CN107084338A - Spliced illuminator - Google Patents

Abstract

A kind of spliced illuminator, including cooling base, radiating splicing component, mounting assembly and LED component, cooling base offer multiple chutes；The splicing component that radiates includes multiple radiating splices, and the first end correspondence of each radiating splice is slideably positioned in a chute, and radiating splice includes multiple stitching sections being detachably connected；Mounting assembly includes lamp plate and multiple nut fasteners, and lamp plate is arranged on radiating splicing component, and each threaded fastener order wears the second end of lamp plate and a radiating splice, and second end of each threaded fastener respectively with lamp plate and a radiating splice is spirally connected.Splice radiate by setting multiple stitching sections being detachably connected, when radiating requirements change, by adjusting the quantity of the stitching section after each radiating splice assembling, can correspond to and adjust different radiating loads, to meet different radiating requirements.

Description

Spliced illuminator

Technical field

The present invention relates to lighting technical field, more particularly to a kind of spliced illuminator.

Background technology

Light fixture refer to can printing opacity, distribution and the utensil for changing light source light distribution, including in addition to light source it is all be used for it is fixed and Whole parts needed for light source are protected, and be connecteds with power supply necessary circuit annex.It is common, in order to be played to light fixture Radiating effect, to ensure the normal usage function of light fixture, cooling base (Radiator) is produced when being light fixture work for light fixture Raw heat, so that light fixture radiating freezes to increase the service life of light fixture and ensure normal working performance.So radiating base The quality of seat directly affects life-span and the normal working performance of light fixture.It is general, the radiating load of existing light fixture be it is fixed, Undertaken in light fixture the radiating load that the part of heat sinking function undertaken be it is fixed, still, when light fixture need to install additional lamp group or When increasing lamp group power, the radiating requirements of light fixture will certainly be caused to greatly increase, if what the part for undertaking heat sinking function was undertaken When the load that radiates fixes immutable, the heat dispersion of light fixture can be influenceed.

The content of the invention

Based on this, it is necessary to provide a kind of spliced illuminator that radiating load can be adjusted.

A kind of spliced illuminator, including：

Cooling base, the cooling base offers multiple chutes；

Radiate splicing component, and the radiating splicing component includes multiple radiating splices, each radiating splice First end correspondence is slideably positioned in described in one in chute, and the radiating splice includes multiple stitching sections being detachably connected；

Mounting assembly, the mounting assembly includes lamp plate and multiple nut fasteners, and the lamp plate is arranged at the radiating On splicing component, each threaded fastener order wears the second end of the splice that radiated described in the lamp plate and one, and often Second end of the threaded fastener described in one respectively with the splice that radiated described in the lamp plate and one is spirally connected；And

LED component, the LED component includes multiple LED lamp beads, and it is remote that each LED lamp bead is respectively arranged at the lamp plate On one side from the radiating splicing component.

In one of the embodiments, each chute be arranged in parallel.

In one of the embodiments, each radiating splice order supports setting.

In one of the embodiments, the stitching section includes splicing body and slide connecting part, and the splicing body is offered Sliding groove, the slide connecting part is used to be slideably positioned in the sliding groove.

In one of the embodiments, the bottom that the splicing body is located at the sliding groove offers stopper slot, described Slide connecting part is provided with limiting section, and the limiting section is slideably positioned in the stopper slot.

In one of the embodiments, the width of the stopper slot is more than the width of the sliding groove.

In one of the embodiments, the lamp plate has rectangular parallelepiped structure.

In one of the embodiments, each threaded fastener is arranged at intervals, and per the two neighboring screw threads for fastening The distance between part is equal.

In one of the embodiments, the threaded fastener is screw, screw rod or bolt.

In one of the embodiments, each LED lamp bead rectangular array is arranged at the lamp plate away from the radiating On the one side of splicing component.

