JP6539777B2 - LED lighting device - Google Patents

Description

The present invention relates to the field of lighting technology, in particular to LED lighting devices.

LED lamps are applied more and more widely due to features such as energy saving and environmental protection, high luminous efficiency, long life, etc., and there is a strong tendency to replace conventional incandescent lamps and fluorescent lamps.

LED lamps are often used in places such as roads, houses, factory sites, underground work, etc., and must have high protection levels because they must be equipped with features such as waterproof, dustproof, and leakage prevention. On the other hand, the protective effect of the existing LED lighting device is inferior, for example, as follows.

(1) The power supply assembly of the LED lamp is provided in a large space of the lamp housing, and when water vapor and dust enter into the lamp housing, the power supply assembly directly affects the power supply assembly and causes the power supply assembly to have a phenomenon such as leakage or short. At the same time, the insulation process between the power supply assembly and the lamp housing in the existing technology is less effective, and if the power supply assembly leaks, it is easy to conduct the current to the entire LED luminaire lamp housing, which not only has a safety risk. And even waste electrical energy.

(2) In the existing LED lamp, a common connection method between the lens and the lamp housing is a screw connection, and even when a sealing material is provided between the lens group and the lamp housing, the screw connection is adopted Sealing performance is poor. Specifically, when employing a screw connection, there is a difference in the tightening force when each screw in the screw set is tightened, and the deformation of the seal material does not match, and the seal material and the lens and the lamp housing are not matched. Small gaps are not uniform and water vapor can easily enter the cavity between the lens and the lamp housing from the large gap, which affects the luminous performance of the LED lamp between the lens and the lamp housing and the service life of the luminaire .

SUMMARY OF THE INVENTION In order to solve the problem that the protection performance of the LED lamp in the existing technology is inferior, the present invention provides an LED lighting device, and provides a light emitting assembly employing LED light and power for supplying the light emitting assembly. A power supply assembly and a lamp housing assembly for supporting the LED light emitting assembly and the power supply assembly, the lamp housing assembly being provided with a power supply attachment, the power supply assembly being provided within the power supply attachment and being within the power supply attachment Is filled with a filler containing a first colloid for sealing and insulation, and the entire power supply assembly is embedded in the filler containing the first colloid .

Preferably, the power supply mount is in the form of a groove, the power supply assembly is provided in the groove of the power supply mount, and the groove of the power supply mount is filled with a filler containing the first colloid .

Preferably, an insulation sheet is further provided between the power supply mounting portion and the filler containing the first colloid, and the insulation sheet is bonded to the inner wall of the power supply mounting portion.

Preferably, the light emitting assembly has an assembled PCB and a lens group, the assembled PCB has a PCB and at least one LED, the LEDs are welded to the PCB, and the PCB is fixedly connected to the lamp housing assembly Ru. The lens group is fixed to the lamp housing assembly, and a sealed first cavity is formed between the lens group and the lamp housing assembly, the assembly PCB is located in the first cavity, and the lens group is the LED Used for light distribution.

Preferably, the lens group has at least two hooks, and a hook hole is provided at a position corresponding to the hook in the lamp housing assembly, and the hook of the lens group is fastened to the hook hole of the lamp housing assembly.

Preferably, the light emitting assembly further includes a seal ring, and the lens group is provided with a first recessed groove for receiving the seal ring, and the lens group is formed by attaching the hook and the hook hole to the first recessed groove. Press firmly between the and the lamp housing assembly.

Preferably, the light emitting assembly further comprises a sealing material, the sealing material being applied to the lens group in close proximity to the outer periphery of the seal ring, the lens group comprising the sealing material and the lens group by fastening the hook and the hook hole. Bond it to the lamp housing.

Preferably, the lens group is provided with a second recessed groove for accommodating a sealing material, the second recessed groove is located on the outer periphery of the first recessed groove, and the sealing material is further applied in the second recessed groove.

