CN111828870A

CN111828870A - Waterproof LED lamp

Info

Publication number: CN111828870A
Application number: CN202010600045.8A
Authority: CN
Inventors: 赵宏
Original assignee: Guangzhou Guozhi Electromechanical Equipment Co ltd
Current assignee: Guangzhou Guozhi Electromechanical Equipment Co ltd
Priority date: 2020-06-29
Filing date: 2020-06-29
Publication date: 2020-10-27

Abstract

The invention discloses a waterproof LED lamp, which structurally comprises a spotlight panel, a fixed block, a rotating shaft, a connecting rod and an embedding shaft, wherein the spotlight panel is movably clamped and connected right above the embedding shaft, the right side end of the fixed block is provided with the rotating shaft through nested connection, the rotating shaft is positioned right above the spotlight panel, the lower side of the connecting rod is fixedly embedded and connected with the embedding shaft, when airflow flows, a movable baffle on a heat dissipation gap can be blown from outside to inside, then, the airflow forms a slowly flowing cyclone along the shape spirally surrounded by a threaded convex ring, the airflow is driven to be diffused through the other end, the heat flow can be reduced to be collected on the inner end surface of a luminous block, the phenomenon that the surface of an arc-shaped crystal plate forms a brownish block due to overhigh temperature is avoided, and the luminous block forms color change.

Description

Waterproof LED lamp

Technical Field

The invention belongs to the field of LED lamps, and particularly relates to a waterproof LED lamp.

Background

Waterproof LED lamp is an illumination equipment who uses on the road surface of parking oil, science and technology exhibition room, mainly accomplishes luminous with the color-changing body cooperation that forms through the noble gas preparation through the luminous electron in the equipment, forms a holistic LED lamp through the combination of the luminous crystal of large tracts of land LED afterwards.

Based on the above findings, the inventor has the following disadvantages that the conventional device usually uses light and thin plastic material to wrap and insert the conductive wire when the light emitting crystal plate is assembled in the groove type, and after the light emitting crystal plate is electrified, the conductive wire is mounted together in a large area

Because the central temperature rise is easy to occur to most of adjacent overlapped conducting wires at the bottom of the center of the light-emitting crystal plate, the temperature of the center is higher than the temperature of the periphery, and under the condition of using the LED for a long time, under continuous high-temperature baking, the surface of the LED lamp can form a brownish phenomenon, so that the light-emitting of the LED lamp forms large-area color change at the bottom of the LED plate along with the brownish phenomenon on the surface.

Therefore, a waterproof LED lamp is needed.

Disclosure of Invention

The LED lamp solves the problems that when the prior device in the prior art carries out groove type assembly on the LED crystal plate, the conducting wires are usually wrapped and embedded by light and thin plastic materials, the central temperature of the LED crystal plate which is arranged together in a large area after being electrified is higher than the surrounding temperature because most of the adjacent and overlapped conducting wires at the bottom of the center are easy to be heated in a centralized mode, and when the LED is used for a long time, the surfaces of the LED and the like can form a brownish phenomenon under continuous high-temperature baking, so that the light of the LED lamp can be transmitted along with the brownish color of the surfaces to form large-area color change at the bottom of the LED plate.

The invention relates to a waterproof LED lamp, which is achieved by the following specific technical means: the structure of the spotlight lamp comprises a spotlight lamp plate, a fixed block, a rotating shaft, a connecting rod and an embedding shaft, wherein the spotlight lamp plate is movably clamped and connected right above the embedding shaft; the spotlight panel includes that second connecting rod, lamp body, second inlay solid axle, the block is inlayed in the left and right sides of spotlight panel to the second connecting rod, the lamp body evenly distributed is at the medial surface of spotlight panel, second inlays solid axle and is located the lamp body under, and with inlay solid epaxial connection.

Wherein, the lamp body includes first inlay groove, light-emitting piece, mosaic block, conductor wire breach, the left and right sides at the light-emitting piece is installed to first inlay groove symmetry, the conductor wire breach is being connected through the electric welding to the light-emitting piece lower extreme, mosaic block symmetry is installed in the front and back end of light-emitting piece, the conductor wire breach is located mosaic block under, mosaic block's outline diameter keeps unanimous with first mosaic groove.

The luminous block comprises a heat dissipation mechanism, a dust cover, a heat conduction mechanism and a connecting port, the heat dissipation mechanism is embedded and installed under the dust cover, the dust cover is embedded and wrapped on the outer side face of the heat conduction mechanism and connected with the connecting port, the connecting port is embedded and fixedly installed right above the electric lead notch, and the appearance of the heat dissipation mechanism is designed to be the same as the outline of the upper end of the heat conduction mechanism.