Above-mentioned spliced illuminator radiates splice by setting multiple stitching sections being detachably connected, and is shone when spliced When bright lamp tool needs to install additional lamp group and increase lamp group power, i.e., when integral heat sink demand becomes big, or spliced illuminator When needing to reduce lamp group and reduce lamp group power, i.e., integral heat sink demand becomes hour, that is, the radiating of spliced illuminator is needed When asking change, by adjusting the quantity of the stitching section after each radiating splice assembling, it can correspondingly adjust different radiatings and bear Lotus, to meet different radiating requirements.

Brief description of the drawings

Fig. 1 is the structural representation of the spliced illuminator of an embodiment of the present invention；

Fig. 2 is the enlarged drawing at A of the spliced illuminator shown in Fig. 1；

Fig. 3 is the structural representation at another visual angle of the spliced illuminator shown in Fig. 1；

Fig. 4 is the structural representation of the cooling base of an embodiment of the present invention.

Embodiment

For the ease of understanding the present invention, the present invention is described more fully below with reference to relevant drawings.In accompanying drawing Give the better embodiment of the present invention.But, the present invention can be realized in many different forms, however it is not limited to herein Described embodiment.On the contrary, the purpose for providing these embodiments is to make to understand more the disclosure Plus it is thorough comprehensive.

It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element Or can also have element placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " level ", " left side ", For illustrative purposes only, it is unique embodiment to be not offered as " right side " and similar statement.

Unless otherwise defined, all of technologies and scientific terms used here by the article is with belonging to technical field of the invention The implication that technical staff is generally understood that is identical.Term used in the description of the invention herein is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term as used herein " and/or " including one or more The arbitrary and all combination of related Listed Items.

In one embodiment, a kind of spliced illuminator, including：Cooling base, radiating splicing component, mounting assembly and LED component, the cooling base offers multiple chutes；The radiating splicing component includes multiple radiating splices, Mei Yisuo The first end correspondence for stating radiating splice is slideably positioned in described in one in chute, and the radiating splice detachably connects including multiple The stitching section connect；The mounting assembly includes lamp plate and multiple nut fasteners, and the lamp plate is arranged at the radiating splicing group On part, each threaded fastener order wears the second end of the splice that radiated described in the lamp plate and one, and each described Second end of the threaded fastener respectively with the splice that radiated described in the lamp plate and one is spirally connected；The LED component includes multiple LED Lamp bead, each LED lamp bead is respectively arranged on one side of the lamp plate away from the radiating splicing component.

The spliced illuminator is illustrated with reference to specific embodiment, it is described spliced to further understand The design of illuminator, referring to Fig. 1, spliced illuminator 10 includes：Cooling base 100, radiating splicing component 200, peace Arrangement 300 and LED component 400, cooling base 100, radiating splicing component 200 and the laminated structure of mounting assembly 300 are set, i.e., Radiating splicing component 200 is located at or is held between cooling base 100 and mounting assembly 300, and LED component 400 is arranged at peace On arrangement 300, LED component 400 is used to play illuminating effect, cooling base 100, radiating splicing component 200 and mounting assembly 300 are connected to become an overall structure, also, cooling base 100, radiating splicing component 200 and the shared of mounting assembly 300 The radiating load of the spliced illuminator, i.e., the heat that LED component 400 is produced in normal luminous passes through cooling base 100th, radiating splicing component 200 and mounting assembly 300 are radiated jointly, to ensure the normal work of the spliced illuminator Make performance.

Referring to Fig. 2, cooling base 100 offers multiple chutes 110, chute 110 is used for the radiating splicing group that is slidably installed Part 200, i.e. being slidably connected by radiate splicing component 200 and cooling base 100, to realize radiating splicing component 200 with dissipating Hot radical seat 100 is detachably connected.For example, each chute be arranged in parallel.