Preferably, the lamp housing assembly further includes a lead for connecting the power supply assembly and the light emitting assembly, and the lamp housing assembly is further provided with a first lead hole, and the lead passes through the first lead hole and enters the first cavity, A lead wire cap for sealing the first lead wire hole is provided at the location of the first lead wire hole, and the lead wire hole is provided in the lead wire hole in communication with the first lead wire hole. , Through the second lead hole, through the lead cap, and filled with a filler containing the second colloid around the lead cap, with the filler containing the second colloid the lead and lead cap to the lamp housing assembly Fix it.

Preferably, the lamp housing assembly has a lamp housing body and a mounting top lid, and the power supply assembly and the light emitting assembly are respectively provided on both sides of the lamp housing body, and the mounting top lid is fixedly connected to the lamp housing body The mounting portion is located in a second space formed by the lamp housing body and the mounting top lid, and the mounting top lid is used to mount the LED lighting device.

Preferably, the PCB is fixedly connected to the lamp housing body by screws, and the PCB is provided with at least two mounting holes, and at least two projections on the other side of the lamp housing body opposite to the side provided with the PCB And the threaded holes in the protrusions corresponding to the mounting holes of the PCB are used for the fixed connection between the lamp housing and the PCB.

Preferably, the power supply assembly further comprises a photosensitive element provided in the power supply assembly, wherein a portion of the photosensitive element is not embedded in the filler comprising the first colloid . The LED lighting device further includes a light transmitting assembly, the light transmitting assembly includes a light transmitting cover and a gasket, and a portion of the photosensitive element not embedded in the filler including the first colloid is a position of the light transmitting cover. The light transmission cover is used to receive light rays transmitted from the light transmission cover, and the light transmission cover is fixedly connected to the light transmission hole provided in the mounting upper cover, and the gasket is formed by the light transmission cover and the light transmission It is located between the holes and is used to enhance the reliability and sealing performance of the connection between the light transmitting cover and the light transmitting holes.

Preferably, the mounting upper cover is provided with a mounting portion for mounting the LED lighting device at an angle. The lamp housing body is provided with a drainage hole, and the drainage hole is provided at a position close to the edge of the lamp housing body outside the power supply mounting portion in the second space .

Since the present invention adopts the above technical solutions, it has the following advantages and positive effects as compared to the existing technology.

(1) In the lighting apparatus provided by the present invention, the power supply assembly is mounted to the lamp housing assembly by the power supply mount, and the power supply assembly is embedded in the filler containing the first colloid in the power supply mount . Fillers that include colloids can seal the power supply assembly, provide heat transfer and insulation, and enhance the protective performance and heat dissipation of the power supply assembly.

(2) In the LED lighting device provided by the present invention, an insulating sheet is provided between the power supply mounting portion and the filler containing the first colloid, and transmits an electric current to the lamp housing when the power supply assembly leaks. This can prevent the risk of safety and waste of electrical energy.

(3) In the LED lighting device provided by the present invention, the lens group and the lamp housing are connected by hooks, and the lens group and the lamp housing are multiply sealed by the seal ring and the sealing material, The above-mentioned sealing protection structure can effectively enhance the protection performance of the LED lighting device.

(4) In the LED lighting device provided by the present invention, the assembled PCB is mounted on the lamp housing body, and a plurality of projections are provided on the other side of the lamp housing body opposite to the side on which the PCB is provided. The protrusions correspond to the mounting holes of the lamp housing body and the mounting holes of the PCB. The projections are used to ensure the mounting reliability between the PCB and the lamp housing body by increasing the depth of the mounting holes of the lamp housing body, appropriately reducing the thickness of the lamp housing body, the material It is advantageous to save The thickness of the lamp housing main body is reduced, which is advantageous for enhancing the heat dissipation performance of the lamp housing main body. Further, the projection can increase the area in which the lamp housing main body contacts air and can further enhance the heat dissipation performance of the lamp housing main body .

(5) In the LED lighting device provided by the present invention, by providing the light transmitting assembly and the photosensitive element, the LED lighting device can be automatically opened and closed under the control of the light beam, and the LED in a sufficient light beam condition It prevents starting the lighting device and has an excellent point of energy saving.

