A long vehicle light
By using a fixed bracket and a heat dissipation back cover design, the long strip headlights can be installed without drilling, enhancing structural stability, providing waterproof and shockproof functions, and offering efficient heat dissipation and ambient lighting. This solves the problems of inconvenient installation and limited functionality of existing long strip headlights, and improves the user experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- FOSHAN QIANMING ELECTRIC CO LTD
- Filing Date
- 2025-09-05
- Publication Date
- 2026-06-05
AI Technical Summary
Existing long strip headlights are inconvenient to install, requiring drilling for fixation, have insufficient structural stability, limited functionality, lack waterproof and shockproof design, and cannot meet users' personalized lighting needs.
It adopts a fixed bracket connected to the heat dissipation back shell, is compatible with round tube installation, has heat dissipation fins to increase heat dissipation area, a light-transmitting plate with sealed design, side light cups to hide LED beads, and an ambient light panel to achieve dual functions of lighting and decoration.
It enables installation without drilling, enhances structural stability, improves installation convenience, has waterproof and shockproof functions, and combines efficient heat dissipation and ambient lighting effects, improving aesthetics and user experience.
Smart Images

Figure CN224327045U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of automotive lighting technology, and more specifically to a long strip vehicle light. Background Technology
[0002] Long strip car lights are a new type of automotive lighting device, widely used in the automotive industry due to their unique appearance and excellent performance. For example, Chinese Patent Publication No. CN209116234U discloses a projector-type long strip car auxiliary light, including a heat dissipation housing and a light source module. The heat dissipation housing has a "C" structure, and the connection between the heat dissipation housing and the light source module has a slot with a semi-circular bottom. An adhesive strip is installed inside the slot. A reflector is located below the light source module, and a lens is located in front of the light source module. Waterproof gaskets and connecting plugs are sequentially located at both ends of the light source module. An auxiliary plug is located in front of the connecting plug. The upper and lower ends of the "C" structure of the heat dissipation housing are connected to corners. The auxiliary plugs connect to the left and right sides of the corners and the front end of the connecting plug, respectively. The upper and lower ends of the auxiliary plugs are connected to the heat dissipation housing. This patented structure connects the heat dissipation housing and the light source module through a counter-pressure interference fit using the slot and adhesive strip of the heat dissipation housing, eliminating the need for screws or other connecting parts and increasing production efficiency. However, this technical solution still has the following shortcomings in practical applications: Installation is inconvenient; holes need to be drilled in the roof to secure the heat dissipation housing, which not only damages the integrity of the vehicle structure but also increases installation time. Furthermore, the drilled holes are prone to water seepage due to improper sealing. Functionality is limited; it only provides basic lighting and lacks decorative functions such as ambient lighting, failing to meet users' needs for personalized automotive lighting. Stability is insufficient; the light source module is only fixed by adhesive strips and slots, making it prone to displacement during vehicle movement, affecting lighting stability, and it lacks targeted waterproofing and shockproof design. Therefore, there is an urgent need for a long, strip-shaped vehicle light that requires no drilling, is multifunctional, and structurally stable to overcome the deficiencies of existing technology. Summary of the Invention
[0003] The purpose of this utility model is to provide a long strip car light that addresses the shortcomings of existing technologies, eliminating the need for drilling holes in the roof, while also providing waterproof, shockproof, efficient heat dissipation, and ambient lighting functions, thus improving installation convenience and user experience.
[0004] The present invention achieves the above-mentioned objective by adopting the following technical solution: a long strip vehicle light, characterized in that it includes a fixed bracket, a heat dissipation back cover, a main lamp bead plate, a light-emitting cup, and a light-transmitting plate. The fixed bracket is connected to the heat dissipation back cover and can be used for installation of round tubes without drilling holes in the roof for fixing. The heat dissipation back cover is provided with a cavity for accommodating the main lamp bead plate and the light-emitting cup. The cavity is provided with an opening, and the light-transmitting plate is installed at the opening position, so that the main lamp bead plate and the light-emitting cup can be encapsulated in the heat dissipation back cover.