The heat dissipation mechanism comprises an arc crystal plate, an embedded ring, a threaded convex ring and a heat dissipation notch, the arc crystal plate is installed right above the embedded ring through threaded clamping, the embedded ring is located right above the threaded convex ring, the threaded convex ring is evenly attached to the inner side end face of the heat dissipation mechanism, the heat dissipation notch is evenly and symmetrically installed on the outer wall of the heat dissipation mechanism and is connected with the threaded convex ring, and a rotatable plate-shaped block is arranged on the inner end face of the heat dissipation notch.

The lamp tube heat dissipation mechanism comprises heat dissipation patches, a tube body and copper sheets, wherein the heat dissipation patches are uniformly installed on the outer side end faces of the copper sheets, the tube body is embedded and clamped right above the dust cover, the copper sheets are wrapped and attached to the outer side end faces of the tube body, and the heat dissipation patches are four and symmetrically installed.

The radiating patch comprises a heat conducting plate, a radiating plate and radiating through holes, wherein the heat conducting plate is embedded and attached to the upper end surface of the radiating plate, the radiating plate is fixedly installed right above the radiating through holes, the radiating through holes are evenly distributed on the inner side end face of the radiating patch, and the radiating through holes are three and penetrate through the left end face and the right end face of the radiating patch.

Compared with the prior art, the invention has the following beneficial effects:

1. when the air current is through flowing, can outside-in blow mobilizable baffle on the heat dissipation breach, make the air current form the cyclone that slowly flows along the appearance that screw thread bulge loop spiral surrounded afterwards, drive the thermal current and pass through the other end department and distribute, can reduce the thermal current and collect the interior terminal surface at the light-emitting block, avoid it to lead to the arc crystal board surface to form the burnt brown piece because of the high temperature, make the light-emitting block form the colour change.

2. The heat flow outwards gives off through the heating panel, can effectually guarantee the constancy of temperature of pipe shaft, avoids taking place the problem that the high temperature caused equipment to damage, and can flow through the heat dissipation through-hole of evenly installing on the terminal surface in the heat dissipation paster at the in-process that the heat flow gives off, makes the heat flow and flows along the direction of heat dissipation through-hole, avoids the heat flow to collect around the pipe shaft, and makes pipe shaft temperature rise.

Drawings

Fig. 1 is a schematic view of the overall structure of a waterproof LED lamp according to the present invention.

Fig. 2 is a schematic structural diagram of a waterproof LED lamp spotlight panel according to the present invention.

Fig. 3 is a schematic structural diagram of a waterproof LED lamp body according to the present invention.

Fig. 4 is a schematic structural diagram of a waterproof LED lamp light-emitting block according to the present invention.

Fig. 5 is a schematic structural view of a waterproof heat dissipation mechanism for an LED lamp according to the present invention.

Fig. 6 is a schematic structural view of a waterproof heat dissipation mechanism for a LED lamp tube according to the present invention.

Fig. 7 is a schematic structural view of a waterproof heat dissipation patch for an LED lamp according to the present invention.

In the figure: the LED lamp comprises a spotlight panel-1, a fixed block-2, a rotating shaft-3, a connecting rod-4, an embedding shaft-5, a second connecting rod-11, a lamp body-12, a second embedding shaft-13, a first embedding groove-121, a light-emitting block-122, an embedding block-123, a conducting wire notch-124, a heat dissipation mechanism-2 a, a dust cover-2 b, a heat conduction mechanism-2 c, a connecting port-2 d, an arc crystal plate-2 a1, an embedding ring-2 a2, a threaded convex ring-2 a3, a heat dissipation notch-2 a4, a heat dissipation patch-2 c1, a tube body-2 c2, a copper sheet-2 c3, a heat conduction plate-1 a, a heat dissipation plate-1 b and a heat dissipation through hole-1 c.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 5:

the invention provides a waterproof LED lamp, which structurally comprises a spotlight panel 1, a fixed block 2, a rotating shaft 3, a connecting rod 4 and an embedded fixing shaft 5, wherein the spotlight panel 1 is movably clamped and connected right above the embedded fixing shaft 5, the rotating shaft 3 is installed at the right side end of the fixed block 2 through embedded connection, the rotating shaft 3 is positioned right above the spotlight panel 1, and the embedded fixing shaft 5 is embedded and connected to the lower side of the connecting rod 4; the spotlight panel 1 includes that second connecting rod 11, lamp body 12, second inlay solid axle 13, the block is inlayed in the left and right sides of spotlight panel 1 to second connecting rod 11, lamp body 12 evenly distributed is at the medial extremity of spotlight panel 1, second inlays solid axle 13 and is located lamp body 12 under, and is connected with embedding solid axle 5.