Referring to Fig. 2, radiating splicing component 200 includes multiple radiating splices 210, each radiating splice 210 First end correspondence be slideably positioned in described in one in chute 110, it is described radiating splice 210 include multiple spellings being detachably connected Socket part 211, it will be understood that the quantity of stitching section 211 is selected according to actual conditions, for example, the quantity of the stitching section is more It is few to be directly proportional to the size of the radiating load of the spliced illuminator, for example, respectively radiate a pair of splice and each chute 1 It should set, the first end correspondence of each radiating splice is slideably positioned in described in one in chute；So, when spliced illumination When light fixture needs to install additional lamp group and increase lamp group power, i.e., when integral heat sink demand becomes big, or spliced illuminator is needed When reducing lamp group and reducing lamp group power, i.e., integral heat sink demand becomes hour, that is, the radiating requirements of spliced illuminator During change, by adjusting the quantity of the stitching section 211 after each radiating splice 210 assembling, it can correspond to and adjust different dissipate Thermic load, to meet different radiating requirements, also, cooling base 100, radiating splicing component 200 and mounting assembly 300 are common The radiating load of the spliced illuminator is undertaken, so as to improve overall heat dispersion.

In one embodiment, each radiating splice order supports setting, in such manner, it is possible to so that each radiating splicing Contiguously even closer conduction heat transfer performance more preferably, beneficial to the transport and transmission of heat, and then improves heat dispersion between part；Again Such as, the stitching section includes splicing body and slide connecting part, and the splicing body offers sliding groove, and the slide connecting part is used to slide It is arranged in the sliding groove, so, in the two neighboring radiating splice, is slided by slide connecting part one of them described In the sliding groove for being arranged at another splicing body, so as to realize that the splicing that can dismantle of two stitching sections is grasped Make, similarly, multiple stitching sections are flexibly spliced by above-mentioned connecting method, to realize each described radiating splice In, neatly adjust the quantity of the stitching section；And for example, the bottom that the splicing body is located at the sliding groove opens up limited location Groove, the slide connecting part is provided with limiting section, and the limiting section is slideably positioned in the stopper slot；And for example, the stopper slot Width is more than the width of the sliding groove, in such manner, it is possible to make to connect more firm between each stitching section, is not susceptible to point From.

Referring to Fig. 1, mounting assembly 300 includes lamp plate 310 and multiple nut fasteners 320, the lamp plate 310 is arranged at On the radiating splicing component 200, each order of threaded fastener 320 wears to radiate described in the lamp plate 310 and one and spelled Second end of fitting 210, and each threaded fastener 320 respectively with described in the lamp plate 310 and one radiate splice 210 The second end be spirally connected, by each nut fastener 320, lamp plate 310 can be securely locked at radiating splicing component 200 On.Set for example, each threaded fastener is corresponded with each radiating splice.Lamp plate 310 is used to install LED component 400。

In one embodiment, the lamp plate has rectangular parallelepiped structure；And for example, each threaded fastener is arranged at intervals, and The distance between every two neighboring threaded fastener is equal；And for example, the threaded fastener be screw, screw rod or bolt, So, it is more beneficial for improving integrally-built fixing.

Referring to Fig. 1, LED component 400 includes multiple LED lamp beads 410, each LED lamp bead 410 is respectively arranged at described On one side of the lamp plate 310 away from the radiating splicing component 210, each LED lamp bead 410 is used to play illuminating effect.Example Such as, also referring to Fig. 3, each rectangular array of LED lamp bead 410 is arranged at the lamp plate away from the radiating splicing component One side on, so, beneficial to improve integral illumination effect.

Above-mentioned spliced illuminator 10 radiates splice 210 by setting multiple stitching sections 211 being detachably connected, when When spliced illuminator needs to install additional lamp group and increase lamp group power, i.e., when integral heat sink demand becomes big, or it is spliced When illuminator needs to reduce lamp group and reduce lamp group power, i.e., integral heat sink demand becomes hour, that is, spliced illuminator Radiating requirements change when, by adjust it is each radiating splice 210 assemble after stitching section 211 quantity, can correspond to adjust The different radiating load of section, to meet different radiating requirements.

