CN210921086U - LED radar response integration frame lamp - Google Patents

Abstract

The utility model discloses a LED radar induction integrated bracket lamp, which comprises a first end cover, a radar induction power supply, a diffusion PC cover, a heat dissipation aluminum groove, an LED light source module and a second end cover; the heat dissipation aluminum groove is connected with the LED light source module and the diffusion PC cover, and two ends of the heat dissipation aluminum groove after being connected with the diffusion PC cover are connected with the first end cover and the second end cover; first end cover is long end cover and its other end is connected with and connects the connector closing cap, is equipped with the parallel power PCB spacing groove in the first end cover, and radar induction power supply fixes in power PCB spacing groove, and radar induction power supply responds to towards light irradiation direction, and radar induction power supply is equipped with the antenna, and the antenna is winding via hole setting all around on radar induction power supply. The utility model has the advantages that: the radar induction power supply is arranged in the long first end cover, and the power supply PCB limiting groove of the first end cover fixes the radar induction power supply in parallel, so that the radar induction power supply is perpendicular to the central line of the lamp, and an ideal induction position is achieved.

Description

LED radar response integration frame lamp

Technical Field

The utility model relates to a LED light illumination technical field, especially a LED radar response integration frame lamp.

Background

The LED lamp is characterized by high efficiency, energy conservation, long service life, no ultraviolet ray and infrared ray in light, environmental protection and the like, gradually replaces the traditional lighting lamps such as halogen lamps and incandescent lamps, and becomes the lighting lamp which is most frequently used in daily life. In the existing LED lamp, a radar sensing method is often adopted to control the switch of the LED lamp, and when people pass by, the radar sensing power supply senses the existence of people and then energizes and illuminates the LED lamp. The existing radar induction power supply is generally placed in a heat dissipation aluminum groove, the heat productivity of the radar induction power supply is not high, and when the heat dissipation aluminum groove dissipates heat for an LED lamp, the temperature is often higher than that of the radar induction power supply, so that the temperature of the radar induction power supply is higher, and the failure rate is increased. Therefore, further optimization of the LED lamp is required to improve the service life of the radar induction power supply.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is not enough to above-mentioned prior art, a LED radar response integration frame lamp is provided.

In order to solve the technical problem, the utility model discloses the technical scheme who takes is: an LED radar induction integrated bracket lamp comprises a first end cover, a radar induction power supply, a diffusion PC cover, a heat dissipation aluminum groove, an LED light source module and a second end cover; the heat dissipation aluminum groove is provided with a light source clamping groove and a diffusion cover clamping groove, the LED light source module is arranged in the light source clamping groove, the diffusion PC cover is connected with the heat dissipation aluminum groove through the diffusion cover clamping groove, and the two connected ends of the heat dissipation aluminum groove and the diffusion PC cover are respectively connected and installed with a first end cover and a second end cover; the first end cover is long end cover, and the other end of first end cover is connected with connects the connector closing cap, is equipped with power PCB spacing groove in the first end cover, power PCB spacing groove parallel arrangement, and radar induction power arranges first end cover in and fixes in power PCB spacing groove in, makes radar induction power respond to towards the light irradiation direction, and radar induction power is equipped with the antenna, and the antenna is winding via hole setting all around on radar induction power.

According to the technical scheme, the connector sealing cover is provided with a rebound buckle, a circular sunken groove hole and a 3PIN interface, the rebound buckle is arranged at the bottom end of the connector sealing cover, the circular sunken groove hole is formed in the upper end of the side face of the connector sealing cover, the 3PIN interface is connected with a plug cord, and the 3PIN interface is provided with a Y-shaped isolation rib position to separate the three interfaces.

According to the technical scheme, one end, connected with the connector sealing cover, of the first end cover is provided with a guide resilience buckle hole, a waist-shaped lock hole platform and a lip edge, the guide resilience buckle hole is matched with the resilience buckle, the waist-shaped lock hole platform is connected and fixed with the circular sunken groove hole through a screw, and the lip edge is matched with the shell edge of the connector sealing cover.

In the technical scheme, the heat dissipation aluminum groove comprises a hasp, a self-tapping screw and an expansion plug, wherein the expansion plug is plugged into a wall body, the hasp is locked into the expansion plug through the self-tapping screw, a hasp clamping protrusion is further arranged on the heat dissipation aluminum groove, and the heat dissipation aluminum groove is limited in the hasp through the hasp clamping protrusion to be mounted on the wall body.

