CN203823521U - Embedded led lamp - Google Patents

Abstract

The utility model is suitable for the technical field of illumination and provides an embedded LED lamp intended for resolving such problems in the prior art as poor heat-radiating performance and inconvenience of installation. The embedded LED lamp comprises a lamp body and a framework assembly installed at a holding object in an embedded mode. The lamp body comprises an installing support, a light source assembly, a heat-radiating assembly and a power supply assembly. The light source assembly comprises a circuit board, an LED light source and a ceiling lamp cover. The heat-radiating assembly comprises a heat-conducting member attached to the circuit board and a heat-radiating fin group fixedly installed on the heat-conducting member. The framework assembly comprises an embedded framework embedded on the holding object and an embedded pressing plate which is used in conjunction with the embedded framework for clamping the holding object. The embedded LED lamp has following beneficial effects: a lamp body is fixedly installed on the holding object by using the embedded pressing plate and the embedded framework for clamping the holding object, leading to convenient assembly and disassembly; and the circuit board and the LED light source are arranged in an accommodating groove of the heat-conducting member to rapidly conduct heat produced by the LED light source to the heat-radiating fin group via the heat-conducting member, contributing to full heat radiation.

Description

Flush type LED lamp

Technical field

The utility model belongs to lighting technical field, relates in particular to a kind of flush type LED lamp.

Background technology

The disclosed LED light fixture of existing market, especially flush type LED lamp, the maintenance of LED light fixture and replacing are very difficult, and radiator structure is unreasonable, like this, making should the long-life, the light fixture of high efficiency, energy-conserving and environment-protective, because the irrationality of structure and heat radiation is insufficient, cause LED lamp life and efficiency far below gross data, and then affect the environmental protection and energy saving of LED light fixture, more affected LED light fixture and be widely used.

Utility model content

The purpose of this utility model is to provide a kind of flush type LED lamp, is intended to solve in prior art in prior art heat dispersion poor and inconvenient problem is installed.

The utility model is to realize like this, a kind of flush type LED lamp, comprise lamp body and described lamp body is embedded to the frame assembly being installed on fixing thing, described lamp body comprises mounting bracket, is installed on light source assembly, radiating subassembly and power supply module on described mounting bracket, it is characterized in that: described light source assembly comprises wiring board, is arranged at the LED light source on described wiring board and covers at the exiting surface of described LED light source and is fixedly installed in the embedding panel on described mounting bracket; Described radiating subassembly is arranged between described mounting bracket and described light source assembly and comprises and fit in the heat-conducting piece of described wiring board and be fixedly installed in the radiating fin group on described heat-conducting piece, and described radiating fin group and described wiring board are arranged at relative two surfaces of described heat-conducting piece; Described frame assembly comprises and embedding on described fixing thing and for fixedly mounting the embedding framework of described lamp body and removably connecting to clamp the embedding pressing plate of described fixing thing with described embedding framework with described embedding framework.

Further, described frame assembly also comprises the fixed head that is vertically fixedly installed on described embedding framework and is positioned at the relative both sides of described lamp body, described fixed head is provided with the adjustment hole coordinating with described embedding pressing plate, and described embedding pressing plate comprises and is parallel to the holding parts of described embedding framework place plane and extends the connecting wall to be fixedly connected with described fixed head along described holding parts bending.

Further, described radiating fin group comprises some radiating fins of superimposed connection successively, and each described radiating fin is provided with through hole and/or convex closure.

Further, described radiating subassembly also comprises the first plug and the second plug that are fixedly installed in described heat-conducting piece two ends, and described the first plug, described the second plug and described heat-conducting piece form the accommodating cavity of accommodating described wiring board.

Further, described light source assembly also comprise the exiting surface that is arranged at described LED light source LGP, be sealedly attached to the sealing ring between described LGP and described heat-conducting piece and described LGP be fixedly installed in to the pressing part on described heat-conducting piece.