It should be noted that in above-mentioned spliced illuminator, the cooling base undertakes main radiating task, i.e., The radiating load that the cooling base undertakes is maximum, therefore, in order to improve the cross-ventilation radiating effect of the cooling base, also It is used to take away the heat on cooling base using the air-flow of external world's flowing, to improve integral heat sink performance, in industry, tradition Cooling base would generally offer the heat emission hole or heat dissipation channel of multiple insertions on cooling base, extraneous air is from dissipating One end of hot hole or heat dissipation channel flow to heat emission hole or the heat dissipation channel other end, to play cross-ventilation radiating effect, enters And the integral heat sink performance of cooling base can be improved, open up heat emission hole or heat dissipation channel to realize to wandering however, using Still there are the following problems for the design of heat：Because heat emission hole or heat dissipation channel are located inside cooling base, extraneous dust holds Easily enter and be deposited on heat emission hole or heat dissipation channel in, cause cooling base laying dust problem occur.

In order to mitigate the laying dust problem in the cooling base, for example, in the spelling described in any embodiment of the present invention Connect in formula illuminator, the cooling base includes：Heat radiator body, dust device and air ducting；Wherein, the heat radiator body Undertake main radiating load, the dust device is used for when heated so that heat-dissipating cavity in the heat radiator body with outside Boundary is connected, and plays reinforcement air circulation degree, and to play heat loss through convection effect, the dust device is used to, when not being heated, use In separating the heat-dissipating cavity in the heat radiator body and extraneous connected relation, dust-proof effect is played, the air ducting is used for When heated so that the heat-dissipating cavity in the heat radiator body is in communication with the outside, and extraneous air-flow is preferably directed into institute State in the heat-dissipating cavity of heat radiator body, to strengthen heat loss through convection effect.The heat radiator body includes base, the first arc sticking part And the second arc sticking part, the first arc sticking part and the second arc sticking part are respectively arranged at the two of the base End, the base, which has, is provided with heat-dissipating cavity in hollow structure, the base, the first arc sticking part offers multiple First heat dissipation channel, the first end of each first heat dissipation channel is connected with the heat-dissipating cavity respectively, the second arc patch Conjunction portion offers multiple second heat dissipation channels, and the first end of each second heat dissipation channel is connected with the heat-dissipating cavity respectively, Each first heat dissipation channel corresponds setting of being alignd with each second heat dissipation channel, and the base is further opened with multiple lead Air port, each air guide hole is connected with the heat-dissipating cavity respectively；Wherein, each first heat dissipation channel and it is each described second dissipate The passage of heat is respectively used to enable the heat-dissipating cavity to be in communication with the outside, to realize heat loss through convection effect, each air guide hole point The heat-dissipating cavity Yong Yu not enable to be in communication with the outside, to realize heat loss through convection effect, and be additionally operable to play the external world Air-flow is preferably directed into the heat-dissipating cavity of the heat radiator body, to strengthen heat loss through convection effect.The dust device includes First hides dirt component and the second screening dirt component, and described first, which hides dirt component, includes the first fixed strip and the screening of multiple first memorial alloys Bent plate is covered, first fixed strip is arranged on the first arc sticking part, each first memorial alloy masking bent plate End is connected with first fixed strip respectively, and each first memorial alloy masking bent plate fits in first arc respectively On shape sticking part, each first memorial alloy masking bent plate is used for correspondence covers the first heat dissipation channel described in one second End, the first memorial alloy masking bent plate is for making the second end and the external world of first heat dissipation channel even when being thermally deformed Logical, described second, which hides dirt component, includes the second fixed strip and multiple second memorial alloys masking bent plate, and second fixed strip is set Be placed on the second arc sticking part, the end of each second memorial alloy masking bent plate respectively with second fixed strip Connect, and each second memorial alloy masking bent plate is fitted on the second arc sticking part respectively, each described second Memorial alloy masking bent plate is used for the second end that correspondence covers the second heat dissipation channel described in one, and the second memorial alloy masking is bent Plate is used to make the second end of second heat dissipation channel be in communication with the outside when being thermally deformed；Wherein, first memorial alloy hides Covering bent plate is used to play the effect for turn on first heat dissipation channel when being heated, and described the is covered for when not being heated, playing The effect of one heat dissipation channel, dirt effect is hidden to play, that is, has dust-proof and heat loss through convection effect concurrently；The second memorial alloy masking Bent plate is used to play the effect for turning on second heat dissipation channel when being heated, for when not being heated, playing masking described second The effect of heat dissipation channel, dirt effect is hidden to play, that is, has dust-proof and heat loss through convection effect concurrently, and first heat dissipation channel, The heat-dissipating cavity and second heat dissipation channel can also be connected, and realize overall comprehensively heat loss through convection effect.The wind-guiding Device includes mounting bar and multiple memorial alloy wind-guiding bent plates, and the mounting bar is arranged on the base, and each memory is closed The end of golden wind-guiding bent plate is connected with the mounting bar respectively, and each memorial alloy wind-guiding bent plate fits in the bottom respectively On seat, each memorial alloy wind-guiding bent plate is used for correspondence and covers air guide hole described in one, and the memorial alloy wind-guiding bent plate is used The air guide hole is set to be in communication with the outside when being thermally deformed, the one side of memorial alloy wind-guiding bent plate towards the base is set Wind-guiding face is equipped with, the memorial alloy wind-guiding bent plate is used to bend the wind-guiding face when being thermally deformed；Wherein, second note Recalling alloy masking bent plate is used to play the effect for turning on the air guide hole when being heated, for when not being heated, playing masking described The effect of air guide hole, dirt effect is hidden to play, that is, has dust-proof and heat loss through convection effect concurrently, and preferably can import air-flow In to the heat-dissipating cavity, and flowed out from first heat dissipation channel and second heat dissipation channel, enhance heat loss through convection journey Degree, the memorial alloy wind-guiding bent plate is used to bend the wind-guiding face when being thermally deformed, air-flow can along bending wind-guiding face It is fed in the heat-dissipating cavity, and is flowed out from first heat dissipation channel and second heat dissipation channel, enhances convection current Degree of heat radiation.