Wherein, lamp body 12 includes first inlay groove 121, light-emitting block 122, mosaic block 123, conductor wire breach 124, first mosaic groove 121 symmetry is installed in the left and right sides of light-emitting block 122, the conductor wire breach 124 is being connected through the electric welding to the light-emitting block 122 lower extreme, mosaic block 123 symmetry is installed in the front and back end of light-emitting block 122, conductor wire breach 124 is located mosaic block 123 under, mosaic block 123's outline diameter and first mosaic groove 121 keep unanimous, can form four mutual laminating back centre formation breach convenience heat dissipations through mutual block between the two when installing lamp body 12.

Wherein, light-emitting piece 122 is including heat dissipation mechanism 2a, dust cover 2b, heat conduction mechanism 2c, connection port 2d, heat dissipation mechanism 2a inlays and installs under dust cover 2b, dust cover 2b inlays the parcel and is connected at heat conduction mechanism 2 c's lateral surface and with connection port 2d, connection port 2d inlays solid the installation directly over conductor wire breach 124, heat dissipation mechanism 2a appearance adopts the unanimous design of heat conduction mechanism 2c upper end profile, can be more effective even the heat of bearing when it gives off the heat.

The heat dissipation mechanism 2a comprises an arc crystal plate 2a1, an embedding ring 2a2, a threaded convex ring 2a3 and a heat dissipation notch 2a4, wherein the arc crystal plate 2a1 is installed right above the embedding ring 2a2 through threaded clamping, the embedding ring 2a2 is located right above the threaded convex ring 2a3, the threaded convex ring 2a3 is uniformly attached to the inner side end face of the heat dissipation mechanism 2a, the heat dissipation notches 2a4 are uniformly and symmetrically installed on the outer wall of the heat dissipation mechanism 2a and connected with the threaded convex ring 2a3, a rotatable plate-shaped block is arranged on the inner end face of the heat dissipation notch 2a4, and when wind flows, the wind can flow regularly on the outer end face of the threaded convex ring 2a3 through the rotation of the plate-shaped block.

The specific use mode and function of the embodiment are as follows:

in the invention, the me is beset and mixed integrally through the fixed block 2, then the spotlight panel 1 is integrally adjusted through the inlaying and clamping installation of the connecting rod 4 and the inlaying shaft 5, the inlaying and clamping connection of the inlaying groove 121 and the inlaying groove 123 is utilized, and the lamp body 12 is installed in a large area for illumination, in the illumination process, heat can be diffused towards the periphery through the center of the luminous block 122, so that the inner center of the spotlight panel 1 is heated in a large area, heat flow is uniformly dispersed to the inner end surface of each luminous block 122, when air flow flows, the movable baffle plate on the heat dissipation notch 2a4 can be blown from outside to inside, then, the air flow forms a slowly flowing cyclone along the spirally surrounded shape of the threaded convex ring 2a3, the heat flow is driven to be diffused through the 2a4 at the other end, the collection of the heat flow on the inner end surface of the luminous block 122 can be reduced, and the phenomenon that the surface of the arc crystal plate 2a 36, the light-emitting block 122 is colored.

Example 2:

as shown in fig. 6 to 7: the lamp tube heat dissipation mechanism 2c comprises heat dissipation patches 2c1, a tube body 2c2 and copper sheets 2c3, the heat dissipation patches 2c1 are uniformly installed on the outer side end face of the copper sheet 2c3, the tube body 2c2 is embedded and clamped right above the dust cover 2b, the copper sheets 2c3 are wrapped and attached to the outer side end face of the tube body 2c2, the heat dissipation patches 2c1 are four and symmetrically installed, and heat is quickly dissipated through a larger heat dissipation area by utilizing the heat conduction of the attachment of the copper sheets 2c 3.

Wherein, heat dissipation paster 2c1 includes heat-conducting plate 1a, heating panel 1b, heat dissipation through-hole 1c, the laminating is inlayed at the upper end surface of heating panel 1b to heat-conducting plate 1a, the solid fixed mounting of heating panel 1b is directly over heat dissipation through-hole 1c, heat dissipation through-hole 1c evenly distributed is at heat dissipation paster 2c 1's medial surface, heat dissipation through-hole 1c is equipped with three and runs through about heat dissipation paster 2c1 both ends face, and the design through central through-hole guides the heat flow and flows, improves the radiating power.