[0005] The upper and lower sides of the heat dissipation rear shell are respectively provided with upper pipe clamp mounting slots and lower pipe clamp mounting slots. The fixing bracket includes a pipe clamp assembly connected between the upper and lower pipe clamp mounting slots. Heat dissipation fins are provided on the back of the heat dissipation rear shell, which can increase the heat dissipation area, quickly dissipate the heat generated by the main lamp board and ambient light board during operation, and extend the service life of the lamp. Pipe clamp rubber blocks are movably installed on the heat dissipation fins. The pipe clamp rubber blocks and the pipe clamp assembly form a ring structure for locking the round tube, which can be used for the installation of 1.5-2 inch round tubes.
[0006] As a further explanation of the above solution, the pipe clamp assembly includes an upper C-type pipe clamp and a lower C-type pipe clamp. The upper C-type pipe clamp and the lower C-type pipe clamp are connected and fixed to each other. The end of the upper C-type pipe clamp is locked to the upper pipe clamp mounting groove by bolts. The end of the lower C-type pipe clamp is locked to the lower pipe clamp mounting groove by bolts, forming a flexible clamp for the round pipe, which ensures the installation is firm and avoids the round pipe being damaged.
[0007] Furthermore, the upper and lower sealing strips are L-shaped, which, compared to straight sealing strips, can simultaneously adhere to the inner wall of the slot and the edge of the light-transmitting plate, increasing the contact area by more than 30%, improving the waterproof and anti-fog effect, and preventing fogging inside the cavity from affecting light transmittance due to temperature differences.
[0008] Furthermore, the light-emitting cup is a side-emitting cup. The main LED board is located at the bottom of the cavity of the heat dissipation back shell, and the side-emitting cup is located above the main LED board. A through hole is provided at the bottom of the side-emitting cup to allow light to pass through, so that the LED can be hidden under the side-emitting cup. The light emitted by the LED on the main LED board is emitted from bottom to top, enters the side-emitting cup through the through hole, and is then reflected or refracted by the side-emitting cup and emitted from the light-transmitting plate. The LED cannot be directly seen from a horizontal viewing angle, which improves the appearance.
[0009] Furthermore, a vertical pressure plate is provided at the bottom of the side-emitting lamp cup, which presses against the main lamp bead plate to increase the support position, fix it better, and prevent vibration and displacement.
[0010] Furthermore, an ambient light panel is provided at the rear of the cavity of the heat dissipation shell, and a light-transmitting slit is provided in the light-transmitting cup. An ambient light guide strip is embedded in the light-transmitting slit. The light emitted by the ambient light panel is guided out through the light guide strip, realizing the dual functions of lighting and ambient decoration.
[0011] Furthermore, the light-emitting cup is a direct-light-emitting reflector cup, and the main lamp bead plate is located at the rear of the cavity of the heat dissipation back shell. The direct-light-emitting reflector cup is provided with several reflective units corresponding to the corresponding lamp beads on the main lamp bead plate. The light generated by the lamp beads is emitted directly from the reflective units and diffuses outward after passing through the light-transmitting plate.
[0012] Furthermore, an upper slot and a lower slot are respectively provided at the upper and lower ends of the cavity opening, and the light-transmitting plate is inserted between the upper slot and the lower slot; an upper sealing strip is provided on the inner side of the upper slot, and an upper pressure bar is provided on the outer side, with the upper sealing strip and the upper pressure bar respectively tightly attached to both sides of the light-transmitting plate; a lower sealing strip is provided on the inner side of the lower slot, and a lower pressure bar is provided on the outer side, with the lower sealing strip and the lower pressure bar respectively tightly attached to both sides of the light-transmitting plate; this allows the light-transmitting plate to be inserted between the slots, the sealing strip to be tightly attached to the light-transmitting plate to achieve a seal, and the pressure bar to further press the light-transmitting plate to prevent loosening.
