section 131 and base plate 111 thermo-contacts of the second heat pipe 13, 115 bendings of each intermediate plate are pressed on the upper surface of the second evaporator section 131, and each second condensation segment 132 of the second heat pipe 13 passes coaming plate 112 outsides from each breach 116.The first evaporator section 121 of the first heat pipe 12 splices on the second evaporator section 131 of the second heat pipe 13 and is each other false relation configuration, from overlooking the crosswise that is of sight.

The zone line that presses plate 14 is provided with two grooves 141 and is formed on the compressing of one between this two groove 141 section 142, separately pressing the multiple perforation 143 that are provided with corresponding aforementioned each double-screw bolt 113 and each screw 114 on plate 14, press plate 14 is crimped on the first heat pipe 12 the first evaporator section 121 upper surfaces with its compressing section 142, 122 of each first condensation segments of the first heat pipe 12 pass from groove 141, by the aforementioned perforation 143 of the locked assemblies such as screw 15 cross-under to establish with the lock of each screw 114 or each double-screw bolt 113, so that the first heat pipe 12 and the second heat pipe 13 are pressed and to be incorporated on heat-conducting seat 11, so be combined into a heat conducting module 10, the LED module 81 that this heat conducting module 10 can offer a projection lamp fitting is used as the use of heat conduction.

Consult shown in Fig. 3 and Fig. 4, the first radiator 20 is for aluminium or its alloy institute extrusion forming, it comprises a main cylinder 21 and ring is established multiple the cylindrical shells 22 that are connected to main cylinder 21 interior outer peripheral edges, main cylinder 21 is roughly a drum, each time cylindrical shell 22 is mainly made up of at multiple outsides of main cylinder 21 outsides time cylindrical shell 223 the multiple inner sides time cylindrical shell 221 and the position that are positioned at main cylinder 21 inside, between time cylindrical shell 223 of two adjacent outsides in office, be outward extended with a fin 23 from main cylinder 21, inwall at some inner side time cylindrical shell 221 is extended with multiple heat sink strips 222, inside and outside wall at some outside time cylindrical shell 223 is extended with multiple heat sink strips 224, and outside time cylindrical shell 223 is connected with main cylinder 21 by a linking arm 225.2 first condensation segments 122 difference cross-under of the first heat pipe 12 are in time cylindrical shell 221 of aforesaid each inner side.

Socket joint type radiator 1 of the present utility model, wherein heat conducting module 10 and the first radiator 20, for adopting affixed mode combination, must just can be dismantled separation with failure mode after combination.The second radiator 30 is for be socketed or be socketed in heat conducting module 10 and the first radiator 20 replaceablely, the i.e. combination of the second radiator 30 and heat conducting module 10, the first radiator 20 only need can be taken off the second radiator 30 other the second radiator 30A (as shown in Figure 9) of changing the outfit by easy instrument from the sub-assembly of heat conducting module 10 and the first radiator 20.

The second radiator 30 can also aluminium or its alloy institute extrusion forming, multiple long radiating fin 32 and multiple short radiating fin 33 that it has a cylinder 31, extends to the inside from cylinder 31 inwalls, short radiating fin 33 configures between two long radiating fins 32 in office, be provided with online a pair of storage tank 34 at cylinder 31 center, the section of this storage tank 34 is a semicircle, so as to supplying respectively 2 second condensation segment 132 cross-under of aforementioned the second heat pipe 13, and this semicircle storage tank 34 has and provides each the second condensation segment 132 to be easy to the mechanism that group connects or separates.Separately be provided with a corresponding pivot hole 35 at the lower semisection of cylinder 31, the cylinder 31 below pivot hole 35 is provided with multiple air admission holes 36 again.

Consult shown in Fig. 3 to Fig. 8, the utility model socket joint type radiator 1 is to can be applicable on a projection lamp fitting 8, projection lamp fitting 8 comprises a LED module 81, a support 82, one first convex lens 83, one second convex lens 84 and multiple C shape clasp 85, end face base plate 111 thermo-contacts direct and heat-conducting seat 11 of LED module 81 are fixed, 82, support is combined with 35 pivot joints of aforesaid pivot hole by pivot (scheming not shown), the first convex lens 83 and the second convex lens 84 are contained in below, the inside place of cylinder 31, and are fixed by aforesaid C shape clasp 85.

The heat that when use, LED module 81 produces will be transferred to the second evaporator section 131 of the second heat pipe 13 through heat-conducting seat 11, the first evaporator section 121 that is transferred to the first heat pipe 12 at the second evaporator section 131 latter part of heat that is heated, the heat of another part passes the machine-processed cylinder 31 that heat is transferred to the second radiator 30 by each the second condensation segment 132 with the heat of liquid phase, cylinder 31 gives dissipation by heat via each long radiating fin 32 and short radiating fin 33 again and goes out, the first evaporator section 121 of aforesaid the first heat pipe 12 is also transferred to heat the main cylinder 21 of the first radiator 20 by each the first condensation segment 122 with the heat biography mechanism of liquid phase after being heated simultaneously, main cylinder 21 gives dissipation via each inner side time cylindrical shell 221 and each outside time cylindrical shell 223 respectively by heat again and goes out, utilize thermal convection current effect to introduce outside cold air from air admission hole 36, the heat that the dissipation of aforementioned institute is gone out is taken away from the top of the first radiator 20 and the second radiator 30.

