CN201827840U - Radiating lamp holder - Google Patents

Abstract

The utility model discloses a radiating lamp holder which is used for an LED lighting lamp. The radiating lamp holder mainly comprises a lamp holder unit, a base unit, a heat conducting and transfer unit, and an elastic unit, wherein the base unit is combined with the bottom of the lamp holder unit; the heat conducting and transfer unit is limited between the base unit and the lamp holder unit and can move for a short distance; the elastic unit supplies power for the heat conducting and transfer unit, so that the heat conducting and transfer unit can reset to keep tight contact with a heat source after movement; a hollowed-out hole is formed in the center of the lamp holder unit, and a plurality of combination holes are formed on the top surface of the lamp holder unit; and a contact piece is formed at the top of the heat conducting and transfer unit and positioned in the hollowed-out hole. The utility model adopting the structure has the advantage that parts in the lighting lamp can be conveniently replaced after being damaged, so as to prolong the service life of the radiating lamp holder.

Description

The heat radiation lamp socket

Technical field

The utility model is a kind of heat radiation lamp socket, refers to that especially a kind of applying to the light emitting diode is the lighting of light source, possess thermal conductance shifting function, repeated use, with remove and install advantage easily.

Background technology

Light-emitting diode (LED) illuminating lamp is present popular product, mainly be to adopt a plurality of high brightness LEDs as light source, but when a plurality of high brightness LEDs fitted together, the quality of radiating effect then directly had influence on the service life of lighting.For heat conduction efficiency is promoted, the design of lighting at present, be that members such as circuit of LED substrate, heat conducting element, heat dissipation element reciprocally are closely linked, even engage fixing with adhesive agent, the heat that is produced when making light emitting diode shinny, be passed to heat dissipation element fast, reach better heat radiating effect.But among the aforementioned components, when light emitting diode damaged, this heat conducting element and heat dissipation element were normally good, but because each member can't separate, so whole lighting must be abandoned, also caused the waste of useful resources.

For this reason, the inventor thinks deeply a kind of heat radiation lamp socket of design, is with partial component independent separate in the lighting.When desire is done the lighting use, though must another group of collocation by the light source module that light emitting diode constituted, if when the light emitting diode failure situations of lighting takes place, then only must change light source module, all the other members then can continue use, reduce user's money expenditure.

Summary of the invention

Main purpose of the present utility model provides a kind of heat radiation lamp socket, cooperates one and assembles use by the light source module that light emitting diode constituted, have the thermal conductance shifting function, reusable, with remove and install advantage easily.When this light source module used in addition, this heat radiation lamp socket possessed good thermal conductance and moves effect, effectively continues the service life of light emitting diode in the light source module.

Secondary objective of the present utility model provides one the lighting of environmental protection again that saves money, the utility model changes lighting by heat radiation lamp socket and light source module into is constituted, when the light emitting diode in the lighting damages, need only change light source module gets final product, this heat radiation lamp socket then can repeat continuous use, reduce the amount of money that the consumer buys again by this, the maximum economic worth of this heat radiation lamp socket performance.

In order to achieve the above object, the utility model provides a kind of heat radiation lamp socket, includes:

One lamp socket unit, middle section are formed with a hollow hole, and end face has a plurality of combined holes;

One base unit is incorporated under the lamp socket unit, is formed with an accommodation space between this base unit and the lamp socket unit;

One thermal conductance is moved the unit, is restricted in this accommodation space, only still can do short-range up and down moving, and this thermal conductance is moved the unit and had a contact, and this contact is the hollow hole that is positioned at this lamp socket unit;

One provides this thermal conductance to move the unit can set back when being pressed down with the Flexible element of the urgent elastic force that contacts of thermal source, be arranged at this thermal conductance and move between unit and the base unit.

Above-mentioned heat radiation lamp socket, wherein, this contact is to be positioned at thermal conductance to move the unit tip position, and undersized is in this hollow hole, and when not using, the end face of this contact is the end face that protrudes in this lamp socket unit.

Above-mentioned heat radiation lamp socket, wherein, be hollow form in this pedestal, this base unit is made of a plurality of pillars, a shell block and a keeper, these a plurality of pillars are established the end face in this shell block, this keeper then is arranged at the middle section of shell block end face ringwise, for this Flexible element one end setting wherein.