Further, described pressing part comprise the press strip being fixedly connected with described heat-conducting piece and be positioned at described press strip two ends and respectively with described the first plug and the bolted press box of described the second plug, described press box is fixedly connected with described mounting bracket.

Further, described heat-conducting piece comprises with described wiring board and just extends and form the fixed edge of described storage tank with described heat-conducting plate to the heat-conducting plate arranging and along the dual-side bending of described heat-conducting plate, and described fixed edge is connected with described press strip bolt.

Further, described mounting bracket is encircled described radiating fin group, and comprise be positioned at described radiating fin group top and the rack body of facing mutually with described heat-conducting piece, along described rack body two lateral bucklings extends and be positioned at the support arm at described radiating fin group two ends and along described support arm away from described rack body one side and the fixed part that deviates from described radiating fin group bending extension, described fixed part is connected with described press box bolt.

Further, described power supply module is fixedly installed on described rack body, and lays respectively at two apparent surfaces of described rack body with described radiating fin group.

The utility model with respect to the technique effect of prior art is: utilize frame assembly to be fixedly connected with described lamp body and be fixedly installed on described fixing thing so that described lamp body is fixedly installed on described fixing thing by described frame assembly, so that this flush type LED lamp is fixedly installed on described fixing thing, simple in structure, be convenient to installation and removal.Utilize described heat-conducting piece and the laminating of described wiring board that the heat producing to conduct rapidly described LED light source is set, and heat is conducted in described radiating fin group, by radiating fin group by dissipation of heat to surrounding air, so that heat radiation fully, thereby the service life of improving described flush type LED lamp.

Brief description of the drawings

Fig. 1 is the three-dimensional structure diagram of the flush type LED lamp that provides of the utility model;

Fig. 2 is the exploded view of flush type LED lamp in Fig. 1;

Fig. 3 is the partial enlarged drawing of III part in Fig. 2;

Fig. 4 is the three-dimensional structure diagram of mounting bracket in Fig. 1.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

Please refer to Fig. 1 to Fig. 4, the flush type LED lamp that the utility model embodiment provides comprises lamp body 1 and described lamp body 1 embedded to the frame assembly 2 being installed in fixing thing (not shown), and described lamp body 1 comprises mounting bracket 10, is installed on light source assembly 11, radiating subassembly 12 and power supply module 13 on described mounting bracket 10; Described light source assembly 11 comprises wiring board 110, is arranged at the LED light source (not shown) on described wiring board 110 and covers at the exiting surface of described LED light source and be fixedly installed in the embedding panel 111 on described mounting bracket 10; Described radiating subassembly 12 is arranged between described mounting bracket 10 and described light source assembly 11 and comprises and fit in the heat-conducting piece 120 of described wiring board 110 and be fixedly installed in the radiating fin group 122 on described heat-conducting piece 120, and described radiating fin group 122 and described wiring board 110 are arranged at relative two surfaces of described heat-conducting piece 120; Described frame assembly 2 comprises and embedding on described fixing thing and for fixedly mounting the embedding framework 20 of described lamp body 1 and removably connecting to clamp the embedding pressing plate 22 of described fixing thing with described embedding framework 20 with described embedding framework 20.Understandably, described fixing thing can be the object that ceiling, wall or other arbitrarily can mounted lamps.Utilize frame assembly 2 to be fixedly connected with described lamp body 1 and be fixedly installed on described fixing thing so that described lamp body 1 is fixedly installed on described fixing thing by described frame assembly 2, so that this flush type LED lamp is fixedly installed on described fixing thing, simple in structure, be convenient to installation and removal.Utilize described heat-conducting piece 120 and described wiring board 110 laminatings that the heat producing to conduct rapidly described LED light source is set, and heat is conducted in described radiating fin group 122, by radiating fin group 122 by dissipation of heat to surrounding air, so that heat radiation fully, thereby the service life of improving described flush type LED lamp.