In the technical scheme, the induction distance of the radar induction power supply is 5-8 meters.

In the technical scheme, the second end cover is a short end cover.

In the technical scheme, the second end cover is a long end cover, one end of the second end cover is connected with the heat dissipation aluminum groove and the diffusion PC cover, and the other end of the second end cover is connected with the connector sealing cover.

In the technical scheme, two LED radar induction integrated bracket lamps are connected in series through a lamp cross-over connector, and the lamp cross-over connector is connected with two connector sealing covers.

The utility model has the advantages that: the radar induction power supply is arranged in the long first end cover, and the power supply PCB limiting groove of the first end cover fixes the radar induction power supply in parallel, so that the radar induction power supply is perpendicular to the central line of the lamp, and an ideal induction position is achieved.

Drawings

Fig. 1 is a schematic sectional structure of the present invention.

Fig. 2 is an exploded schematic view of the present invention.

Fig. 3 is an enlarged schematic view of a in fig. 2.

Fig. 4 is an enlarged structural diagram of B in fig. 2.

Fig. 5 is an enlarged schematic view of C in fig. 2.

Fig. 6 is an enlarged schematic view of D in fig. 2.

Fig. 7 is a schematic diagram of the series connection mode of the present invention.

Fig. 8 is a schematic view of the work induction of the present invention.

In the drawings, 1-plug cord; 2-capping screws; 3-connector cover; 31-resilient buckle; a 32-3PIN interface; 33-circular sink-slot hole; 34-Y-shaped isolation rib positions; 4-a ground line; 5-radar induction power supply; 51-an antenna; 6-first end cap; 61-kidney-shaped keyhole table; 62-lip; 63-power supply PCB limiting groove; 64-guide rebound buckle holes; 7-pulling nails; 8-LED light source module; 9-diffusion PC hood; 10-heat dissipation aluminum groove; 101-rivet holes; 102-raised grain; 103-light source card slot; 104-diffusion shield card slot; 105-snap tabs; 11-a second end cap; 111-card edge; a 112-U-shaped gap; 113-fillet edge; 12-self-tapping screws; 13-a hasp; 14-an expansion plug; 15-lamp penetration joint.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1-2, an LED radar sensing integrated bracket lamp adopts a radar microwave planar antenna transmitting and receiving circuit, and can automatically adjust the working state. The main structure of the LED radar induction integrated bracket lamp comprises a first end cover 6, a radar induction power supply 5, a diffusion PC cover 9, a heat dissipation aluminum groove 10, an LED light source module 8 and a second end cover 11.

With reference to fig. 3 and 4, the first end cap 6 is a long end cap that provides sufficient space for storing the radar sensing power supply 5, one end of the first end cap 6 is connected to the diffusion PC cover 9 and the heat dissipation aluminum groove 10, and the other end is connected to the connector cover 3. The connector cover 3 covers the first end cap 6 and connects the internal circuit of the lamp to the outside.

The bottom end of the connector sealing cover 3 is provided with a resilient buckle 31, when the connector sealing cover 3 is connected with the first end cover 6, the resilient buckle 31 connects the connector sealing cover 3 with the first end cover 6 in a limiting way, so that the connector sealing cover 3 is prevented from loosening and falling off; the connector sealing cover 3 is provided with a 3PIN interface 32, one end of the 3PIN interface 32, which is far away from the first end cover 6, is connected with a plug cord 1 and is connected and conducted with commercial power through a plug cord, and the 3PIN interface 32 is correspondingly connected with a live wire, a zero wire and a ground wire 4; a circular sunk slot hole 33 is also formed in the side face, away from the first end cover 6, of the connector sealing cover 3, and the circular sunk slot hole 33 is a mounting connecting hole of the sealing cover screw 2. The one end that is close to first end cover 6 of 3PIN interface 32 still is equipped with Y style of calligraphy and keeps apart muscle position 34, and three line holes of 3PIN interface 32 are separated to Y style of calligraphy isolation muscle position 34, avoid the pencil winding.