In order to mitigate the laying dust problem in the cooling base, for example, in the spelling described in any embodiment of the present invention Connect in formula illuminator, referring to Fig. 4, the cooling base 100 includes：Heat radiator body 700, dust device 800 and wind-guiding dress Put 900, the heat radiator body undertakes main radiating load, the dust device is used for when heated so that the radiating sheet Internal heat-dissipating cavity is in communication with the outside, and reinforcement air circulation degree is played, to play heat loss through convection effect, the dust device For when not being heated, for separating the heat-dissipating cavity in the heat radiator body and extraneous connected relation, playing dust-proof effect, The air ducting is used for when heated so that the heat-dissipating cavity in the heat radiator body is in communication with the outside, and by the gas in the external world Stream is preferably directed into the heat-dissipating cavity of the heat radiator body, to strengthen heat loss through convection effect, it is necessary to it is emphasized that institute Dust device and the air ducting are stated when heated, refers to each LED lamp bead work hair of the spliced illuminator The heat transfer that light time produces makes the dust device and the air ducting heated into cooling base, certainly, the screening dirt Device and the air ducting refer to that each LED lamp bead of the spliced illuminator stops being powered not when not being heated It is luminous.

In one embodiment, the heat radiator body includes base, the first arc sticking part and the second arc sticking part, described First arc sticking part and the second arc sticking part are respectively arranged at the two ends of the base, and the base has hollow knot Heat-dissipating cavity is provided with structure, the base, the first arc sticking part offers multiple first heat dissipation channels, each described The first end of one heat dissipation channel is connected with the heat-dissipating cavity respectively, and the second arc sticking part offers multiple second radiatings Passage, the first end of each second heat dissipation channel is connected with the heat-dissipating cavity respectively, and each first heat dissipation channel is one by one Corresponding setting of being alignd with each second heat dissipation channel, the base is further opened with multiple air guide holes, each air guide hole difference Connected with the heat-dissipating cavity, each first heat dissipation channel and each second heat dissipation channel are respectively used to make the heat dissipation cavity Body can be in communication with the outside, to realize heat loss through convection effect, each air guide hole be respectively used to enable the heat-dissipating cavity with External world's connection, to realize heat loss through convection effect, and be additionally operable to play by extraneous air-flow be preferably directed into the radiating this In the heat-dissipating cavity of body, to strengthen heat loss through convection effect.