Above-mentioned heat radiation lamp socket, wherein, the combined hole of this lamp socket unit is macropore and the continuous keyhole of aperture.

Above-mentioned heat radiation lamp socket, wherein, the combined hole number of this lamp socket unit is at least two, distribution lamp socket unit end face.

Above-mentioned heat radiation lamp socket, wherein, base unit has a plurality of pillars, and is incorporated into this lamp socket unit bottom surface with this pillar, then forms this accommodation space between these a plurality of pillars, and this accommodation space is to move the unit setting wherein for this thermal conductance.

Above-mentioned heat radiation lamp socket, wherein, outer wall was made of a plurality of cell walls and many group radiating fins around this thermal conductance was moved the unit, and the formed dented space of this cell wall is corresponding with the pillar position of this base unit, during assembling, this pillar is distributed among the formed space of this cell wall.

Above-mentioned heat radiation lamp socket wherein, has two electrode tip holders in this lamp socket unit, this electrode tip holder is the lower position that is positioned at two combined holes that should lamp socket unit, electrically connects and drives doing.

Above-mentioned heat radiation lamp socket wherein, is provided with circuit board or relevant control circuit in this base unit, and the electrode tip holder that is provided with in lead and the lamp socket module is connected.

Above-mentioned heat radiation lamp socket, wherein, this base unit bottom has a screwed union, and inside has line related and is connected with screwed union.

Moreover, a kind ofly design good heat radiation lamp socket, must possess two requirements: one, easy to assembly; Two, thermal conductance is moved effective.During this was novel, this lamp socket unit can provide light source module Fast Installation and dismounting, and among the process that installs and fixes, promptly finished the electric connection of light source module simultaneously and move the urgent of unit with this thermal conductance contacting.Wherein be to be responsible for providing this thermal conductance to move the active force that the unit contacts with the light source module compression type by this Flexible element, so work as this light source module in use, heat energy just can move the unit by thermal conductance and do heat conduction fast and heat radiation.

Following conjunction with figs. and component symbol are done more detailed description to embodiment of the present utility model, so that those skilled in the art can implement after studying this specification carefully according to this.

Description of drawings

Fig. 1 applies to the exploded view of lighting for the utility model;

Fig. 2 is the exploded view of the utility model heat radiation lamp socket;

Plane before during assembling when Fig. 3 is the utility model lighting;

Partial cutaway schematic when Fig. 4 is utilization the utility model lighting.

Fig. 5 is the plane of the another kind of embodiment of the utility model.

[main element symbol description]

1 lighting

2 light source modules

21 electrode pieces

22 metal substrates

3 heat radiation lamp sockets

4 lamp socket unit

41 hollow holes

42 combined holes

5 thermal conductances are moved the unit

51 contacts

52 cell walls

53 radiating fins

6 base units

The 6A base unit

61 pillars

62 shell blocks

63 keepers

64 power lines

65 screwed unions

7 Flexible elements

The specific embodiment

Exploded view when as shown in Figure 1, applying to lighting for the utility model.This lighting 1 is made of light source module 2 and heat radiation lamp socket 3.As light source, the bottom has two electrode pieces 21 with light emitting diode in these light source module 2 inside, and the bottom surface middle section is a metal substrate 22, allows metal substrate 22 end faces be the position with circuit board of light emitting diode.Heat radiation lamp socket 3 of the present utility model is to utilize this electrode piece 21 as electrically connecting with light source module 2 and the instrument of snap fit mutually.During assembling the electrode piece 21 of this light source module 2 is aimed at the relative position of this heat radiation lamp socket 3, rotated an angle again, two members just can combine tightly.The design of this heat radiation lamp socket 3 of the utility model is directly to contact with the thermal source (is metal substrate 22 at present embodiment) of this light source module 2 utilizing a thermal conductance to move unit 5, in order to thermal conductance is shifted out, and reuse, with remove and install more convenient.