When installation, described radiating fin group 122 is fixedly installed on described heat-conducting piece 120, described LED light source is welded on described wiring board 110 and by described wiring board 110 and is arranged in described storage tank 1200 to fit in described heat-conducting piece 120, described LED light source and described heat-conducting piece 120 lay respectively at two apparent surfaces of described wiring board 110, described mounting bracket 10 is fixedly connected with described embedding panel 111, so that described radiating subassembly 12, described wiring board 110 and described LED light source are arranged between described mounting bracket 10 and described embedding panel 111, thereby complete the installation of described lamp body 1.Mounted described lamp body 1 is fixedly installed on described embedding framework 20, specifically by described embedding panel 111 is connected with described embedding framework 20 bolts so that described lamp body 1 is fixedly installed on described embedding framework 20, described embedding framework 20 is embedded in described fixing thing, and described embedding pressing plate 22 is fixedly installed on described embedding framework 20 to clamp described fixing thing by described embedding framework 20 and described embedding pressing plate 22, so that the embedding of whole LED light fixture is fixedly installed on described fixing thing.

In this embodiment, described wiring board 110 is aluminium base, by direct wiring board 110 thermal contact conductance part 120 is conducted to rapidly in radiating fin group 122 by heat-conducting piece 120 with the heat that LED light source is sent, and by radiating fin group 122, heat is rejected heat in surrounding air and gone, and then reach the object that reduces this flush type LED lamp temperature.

In this embodiment, described LED light source also comprises the lens or the reflector (not shown) that are electrically connected at the LED lamp pearl (not shown) of described wiring board 110 and cover at described LED lamp pearl exiting surface, the combination of the combination of LED lamp pearl and lens or LED lamp pearl and reflector is referred to as to LED light source.

In this embodiment, described embedding panel 111 is provided with the light-passing board 1110 just right with described LED light source, transmits with the light that LED light source is sent, and realizes illuminating effect.Described embedding framework 20 is provided with the transmission region 200 relative with described light-passing board 1110, and described transmission region can be loophole or light-passing board, by person's transmission region 200 so that the light that LED light source sends transmit, to reach illuminating effect.

Preferably, described radiating fin group 122 is welded on described heat-conducting piece 120, is directly conducted in described radiating fin group 122 so that conduct through heat-conducting piece 120 heat, and is convenient to the conduction of heat, has accelerated radiating rate.

In this embodiment, described embedding framework 20 be arranged in parallel and embeds in perforate default on described fixing thing with described fixing thing, described embedding pressing plate 22 is arranged at described lamp body 1 both sides and jointly clamps described fixing thing with described embedding framework 20, so that described lamp body 1 is embedded and to be installed in described fixing thing.

Please refer to Fig. 1 and Fig. 2, further, described frame assembly 2 also comprises the fixed head 24 that is vertically fixedly installed on described embedding framework 20 and is positioned at described lamp body 1 relative both sides, described fixed head 24 is provided with the adjustment hole 240 coordinating with described embedding pressing plate 22, and described embedding pressing plate 22 comprises and is parallel to the holding parts 220 of described embedding framework 20 place planes and extends the connecting wall 222 to be fixedly connected with described fixed head 24 along described holding parts 220 bendings.Understandably, described fixed head 24 and described embedding framework 20 are by one-body molded and make, or described fixed head 24 is welded on described embedding framework 20, described fixed head 24 be arranged at described lamp body 1 both sides and perpendicular to described embedding framework 20 to coordinate with described embedding pressing plate 22.Described adjustment hole 240 is strip hole, described linking arm is connected to achieve a fixed connection with described adjustment hole 240 bolts, and can regulate the relative position between described embedding pressing plate 22 and described adjustment hole 240 according to the thickness of described fixing thing, thereby reach the object that embeds installation, simple in structure, easy accessibility.Preferably, described holding parts 220 and described connecting wall 222 are by one-body molded and make.