Be equipped with power PCB spacing groove 63 in the first end cap 6, power PCB spacing groove 63 parallel arrangement, radar induction power supply 5 is arranged in first end cap 6 and is fixed in power PCB spacing groove 63, is equipped with antenna 51 on radar induction power supply 5, and antenna 51 is at radar induction power supply 5's winding via hole setting all around, and radar induction power supply 5 responds to towards the light direction of shining. In order to adapt to the structure of the connector cover 3 during connection, the first end cover 6 and the end connected with the connector cover 3 are provided with a guide resilient buckling hole 64, a waist-shaped lockhole platform 61 and a lip 62. The guiding rebound buckle hole 64 is matched with the rebound buckle 31, and after the connector cover 3 enters the first end cover 6, the rebound buckle 31 is popped out and clamped in the guiding rebound buckle hole 64, so that the connector cover 3 is fixed. The waist-shaped lock hole platform 61 corresponds to the circular sunk groove hole 33, internal threads corresponding to the external threads of the cover screw 2 are arranged inside the waist-shaped lock hole platform 61, and the cover screw 2 is in threaded connection with the waist-shaped lock hole platform 61 through the circular sunk groove hole 33. The lip 62 is used to align the connector cover 3 when the connector cover 3 is installed.

Referring to fig. 5, a plurality of connecting slots including a light source slot 103, a diffusion cover slot 104, and a snap locking protrusion 105 are formed in the heat dissipation aluminum slot 10. Light source draw-in groove 103 is located the upper surface of heat dissipation aluminium groove 10, and light source draw-in groove 103 forms a flat rectangle notch, and LED light source module 8 is the banding, LED lamp pearl equidistance, arrange in proper order at the upper surface of LED light source module 8, and LED light source module 8 gets into and is spacing among the draw-in groove from light source draw-in groove 103, and the direction of illumination of LED lamp pearl is the direction that deviates from heat dissipation aluminium groove 10. Live wire and zero line that 3PIN interface 32 introduced pass through welded connection to the welding point that LED light source module 8 corresponds on, and light source draw-in groove 103 is close to first end cover 6 one end and is equipped with blind rivet hole 101, and the earth connection 4 that 3PIN interface 32 introduced is fixed on blind rivet hole 101 through a blind rivet 7, makes earth connection 4 and heat dissipation aluminium groove 10 communicate. The side and bottom edges of the heat dissipation aluminum groove 10 are further provided with raised grains 102 to effectively increase the contact area with air and improve the heat dissipation effect.

Diffusion cover draw-in groove 104 is located the both sides inclined plane of heat dissipation aluminium groove 10, the equal indent circular recess that forms in upper end on the both sides inclined plane of heat dissipation aluminium groove 10, the circular recess of both sides constitutes diffusion cover draw-in groove 104 jointly, diffusion PC cover 9 is circular-arc tubulose cover for the cross-section, the end of circular arc is equipped with the card suddenly structure that corresponds with diffusion cover draw-in groove 104, the card suddenly structure that will diffuse PC cover 9 corresponds with diffusion cover draw-in groove 104 and is connected to be connected diffusion PC cover 9 and heat dissipation aluminium groove 10. The hasp clamping protrusions 105 are located at the lower ends of the two side inclined planes of the heat dissipation aluminum groove 10, and the lower ends of the two side inclined planes protrude outwards to form the hasp clamping protrusions 105. Hasp 13 is equipped with hasp draw-in groove and screw hole, and hasp card process 105 corresponds with the draw-in groove that is equipped with on hasp 13, and hasp 13 accessible hasp card process 105 is spacing in heat dissipation aluminium groove 10. The hasp 13 is combined with the expansion plug 14 and the self-tapping screw 12 to fix the whole lamp, the expansion plug 14 is plugged into the opening of the wall body, the self-tapping screw 12 is connected with the expansion plug 14 through the screw hole, the hasp 13 is fixed between the self-tapping screw 12 and the expansion plug 14 to complete the installation of the hasp 13 on the wall body, and then the main body part of the lamp is connected with the heat dissipation aluminum groove 10 through the hasp 13 to realize the installation.

Referring to fig. 6, the other ends of the heat dissipating aluminum tank 10 and the diffusion PC cover 9 are connected to a second end cap 11. In the monolithic LED radar response integration support lamp, second end cover 11 is short end cover, and second end cover 11 mainly used carries out the closing cap with the end of lamp body. The second end cap 11 is provided with a clamping edge 111, a U-shaped notch 112 and a round corner edge 113. The clamping edge 111 is matched with the shape structure of the heat dissipation aluminum groove 10, the U-shaped notch 112 is in limit connection with the heat dissipation aluminum groove 10, and the round corner edge 113 is matched with the shape structure of the diffusion PC cover 9.

