CN206846434U - Fast embedded LED rack device - Google Patents

Abstract

The utility model provides a kind of fast embedded LED rack device, including：Radiation aluminium pedestal, LED light module, fin, two insulation strips, two conductive bars and two resilient inserts.The LED light module and fin are arranged on radiation aluminium pedestal, insulation strip combination conductive bar, and are arranged on radiation aluminium pedestal so that LED light module can be electrically connected with conductive bar；Wherein, two resilient inserts are provided with joint portion, and to be incorporated into the both ends of LED light module and fin, and the both ends of joint portion are extended with elastic arm and the second clamping part, and joint portion is separately connected with the pulling piece of an arc.When being interlocked by the second clamping part of two resilient inserts and the first clamping part of radiation aluminium pedestal, make two resilient inserts, LED light module and fin secure bond on radiation aluminium pedestal, reaching quick the effect of being embedded combination.

Description

Fast embedded LED rack device

Technical field

A kind of lamp stand device is the utility model is related to, espespecially one kind makes LED light module and fin can be with heat-radiating aluminum Seat separation, reach the fast embedded LED rack device of quick the effect of being embedded combination and fast quick-detach.

Background technology

The environmental consciousness of people is constantly lifted in recent years, international public plus carbon reduction with the exploitation of alternative energy The responsibility of the earth is about cherished with everyone, illuminator consequently also plays the key player of carbon reduction；At present in illuminating lamp In tool field, known most power saving has fluorescent tube, PL fluorescent tubes and electricity saving type bulb, and its power consumption is then to depend on using number Amount；Therefore, quantity more than one, its power consumption is just relative to be improved, so the stereotype and bottleneck of high power consumption can not be departed from；Just with fluorescent lamp For pipe, using 20W tetra-, its power consumption calculating method 20W × 4=80W in fact, by that analogy in power saving PL fluorescent tubes, with day Light bulb is identical；Secondly, for the electricity saving type bulb with PL fluorescent tubes and with stabilizer, though its power consumption will than traditional tube It is few, but service life with power consumption still can not compared with the light emitting diode of chip light emitting formula, along with foregoing all fluorescent tubes, Be it is made by glass, have explosion potentially danger, especially for installation, the processing of discarded object, recovery with transport etc., Belong to the article of high risk.

Therefore, for the light emitting diode of low power consumption, all limitations of current light fixture can be solved by already revealing out completely With bottleneck, especially modal change and customized ability, the great alternative with reforming strongly is pursued then for each side's industry Case.

It is because of luminous two with regard to described in presently relevant technology and document, light emitting diode is used as illuminating alternative solution Pole pipe has that high brightness, projection are remote, the good advantageous characteristic such as with low power consumption of optical activity in itself, is currently employed in lighting field, Really current environmental demand has been met with requiring；Wherein, most important is a little exactly high save electrically（Save the energy）It is and luminous It is easy that diode material obtains, and has the sharpest edges for reducing production cost, and also therefore two big advantages, exactly light emitting diode are transported In lighting field, so that huge business opportunity and inducement can be developed.

Light emitting diode application mode is with going into seriously at present, because light emitting diode need to be with direct current supply（DC）, so arranging Except under cell type direct current supply pattern, if with Alternating Current Power Supply pattern, need to just pass through conversion, this conversion must change alternating current , can be for giving light emitting diode or its module to use for direct current, this is general fundamental hand work and construction；But for For High Power LED, according to " heat " problem derived from " law of conservation of matter " luminescent products, it must just rely on Radiating module carries out high efficiency and heat radiation, otherwise will must influence tolerance level and the life-span of light emitting diode, and then light decay phenomenon occurs；Cause This, radiating module and the heat-radiating aluminum bar used, plate etc., when as the critical skill of the another item of light-emitting diode (LED) illuminating lamp Art.

With radiating module known today and the heat-radiating aluminum bar used or plate etc., its major function is only limited to purpose The single aspect of heat dissipation technology, it can not fuse in distribution and power supply supply-side, the particularly fortune in more several LED modules With, it is necessary to soldering connection will be imposed between LED module and LED module, the conducting of power supply can be carried out；Therefore, up to now, Light emitting diode does not still find feasible or preferable scheme of electric power in lighting engineering；Therefore, belonging to radiating mould The fields such as the luminous disome illuminator of block or heat-radiating aluminum bar or plate, then because of circuit board arrangement length, distribution and distribution structure Attribute, and along with concatenation it is in parallel after power supply attenuation problem, after the operational capability and the development that greatly limit illuminator Gesture, cause and derivative heavy problem.

