A linear light with a freely combinable structure and uniform light distribution

By employing a lampshade, square base shell, and rectangular connecting tube design in the linear lights, combined with reflectors and limiting blocks, the problem of uneven light distribution is solved, achieving uniform light distribution and stable splicing, thus improving the user experience and the lifespan of the lights.

CN122305422APending Publication Date: 2026-06-30FOSHAN DONGDIAN TIMES LIGHTING CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
FOSHAN DONGDIAN TIMES LIGHTING CO LTD
Filing Date
2026-02-09
Publication Date
2026-06-30

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Abstract

This invention discloses a linear light with a freely combinable structure and uniform light distribution, relating to the field of linear light technology. The linear light with a freely combinable structure and uniform light distribution includes a strip light fixture and a splicing assembly installed at the end of the strip light fixture's surface. The strip light fixture includes a lampshade and connecting hooks. Sealing assemblies are installed at the ends of both sides of the lampshade surface. A light panel is detachably fixedly installed in the middle of the lampshade's inner cavity. LED beads are installed at the bottom of the light panel, and a controller is installed at the top of the light panel. The splicing assembly includes a square base shell and a square cover. A glass sheet is fixedly installed at the bottom of the square base shell, and a rectangular connecting cylinder is fixedly installed in the middle of the square base shell's surface. The square cover is fitted onto the surface of the rectangular connecting cylinder and is located away from one end of the square base shell. A reflector is fixedly installed at the top of the square base shell's inner cavity, achieving supplemental lighting. The splicing assembly is convenient, provides supplemental lighting at the splicing points, and ensures uniform light distribution, safety, and reliability.
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Description

Technical Field

[0001] This invention relates to the field of linear lighting technology, specifically to a linear light with a freely combinable structure and uniform light distribution. Background Technology

[0002] Linear lights are a common type of lighting fixture, primarily used for decorating building exteriors and providing illumination. They are characterized by low power consumption, long lifespan, high brightness, flexibility, and maintenance-free operation. They are particularly suitable for indoor and outdoor entertainment venues, building outlines, and billboard production.

[0003] For example, a quick-connect strip light, such as the one disclosed in Chinese Patent Publication No. CN113418149B, includes a first placement box and a second placement box. A quick-connect mechanism is movably connected between the first and second placement boxes. A control mechanism is movably connected to the right side of the outer surface of the first placement box, and a tail sealing mechanism is movably connected to the left outer surface of the second placement box. A dustproof and moisture-proof mechanism is fixedly connected to the middle of the lower outer surfaces of the first and second placement boxes. A second connecting plate is fixedly connected to the lower outer surface of the dustproof and moisture-proof mechanism. Fixing mechanisms are movably connected to the front and rear ends of the lower outer surface of the second connecting plate. Lifting mechanisms are movably connected to the left and right sides of the lower outer surface of the second connecting plate. A replacement mechanism is movably connected inside both the first and second placement boxes. The control box in the control mechanism can be quickly inserted into the right side of the first placement box. The second connecting plate is then inserted into the first placement box for fixation. Next, the first and second placement boxes are quickly inserted into the quick splicing mechanism. The first placement box is then inserted into the first connecting curved plate, and the second placement box is inserted into the second connecting curved plate. With the assistance of the fixed support plate, the first connecting plate is inserted into the first and second placement boxes respectively. Then, the first rotating plate is flipped under the action of the first rotating shaft, which drives the first insert shaft and the limiting ring to be inserted into the first connecting plate. The first rotating plate is fixed by the material of the limiting ring and the groove opened inside the first connecting plate. The first and second placement boxes are then fixed to the quick splicing mechanism. This setup is relatively fast.