[0013] Furthermore, the heat dissipation shell has integrated end caps at both ends, with sealing rings inside the end caps for good waterproofing.
[0014] The beneficial effects that can be achieved by adopting the above-mentioned technical solution in this utility model are as follows.
[0015] 1. This utility model adopts a long strip car light structure mainly composed of a fixed bracket, a heat dissipation back shell, a main lamp bead board, a light-emitting cup, and a light-transmitting plate. The fixed bracket is connected to the heat dissipation back shell to jointly construct an installation structure that adapts to round tubes. There is no need to drill holes in the roof. It can be directly installed on existing round tube structures such as car roof rack round tubes and bumper round tubes. It is compatible with 1.5-2 inch round tubes and has strong compatibility. The back of the heat dissipation back shell is equipped with heat dissipation fins to increase the heat dissipation area and quickly dissipate the heat generated by the main lamp bead board and ambient light board during operation, thus extending the service life of the lamp.
[0016] 2. In this utility model, a light-transmitting plate is installed at the cavity opening of the heat dissipation shell, and the light-emitting cup covers the main lamp bead plate. The bottom of the cup is provided with a through hole for light to pass through, so that the light emitted by the lamp beads of the main lamp bead plate enters the light-emitting cup through the through hole, and then is reflected or refracted by the light-emitting cup and emitted from the light-transmitting plate. The lamp beads cannot be directly seen from a horizontal viewing angle, thus improving the appearance.
[0017] 3. This utility model adopts a method of installing the light-transmitting plate on the slot of the heat dissipation rear shell by plugging it in. A sealing strip is provided on the inner side of the slot and a pressure bar is provided on the outer side. The sealing strip is tightly attached to the light-transmitting plate to achieve a seal, and the pressure bar further presses the light-transmitting plate to prevent loosening. The heat dissipation rear shell is provided with integrated end caps at both ends, and the end caps are equipped with sealing rings to prevent rainwater from seeping in from the ends.
[0018] 4. This utility model has a pressure plate at the bottom of the side-lit lamp cup, which presses against the main lamp bead plate, providing multi-point support to prevent the main lamp bead plate from shifting due to vehicle bumps; the upper and lower edges of the lamp cup are provided with bent edges, which cooperate with the positioning grooves of the outer convex edge of the slot to achieve precise positioning of the lamp cup and avoid shaking; an ambient light panel is provided at the rear of the cavity, and the side-lit lamp cup has a light-transmitting slit and an embedded ambient light guide strip. The light emitted by the ambient light panel is guided out through the light guide strip, realizing the dual functions of lighting and ambient decoration.
[0019] 5. The main LED bead plate of this utility model is set at the rear of the cavity of the heat dissipation shell. The direct light-emitting reflector cup is provided with several reflective units corresponding to the corresponding LED beads on the main LED bead. The light generated by the LED beads is directly emitted from the reflective units, diffuses outward after passing through the light-transmitting plate, and has a simple structure and is easy to disassemble and maintain. Attached Figure Description
[0020] Figure 1 This is a schematic diagram of the structure of this utility model.
[0021] Figure 2 This is a schematic diagram of the structure of this utility model.
[0022] Figure 3 This is a schematic diagram of the installation structure for the side-lit lamp cup.
[0023] Figure 4 This is a schematic diagram of the internal structure of this utility model.
[0024] Figure 5 This is a schematic diagram of the connection structure between the fixed bracket and the heat dissipation back cover.
[0025] Figure 6 This is a schematic diagram of the installation structure for a direct-light reflector.