The foregoing and other features and advantages of the invention will be more clearly understood from the following detailed description taken in conjunction with the drawings. here,

1 is a three-dimensional schematic view 1 of an LED lighting device provided by the present invention. FIG. 2 is a three-dimensional schematic view 2 of the LED lighting device provided by the present invention. FIG. 1 is an exploded schematic view of an LED lighting device provided by the present invention. FIG. 2 is a structural schematic view of a lamp housing main body in the present invention. It is a top view of the lamp housing body in the present invention. It is AA sectional drawing of the lamp housing main body in FIG. It is BB sectional drawing of the lamp housing main body in FIG. FIG. 2 is a structural schematic view of a lens group in the present invention. FIG. 1 is a structural schematic view of the LED lighting device provided by the present invention connected to a hoop.

DESCRIPTION OF SYMBOLS 1-lamp housing main body 101-power supply mounting part 102-1st conductor hole 103-protrusion 104-drainage hole 105-hook hole 2-mounting upper lid 3-decorative lid 4-mounting plate 401-elongate mounting hole 402-mounting hole 5- Power source assembly 6-PCB 7-lens group 701-hook 702-first concave groove 703-second concave groove 8-insulating sheet 9-conductor cap 10-photosensitive element 11-translucent cover 12-gasket 13-cable bush 14- Seal ring 15-hoop

The invention will be explained in more detail in the following with reference to the drawing which shows an embodiment of the invention. However, the present invention may be embodied in many different forms and should not be construed as being limited to the embodiments presented herein. Rather, these examples are submitted in order to be fully complete, and to enable one skilled in the art to fully understand the scope of the present invention. In these drawings, the dimensions and relative dimensions of layers and regions may be expanded for clarity.

With reference to FIGS. 1-8, the present invention provides an LED lighting device and supports a light emitting assembly employing LED light, a power supply assembly 5 for supplying power to the light emitting assembly, and the LED light emitting assembly and the power supply assembly. A lamp housing assembly, wherein the lamp housing assembly is provided with a power supply mounting portion 101, the power supply assembly 5 is provided within the power supply mounting portion 101, and sealing and insulation are provided within the power supply mounting portion 101. The filler containing the first colloid is filled, and the entire power supply assembly is embedded in the filler containing the first colloid . The present invention effectively realizes sealing of the power supply assembly by providing the power supply assembly in the power supply mounting portion 101 and filling the power supply mounting portion 101 with the filler containing the first colloid, and Fillers containing colloids provide insulation and heat dissipation effects.

Here, the power source assembly 5 and the light emitting assembly are provided in the lamp housing assembly, and the specific structural form of the lamp housing assembly, the installation position of the power source assembly 5 and the light emitting assembly can be designed according to the specific situation. It is not limited here. In the present embodiment, the lamp housing assembly has a lamp housing body 1, and it will be described below by way of example that the power supply assembly 5 and the light emitting assembly are provided on opposite sides of the lamp housing body 1.

Referring to FIGS. 3 and 4, in the present embodiment, the power supply mounting portion 101 is provided on one side of the lamp housing main body 1, and the power supply mounting portion 101 is in the shape of a recessed groove. The power supply assembly 5 is mounted in the concave groove of the power supply mounting portion 101 by a method such as a screw, and the concave groove of the power supply mounting portion 101 is filled with the filler containing the first colloid . Embedded in a filler containing colloids of Here, the filler containing the first colloid may be filled in the groove, or may not be filled in the groove, and the entire power source assembly 5 is embedded in the filler containing the first colloid. You just have to guarantee. By providing the filler containing the first colloid, not only the sealing for the power supply assembly 5 is realized, but also the insulation of the power supply assembly 5 is realized, and the protection performance of the power supply is enhanced.

Here, the power supply mounting portion 101 may be manufactured integrally with the lamp housing main body 1 or may be assembled to the lamp housing main body after being manufactured alone, and is not limited here. The specific structure of the power supply mounting portion 101 is not limited to the groove shape, and in the other embodiments, the power supply mounting portion 101 may be a case-like structure or the like, and the power supply assembly 5 can be accommodated in the lamp housing main body 1 It is sufficient to guarantee that the space is formed, and is not limited here.