Below do detailed explanation with regard to heat radiation lamp socket 3 of the present utility model, as shown in Figures 1 and 2, this heat radiation lamp socket 3 is to move unit 5, a base unit 6 and a Flexible element 7 by a lamp socket unit 4, a thermal conductance to be constituted.This lamp socket unit 4 provides with this light source module 2 and electrically connects and fix both relative positions.The middle section of this lamp socket unit 4 is formed with a hollow hole 41, and end face has a plurality of combined holes 42.This combined hole 42 is to be the keyhole that is linked to each other by macropore and aperture, and purpose when moving to aperture position through rotation, can be fixed the position of this electrode piece 21 after the electrode piece 21 when this light source module 2 is placed in the combined hole 42.This combined hole number is at least two these lamp socket unit 4 end faces that distribute.These lamp socket unit 4 inside have two electrode tip holder (not shown) and interlock circuit, and these two electrode tip holders lay respectively at the place, below of two these combined holes 42 of lamp socket unit 42 inside.The structure of this electrode tip holder must match with electrode piece 21, as the usefulness of electric connection.

This base unit 6 is and the bottom surface that is incorporated into this lamp socket unit 4.In the present embodiment, this base unit 6 is made of a plurality of pillars 61, a shell block 62 and a keeper 63.These a plurality of pillars 61 are established in the end face of this shell block 62, are formed with an accommodation space between these a plurality of pillars 61, and this accommodation space is to move unit 5 for this thermal conductance to be provided with wherein.Keeper 63 then is arranged at the middle section of shell block 62 end faces ringwise, for these Flexible element 7 one end settings wherein.These shell block 62 inside are hollow form, and the inner space then powers the element setting of gas phase pass wherein, and power line 64 direct outlets and external power source join.Be to utilize this pillar 61 to be locked in this lamp socket unit 4 bottom surfaces during assembling.Wherein have at least a pillar 61 to communicate in addition, make electric wire can extend to this lamp socket unit 4 inside, be connected with this electrode tip holder through these pillar 61 inside for hollow form and with shell block 62 inside.

This thermal conductance move unit 5 for hollow and but the untight metal shell in bottom surface, tip position is provided with an outstanding contact 51, these contact 51 shapes are corresponding with this hollow hole 41, size then is slightly less than hollow hole 41.When light source module 2 was not installed, the end face of this contact 51 was the end faces that protrude in this lamp socket unit 4.Outer wall was made of a plurality of cell walls 52 and many group radiating fins 53 around this thermal conductance was moved unit 5, and these cell wall 52 formed dented space then are corresponding with these pillar 61 positions, and this pillar 61 is to be distributed among these cell wall 52 formed spaces during assembling.This Flexible element 7 is a spring, mainly provide this thermal conductance move can set back after unit 5 is pressed down with the urgent elastic force that contacts of thermal source.During assembling, this Flexible element 7 is to be limited to this thermal conductance to move between 5 inside, unit and shell block 62 end faces.

As Fig. 1 and shown in Figure 3, during assembling, it is to be restricted between this lamp socket unit 4 and the base unit 6 that this thermal conductance is moved unit 5, only still can do short-range up and down moving.51 hollow holes 41 through this lamp socket unit 4 of this contact expose out.This Flexible element 7 is restricted to this thermal conductance and moves in the inner keeper 63 with base unit 6 in unit 5 and reach between shell block 62 end faces, and thermal conductance move provide when unit 5 is pressed down set back with the urgent elastic force that contacts of thermal source.Circuit in the electrode tip holder of these lamp socket unit 4 inside and the base unit 6 then is responsible for electrically connecting mutually and keep with light source module 2 normal operation after the assembling.

Shown in Fig. 3,4, for before the utility model heat radiation lamp socket 3 and light source module 2 assemblings and the schematic diagram after the assembling.This light source module 2 is aimed at the combined hole 42 at these lamp socket unit 4 tops earlier with electrode piece 21, both positions are promptly fixed in rotation slightly after inserting, simultaneously also fully electrode piece 21 and lamp socket 4 interior electrode tip holders electrically connect mutually.In addition in the process that is tightened, this metal substrate 22 will apply pressure to these contact 51 end faces, making this thermal conductance move unit 5 slightly descends, this moment, this Flexible element 7 also was compressed, the reaction force of this Flexible element 7 will make these contact 51 end faces and metal substrate 22, and both maintain the close type state of contact, and guaranteeing has good thermal conductivity between the two.Thus, when the light emitting diode in the light source module 2 is shinny, the heat that produced will be fast through metal substrate 22, be passed to contact 51 places that this thermal conductance is moved unit 5, contact with outside air by radiating fin 53 again, reach the purpose of heat radiation.When light source module 2 in use for some time, if when damaging, only this light source module 2 must be pulled down from lamp socket unit 4 places, this light source module 2 that more renews gets final product, this heat radiation lamp socket 3 then still can continue to use, and allows efficient resource continue to be utilized, and also can save the expenditure of money.