The specific use mode and function of the embodiment are as follows:

when the tube body 2c2 starts to radiate heat all around, the copper sheet 2c3 arranged on the outer end surface can conduct the heat to the heat conducting plate 1a on the inner end surface of the heat radiating patch 2c1 through the heat conductivity of the material, and then the heat is radiated through a large area of the heat radiating plate 1b by utilizing the adhesion of the heat conducting plate 1a and the heat radiating plate 1b, so that the heat flow is radiated outwards through the heat radiating plate 1b, the temperature of the tube body 2c2 can be effectively ensured to be constant, the problem of equipment damage caused by overhigh temperature is avoided, and in the process of radiating the heat flow, the heat flow can flow through the heat radiating through holes 1c uniformly arranged on the inner end surface of the heat radiating patch 2c1, so that the heat flow flows along the direction of the heat radiating through holes 1c, and the heat flow is prevented from being collected around the tube body 2c 46.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. A waterproof LED lamp structurally comprises a spotlight panel (1), a fixed block (2), a rotating shaft (3), a connecting rod (4) and an embedded shaft (5), wherein the spotlight panel (1) is movably connected with the embedded shaft (5) in a clamping manner, the rotating shaft (3) is installed at the right side end of the fixed block (2) through embedded connection, the rotating shaft (3) is located right above the spotlight panel (1), and the embedded shaft (5) is fixedly embedded and connected to the lower side of the connecting rod (4); the method is characterized in that:

spotlight plate (1) includes second connecting rod (11), lamp body (12), second inlays solid axle (13), the block is inlayed in the left and right sides of spotlight plate (1) in second connecting rod (11), lamp body (12) evenly distributed is at the medial surface of spotlight plate (1), the second inlays solid axle (13) and is located lamp body (12) under, and with inlay solid axle (5) and be connected.

2. The waterproof LED lamp according to claim 1, wherein the lamp body (12) comprises first embedding grooves (121), a light emitting block (122), embedding blocks (123) and conducting wire notches (124), the first embedding grooves (121) are symmetrically installed on the left side and the right side of the light emitting block (122), the conducting wire notches (124) are connected to the lower end of the light emitting block (122) through electric welding, the embedding blocks (123) are symmetrically installed at the front end and the rear end of the light emitting block (122), and the conducting wire notches (124) are located right below the embedding blocks (123).

3. The waterproof LED lamp according to claim 2, wherein the light emitting block (122) comprises a heat dissipation mechanism (2 a), a dust cover (2 b), a heat conduction mechanism (2 c) and a connection port (2 d), the heat dissipation mechanism (2 a) is embedded and installed right below the dust cover (2 b), the dust cover (2 b) is embedded and wrapped on the outer side surface of the heat conduction mechanism (2 c) and connected with the connection port (2 d), and the connection port (2 d) is embedded and installed right above the conductive wire gap (124).

4. The waterproof LED lamp of claim 3, wherein the heat dissipation mechanism (2 a) comprises an arc crystal plate (2 a 1), a fixing ring (2 a 2), a threaded convex ring (2 a 3) and a heat dissipation notch (2 a 4), the arc crystal plate (2 a 1) is installed right above the fixing ring (2 a 2) through threaded clamping, the fixing ring (2 a 2) is located right above the threaded convex ring (2 a 3), the threaded convex ring (2 a 3) is evenly attached to the inner side end face of the heat dissipation mechanism (2 a), and the heat dissipation notch (2 a 4) is evenly and symmetrically installed on the outer wall of the heat dissipation mechanism (2 a) and connected with the threaded convex ring (2 a 3).

5. The waterproof LED lamp according to claim 3, wherein the lamp tube heat dissipation mechanism (2 c) comprises a heat dissipation patch (2 c 1), a tube body (2 c 2) and a copper sheet (2 c 3), the heat dissipation patch (2 c 1) is uniformly installed on the outer end face of the copper sheet (2 c 3), the tube body (2 c 2) is embedded and clamped right above the dust cover (2 b), and the copper sheet (2 c 3) is wrapped and attached to the outer end face of the tube body (2 c 2).

6. A waterproof LED lamp according to claim 5, wherein the heat dissipation patch (2 c 1) comprises a heat conduction plate (1 a), a heat dissipation plate (1 b) and heat dissipation through holes (1 c), the heat conduction plate (1 a) is embedded and attached on the upper end surface of the heat dissipation plate (1 b), the heat dissipation plate (1 b) is embedded and installed right above the heat dissipation through holes (1 c), and the heat dissipation through holes (1 c) are uniformly distributed on the inner side end surface of the heat dissipation patch (2 c 1).