Consult shown in Fig. 9, the utility model socket joint type radiator is except can be the above embodiments, also can utilize the second radiator 30 to be socketed in the design of heat conducting module 10 and the first radiator 20 replaceablely, substitute aforesaid circular the second radiator 30 with rectangle the second radiator 30A, it is on 40 watts (W) or above light fixture that its socket joint type radiator 1A who forms can be used in power.

In sum, the utility model is for the socket joint type radiator of light fixture, really can reach the application target of expection, and solve known disappearance, because having novelty and progressive, meeting utility application important document completely again, files an application according to Patent Law in whence, would like to ask detailed survey and grant accurate this case patent, to ensure inventor's right.

Claims (11)

1. for a socket joint type radiator for light fixture, it is characterized in that: comprising:

One heat conducting module, comprise a heat-conducting seat, one first heat pipe, one second heat pipe and and press plate, this first heat pipe and this second heat pipe erecting at this heat-conducting seat of splicing interlaced with each other, this presses this first heat pipe of plate crimping and this second heat pipe to be combined with this heat-conducting seat;

One first radiator, comprises a main cylinder and ring and is located at multiple cylindrical shells of outer peripheral edges in this main cylinder, the two ends of this first heat pipe respectively cross-under in each this cylindrical shell; And

One second radiator, is socketed in this heat conducting module and this first radiator, and this second radiator is provided with a storage tank of the two ends cross-under that supplies respectively this second heat pipe.

2. the socket joint type radiator for light fixture as claimed in claim 1, it is characterized in that: this first heat pipe and this second heat pipe are all a U-shaped, this first heat pipe have flat first evaporator section and certainly the two ends of this first evaporator section extend respectively circular first condensation segment upwards, this second heat pipe have flat second evaporator section and certainly the two ends of this second evaporator section extend respectively circular second condensation segment upwards, this first evaporator section of this first heat pipe splices above this second evaporator section of this second heat pipe.

3. the socket joint type radiator for light fixture as claimed in claim 2, is characterized in that: this heat-conducting seat comprises a base plate, and this base plate is provided with multiple intermediate plates of mutual correspondence, and respectively this intermediate plate bending is pressed on this second evaporator section of this second heat pipe.

4. the socket joint type radiator for light fixture as claimed in claim 3, it is characterized in that: this heat-conducting seat more comprises from the upwardly extending coaming plate of this base plate periphery, correspondence respectively this coaming plate of this intermediate plate be respectively equipped with a breach, this second condensation segment of this second heat pipe passes from this breach.

5. the socket joint type radiator for light fixture as claimed in claim 2, it is characterized in that: this presses plate and is provided with two grooves and is formed on the compressing of one between this two groove section, this compressing section is crimped on this first evaporator section of this first heat pipe, and this two groove passes for respectively this first condensation segment of this first heat pipe respectively.

6. the socket joint type radiator for light fixture as claimed in claim 5, it is characterized in that: this heat-conducting seat comprises a base plate, be provided with multiple double-screw bolts at this base plate, this presses plate and is provided with corresponding respectively multiple perforation of this double-screw bolt, wears respectively this perforation with solid with this double-screw bolt spiral shell by multiple locked assemblies.

7. the socket joint type radiator for light fixture as claimed in claim 5, it is characterized in that: this heat-conducting seat comprises a base plate, be provided with multiple screws at this base plate, this presses plate and is provided with corresponding respectively multiple perforation of this screw, wears respectively this perforation with solid with this screw spiral shell by multiple locked assemblies.

8. the socket joint type radiator for light fixture as claimed in claim 1, it is characterized in that: respectively this cylindrical shell comprises the multiple inner sides time cylindrical shell that is positioned at this main cylinder inside and the multiple outsides time cylindrical shell that is positioned at this main cylinder outside, between two adjacent inferior cylindrical shells in this outside in office, be outward extended with a fin from this main cylinder.

9. the socket joint type radiator for light fixture as claimed in claim 8, is characterized in that: respectively this outside time cylindrical shell is connected with this main cylinder by a linking arm, and is extended with multiple heat sink strips at the each inside and outside wall of the inferior cylindrical shell in this outside.

10. the socket joint type radiator for light fixture as claimed in claim 1, it is characterized in that: this second radiator has a cylinder, this cylinder inwall extends to the inside certainly multiple long radiating fin and multiple short radiating fin, this short radiating fin configures between in office two these long radiating fins, this storage tank is a semicircle shape and is formed on the inside of this cylinder, and this cylinder is provided with multiple air admission holes.

The 11. socket joint type radiators for light fixture as claimed in claim 1, is characterized in that: this second radiator is to be socketed in this heat conducting module and this first radiator replaceablely.