[0026] Explanation of reference numerals in the attached drawings: 1. Fixed bracket 1-1, Upper C-type pipe clamp 1-2, Lower C-type pipe clamp 2. Heat dissipation back shell 2-1, Cavity 2-2, Opening 2-3, Upper slot 2-4, Lower slot 2-5, Protruding edge 2-6, Upper pipe clamp mounting slot 2-7, Lower pipe clamp mounting slot 2-8, Heat dissipation fins 3. Main LED bead board 3-1, LED bead 4-1, Side light-emitting lamp cup 4-11, Through hole 4-12, Vertical pressure plate 4-13, Bending edge 4-2, Direct light-emitting reflector cup 4-21, Reflecting unit 5, Light-transmitting plate 6, Upper sealing strip 7, Upper pressure rod 8, Lower sealing strip 9, Lower pressure rod 10, Ambient light plate 11, Ambient light guide strip 12, End cap 12-1, Sealing ring 13, Pipe clamp rubber block. Detailed Implementation
[0027] In the description of this utility model, it should be noted that the directional terms such as "center", "lateral", "longitudinal", "length", "width", "thickness", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", and "counterclockwise" are based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. They should not be construed as limiting the specific protection scope of this utility model.
[0028] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features. Thus, the use of "first" and "second" to define a feature may explicitly or implicitly include one or more of that feature, and in this description of the utility model, "at least" means one or more, unless otherwise explicitly specified.
[0029] In this utility model, unless otherwise explicitly specified and limited, the terms "assembly," "connection," and "joining" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can also refer to a mechanical connection; they can refer to a direct connection or a connection through an intermediate medium; or they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model according to the specific circumstances.
[0030] In this utility model, unless otherwise specified and limited, "above" or "below" the second feature can include direct contact between the first and second features, or contact between the first and second features through another feature between them. Furthermore, "above," "below," and "over" the second feature includes the first feature being directly above or diagonally above the second feature, or simply indicates that the first feature is at a higher horizontal level than the second feature. "Above," "below," and "under" the second feature includes the first feature being directly below or diagonally below the second feature, or simply indicates that the first feature is at a lower horizontal level than the second feature.
[0031] The specific embodiments of this utility model will be further described below with reference to the accompanying drawings, making the technical solution and beneficial effects of this utility model clearer and more explicit. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain this utility model, and should not be construed as limiting this utility model.
[0032] like Figures 1-5As shown, this utility model is a long strip vehicle light, including a fixed bracket 1, a heat dissipation back shell 2, a main lamp bead plate 3, a light-emitting cup, and a light-transmitting plate 5. The fixed bracket 1 is connected to the heat dissipation back shell 2, which can be used for round tube installation without drilling holes in the roof. The upper and lower sides of the heat dissipation back shell 2 are respectively provided with an upper tube clamp mounting slot 2-6 and a lower tube clamp mounting slot 2-7. The fixed bracket 1 includes a tube clamp assembly connected between the upper tube clamp mounting slot and the lower tube clamp mounting slot. Heat dissipation fins 2-8 are provided on the back of the heat dissipation back shell 2, which can increase the heat dissipation area, quickly dissipate the heat generated by the main lamp bead plate and the ambient light plate during operation, and extend the service life of the lamp. Tube clamp rubber blocks 13 are movably arranged on the heat dissipation fins 2-8. The tube clamp rubber blocks 13 and the tube clamp assembly form a ring structure for locking the round tube, which can be used for 1.5-2 inch round tube installation. The pipe clamp assembly includes an upper C-type pipe clamp 1-1 and a lower C-type pipe clamp 1-2. The upper and lower C-type pipe clamps are connected and fixed to each other. The end of the upper C-type pipe clamp is locked to the upper pipe clamp mounting groove by bolts. The end of the lower C-type pipe clamp is locked to the lower pipe clamp mounting groove by bolts, forming a flexible clamp for the round pipe, which ensures the installation is firm and avoids the round pipe being damaged.