Please refer to Fig. 1 and Fig. 2, further, described radiating fin group 122 comprises some radiating fins 1220 of superimposed connection successively, and each described radiating fin 1220 is provided with through hole 1222 and/or convex closure 1225.Understandably, the equidistant interval of described radiating fin 1220 arranges, and each radiating fin 1220 adopts punch forming, the superimposed connection successively of each radiating fin 1220, can effectively strengthen the area of dissipation of radiating subassembly 12 by the structure of this radiating fin 1220, good heat dissipation effect, and when area of dissipation one timing of radiating subassembly 12, volume and the quality of the radiating subassembly 12 of the present embodiment are less, are conducive to optimize the overall structure of described flush type LED lamp.The described radiating fin 1220 that utilizes punch forming to form can be made into the thin slice that thickness is less, reduce the weight of radiating subassembly 12 and lamp body 1, and in the situation that heat-conducting piece 120 is measure-alike, can greatly increase the quantity of radiating fin 1220, the radiating efficiency of heat radiation assembly 12; In the situation that ensureing that radiating efficiency is identical, make the making material of host cavity still less, save material cost, more environmental protection and energy saving.

Please refer to Fig. 2, by multiple through holes 1222 are set on described radiating fin 1220, to increase thermal convection current, improve radiating efficiency; By multiple convex closures 1225 are set on described radiating fin 1220, to change air-flow direction, preferably, described convex closure 1225 is irregular arranging, particularly, when air stream is during through convex closure 1225 place, air is clashed into the center of 1220 of radiating fins by the convex closure 1225 on radiating fin 1220, make the state of air in a kind of turbulent flow, allow all air all have an opportunity to contact radiating fin 1220.Air is heated fully, makes same air quality after radiating fin 1220, take away more heat energy, reduces the temperature of radiating fin 1220, and then reaches the object that reduces described flush type LED lamp temperature.Described through hole 1222 and described convex closure 1225 can be arranged on radiating fin 1220 simultaneously, have not only increased cross-ventilation, and can change air-flow direction and form turbulent flow, improve radiating efficiency.

Please refer to Fig. 1 and Fig. 2, further, described radiating subassembly 12 also comprises the first plug 124 and the second plug 126 that are fixedly installed in described heat-conducting piece 120 two ends, and described the first plug 124, described the second plug 126 and described heat-conducting piece 120 form the accommodating cavity 128 of accommodating described wiring board 110.Understandably, described heat-conducting piece 120 has the storage tank 1200 (as shown in Figure 3) of accommodating described wiring board 110, described storage tank 1200 is roughly U-shaped, described the first plug 124 and described the second plug 126 are arranged at respectively the two ends of described heat-conducting piece 120, for the two-port of described storage tank 1200, and form described accommodating cavity 128 with described heat-conducting piece 120, so that described wiring board 110 and described LED light source are placed in described accommodating cavity 128, the heat of being convenient to LED light source is produced conducts on described radiating fin 1220 through heat-conducting piece 120 rapidly, also be convenient to realize that described wiring board 110 and described LED light source are airtight is arranged in described accommodating cavity 128.Certainly, described the first plug 124, described the second plug 126 also can be with described heat-conducting piece 120 by one-body molded and make, and form equally the accommodating cavity 128 of accommodating described wiring board 110 and described LED light source, can reach equally good radiating effect and obturation effect.

Please refer to Fig. 1 to Fig. 3, preferably, described light source assembly 11 also comprise the exiting surface that is arranged at described LED light source LGP 112, be sealedly attached to the sealing ring 114 between described LGP 112 and described heat-conducting piece 120 and described LGP 112 be fixedly installed in to the pressing part 116 on described heat-conducting piece 120.Understandably, described heat-conducting piece 120 is provided with the seal groove 1202 of accommodating described sealing ring 114, the opening of described seal groove 1202 is towards described LGP 112, by described sealing ring 114 is closely connected between described LGP 112 and described heat-conducting piece 120, described pressing part 116 is fixedly installed on described heat-conducting piece 120 between described LGP 112 and described embedding panel 111 and by described LGP 112, to form airtight described accommodating cavity 128 between described LGP 112 and described heat-conducting piece 120, like this, described wiring board 110 and described LED light source are sealed in this accommodating cavity 128, to guarantee the water resistance of described accommodating cavity 128, thereby ensure the service life of described wiring board 110 and described LED light source.Preferably, described sealing ring 114 is water-proof silica-gel circle, and described LGP 112 is waterproof safety glass.Utilize LGP 112 that safety glass makes so that described lamp body 1 can stand the impact of explosion gas, use so that lamp body 1 is applicable to the adverse circumstances such as outdoor environment and soda acid humidity.