[0004] According to existing technical references, linear lights can be spliced ​​and installed using a quick splicing mechanism. However, the splicing area is opaque, resulting in a dim lighting environment. Not only is the light distribution uneven, but the alternating bright and dark sections can cause dizziness and an uncomfortable experience. Summary of the Invention

[0005] To solve the above-mentioned technical problems, the present invention is implemented through the following technical solution: A linear light with a freely combinable structure and uniform light distribution, comprising: Strip lighting fixtures, and splicing components installed on the ends of the surface of the strip lighting fixtures; The strip light fixture includes a lampshade and a connecting hook. The connecting hook is fixedly installed on the surface of the lampshade. A cover assembly is installed at the ends of both sides of the lampshade surface. A lamp plate is detachably fixedly installed in the middle of the inner cavity of the lampshade. LED beads are installed at the bottom of the lamp plate and a controller is installed at the top of the lamp plate. The LED beads emit light when powered on, and the light passes through the lampshade for illumination. The lamp plate supports the controller and LED beads, making the controller and LED beads appear to be suspended. This facilitates the dissipation of heat generated by the controller and LED beads when they are powered on, preventing high temperatures and extending the lifespan of the strip light. The splicing assembly includes a square base shell and a square cover. The square base shell is installed at the end of the lampshade surface. A glass plate is fixedly installed at the bottom of the square base shell. A rectangular connecting cylinder is fixedly installed at the middle of the square base shell surface. The end of the lampshade surface extends into the interior of the rectangular connecting cylinder. The square cover is fitted onto the surface of the rectangular connecting cylinder and is located away from the end of the square base shell. A reflector is fixedly installed at the top of the inner cavity of the square base shell. A limit block is fixedly installed on the side of the top of the inner cavity of the rectangular connecting cylinder. Light passes through the rectangular opening and shines on the surface of the reflector. The reflector is hemispherical, which achieves directional convergence and uniform reflection of light, greatly improving the light efficiency. Moreover, the light reflected by the reflector passes through the glass plate, making the bottom of the square base shell brighter. Compared with ordinary splicing connectors in the prior art, which cannot reflect light to make it brighter, the semi-circular curved surface structure allows the reflected light to form a regular light field distribution, which is suitable for linear lights, strip lighting, display case lights and other scenarios that require directional supplementary lighting and uniform lighting, and is less likely to cause dizziness.

[0006] Preferably, the lampshade is installed horizontally, the connecting hooks are evenly distributed on the top of the lampshade, there are four lampshades, and the four lampshades are evenly distributed on the surface of the square base shell.

[0007] By installing sealing components at both ends of the lampshade, the sealing plates support the ports of the lampshade, which increases the strength of both ends of the lampshade when splicing it with the rectangular connecting tube, making it less prone to bending and deformation. This facilitates quick splicing and makes the splicing of the lampshade with the rectangular connecting tube smooth.

[0008] Preferably, the lamp panel passes through the center of the lampshade, the LED beads are evenly distributed at the bottom of the lamp panel, and the controller is installed directly above the lamp panel.

[0009] When the end face of the lampshade inserted into the rectangular connecting tube is in contact with the surface of the limiting block, the lampshade can be limited, so that the length of the lampshade reserved outside the rectangular connecting tube is the same. This not only helps to quickly and accurately splice the lamps, but also ensures that the light emitted by the LED beads is evenly distributed with the same reserved length, thus avoiding uneven lighting of the linear lights.

[0010] Preferably, the sealing assembly includes a sealing piece that snaps onto the outer end face of the lampshade. A rectangular opening is formed in the middle of the surface of the sealing piece, and a rectangular baffle is installed inside the rectangular opening. The square base shell is fixed in a designated position by the support legs on top of the square base shell, which can position the square base shell. The end of the lampshade is inserted into the inside of the rectangular connecting tube, which can initially limit the position of the lampshade. At the same time, the rectangular baffle on the sealing assembly at one end of the lampshade inserted into the rectangular connecting tube is removed, and the end of the lampshade is fixed to the rectangular connecting tube with screws to prevent loosening. A single lampshade and a rectangular connecting tube can be spliced ​​together. Then, the rectangular connecting tubes evenly distributed on the surface of the square base shell are spliced ​​together with lampshades, so that arbitrary splicing can be achieved, and the overall use of the lamp is flexible.

[0011] Preferably, the protrusions on the surface of the sealing plate are in contact with the inner side of the lampshade, and the edge of the rectangular baffle is in contact with the inner wall of the rectangular opening, which facilitates the sealing of external dust and impurities and reduces the entry of external dust and impurities into the interior of the lampshade.

[0012] Preferably, there are four rectangular connecting cylinders, and the four rectangular connecting cylinders are evenly distributed on the surface of the square base shell. The rectangular connecting cylinders are connected to the square base shell, and the ends of the lampshade surface are fixedly installed to the rectangular connecting cylinders by screws.