[0033] The heat dissipation back cover 2 is provided with a cavity 2-1 for accommodating the main LED chip plate 3 and the light-emitting cup. The cavity has an opening 2-2, and a light-transmitting plate is installed at the opening, so that the main LED chip plate 3 and the light-emitting cup can be encapsulated inside the heat dissipation back cover 2. There are two structural forms of the light-emitting cup. One is a side-emitting light-emitting cup 4-1 with a hidden LED chip design, and the other is a direct-emitting reflector cup 4-2. When the light-emitting cup uses a side-emitting light-emitting cup 4-1, the main LED chip plate is placed at the bottom of the cavity 2-1, and the side-emitting light-emitting cup 4-1 is placed above the main LED chip plate 3. A through hole 4-11 for light to pass through is provided at the bottom of the side-emitting light-emitting cup 4-1, so that the LED chip 3-1 can be hidden under the side-emitting light-emitting cup 4-1. The light emitted by the LED chip of the main LED chip plate enters the side-emitting light-emitting cup 4-1 through the through hole, and then is reflected or refracted by the side-emitting light-emitting cup 4-1 and emitted from the light-transmitting plate. The LED chip cannot be directly seen from a horizontal viewing angle, which improves the appearance. The upper and lower ends of the cavity opening are respectively provided with an upper slot 2-3 and a lower slot 2-4, with the light-transmitting plate 5 inserted between them. An upper sealing strip 6 is provided on the inner side of the upper slot 2-3, and an upper pressure rod 7 is provided on the outer side, with the upper sealing strip 6 and upper pressure rod 7 respectively tightly abutting both sides of the light-transmitting plate 5. Similarly, a lower sealing strip 8 is provided on the inner side of the lower slot 2-4, and a lower pressure rod 9 is provided on the outer side, with the lower sealing strip 8 and lower pressure rod 9 respectively tightly abutting both sides of the light-transmitting plate 5. This design allows the light-transmitting plate 5 to be inserted between the slots, with the sealing strip 8 tightly abutting the light-transmitting plate 5 to achieve a seal, and the pressure rod further pressing the light-transmitting plate to prevent loosening. The upper and lower sealing strips are L-shaped, which, compared to straight sealing strips, can simultaneously adhere to the inner wall of the slots and the edge of the light-transmitting plate, increasing the contact area by more than 30%, improving waterproofing and anti-fogging effects, and preventing fogging inside the cavity due to temperature differences from affecting light transmittance.
[0034] The bottom of the side-emitting lamp cup 4-1 is provided with a vertical pressure plate 4-12, which presses against the main lamp bead plate 3, increasing the support position, improving fixation, and preventing vibration displacement. An ambient light panel 10 is provided at the rear of the cavity of the heat dissipation shell 2. The side-emitting lamp cup 4-1 has a light-transmitting slit, within which an ambient light guide strip 11 is embedded. The light emitted from the ambient light panel is guided out through the ambient light guide strip 11, achieving the dual functions of lighting and ambient decoration. Both ends of the heat dissipation shell 2 are respectively provided with an integrated end cap 12, with a sealing ring 12-1 inside the end cap 12 for good waterproofing. The upper and lower edges of the side light-emitting lamp cup 4-1 are provided with bent edges 4-13. The upper slot 2-3 and the lower slot 2-4 are respectively provided with protruding edges 2-5. The protruding edges 2-5 are provided with positioning grooves. The bent edges 4-12 of the side light-emitting lamp cup 4-1 are embedded in the positioning grooves to achieve precise positioning of the side light-emitting lamp cup 4-1 and avoid shaking.
[0035] like Figure 6 As shown, when the light-emitting cup adopts the direct-light-emitting reflector cup 4-2 structure, the main lamp bead plate 3 is set at the rear of the cavity of the heat dissipation back shell 2. The direct-light-emitting reflector cup is provided with multiple reflector units 4-21. Each reflector unit 4-21 corresponds to the corresponding lamp bead 3-1 on the main lamp bead plate. The light generated by the lamp bead is emitted directly from the reflector unit and diffuses outward after passing through the light-transmitting plate. Example 1
[0036] The elongated headlight in this embodiment is 600mm long and is compatible with a 1.5-inch round tube for car roof racks. The specific structure is as follows.