An insulation sheet 8 is further provided between the power supply mounting portion 101 and the filler containing the first colloid, and the insulation sheet 8 is mainly used for insulation between the power supply assembly 5 and the power supply mounting portion 101. And prevents the current from being transmitted to the lamp housing body 1 when the power supply assembly 5 leaks. The installation position and shape of the insulating sheet 8 are not limited, and it may be ensured that the insulating sheet 8 is provided to surround the power supply assembly 5.

In the present embodiment, preferably, the insulating sheet 8 is provided in the power supply mounting portion 101 and is bonded to the inner wall of the power supply mounting portion 101, and the insulating sheet 8 is preferably attached to the inner wall of the recessed groove of the power supply mounting portion 101 below. The provision will be further described by way of example. The insulating sheet 8 may be provided on all of the four inner walls of the recessed groove of the power supply mounting portion 101, and the insulating sheet 8 may be provided on the bottom of the recessed groove of the power supply mounting portion 101. Here, the specific shape of the insulating sheet 8 may be designed according to the shape of the inner wall of the concave groove of the power supply mounting portion 101 and may be attached to the entire inner wall. Further, the insulating sheet 8 may be manufactured integrally with the power supply mounting portion 101 or may be manufactured separately and then mounted integrally, and is not limited here.

In the present embodiment, the light emitting assembly is provided on the other side of the lamp housing body 1, and the light emitting assembly has an assembled PCB and a lens group 7.

See FIG. The assembly PCB comprises a PCB 6 and at least one LED, the LEDs being welded to the PCB 6 and the assembly PCB being fixed to the lamp housing body 1. The PCB 6 is closely attached to the lamp housing body 1 and the side of the lamp housing body 1 opposite to the side where the PCB 6 is provided is in direct contact with the external air, and the heat generated in the assembled PCB is the lamp housing body 1 It can be directly transmitted to the air through and has a good heat dissipation effect.

Please refer to FIGS. 3 and 4 again. The PCB 6 is provided with at least two first mounting holes, and a second mounting hole is provided at the position of the lamp housing main body 1 corresponding to the first mounting hole, where the first mounting hole and the second mounting hole Each is a through hole, and specifically, it may be a screw hole or a pin hole. At least two protrusions 103 are provided on the other side of the lamp housing main body 1 opposite to the side where the PCB 6 is provided, and the protrusions 103 correspond to the positions of the second mounting holes one by one, and are provided in the protrusions 103 And a third mounting hole communicating with the second mounting hole, wherein the third mounting hole may be a screw hole or a pin hole. Between the PCB and the lamp housing main body 1 are positioned and fixed via pins and screws (for example, two pins are provided on the diagonal of the rectangular PCB, and screws are provided on four corners of the rectangular PCB), Specifically, the screws and pins pass through the first mounting hole, the second mounting hole, and the third mounting hole in order to realize fixing or positioning. Here, the number of first mounting holes, the number of second mounting holes, and the number of protrusions installed may be set according to the situation and is not limited here. The present invention increases the depth of the second mounting hole in the lamp housing main body 1 by providing a plurality of projections 103, and guarantees the reliability of mounting between the PCB 6 and the lamp housing main body 1, and the lamp housing It is used to appropriately reduce the thickness of the main body 1 and save the material of the lamp housing. The thickness of the lamp housing main body 1 is reduced, which is advantageous for improving the heat dissipation effect of the lamp housing main body 1, and the projection 103 further increases the area where the lamp housing main body 1 contacts air, and further enhances the heat dissipation effect of the lamp housing main body 1. .

On the side of the lamp housing main body 1 where the projections 103 are provided, it is possible to further increase a plurality of projection structures in which the third mounting holes are not provided, and the shapes of the projection structures in which these screw holes and pin holes are not provided. May or may not be similar to the protrusion 103. A plurality of projection structures not provided with screw holes and pin holes can be regularly or irregularly arranged in the lamp housing body 1. The present invention achieves an aesthetic effect by adding a plurality of projection structures in which a screw hole and a pin hole are not provided, and similarly, the housing main body 1 by the projection structure in which a screw hole and a pin hole are not provided. The contact area between the lamp housing and the air can be increased to further enhance the heat dissipation effect of the lamp housing body 1.