Please refer to Fig. 2 and Fig. 3, preferably, described pressing part 116 comprise the press strip 118 being fixedly connected with described heat-conducting piece 120 and be positioned at described press strip 118 two ends and respectively with described the first plug 124 and the bolted press box 119 of described the second plug 126, described press box 119 is fixedly connected with described mounting bracket 10.Understandably, the dual-side of described LGP 112 is connected between described press strip 118 and described heat-conducting piece 120 and other dual-side is connected between described press box 119 and described the first plug 124 and described the second plug 126, particularly, described press box 119 is provided with the carrier 1190 of accepting described LGP 112, the surface at described carrier 1190 places has a little to sink with respect to described press box 119 and the connecting surface of mounting bracket 10, so that described LGP 112 is closely fixedly connected with described heat-conducting piece 120, ensure its sealing effectiveness.

Please refer to Fig. 2 and Fig. 3, more preferably, described heat-conducting piece 120 comprises with described wiring board 110 and just extends and form the fixed edge 1206 of described storage tank 1200 with described heat-conducting plate 1204 to the heat-conducting plate 1204 arranging and along the dual-side bending of described heat-conducting plate 1204, and described fixed edge 1206 is connected with described press strip 118 bolts.Understandably, described fixed edge 1206 forms described storage tank 1200 with described heat-conducting plate 1204, and described fixed edge 1206 is oppositely arranged with described press strip 118 and bolt is connected, so that described LGP 112 is arranged between described press strip 118 and described fixed edge 1206, and this fixed edge 1206 is provided with described seal groove 1202, described sealing ring 114 is arranged in described seal groove 1202 so that described heat-conducting piece 120 and described airtight connection of LGP 112, to play waterproof effect.Preferably, described press strip 118 and described press box 119, by one-body molded and make, can play fixation equally.

Please refer to Fig. 2 and Fig. 4, more preferably, described mounting bracket 10 is encircled described radiating fin group 122, and comprise the rack body 100 that is positioned at described radiating fin group 122 tops and face mutually with described heat-conducting piece 120, along 100 liang of lateral bucklings of described rack body extend and be positioned at the support arm 102 at described radiating fin group 122 two ends and along described support arm 102 away from described rack body 100 1 sides and deviate from the fixed part 104 that described radiating fin group 122 bendings are extended, described fixed part 104 is connected with described press box 119 bolts.Understandably, described mounting bracket 10 is "Ji" type, and described rack body 100, described support arm 102 and described fixed part 104 are by one-body molded and make.Described rack body 100 is positioned at described radiating fin group 122 tops and is set up in described radiating fin group 122 with described support arm 102, described fixed part 104 is fixedly installed on described press box 119, described support arm 102 is fixedly installed on described the first plug 124 and described the second plug 126, so that described mounting bracket 10 is fixedly connected with described light source assembly 11 with described radiating subassembly 12, particularly, utilize bolt to pass described support arm 102, described the first plug 124 or the second plug 126 are to fix on the fixed edge 1206 with described heat-conducting piece 120, thereby described mounting bracket 10 is fixedly connected with described radiating subassembly 12, utilize bolt to pass described press box 119 to be fixed on described fixed part 104, thereby described mounting bracket 10 is fixedly connected with described light source assembly 11.By described support arm 102 and described support bracket fastened cooperation so that described lamp body 1 is fixedly installed on described fixed support, easy for installation.