Industry then generates outer-type, the electric wire step type of distribution and distribution structure to solve this problem of determining；This A little means will cause and along with equipped difficult, implementation cost raising and wiring complexity, so that risk factor is hidden in the hiding, it is real to need Have to be strengthened with breaking through；Therefore, how a kind of lamp stand device that can be quickly embedded combination and fast quick-detach is provided, is this practicality Where the problem of new main solution.

Utility model content

The utility model main purpose is to provide a kind of fast embedded LED rack device, including：One radiation aluminium pedestal, one LED light module, a fin, two insulation strips, two conductive bars and two resilient inserts.LED light module is in its bottom With reference to fin and it is arranged at radiation aluminium pedestal so that heat energy caused by LED light module can be conducted to fin and radiating Aluminium base, radiation aluminium pedestal combination insulation strip, and by insulation strip combination conductive bar so that LED light module can be with conductive bar electricity Property connection；Wherein, two resilient inserts are provided with joint portion, to respectively in connection with the both ends of LED light module and fin, and The both ends of joint portion are extended with elastic arm and the second clamping part, and joint portion is separately connected with the pulling piece of an arc, passes through drawing The pulling piece of dynamic elasticity inserts so that the second clamping part can be expanded to outside.

Wherein, the radiation aluminium pedestal is provided with two parallel corresponding first conduits between two first clamping parts, and A radiating part is provided between two first conduits, two first conduits are respectively equipped with one first conduit opening, the radiating Portion is provided with an at least contact surface, and a convection space is provided with inside the radiating part；Described two first conduit openings, the contact Face and two first clamping parts are respectively facing identical direction；The LED light module includes a circuit substrate, the circuit substrate Multiple LED luminescence components and at least two conducting strips are electrically connected with, the conducting strip is set toward the lower section extended spot of the circuit substrate There is an elastic tongue piece, and an outwardly convex portion is provided with the elastic tongue piece.

Wherein, fast embedded LED rack device includes a fin, and the fin is arranged at the radiation aluminium pedestal and the LED Between light emitting module, the one side of the fin is provided with the first heat transfer face and its another side is provided with the second heat transfer face, by this One heat transfer face is in contact with the bottom surface of the LED light module, by the second heat transfer face and the contact surface of the radiation aluminium pedestal It is in contact, and the both ends of the fin are combined with the joint portion of two resilient inserts.

Wherein, fast embedded LED rack device includes two insulation strips and two conductive bars, and two insulation strips are respectively arranged on In two first conduits of the radiation aluminium pedestal, the insulation strip is provided with a fluting, the fluting direction and the radiation aluminium pedestal First conduit opening direction is identical, and two conductive bars are arranged among two insulation strips respectively.

Wherein, the conducting strip is fixed in the circuit substrate by a latch fitting.

The beneficial effects of the utility model are：The luminous moulds of LED are incorporated into by the joint portion of two resilient inserts respectively The both ends of block and fin, then be interlocked by the second clamping part of two resilient inserts and the first clamping part of radiation aluminium pedestal, Make two resilient inserts, LED light module and fin can secure bond on radiation aluminium pedestal；Also, when resilient insert When pulling piece up pulls, then the second clamping part can be driven to expand outwardly, now the second clamping part of resilient insert can be with radiating First clamping part of aluminium base departs from, make two resilient inserts, LED light module and fin can with radiation aluminium base-separation, Reach quick the effect of being embedded combination and fast quick-detach.

Brief description of the drawings

Fig. 1：The constitutional diagram of fast embedded LED rack device of the present utility model；

Fig. 2：The exploded view of fast embedded LED rack device of the present utility model；

Fig. 3：The top view of fast embedded LED rack device of the present utility model；

Fig. 4：A-A cross sectional side views in Fig. 3 of the present utility model；

Fig. 5：One state embodiment schematic diagram of the resilient insert of fast embedded LED rack device of the present utility model.

Description of reference numerals

1 radiation aluminium pedestal

11 first conduits

111 first conduit openings

12 radiating parts

121 contact surfaces

122 convection spaces

13 first clamping parts

2 LED light modules

21 circuit substrates

22 LED luminescence components

23 conducting strips

231 elastic tongue pieces

232 convex portions

24 latch fittings

3 fin

31 first heat transfer faces

32 second heat transfer faces

4 insulation strips

41 flutings

5 conductive bars

6 resilient inserts

61 joint portions

62 elastic arms

63 second clamping parts

64 pull piece.