See Figures 3, 4 and 8. The lens group 7 is fixed to the lamp housing main body 1, and a sealed first cavity is formed between the lens group 7 and the lamp housing main body 1, and the assembled PCB is located in the first cavity. Is used for light distribution of the LED. Specifically, the lens group 7 is provided with at least two hooks 701, preferably, the hooks 701 are provided at the edge of the lens group 7. A hook hole 105 is provided at a position corresponding to the hook 701 in the lamp housing body 1, and the lens group 7 is fixed to the lamp housing body 1 by fastening between the hook 701 and the hook hole 105. The connection between the lamp housing body 1 and the lens group 7 is realized by the hook 701, and the hook 701 is fastened to the hook hole 105 by the design for the hook 701, and then between the lens group 7 and the lamp housing body 1 The distance of can be equal at each point. Of course, in other embodiments, the method of connection between the lens group 7 and the lamp housing body 1 is not limited to the method of hook connection, and may be connected by other methods such as screws, here Not limited

The light emitting assembly further includes a seal ring 14, and the lens group 7 is provided with a first recessed groove 702 for receiving the seal ring 14, and the lens group 7 has the seal ring 14 by fastening the hook 701 and the hook hole 105. Is firmly pressed between the first recessed groove 702 and the lamp housing main body 1, and a seal ring 14 realizes sealing between the lens group 7 and the lamp housing main body 1 to realize sealing of the first cavity. First, the space between the lamp housing body 1 and the lens group 7 is sealed by the seal ring 14 and the seal ring 14 itself has elasticity, so when the lamp housing body 1 is fastened to the lens group 7, the seal ring 14 is firmly fixed. The seal ring 14 is uniformly deformed to realize sealing. Also, when the hooks 701 are attached to the hook holes 105 of the lamp housing main body 1, all the hooks 701 can be attached to the lens group 7 at the same time, and when the hooks 701 are attached to the lens group 7 back and forth Finally, the difference in deformation of the seal ring 14 prevents the seal from becoming ineffective or the sealing performance from deteriorating. Providing the first recessed groove 702 facilitates mounting and positioning of the seal ring 14, prevents the seal ring 14 from being moved by the lens group 7, and when the hook 701 is fastened to the hook hole 105, the seal ring The deformation in 14 becomes even, further enhancing the sealing performance.

The light emitting assembly may further include a sealing material, and the sealing material is applied to the lens group 7 in close proximity to the outer periphery of the seal ring 14, and the lens group 7 is a sealing material by fastening the hook 701 and the hook hole 105. Between the lens group 7 and the lamp housing main body 1. Specifically, the lens group 7 is provided with a second recessed groove 703 for accommodating a sealing material, the second recessed groove 703 is located on the outer periphery of the first recessed groove 702, and the sealing material is in the second recessed groove 703. It is further applied to The present invention further reinforces the seal between the lens group 7 and the lamp housing body 1 by increasing the sealing material. A sealing material is provided on the outside of the seal ring 14 to further enhance the sealing performance. Specifically, the sealing material is a liquid until it solidifies, flows around the seal ring 14 and can penetrate into a minute gap between the seal ring 14 and the lens 7 and the lamp housing body 1 and seal Further enhance the performance. In addition, the sealing material is more easily penetrated into the gap between the seal ring 14 and the lens group 7 and the lamp housing main body 1 by the pressing of the lens group 7, thereby further reinforcing the sealing effect. In addition, the sealing material is provided in the second recessed groove 703, and the provision of the second recessed groove 703 is mainly to facilitate application of the sealing material, to enhance the efficiency, and to reduce the rate of scrap.

The present invention realizes multiple sealing protection between the lamp housing body 1 and the lens group 7 by the hook connection, the seal ring 14 and the sealing material, and effectively enhances the sealing and protection performance of the LED lighting device.