[0013] Preferably, the reflector is hemispherical and is installed in the middle of the inner cavity of the square base shell to facilitate the reflection of light coming from all directions, thereby promoting the passage of the reflected light through the glass plate, which is installed directly below the reflector.

[0014] Preferably, the top of the lampshade is equipped with an assembled fixing connection assembly, which includes a strip-shaped hanging plate. The strip-shaped hanging plate is slidably installed at the connecting hook position on the top of the lampshade. A long strip-shaped piece is fixedly installed on the top side of the surface of the strip-shaped hanging plate. A mounting base is slidably installed on the top of the strip-shaped hanging plate through the long strip-shaped piece. The mounting base is fixedly installed in a designated position, and the mounting base is evenly distributed around the square base shell. The strip-shaped hanging plate, the long strip-shaped piece, and the mounting base are slidably installed, so that the mounting base is evenly distributed on the top of the strip-shaped hanging plate. The long strip-shaped piece and the mounting base can be fixed with screws, and the assembled fixing connection assembly is completed as a whole. The assembly is convenient. Next, hook the connecting hook on the top of the lampshade onto the bottom of the strip mounting plate, and push the lampshade to move it closer to the square base shell. Then, you can remove one end of the rectangular baffle from the lampshade and insert it into the inside of the rectangular connecting cylinder.

[0015] Preferably, the strip mounting plate is installed directly above the lampshade, and the surface of the strip mounting plate is fixed to the connecting hook by screws.

[0016] Preferably, the inner side of the mounting base is in contact with the surface of the elongated piece and the top of the strip-shaped hanging plate, and the mounting base and the elongated piece are fixedly installed by screws.

[0017] This invention provides a linear light with a freely combinable structure and uniform light distribution. It has the following beneficial effects: 1. This linear light features a freely combinable structure with uniform light distribution. Light passes through a rectangular opening and illuminates the surface of a reflector, which is hemispherical in shape. This achieves directional convergence and uniform reflection of the light, significantly improving light efficiency. Furthermore, the light reflected by the reflector passes through the glass plate, making the bottom of the square base brighter. Compared to existing technologies where ordinary assembly connectors cannot reflect light to make it brighter, this linear light utilizes the characteristics of a hemispherical curved surface to create a regular light field distribution, making it suitable for scenarios requiring directional supplementary lighting and uniform light distribution.

[0018] 2. This linear light features a freely combinable structure with uniform light distribution. The end of the lampshade is inserted into the interior of the rectangular connecting tube to initially limit its position. Simultaneously, the rectangular baffle on the end cap assembly of the lampshade inserted into the rectangular connecting tube is removed, and the end of the lampshade is fixed to the rectangular connecting tube with screws to prevent loosening. This allows for the splicing of a single lampshade with the rectangular connecting tube. Then, the rectangular connecting tubes evenly distributed on the surface of the square base shell are spliced ​​with lampshades, thus achieving free splicing and making the overall use of the light fixture flexible.

[0019] Third, this linear light, which features a freely combinable structure and uniform light distribution, allows the LED beads to emit light after being powered on, with the light passing through the lampshade for illumination. Furthermore, the lamp board supports the controller and LED beads, allowing them to be suspended in mid-air. This facilitates the dissipation of heat generated by the controller and LED beads during operation, preventing overheating and extending the lifespan of the linear light.

[0020] Fourth, this linear light with a freely combinable structure and uniform light distribution uses sealing components installed at both ends of the lampshade. The sealing plates support the ends of the lampshade, which increases the strength of both ends of the lampshade when splicing with the rectangular connecting tube, making it less prone to bending and deformation. This facilitates quick splicing and makes the splicing of the lampshade and the rectangular connecting tube smooth.

[0021] 5. This linear light with a freely combinable structure and uniform light distribution can be inserted into a rectangular connecting tube. The end face of the lampshade is attached to the surface of the limiting block to limit the lampshade. This ensures that the length of the lampshade reserved outside the rectangular connecting tube is the same, which not only helps to quickly and accurately splice the light, but also ensures that the light from the LED beads is evenly distributed with the same reserved length, avoiding uneven lighting of the linear lights.