As shown in Figure 5, be the another kind of illustration of implementing of the present utility model.Most in the present embodiment structure is all same as the previously described embodiments, and difference is the electric connection structure of this base unit 6A.As shown in the figure, this base unit 6A bottom has a screwed union 65, and the shape of this screwed union 65 is the standard specifications that cooperate present lamp screw base seat E26.This base unit 6A inside has line related and is connected with this screwed union 65.Thus, the utility model can be installed on the screwed union seat that present most light fixture possesses, and enlarges the scope of application of product.

Comprehensive the above, the utility model is that design one heat radiation lamp socket combine with a light source module and forms a lighting, uses special combination, makes both all very convenient when assembling and dismantle.When assembling screwed, internal electrode was finished electric connection, and this thermal conductance is moved the unit and also closely contacted with light source module.Moreover utilize a Flexible element to keep urgent contact condition, and guarantee better heat radiating effect, can increase the service life of the light emitting diode in this light source module.When the light emitting diode in the lighting damages, need only change this light source module, reduce consumer's expenditure.

Though the utility model discloses as above with preferred embodiment; right its is not in order to limit the utility model; under the situation that does not deviate from the utility model spirit and essence thereof; those of ordinary skill in the art work as can make various corresponding changes and distortion according to the utility model, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the utility model.

Claims (10)

1. a heat radiation lamp socket is characterized in that, includes:

One lamp socket unit, middle section are formed with a hollow hole, and end face has a plurality of combined holes;

One base unit is incorporated under the lamp socket unit, is formed with an accommodation space between this base unit and the lamp socket unit;

One thermal conductance is moved the unit, is restricted in this accommodation space, only still can do short-range up and down moving, and this thermal conductance is moved the unit and had a contact, and this contact is the hollow hole that is positioned at this lamp socket unit;

One provides this thermal conductance to move the unit can set back when being pressed down with the Flexible element of the urgent elastic force that contacts of thermal source, be arranged at this thermal conductance and move between unit and the base unit.

2. heat radiation lamp socket as claimed in claim 1 is characterized in that, this contact is to be positioned at thermal conductance to move the unit tip position, and undersized is in this hollow hole, and when not using, the end face of this contact is the end face that protrudes in this lamp socket unit.

3. heat radiation lamp socket as claimed in claim 1, it is characterized in that, be hollow form in this pedestal, this base unit is made of a plurality of pillars, a shell block and a keeper, these a plurality of pillars are established the end face in this shell block, this keeper then is arranged at the middle section of shell block end face ringwise, for this Flexible element one end setting wherein.

4. heat radiation lamp socket as claimed in claim 1 is characterized in that, the combined hole of this lamp socket unit is macropore and the continuous keyhole of aperture.

5. heat radiation lamp socket as claimed in claim 1 is characterized in that, the combined hole number of this lamp socket unit is at least two, distribution lamp socket unit end face.

6. heat radiation lamp socket as claimed in claim 1 is characterized in that base unit has a plurality of pillars, and is incorporated into this lamp socket unit bottom surface with this pillar, then forms this accommodation space between these a plurality of pillars, and this accommodation space is to move the unit setting wherein for this thermal conductance.

7. heat radiation lamp socket as claimed in claim 1, it is characterized in that, outer wall was made of a plurality of cell walls and many group radiating fins around this thermal conductance was moved the unit, the formed dented space of this cell wall is corresponding with the pillar position of this base unit, during assembling, this pillar is distributed among the formed space of this cell wall.

8. heat radiation lamp socket as claimed in claim 1 is characterized in that, has two electrode tip holders in this lamp socket unit, and this electrode tip holder is the lower position that is positioned at two combined holes that should lamp socket unit, electrically connects and drives doing.

9. heat radiation lamp socket as claimed in claim 8 is characterized in that, is provided with circuit board or relevant control circuit in this base unit, and the electrode tip holder that is provided with in lead and the lamp socket module is connected.

10. heat radiation lamp socket as claimed in claim 1 is characterized in that, this base unit bottom has a screwed union, and inside has line related and is connected with screwed union.

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