As a matter of course, only the seal ring 14 may be separately provided and sealed between the lamp housing body 1 and the lens group 7. The lamp housing body and the lens group 7 may be sealed by providing only a sealing material alone. The seal ring and the sealing material may be simultaneously provided and sealed, in which case the sealing material may be provided by the second recessed groove 703, and the sealing material may be applied directly to the seal ring 14. The various sealing conditions between the lamp housing main body 1 and the lens group 7 described above may be selectively provided, and even if sealing between the lamp housing main body 1 and the lens group 7 is adopted by other methods. Well, here neither limits.

In the present embodiment, the power supply assembly 5 and the light emitting assembly are connected by a lead. Referring to FIGS. 3, 4, 5 and 6, the lamp housing body 1 is provided with a first lead hole 102, and the lead drawn out in the power supply assembly 5 is the first lead hole between the power supply assembly 5 and the power supply mount 101. After penetrating the filler containing one colloid, it passes through the first conductor hole 102 and is connected to the assembled PCB. A wire cap 9 for sealing the first wire hole 102 is further provided at a position of the first wire hole 102 so as to be sandwiched, and the wire cap 9 is provided with a second wire hole communicating with the first wire hole 102. The lead passes through the lead cap 9 through the second lead hole. The filler containing the second colloid is further filled around the lead cap 9, and the filler containing the second colloid is used to seal around the lead cap 9, whereby the second lead hole 102 is sealed. And seal the first cavity.

See also FIG. The lamp housing main body further includes a mounting upper lid 2, the mounting upper lid 2 is mounted to the lamp housing main body 1, and a second space is formed between the mounting upper lid 2 and the lamp housing main body 1. The power supply assemblies 5 are all provided in the second space.

The mounting upper cover 2 is further provided with a light transmitting assembly, the power supply assembly 5 is provided with the photosensitive element 10, and a part of the photosensitive element 10 extends from the filler containing the first colloid to face the light transmitting assembly. The external light beam passes through the light transmitting assembly and is projected onto the photosensitive element 10, and after the photosensitive element 10 is exposed to light, it controls the opening and closing of the LED lighting device. By providing the light transmitting assembly and the photosensitive element 10, the present invention enables the LED lighting device to be automatically opened and closed under the control of the light beam, and prevents the LED lighting device from being activated when the light beam is sufficient. It has an excellent point of energy saving.

Specifically, the light transmitting assembly has a light transmitting cover 11 and a gasket 12, and the mounting upper lid 2 is provided with a light transmitting hole, and the light transmitting cover 11 is fixed to the light transmitting hole by a method such as a screw thread. The light transmitting cover 11 faces the portion of the photosensitive element 10 extending from the filler containing the first colloid, and the light beam is transmitted through the light transmitting cover 11 and projected onto the photosensitive element 10. The gasket 12 is located between the light transmitting cover 11 and the light transmitting hole, and the gasket 12 is used to enhance the reliability and sealing performance of the connection between the light transmitting cover 11 and the light transmitting hole. Here, the gasket 12 may be made of a material such as silicone rubber and is not limited here.

The light transmitting cover 11 may be a transparent cap-like member as shown in FIG. 3, and a thread is provided on the side surface of the lower end thereof, and the light transmitting cover 11 is tightened in the light transmitting hole by the screw. As a matter of course, the specific structure of the light transmitting cover 11 is not limited to that shown in FIG. 3, and the specific structure of the light transmitting cover 11, that of the light transmitting cover 11 and the light transmitting hole The connection method between them is set according to the specific situation, and is not limited here.