[0037] Heat dissipation back cover 2: Made of aluminum alloy, with a 15mm high heat dissipation fin on the back integrally formed, and the heat dissipation fin spacing is 8mm to improve heat dissipation efficiency; the upper pipe clamp mounting groove 2-6 and the lower pipe clamp mounting groove 2-7 are milled on the upper and lower sides respectively, with a groove depth of 8mm and a groove width of 12mm; the two ends of the heat dissipation back cover 2 are integrally formed end caps 12 by a mold, and an annular groove is opened on the inner side of the end cap. A silicone sealing ring is embedded in the annular groove, and the compression of the sealing ring is 2mm to ensure waterproofing at the end.
[0038] Cavity and Internal Components: A rectangular cavity with a depth of 30mm is opened on the front of the heat dissipation shell; the ambient light panel (using 5050 LED beads) is attached to the rear of the cavity with thermally conductive adhesive; the main LED board (using 3030 LED beads, 30W power) is placed in the middle of the cavity, and the light cup covers the main LED board; the light cup is made of PC material, with 5mm diameter through holes evenly opened on the bottom (corresponding one-to-one with the LED beads on the main LED board), and a 2mm thick vertical pressure plate is integrally formed on the bottom, which presses against the edge of the main LED board to prevent displacement; the upper and lower edges of the light cup are bent to form 90° bends with a width of 5mm.
[0039] Light-transmitting panel installation: The upper and lower slots at the top and bottom of the cavity opening are integrally formed, with a slot width of 5mm (suitable for tempered glass light-transmitting panels with a thickness of 4mm); an L-shaped silicone upper sealing strip (3mm×3mm cross-section) is pasted on the inside of the upper slot, and an aluminum alloy upper pressure rod is fixed on the outside with screws; an L-shaped silicone lower sealing strip is pasted on the inside of the lower slot, and an aluminum alloy lower pressure rod is fixed on the outside with screws; the light-transmitting panel is inserted between the upper and lower slots, with the upper and lower sealing strips tightly attached to the light-transmitting panel, and the upper and lower pressure rods pressing the light-transmitting panel to achieve sealing and fixation.
[0040] Positioning and fitting: The outer sides of the upper and lower card slots are integrally formed with a raised edge. The raised edge has a positioning groove with a width of 5mm and a depth of 3mm. The bent edge of the light cup is embedded in the positioning groove to achieve precise positioning of the light cup.
[0041] Ambient light structure: A 2mm wide light-transmitting slit is opened in the middle of the light cup. An ambient light guide strip made of PMMA material is embedded in the light-transmitting slit. The light guide strip corresponds to the ambient light panel. The light from the ambient light panel is guided out through the light guide strip to form a uniform ambient light band.
[0042] Fixed bracket: The fixed bracket includes an upper C-type pipe clamp, a lower C-type pipe clamp, and a pipe clamp rubber block; both the upper and lower C-type pipe clamps are made of stainless steel and have an inner diameter suitable for 1.5-inch round pipes; the end of the upper C-type pipe clamp is locked to the upper pipe clamp mounting slot by an M5 bolt, and the end of the lower C-type pipe clamp is locked to the lower pipe clamp mounting slot by an M5 bolt, and the upper and lower C-type pipe clamps are connected and fixed by corresponding M6 bolts; the pipe clamp rubber block (silicone material, 8mm thick) is movably installed on the heat dissipation fins through a slot, and the pipe clamp rubber block and the upper and lower C-type pipe clamps form a ring structure to fix the light fixture to the round pipe. Example 2
[0043] The difference between this embodiment and Embodiment 1 is as follows: the inner diameter of the upper and lower C-type tube clamps is adjusted to 2 inches to adapt to 2-inch round tubes, and the thickness of the tube clamp rubber block is adjusted to 10mm; the power of the main LED board is increased to 40W, and the height of the heat dissipation fins is adjusted to 18mm to ensure heat dissipation efficiency; the width of the ambient light guide strip is adjusted to 3mm to improve the ambient light brightness.
[0044] The long strip vehicle light of this utility model, through the installation structure of "pipe clamp assembly + round pipe adapter", eliminates the step of drilling holes in the roof and shortens the installation time to less than 10 minutes; through multiple sealing of sealing strip, sealing ring and pressure bar, the waterproof rating can reach IP67.