[0022] VI. This linear light features a freely combinable structure with uniform light distribution. The mounting base is evenly distributed around the square base shell, and the strip-shaped hanging plate and long strip piece are slidably installed on the mounting base. The mounting base is evenly distributed on the top of the strip-shaped hanging plate, and the long strip piece and mounting base can be fixed with screws. The assembly of the modular fixed connection component is completed, and the assembly is convenient. Attached Figure Description

[0023] Figure 1 This is a schematic diagram of the overall structure of the linear light with a freely combinable structure and uniform light distribution according to the present invention. Figure 2 This is a schematic diagram of the upward-view structure of a linear light with a freely splicable structure and uniform light distribution according to the present invention. Figure 3 This is a schematic diagram of the connection structure between the strip light fixture and the splicing assembly of the present invention; Figure 4 This is a schematic diagram of the overall structure of the strip light fixture of the present invention; Figure 5 This is a schematic diagram of the disassembled structure of the strip light fixture of the present invention; Figure 6 This is a schematic diagram of the overall structure of the splicing component of the present invention; Figure 7 This is a bottom view of the internal structure of the square base shell of the present invention; Figure 8 This is a schematic diagram of the connection structure between the assembled fixed connection component and the lampshade of the present invention.

[0024] In the diagram: 1. Strip light fixture; 2. Splicing assembly; 3. Assembled fixed connection assembly; 101. Lampshade; 102. Connecting hook; 103. Cover assembly; 104. Light panel; 105. LED beads; 106. Controller; 1031. Sealing plate; 1032. Rectangular opening; 1033. Rectangular baffle; 201. Square base shell; 202. Square cover; 203. Glass plate; 204. Rectangular connecting cylinder; 205. Reflector; 206. Limiting block; 301. Strip hanging plate; 302. Long strip piece; 303. Mounting base. Detailed Implementation

[0025] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0026] For the first embodiment, please refer to... Figure 1-5 The present invention provides a technical solution: A linear light with a freely combinable structure and uniform light distribution, comprising: A strip light fixture 1, and a splicing assembly 2 installed on the end of the surface of the strip light fixture 1; The strip light fixture 1 includes a lampshade 101 and a connecting hook 102. The connecting hook 102 is fixedly installed on the surface of the lampshade 101. A cover assembly 103 is installed at the ends of both sides of the surface of the lampshade 101. A lamp plate 104 is detachably fixedly installed in the middle of the inner cavity of the lampshade 101. An LED bead 105 is installed at the bottom of the lamp plate 104. A controller 106 is installed at the top of the lamp plate 104. The LED bead 105 is electrically connected to the controller 106. Under the control of the controller 106, the LED bead 105 is powered on and emits light. The light passes through the lampshade 101 for illumination. The lamp plate 104 supports the controller 106 and the LED bead 105, so that the controller 106 and the LED bead 105 are suspended, which facilitates the dissipation of heat generated by the controller 106 and the LED bead 105 after they are powered on. The lamp panel 104 passes through the center of the lamp cover 101, the LED beads 105 are evenly distributed on the bottom of the lamp panel 104, and the controller 106 is installed directly above the lamp panel 104.

[0027] The cover assembly 103 includes a sealing piece 1031, which is snapped onto the outer end face of the lampshade 101. A rectangular opening 1032 is provided in the middle of the surface of the sealing piece 1031, and a rectangular baffle 1033 is installed inside the rectangular opening 1032 on the surface of the sealing piece 1031.

[0028] The protrusions on the surface of the sealing piece 1031 fit against the inner side of the lampshade 101, and the edge of the rectangular baffle 1033 fits against the inner wall of the rectangular opening 1032, which facilitates the sealing of external dust and impurities and reduces the entry of external dust and impurities into the interior of the lampshade 101.