The connection state between two single LED radar induction integrated bracket lamps is shown in fig. 7. To realize the connection of two LED radar response integration support lamps, second end cover 11 needs to be changed into the long end cover the same with first end cover 6, and heat dissipation aluminium groove 10 and diffusion PC cover 9 are connected to the one end of second end cover 11, and the other end is connected with and inserts connector closing cap 3. The connector cover 3 on the second end cover 11 is connected with the first end cover 6 of another LED radar induction integrated bracket lamp through a lamp penetrating joint 15. Live wire, zero line, earth connection 4 between two LED radar response integration frame lamps pass through lamps and lanterns and connect 15 and connect.

In fig. 8, the LED radar response integration support lamp passes through hasp 13, self tapping screw 12 and inflation stopper 14 are installed on wall body or smallpox, plug cord 1 inserts the commercial power for LED radar response integration support lamp, radar induction power supply 5 responds to towards the direction that light shines, radar induction power supply 5's inductive distance is at 5~8 meters, the induction zone is hemispherical, when someone or the object of removal in the induction zone, radar induction power supply 5 carries out the fluorescent tube illumination with the communication of LED light source module 8.

The above embodiments are merely illustrative and not restrictive, and all equivalent changes and modifications made by the methods described in the claims are intended to be included within the scope of the present invention.

Claims (8)

1. The utility model provides a LED radar response integration frame lamp which characterized in that: the radar detection device comprises a first end cover, a radar induction power supply, a diffusion PC cover, a heat dissipation aluminum groove, an LED light source module and a second end cover; the heat dissipation aluminum groove is provided with a light source clamping groove and a diffusion cover clamping groove, the LED light source module is arranged in the light source clamping groove, the diffusion PC cover is connected with the heat dissipation aluminum groove through the diffusion cover clamping groove, and the two connected ends of the heat dissipation aluminum groove and the diffusion PC cover are respectively connected and installed with a first end cover and a second end cover; the first end cover is long end cover, and the other end of first end cover is connected with connects the connector closing cap, is equipped with power PCB spacing groove in the first end cover, power PCB spacing groove parallel arrangement, and radar induction power arranges first end cover in and fixes in power PCB spacing groove in, makes radar induction power respond to towards the light irradiation direction, and radar induction power is equipped with the antenna, and the antenna is winding via hole setting all around on radar induction power.

2. The LED radar induction integrated bracket lamp of claim 1, wherein: connect the connector closing cap and be equipped with resilience knot, circular slotted hole and 3PIN interface of sinking, resilience knot is arranged in the bottom of connecting the connector closing cap, and circular slotted hole of sinking is located and is connected the upper end of connector closing cap side, and 3PIN interface connection plug cord, 3PIN interface are equipped with Y style of calligraphy and keep apart the muscle position and separate three interface.

3. The LED radar induction integrated bracket lamp of claim 2, wherein: one end of the first end cover connected with the connector sealing cover is provided with a guide rebound buckle hole, a waist-shaped lock hole platform and a lip edge, the guide rebound buckle hole is matched with the rebound buckle, the waist-shaped lock hole platform is connected and fixed with the circular sunken groove hole through a screw, and the lip edge is matched with the shell edge of the connector sealing cover.

4. The LED radar induction integrated bracket lamp of claim 1, wherein: the wall body is characterized by further comprising a hasp, a self-tapping screw and an expansion plug, wherein the expansion plug is plugged into the wall body, the hasp is locked into the expansion plug through the self-tapping screw, a hasp clamping protrusion is further arranged on the heat dissipation aluminum groove, and the heat dissipation aluminum groove is limited in the hasp through the hasp clamping protrusion to be mounted on the wall body.

5. The LED radar induction integrated bracket lamp of claim 1, wherein: the induction distance of the radar induction power supply is 5-8 meters.

6. An LED radar sensing integrated support lamp according to any one of claims 1 to 5, wherein: the second end cap is a short end cap.

7. An LED radar sensing integrated support lamp according to any one of claims 1 to 5, wherein: the second end cover is a long end cover, one end of the second end cover is connected with the heat dissipation aluminum groove and the diffusion PC cover, and the other end of the second end cover is connected with the connector sealing cover.

8. The LED radar induction integrated bracket lamp of claim 7, wherein: two LED radar response integration frame lamps are concatenated through lamps and lanterns cross-under, and lamps and lanterns cross-under connects two connector closing caps.

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