Embodiment

To enable your auditor to further appreciate that other features of the present utility model and advantage and the work(reached Effect, now accompanying drawing will be coordinated to describe features and advantages of the present utility model in detail, following embodiment, it is new to will be explained in this practicality The viewpoint of type, but it is non-anyways to limit category of the present utility model.

Refer to shown in Fig. 1 to Fig. 5, the utility model discloses a kind of fast embedded LED rack device, including a heat-radiating aluminum 1, one LED light module 2 of seat, the conductive bar 5 of insulation strip 4, two of a fin 3, two and two resilient inserts 6.

Radiation aluminium pedestal 1 is provided with two parallel corresponding first clamping parts 13 in surface thereof, in two the first buckles Two parallel corresponding first conduits 11 are provided between portion 13, and a radiating part 12 is provided between two the first conduits 11, and Two the first conduits 11 are respectively equipped with one first conduit opening 111, and radiating part 12 is provided with an at least contact surface 121, and The inside of radiating part 12 is provided with a convection space 122；Described two first conduit openings 111, contact surface 121 and two the first buckles Portion 13 is respectively facing identical direction, such as：Two the first conduit openings 111, contact surface 121 and two the first clamping parts 13 divide Not towards the top-direction of radiation aluminium pedestal 1.

LED light module 2 is bound on radiation aluminium pedestal 1, and it includes a circuit substrate 21；The circuit substrate 21 electrically connects Multiple conducting strips 23 of LED luminescence components 22 and at least two are connect, a positive terminal and a negative pole end are used as by two conducting strips 23, and Each conducting strip 23 can be fixed in circuit substrate 21 by a latch fitting 24, and the conducting strip 23 is toward the lower section of circuit substrate 21 Extended spot is provided with an elastic tongue piece 231, and an outwardly convex portion 232 is provided with elastic tongue piece 231, so that these are conductive The effect of piece 23 is flexible chimeric.

Fin 3 is arranged between radiation aluminium pedestal 1 and LED light module 2, and the one side of fin 3 is provided with the first heat and passed Guide face 31 and its another side are provided with the second heat transfer face 32, and the first heat transfer face 31 is in contact with the bottom surface of LED light module 2, Second heat transfer face 32 is in contact with the contact surface 121 of radiation aluminium pedestal 1.

Two insulation strips 4 are respectively arranged in two the first conduits 11 of radiation aluminium pedestal 1, and insulation strip 4 is provided with a fluting 41, the direction of fluting 41 of insulation strip 4 is identical with the direction of the first conduit opening 111 of radiation aluminium pedestal 1.

Two conductive bars 5 are arranged among two insulation strips 4 respectively, and a wherein conductive bar 5 is connectable to outside default The positive pole port of power supply, and wherein another conductive bar 5 is connectable to the negative pole port of outside default power supply.

Two resilient inserts 6, to be incorporated into the both ends of LED light module 2 and fin 3, and are embedded at heat-radiating aluminum On seat 1, described two resilient inserts 6 are respectively equipped with a joint portion 61, and joint portion 61 is to respectively in connection with LED light module 2 And the both ends of fin 3, and the both ends of joint portion 61 have extended laterally an elastic arm 62 respectively, and respectively in two elastic arms 62 End Longitudinal extending be provided with one second clamping part 63, the second clamping part 63 can be with the phase of the first clamping part 13 of radiation aluminium pedestal 1 Correspond to and be interlocked, and the opposite direction of two elastic arms 62 towards the second clamping part 63 is connected with the pulling piece 64 of an arc, makes When must pull the pulling piece 64 of resilient insert 6, the twoth clamping part 63 can be made to be expanded to outside（As shown in Figure 5）.

When LED light module 2, fin 3 and resilient insert 6 are combined with radiation aluminium pedestal 1, first by two resilient inserts 6 joint portion 61 is arranged the both ends for being incorporated into LED light module 2 and fin 3, then second by two resilient inserts 6 respectively Clamping part 63 can be interlocked with the first clamping part 13 of radiation aluminium pedestal 1, make two resilient inserts 6, LED light module 2 and dissipate Backing 3 can secure bond on radiation aluminium pedestal 1；Also, when LED light module 2, fin 3 and resilient insert 6 are intended to and are radiated When aluminium base 1 separates, by pulling the pulling piece 64 of resilient insert 6, two the second clamping parts 63 so as to driving resilient insert 6 Expand outwardly, now the moment of the second clamping part 63 of resilient insert 6 is to depart from the first clamping part 13 of radiation aluminium pedestal 1, is made Two resilient inserts 6, LED light module 2 and fin 3 can separate with radiation aluminium pedestal 1, you can reach it is quick be embedded combination and The effect of fast quick-detach.