In one embodiment, the dust device includes first and hides dirt component and the second screening dirt component, and described first hides dirt Component includes the first fixed strip and multiple first memorial alloys masking bent plate, and first fixed strip is arranged at first arc On sticking part, the end of each first memorial alloy masking bent plate is connected with first fixed strip respectively, and each described the One memorial alloy masking bent plate is fitted on the first arc sticking part respectively, each first memorial alloy masking bent plate The second end of the first heat dissipation channel described in one is covered for correspondence, when the first memorial alloy masking bent plate is used to be thermally deformed The second end of first heat dissipation channel is set to be in communication with the outside, described second, which hides dirt component, includes the second fixed strip and multiple second Memorial alloy covers bent plate, and second fixed strip is arranged on the second arc sticking part, each second memorial alloy The end of masking bent plate is connected with second fixed strip respectively, and each second memorial alloy masking bent plate is fitted in respectively On the second arc sticking part, it is logical that each second memorial alloy masking bent plate is used for the second radiating described in correspondence masking one Second end in road, second memorial alloy masking bent plate be used to making when being thermally deformed the second end of second heat dissipation channel with External world's connection, the first memorial alloy masking bent plate is used to play the effect for turning on first heat dissipation channel when being heated, and uses When not being heated, play a part of masking first heat dissipation channel, dirt effect is hidden to play, that is, have concurrently dust-proof and to wandering Thermal effect；The second memorial alloy masking bent plate is used to play the effect for turning on second heat dissipation channel when being heated, and is used for When not being heated, play a part of masking second heat dissipation channel, hide dirt effect to play, that is, have dust-proof and heat loss through convection concurrently Effect, and first heat dissipation channel, the heat-dissipating cavity and second heat dissipation channel can also connect, and realize overall complete Face heat loss through convection effect, it is necessary to it is emphasized that first memorial alloy masking bent plate and second memorial alloy Bent plate is covered when heated, refers to the heat biography produced when each LED lamp bead work of the spliced illuminator is luminous It is handed in the base of cooling base, the first arc sticking part and the second arc sticking part, and then makes described One memorial alloy covers bent plate and second memorial alloy masking bent plate is heated, certainly, and the first memorial alloy masking is bent Plate and second memorial alloy masking bent plate refer to each LED lamp bead of the spliced illuminator when not being heated Stop being powered and do not light.For example, each described one end of first memorial alloy masking bent plate away from first fixed strip is provided with First light reflecting board, for when first memorial alloy masking bent plate is heated and opened, playing light reflection effect, and then play Improve illuminating effect, and for example, each one end of second memorial alloy masking bent plate away from second fixed strip is provided with the Two light reflecting boards, change for when second memorial alloy masking bent plate is heated and opened, playing light reflection effect, and then playing Kind illuminating effect.