In the present embodiment, the mounting upper lid 2 is further used to mount the LED lighting device, the mounting upper lid 2 is provided with the mounting portion, and the LED lighting device is inclined with respect to the horizontal plane via the mounting portion and the lamp It is mounted at a mounting target position such as a rod. Specifically, the mounting portion has two mounting plates 4, and the two mounting plates 4 are provided parallel to each other and perpendicularly to the outer surface of the upper lid 2. Each of the two mounting plates 4 is provided with an elongated mounting hole 401, and the elongated mounting hole 401 may be, for example, a rectangle, which is not limited here. The elongated mounting hole 401 is inclined to the plane in which the lamp housing body 1 is located, and the elongated mounting hole 401 is inclined to the side closer to the lamp rod or the mounting target position. As shown in FIG. 9, the mounting portion is connected to the lamp rod via the hoop 15, and one or more hoops 15 are wound around the lamp rod after passing through the elongated mounting holes of the two mounting plates 4. Fixing is realized, and since the elongated mounting hole 401 is inclined, the entire lamp of the LED lighting device is mounted to be inclined. In other embodiments, the structure of the mounting portion is not limited to the above description. Depending on the specific situation, for example, the mounting plate 4 is further provided with a mounting hole 402 corresponding to the inclination direction of the elongated mounting hole 401, and even if the LED lighting fixture is fixed to the wall by the mounting hole 402 Good.

In order to facilitate drainage of the lamp housing of the LED lighting device, according to the present invention, the lamp housing body 1 is further provided with a drainage hole 104. Specifically, the drainage hole 104 is provided at a position close to the side edge of the lamp housing main body 1 outside the power supply mounting portion 101 in the second space, and it goes without saying that the position of the drainage hole 104 is also specific Can be adjusted appropriately according to the situation and not limited here. The LED lighting device according to the present invention is mounted in an inclined manner and then provided with a drainage hole so that the water wetting that has penetrated into the interior of the lamp housing assembly is drained from the drainage hole 104 under the action of its own gravity, Effectively reduce damage caused by water.

See also FIGS. The lamp housing assembly further comprises a decorative lid 3, which is provided on the lamp housing body 1, and the decorative lid 3 and the mounting upper lid 2 are located on the same side of the lamp housing body 1. The decorative lid 3 is attached to the lamp housing main body 1 by a method such as a screw, and one side of the decorative lid 3 facing the mounting upper lid 2 can be fixedly connected to the mounting upper lid 2 by a method such as a screw The lamp housing body 1, the decorative lid 3 and the mounting upper lid 2 constitute a housing for the entire lamp of the LED lighting device. Here, the installation position of the decorative lid 3 corresponds to the installation position of the light emitting assembly, and a large opening is opened in the decorative lid 3 so that the entire decorative lid 3 has an annular structure. The opening position corresponds to the position of the assembled PCB, and the opening directly exposes the projection 103 of the lamp housing body 1 to the air, so that the lamp housing body 1 can easily dissipate heat. The present invention ensures the aesthetic effect of the LED lighting device by providing the decorative lid 3 and guarantees the heat radiation effect of the entire lamp by providing the opening. As a matter of course, the specific structural form of the decorative lid 3 is not limited to those shown in FIGS. 1, 2 and 3 and can be adjusted according to the specific situation.

In summary, the LED lighting device provided by the present invention is excellent in the sealing performance of the power source assembly and the light emitting assembly, has a good electrical leakage prevention effect, and has high protection performance of the entire lamp of the LED lighting device. As well as having excellent points such as a wide range of use and a long life, it also has the excellent point that the heat radiation effect of the entire lamp is good.

Those skilled in the art will appreciate that the present invention can be embodied in many other specific forms without departing from the spirit or scope of the invention. Although the embodiments of the present invention have been described, the present invention is not limited to these embodiments, and changes and modifications can be made by those skilled in the art within the spirit and scope of the present invention as defined in the claims. Understand what can be done.