[0045] The above description is only a preferred embodiment of the present utility model. It should be noted that for those skilled in the art, several modifications and improvements can be made without departing from the inventive concept of the present utility model, and these all fall within the protection scope of the present utility model.
Claims
1. A long strip vehicle light, characterized in that, It includes a fixed bracket, a heat dissipation back shell, a main LED chip board, a light-emitting cup, and a light-transmitting plate. The fixed bracket is connected to the heat dissipation back shell. The upper and lower sides of the heat dissipation back shell are respectively provided with an upper pipe clamp mounting slot and a lower pipe clamp mounting slot. The fixed bracket includes a pipe clamp assembly connected between the upper and lower pipe clamp mounting slots. Heat dissipation fins are provided on the back of the heat dissipation back shell. Pipe clamp rubber blocks are movably mounted on the heat dissipation fins. The pipe clamp rubber blocks and the pipe clamp assembly form a ring structure for locking the round pipe. The heat dissipation back cover has a cavity for accommodating the main LED chip board and the light-emitting cup. The cavity has an opening, and a light-transmitting plate is installed at the opening. The main LED chip board and the light-emitting cup are encapsulated inside the heat dissipation back cover.
2. A long strip vehicle light according to claim 1, characterized in that, The pipe clamp assembly includes an upper C-type pipe clamp and a lower C-type pipe clamp, which are connected and fixed to each other. The end of the upper C-type pipe clamp is locked to the upper pipe clamp mounting groove by bolts; the end of the lower C-type pipe clamp is locked to the lower pipe clamp mounting groove by bolts, forming a flexible clamp for the round pipe.
3. A long strip vehicle light according to claim 1, characterized in that, The upper and lower ends of the cavity opening are respectively provided with an upper slot and a lower slot, and the light-transmitting plate is inserted between the upper slot and the lower slot; the inner side of the upper slot is provided with an upper sealing strip and the outer side is provided with an upper pressure bar, and the upper sealing strip and the upper pressure bar are respectively tightly attached to both sides of the light-transmitting plate; the inner side of the lower slot is provided with a lower sealing strip and the outer side is provided with a lower pressure bar, and the lower sealing strip and the lower pressure bar are respectively tightly attached to both sides of the light-transmitting plate.
4. A long strip vehicle light according to claim 3, characterized in that, The upper and lower sealing strips are L-shaped and fit against the inner wall of the slot and the edge of the light-transmitting plate.
5. A long strip vehicle light according to claim 1, characterized in that, The light cup is a side-emitting light cup. The main LED board is located at the bottom of the cavity of the heat dissipation back shell, and the side-emitting light cup is located above the main LED board. A through hole is provided at the bottom of the side-emitting light cup to allow light to pass through, so that the LED can be hidden under the light cup.
6. A long strip vehicle light according to claim 5, characterized in that, The bottom of the side-emitting lamp cup is provided with a vertical pressure plate, which presses against the main lamp bead plate.
7. A long strip vehicle light according to claim 5, characterized in that, An ambient light panel is installed at the rear of the heat dissipation shell cavity, and a light-transmitting slit is provided on the side light-emitting cup. An ambient light guide strip is embedded in the light-transmitting slit, and the light emitted by the ambient light panel is guided out through the light guide strip.
8. A long strip vehicle light according to claim 1, characterized in that, The light-emitting cup is a direct-light-emitting reflector cup. The main lamp bead board is located at the rear of the cavity of the heat dissipation shell. The direct-light-emitting reflector cup is equipped with several reflective units that correspond to the corresponding lamp beads on the main lamp bead board. The light generated by the lamp beads is emitted directly from the reflective units and diffuses outward after passing through the light-transmitting plate.
9. A long strip vehicle light according to claim 1, characterized in that, The heat dissipation shell has integrated end caps at both ends, and sealing rings are installed inside the end caps.