[0029] The second embodiment is based on the first embodiment; please refer to [link / reference]. Figures 1 to 7 As shown: The splicing component 2 includes a square base shell 201 and a square cover 202. The square base shell 201 is installed at the end of the surface of the lampshade 101. A glass sheet 203 is fixedly installed at the bottom of the square base shell 201. A rectangular connecting cylinder 204 is fixedly installed at the middle of the surface of the square base shell 201. The end of the surface of the lampshade 101 extends into the interior of the rectangular connecting cylinder 204. The square cover 202 is fitted onto the surface of the rectangular connecting cylinder 204 and is located away from one end of the square base shell 201. A reflector 205 is fixedly installed at the top of the inner cavity of the square base shell 201. A limit block 206 is fixedly installed on the side of the top of the inner cavity of the rectangular connecting cylinder 204. The support legs at the top of the square base shell 201 provide stability. By installing it in the designated position, the square base shell 201 can be positioned, and the end of the lampshade 101 can be inserted into the inside of the rectangular connecting tube 204 to initially limit the position of the lampshade 101. At the same time, the rectangular baffle 1033 on the sealing assembly 103 at one end of the lampshade 101 inserted into the rectangular connecting tube 204 can be removed, and the end of the lampshade 101 can be fixed to the rectangular connecting tube 204 with screws to prevent loosening. The individual lampshade 101 and the rectangular connecting tube 204 can then be spliced ​​together. The rectangular connecting tubes 204 evenly distributed on the surface of the square base shell 201 can be spliced ​​together with the lampshade 101, so that arbitrary splicing can be achieved and the overall use of the lamp can be flexible.

[0030] The lampshade 101 is installed horizontally, and the connecting hooks 102 are evenly distributed on the top of the lampshade 101. There are four lampshades 101, and the four lampshades 101 are evenly distributed on the surface of the square base shell 201. The end caps 103 are installed at both ends of the lampshade 101, and the sealing pieces 1031 support the ends of the lampshade 101. When the lampshade 101 is spliced ​​with the rectangular connecting tube 204, the strength of the two ends of the lampshade 101 is improved, and it is not easy to bend or deform. This facilitates quick splicing and makes the splicing of the lampshade 101 and the rectangular connecting tube 204 smooth.

[0031] There are four rectangular connecting cylinders 204, which are evenly distributed on the surface of the square base shell 201. The rectangular connecting cylinders 204 are connected to the square base shell 201. The end of the lampshade 101 is fixedly installed to the rectangular connecting cylinder 204 by screws. The end face of the lampshade 101 inserted into the rectangular connecting cylinder 204 is in contact with the surface of the limiting block 206, which can limit the lampshade 101. This ensures that the length of the lampshade 101 reserved outside the rectangular connecting cylinder 204 is the same, which not only helps to quickly and accurately splice, but also ensures that the light emitted from the LED beads 105 is evenly distributed due to the same reserved length.

[0032] The reflector 205 is hemispherical and is installed in the middle of the inner cavity of the square base shell 201. This facilitates the reflection of light coming from all directions, thereby promoting the passage of the reflected light through the glass plate 203, which is installed directly below the reflector 205.

[0033] By removing the rectangular baffle 1033 at one end of the lampshade 101 inserted into the rectangular connecting cylinder 204, when the LED bead 105 emits light, the light passes through the rectangular opening 1032 and shines on the surface of the reflector 205. The reflector 205 is hemispherical, which realizes the directional convergence and uniform reflection of light, greatly improving the light efficiency. Moreover, the light reflected by the reflector 205 passes through the glass plate 203, making the bottom of the square base shell 201 bright. Compared with the ordinary assembly connectors of the prior art, which cannot reflect light to make it brighter, the reflective light forms a regular light field distribution by relying on the characteristics of the hemispherical curved surface structure, which is suitable for linear lights, strip lighting, display case lights and other scenarios that require directional supplementary light and uniform light.

[0034] The third embodiment is based on the first and second embodiments; please refer to [link / reference]. Figures 1 to 8 As shown: The top of the lampshade 101 is equipped with an assembled fixing connection assembly 3, which includes a strip-shaped hanging plate 301. The strip-shaped hanging plate 301 is slidably installed at the connecting hook 102 on the top of the lampshade 101. A long strip 302 is fixedly installed on the top edge of the surface of the strip-shaped hanging plate 301. A mounting base 303 is slidably installed on the top of the strip-shaped hanging plate 301 through the long strip 302. The mounting base 303 is fixedly installed in a designated position, and the mounting bases 303 are evenly distributed around the square base shell 201, and the strip-shaped hanging plate 301 and the long strip 302 are fixedly installed in the designated position. Sliding installation of 302 and mounting base 303, so that mounting base 303 is evenly distributed on the top of strip hanging plate 301, can be fixed by screws to fix the long strip 302 and mounting base 303, and the assembly of the modular fixed connection component 3 is completed. The assembly is convenient. Then, hook the connecting hook 102 on the top of lampshade 101 to the bottom of strip hanging plate 301 and push lampshade 101 to move it closer to square base shell 201. Then, one end of the rectangular baffle 1033 of lampshade 101 can be removed and inserted into the inside of rectangular connecting cylinder 204.