Claims (8)

A light emitting assembly employing LED light,
A power supply assembly for supplying power to the light emitting assembly;
And a lamp housing assembly for supporting an LED light emitting assembly and a power supply assembly, comprising:
The lamp housing assembly is provided with a power supply mounting portion, the power supply assembly is provided in the power supply mounting portion, and the power supply mounting portion is filled with a filler containing a first colloid for sealing and insulation. The entire power supply assembly is embedded in the first colloid containing filler ,
The light emitting assembly comprises an assembled PCB and a lens group,
The assembled PCB comprises a PCB and at least one LED,
The LED is welded to the PCB,
The PCB is fixedly connected to the lamp housing assembly;
The lens group is fixed to the lamp housing assembly,
A sealed first cavity is formed between the lens group and the lamp housing assembly,
The assembly PCB is located in the first cavity,
The lens group is used for light distribution of the LED,
The lens group has at least two hooks,
Hook holes are provided in the lamp housing assembly at locations corresponding to the hooks,
The hooks of the lens group are fastened to the hook holes of the lamp housing assembly,
The light emitting assembly further comprises a seal ring,
The lens group is provided with a first concave groove for housing the seal ring,
The lens group is configured to firmly press the seal ring between the first recessed groove and the lamp housing assembly by fastening the hook and the hook hole.
The light emitting assembly further comprises a sealing material,
The sealing material is applied to the lens group closely to the outer periphery of the seal ring,
The lens group is bonded to the sealing material between the lens group and the lamp housing assembly by fastening the hook and the hook hole.
The lens group is provided with a second concave groove for containing the sealing material, and the second concave groove is located on the outer periphery of the first concave,
The sealing material is further applied in the second groove.
LED lighting device. The power supply mounting portion is in the form of a recessed groove, the power supply assembly is provided in the recessed groove of the power supply mounting portion, and the recessed groove of the power supply mounting portion is filled with a filler containing a first colloid. The LED lighting device according to claim 1, An insulation sheet is further provided between the power supply mounting portion and the filler containing the first colloid, and the insulation sheet is bonded to the inner wall of the power supply mounting portion. LED lighting device as described.
It further comprises a lead for connecting the power supply assembly and the light emitting assembly,
The lamp housing assembly is further provided with a first lead hole,
The wire passes through the first wire hole, enters the first cavity, and is connected to the assembled PCB;
A lead wire cap for sealing the first lead hole is provided at a location of the first lead hole,
The wire cap is provided with a second wire hole communicating with the first wire hole,
The wire passes through the wire cap through the second wire hole,
A filler containing a second colloid is filled around the lead cap,
The LED lighting device according to claim 1 , wherein the lead and the lead cap are fixed to the lamp housing assembly by a filler containing the second colloid . The lamp housing assembly has a lamp housing body and a mounting top lid,
The power supply assembly and the light emitting assembly are respectively provided on both sides of the lamp housing body.
The mounting upper cover is fixedly connected to the lamp housing body,
The power supply mounting portion is located in a second space formed by the lamp housing main body and the mounting upper lid.
The LED illumination device according to claim 1 , wherein the attachment upper lid is used to attach the LED illumination device. The PCB is fixedly connected to the lamp housing body by a screw;
The PCB is provided with at least two mounting holes,
At least two protrusions are provided on the side of the lamp housing body opposite to the side where the PCB is provided,
Said inside projection screw hole is provided corresponding to the mounting hole of the PCB, according to claim 5, wherein the lamp used for fixing connection between the housing body and the PCB, characterized in that LED lighting device. The power supply assembly further comprises a photosensitive element provided in the power supply assembly, wherein a portion of the photosensitive element is not buried in the first colloid-containing filler ,
The LED lighting device further comprises a light transmitting assembly, the light transmitting assembly having a light transmitting cover and a gasket,
The portion of the photosensitive element not embedded in the filler containing the first colloid corresponds to the position of the light transmitting cover, and is used to receive the light beam transmitted from the light transmitting cover,
The light transmitting cover is fixedly connected to a light transmitting hole provided in the mounting upper lid,
The gasket is located between the light transmitting cover and the light transmitting hole, and is used to enhance the reliability and sealing performance of the connection between the light transmitting cover and the light transmitting hole. The LED lighting device according to claim 5 . The mounting upper cover is provided with a mounting portion for mounting the LED lighting device at an angle to a horizontal surface ,
The lamp housing body is provided with a drainage hole,
The drainage holes, LED lighting device according to claim 5, wherein the second Ru provided at a position close to the edge of the outside of the lamp housing body of the power supply mounting unit in the space, it is characterized.

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