In one embodiment, the air ducting includes mounting bar and multiple memorial alloy wind-guiding bent plates, the mounting bar It is arranged on the base, the end of each memorial alloy wind-guiding bent plate is connected with the mounting bar respectively, and each note Recall alloy wind-guiding bent plate to fit in respectively on the base, each memorial alloy wind-guiding bent plate is used for correspondence and covered described in one Air guide hole, the memorial alloy wind-guiding bent plate is used to make the air guide hole be in communication with the outside when being thermally deformed, the memorial alloy The one side of wind-guiding bent plate towards the base is provided with wind-guiding face, and the memorial alloy wind-guiding bent plate is used to make when being thermally deformed The wind-guiding face bending, the second memorial alloy masking bent plate is used to play the effect for turning on the air guide hole when being heated, and uses When not being heated, play a part of the masking air guide hole, dirt effect is hidden to play, that is, have dust-proof and heat loss through convection effect concurrently Really, and preferably air-flow can be directed into the heat-dissipating cavity, and be dissipated from first heat dissipation channel and described second The passage of heat flows out, and enhances heat loss through convection degree, and the memorial alloy wind-guiding bent plate is used to make the wind-guiding face when being thermally deformed Bending, air-flow can be fed in the heat-dissipating cavity along the wind-guiding face of bending, and from first heat dissipation channel and described Second heat dissipation channel flows out, and enhances heat loss through convection degree.It is important to note that the first memorial alloy masking bent plate With second memorial alloy masking bent plate when heated, refer to that each LED lamp bead of the spliced illuminator works The heat transfer produced when luminous to the base, the first arc sticking part and second arc of cooling base is fitted In portion, and then the memorial alloy wind-guiding bent plate is set to be heated, certainly, the memorial alloy wind-guiding bent plate refers to when not being heated Each LED lamp bead of the spliced illuminator, which stops being powered, not to light.

The cooling base of above-mentioned spliced illuminator by setting heat radiator body, dust device and air ducting, The laying dust problem in the cooling base can be mitigated, and also have heat loss through convection effect concurrently.

It should be noted that the first memorial alloy masking bent plate, second memorial alloy cover bent plate and described The material of memorial alloy wind-guiding bent plate is the memorial alloy of existing material, is thermally deformed as long as guaranteeing realization, when So, those skilled in the art neatly can be selected according to present inventive concept in the material of existing memorial alloy.

Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, the scope of this specification record is all considered to be.

Embodiment described above only expresses the several embodiments of the present invention, and it describes more specific and detailed, but Therefore the limitation to the scope of the claims of the present invention can not be interpreted as.It should be pointed out that for the ordinary skill people of this area For member, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the present invention's Protection domain.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (10)

1. a kind of spliced illuminator, it is characterised in that including：

Cooling base, the cooling base offers multiple chutes；

Radiate splicing component, and the radiating splicing component includes multiple radiating splices, the first of each radiating splice End correspondence is slideably positioned in described in one in chute, and the radiating splice includes multiple stitching sections being detachably connected；

Mounting assembly, the mounting assembly includes lamp plate and multiple nut fasteners, and the lamp plate is arranged at the radiating splicing On component, each threaded fastener order wears the second end of the splice that radiated described in the lamp plate and one, and each institute Second end of the threaded fastener respectively with the splice that radiates described in the lamp plate and one is stated to be spirally connected；And

LED component, the LED component includes multiple LED lamp beads, and each LED lamp bead is respectively arranged at the lamp plate away from institute On the one side for stating radiating splicing component.

2. spliced illuminator according to claim 1, it is characterised in that each chute be arranged in parallel.

3. spliced illuminator according to claim 2, it is characterised in that each radiating splice order, which is supported, to be set Put.

4. spliced illuminator according to claim 1, it is characterised in that the stitching section includes splicing body and cunning Socket part, the splicing body offers sliding groove, and the slide connecting part is slideably positioned in the sliding groove.

5. spliced illuminator according to claim 3, it is characterised in that the splicing body is located at the sliding groove Bottom offer stopper slot, the slide connecting part is provided with limiting section, and the limiting section is slideably positioned in the stopper slot.

6. spliced illuminator according to claim 5, it is characterised in that the width of the stopper slot is more than the cunning The width of access slot.

7. spliced illuminator according to claim 1, it is characterised in that the lamp plate has rectangular parallelepiped structure.

8. spliced illuminator according to claim 1, it is characterised in that each threaded fastener is arranged at intervals, And often the distance between two neighboring described threaded fastener is equal.

9. spliced illuminator according to claim 8, it is characterised in that the threaded fastener is screw, screw rod Or bolt.

10. spliced illuminator according to claim 1, it is characterised in that each LED lamp bead rectangular array is set It is placed on one side of the lamp plate away from the radiating splicing component.