[0035] The strip mounting plate 301 is installed directly above the lampshade 101, and the surface of the strip mounting plate 301 is fixed to the connecting hook 102 by screws.

[0036] The inner side of the mounting base 303 is in contact with the surface of the elongated piece 302 and the top of the strip hanging plate 301. The mounting base 303 and the elongated piece 302 are fixedly installed by screws.

[0037] In use, the square base shell 201 is first fixedly installed in the designated position using the support legs on the top of the square base shell 201. Then, the mounting base 303 is fixedly installed in the designated position, and the mounting base 303 is evenly distributed around the square base shell 201. The strip hanging plate 301 and the long strip piece 302 are slidably installed with the mounting base 303, so that the mounting base 303 is evenly distributed on the top of the strip hanging plate 301. The long strip piece 302 and the mounting base 303 can then be fixed with screws, and the assembly of the modular fixed connection component 3 is completed. Furthermore, remove the rectangular baffle 1033 on the cover assembly 103 at one end of the lampshade 101 near the square base shell 201, insert the end of the lampshade 101 into the interior of the rectangular connecting tube 204, and the lampshade 101 can be initially positioned. At the same time, remove the rectangular baffle 1033 on the cover assembly 103 at one end of the lampshade 101 inserted into the rectangular connecting tube 204, and fix the end of the lampshade 101 to the rectangular connecting tube 204 with screws to prevent loosening. Then, a single lampshade 101 and rectangular connecting tube 204 can be spliced ​​together. Then, the rectangular connecting tubes 204 evenly distributed on the surface of the square base shell 201 are spliced ​​together with the lampshade 101, so that arbitrary splicing can be achieved. Furthermore, by installing capping components 103 at both ends of the lampshade 101, the sealing pieces 1031 support the ports of the lampshade 101, thereby increasing the strength of both ends of the lampshade 101 when splicing it with the rectangular connecting tube 204, making it less prone to bending and deformation, thus facilitating rapid splicing and ensuring smooth splicing of the lampshade 101 and the rectangular connecting tube 204. After the linear lights are assembled and installed, the LED beads 105 are electrically connected to the controller 106. Under the control of the controller 106, the LED beads 105 are powered on and emit light. The light passes through the lamp cover 101 for illumination. The controller 106 and the LED beads 105 are supported by the lamp board 104, so that the controller 106 and the LED beads 105 are suspended in the air, which facilitates the dissipation of the heat generated by the controller 106 and the LED beads 105 after they are powered on. Moreover, the end face of the lampshade 101 inserted into the rectangular connecting tube 204 is in contact with the surface of the limiting block 206, which can limit the lampshade 101, so that the lampshade 101 reserved outside the rectangular connecting tube 204 has the same length. This not only helps to quickly and accurately splice, but also ensures that the light distribution at the LED beads 105 is uniform with the same reserved length. Meanwhile, when the LED bead 105 emits light, the light passes through the rectangular opening 1032 and shines on the surface of the reflector 205. The reflector 205 is hemispherical, which realizes the directional convergence and uniform reflection of light, greatly improving the light efficiency. Moreover, the light reflected by the reflector 205 passes through the glass plate 203, making the bottom of the square base shell 201 bright. Compared with the ordinary assembly connectors of the existing technology, which cannot reflect light to make it bright, the reflective light forms a regular light field distribution based on the characteristics of the hemispherical curved surface structure, which is suitable for linear lights, strip lighting, display case lights and other scenarios that require directional supplementary light and uniform light.

[0038] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such a process, method, article, or apparatus. Without further limitations, an element defined by the phrase "comprising one..." does not exclude the presence of other identical elements in the process, method, article, or apparatus that includes said element.