Please refer to Fig. 1 and Fig. 2, more preferably, described power supply module 13 is fixedly installed on described rack body 100, and lays respectively at two apparent surfaces of described rack body 100 with described radiating fin group 122.By power supply module 13 and described radiating fin group 122 being arranged to two apparent surfaces of described rack body 100, on the one hand can arrive compact conformation and optimize the structure of whole flush type LED lamp, the heat that can make on the other hand power supply module 13 send is easily distributed in surrounding air, reduce the temperature of whole flush type LED lamp, to improve the service life of described flush type LED lamp, be also convenient to change power supply module 13.

The foregoing is only preferred embodiment of the present utility model; not in order to limit the utility model; all any amendments of doing within spirit of the present utility model and principle, be equal to and replace and improvement etc., within all should being included in protection domain of the present utility model.

Claims (9)

1. a flush type LED lamp, comprise lamp body and described lamp body is embedded to the frame assembly being installed on fixing thing, described lamp body comprises mounting bracket, is installed on light source assembly, radiating subassembly and power supply module on described mounting bracket, it is characterized in that: described light source assembly comprises wiring board, is arranged at the LED light source on described wiring board and covers at the exiting surface of described LED light source and is fixedly installed in the embedding panel on described mounting bracket; Described radiating subassembly is arranged between described mounting bracket and described light source assembly and comprises and fit in the heat-conducting piece of described wiring board and be fixedly installed in the radiating fin group on described heat-conducting piece, and described radiating fin group and described wiring board are arranged at relative two surfaces of described heat-conducting piece; Described frame assembly comprises and embedding on described fixing thing and for fixedly mounting the embedding framework of described lamp body and removably connecting to clamp the embedding pressing plate of described fixing thing with described embedding framework with described embedding framework.

2. flush type LED lamp as claimed in claim 1, it is characterized in that: described frame assembly also comprises the fixed head that is vertically fixedly installed on described embedding framework and is positioned at the relative both sides of described lamp body, described fixed head is provided with the adjustment hole coordinating with described embedding pressing plate, and described embedding pressing plate comprises and is parallel to the holding parts of described embedding framework place plane and extends the connecting wall to be fixedly connected with described fixed head along described holding parts bending.

3. flush type LED lamp as claimed in claim 1, is characterized in that: described radiating fin group comprises some radiating fins of superimposed connection successively, and each described radiating fin is provided with through hole and/or convex closure.

4. the flush type LED lamp as described in any one in claims 1 to 3, it is characterized in that: described radiating subassembly also comprises the first plug and the second plug that are fixedly installed in described heat-conducting piece two ends, described the first plug, described the second plug and described heat-conducting piece form the accommodating cavity of accommodating described wiring board.

5. flush type LED lamp as claimed in claim 4, is characterized in that: described light source assembly also comprise the exiting surface that is arranged at described LED light source LGP, be sealedly attached to the sealing ring between described LGP and described heat-conducting piece and described LGP be fixedly installed in to the pressing part on described heat-conducting piece.

6. flush type LED lamp as claimed in claim 5, it is characterized in that: described pressing part comprise the press strip being fixedly connected with described heat-conducting piece and be positioned at described press strip two ends and respectively with described the first plug and the bolted press box of described the second plug, described press box is fixedly connected with described mounting bracket.

7. flush type LED lamp as claimed in claim 6, it is characterized in that: described heat-conducting piece comprises with described wiring board and just extend and form the fixed edge of described storage tank with described heat-conducting plate to the heat-conducting plate arranging and along the dual-side bending of described heat-conducting plate, described fixed edge is connected with described press strip bolt.

8. flush type LED lamp as claimed in claim 6, it is characterized in that: described mounting bracket is encircled described radiating fin group, and comprise be positioned at described radiating fin group top and the rack body of facing mutually with described heat-conducting piece, along described rack body two lateral bucklings extends and be positioned at the support arm at described radiating fin group two ends and along described support arm away from described rack body one side and the fixed part that deviates from described radiating fin group bending extension, described fixed part is connected with described press box bolt.

9. flush type LED lamp as claimed in claim 8, is characterized in that: described power supply module is fixedly installed on described rack body, and lays respectively at two apparent surfaces of described rack body with described radiating fin group.