It is worth noting that, when LED light module 2 is combined with radiation aluminium pedestal 1, two set by LED light module 2 Conducting strip 23 can be stretched into insulation strip 4 by the first conduit opening 111, fluting 41, by conducting strip 23 elastic tongue piece 231 with Conductive bar 5 is formed in electrical contact and turned on, and while reaching LED light module 2 and radiation aluminium pedestal 1 and quickly assemble, LED lights Module 2 forms the function of turn-on power with radiation aluminium pedestal 1, it is not necessary to implements distribution in addition and connects electric program；In addition, pass through bullet Property tongue piece 231 set by convex portion 232 be in contact with conductive bar 5, it is ensured that conducting strip 23 can with conductive bar 5 with stable elasticity it is chimeric and Conducting in electrical contact.

Also, when LED light module 2 is combined with radiation aluminium pedestal 1, the luminous moulds of LED are tightly attached at using fin 3 Between block 2 and radiation aluminium pedestal 1, by fin 3 can quickly by the thermal energy conduction of LED light module 2 to radiation aluminium pedestal 1, Radiated again by radiation aluminium pedestal 1, reach the advantage and benefit for having quick heat radiating concurrently.

Claims (5)

1. A kind of 1. fast embedded LED rack device, it is characterised in that including：

   One radiation aluminium pedestal, two parallel corresponding first clamping parts are provided with surface thereof；

   At least two resilient inserts, to be incorporated into the both ends of a LED light module and be embedded on the radiation aluminium pedestal, the bullet Property inserts is provided with a joint portion, and the joint portion is combined with the LED light module, and the both ends of the joint portion have extended laterally respectively One elastic arm, and have one second clamping part in the end Longitudinal extending of two elastic arms respectively, second clamping part with this One clamping part is corresponding and is interlocked, and the opposite direction of two elastic arms towards second clamping parts is connected with an arc Pull piece；

   The joint portion of two resilient inserts is incorporated into the both ends of the LED light module, when the second card of two resilient inserts When first clamping part of buckle and the radiation aluminium pedestal is interlocked, make two resilient insert secure bonds in the radiation aluminium pedestal On；When the pulling piece of two resilient inserts up pulls and drives second clamping part to expand outwardly, second clamping part Depart from first clamping part, make two resilient inserts and the radiation aluminium base-separation.
2. 2. fast embedded LED rack device as claimed in claim 1, it is characterised in that the radiation aluminium pedestal is at this two first Two parallel corresponding first conduits are provided between clamping part, and a radiating part is provided between two first conduits, this two Individual first conduit is respectively equipped with one first conduit opening, and the radiating part is provided with an at least contact surface, and is set inside the radiating part There is a convection space；Described two first conduit openings, the contact surface and two first clamping parts are respectively facing identical side To；The LED light module includes a circuit substrate, and the circuit substrate is electrically connected with multiple LED luminescence components and at least two Conducting strip, the conducting strip are provided with an elastic tongue piece toward the lower section extended spot of the circuit substrate, and the elastic tongue piece be provided with one to The convex portion of outer protrusion.
3. 3. fast embedded LED rack device as claimed in claim 2, it is characterised in that including a fin, the fin is set Between the radiation aluminium pedestal and the LED light module, the one side of the fin is provided with the first heat transfer face and its another side is set Have the second heat transfer face, be in contact by the first heat transfer face with the bottom surface of the LED light module, by the second heat transfer face with The contact surface of the radiation aluminium pedestal is in contact, and the both ends of the fin are combined with the joint portion of two resilient inserts.
4. 4. fast embedded LED rack device as claimed in claim 2, it is characterised in that including two insulation strips and two conductions Bar, two insulation strips are respectively arranged in two first conduits of the radiation aluminium pedestal, and the insulation strip is provided with a fluting, and this is opened Groove direction is identical with the first conduit opening direction of the radiation aluminium pedestal, and two conductive bars are arranged in two insulation strips respectively Among.
5. 5. fast embedded LED rack device as claimed in claim 2, it is characterised in that the conducting strip is fixed on this by a latch fitting In circuit substrate.