[0039] Although embodiments of the invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A linear light with a freely combinable structure and uniform light distribution, characterized in that, include: A strip light fixture (1), and a splicing assembly (2) mounted on the end of the surface of the strip light fixture (1); The strip light fixture (1) includes a lampshade (101) and a connecting hook (102). The connecting hook (102) is fixedly installed on the surface of the lampshade (101). A cover assembly (103) is installed at the ends of both sides of the surface of the lampshade (101). A lamp plate (104) is detachably fixedly installed in the middle of the inner cavity of the lampshade (101). An LED lamp bead (105) is installed at the bottom of the lamp plate (104). A controller (106) is installed at the top of the lamp plate (104). The splicing assembly (2) includes a square base shell (201) and a square cover (202). The square base shell (201) is installed at the end of the surface of the lampshade (101). A glass plate (203) is fixedly installed at the bottom of the square base shell (201). A rectangular connecting cylinder (204) is fixedly installed at the middle of the surface of the square base shell (201). The end of the surface of the lampshade (101) extends into the interior of the rectangular connecting cylinder (204). The square cover (202) is fitted onto the surface of the rectangular connecting cylinder (204) and away from one end of the square base shell (201). A reflector (205) is fixedly installed at the top of the inner cavity of the square base shell (201). A limit block (206) is fixedly installed on the side of the top of the inner cavity of the rectangular connecting cylinder (204).

2. A linear light with a freely combinable structure and uniform light distribution according to claim 1, characterized in that: The lampshade (101) is installed horizontally, and the connecting hooks (102) are evenly distributed on the top of the lampshade (101). There are four lampshades (101), and the four lampshades (101) are evenly distributed on the surface of the square base shell (201).

3. A linear light with a freely combinable structure and uniform light distribution according to claim 1, characterized in that: The lamp panel (104) passes through the center of the lamp cover (101), the LED beads (105) are evenly distributed on the bottom of the lamp panel (104), and the controller (106) is installed directly above the lamp panel (104).

4. A linear light with a freely combinable structure and uniform light distribution according to claim 1, characterized in that: The sealing assembly (103) includes a sealing piece (1031), which is snapped onto the outer end face of the lampshade (101). A rectangular opening (1032) is provided in the middle of the surface of the sealing piece (1031), and a rectangular baffle (1033) is installed inside the rectangular opening (1032) on the surface of the sealing piece (1031).

5. A linear light with a freely combinable structure and uniform light distribution according to claim 4, characterized in that: The protrusions on the surface of the sealing piece (1031) are in contact with the inner side of the lampshade (101), and the edge of the surface of the rectangular baffle (1033) is in contact with the inner wall of the rectangular opening (1032).

6. A linear light with a freely combinable structure and uniform light distribution according to claim 1, characterized in that: There are four rectangular connecting cylinders (204), and the four rectangular connecting cylinders (204) are evenly distributed on the surface of the square base shell (201). The rectangular connecting cylinders (204) are connected to the square base shell (201). The end of the lampshade (101) is fixedly installed between the rectangular connecting cylinders (204) by screws.

7. A linear light with a freely combinable structure and uniform light distribution according to claim 1, characterized in that: The reflector (205) is hemispherical and is installed in the middle of the inner cavity of the square base shell (201). The glass plate (203) is installed directly below the reflector (205).

8. A linear light with a freely combinable structure and uniform light distribution according to claim 1, characterized in that: The top of the lampshade (101) is equipped with an assembly-type fixed connection component (3), which includes a strip-shaped hanging plate (301). The strip-shaped hanging plate (301) is slidably installed on the connection hook (102) on the top of the lampshade (101). A long strip (302) is fixedly installed on the side of the top of the surface of the strip-shaped hanging plate (301). A mounting base (303) is slidably installed on the top of the strip-shaped hanging plate (301) through the long strip (302).

9. A linear light with a freely combinable structure and uniform light distribution according to claim 8, characterized in that: The strip mounting plate (301) is installed directly above the lampshade (101), and the surface of the strip mounting plate (301) is fixed to the connecting hook (102) by screws.

10. A linear light with a freely combinable structure and uniform light distribution according to claim 8, characterized in that: The inner side of the mounting base (303) is in contact with the surface of the elongated piece (302) and the top of the strip hanging plate (301), and the mounting base (303) and the elongated piece (302) are fixedly installed by screws.