An all-around automatic floodlight
Through the design of casters, support mechanisms, and angle adjustment mechanisms, the omnidirectional automatic floodlight achieves flexible movement, stable support, and height adjustment, overcoming the limitations of traditional lighting equipment in different directions and on uneven ground, and improving the lighting effect for outdoor operations.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUAZHOU TECH (GUANGDONG) CO LTD
- Filing Date
- 2025-07-23
- Publication Date
- 2026-07-03
AI Technical Summary
Traditional lighting equipment is difficult to adjust when illuminating different directions or areas, and it has poor stability on uneven ground, making it easy to tip over and unable to meet the needs of outdoor operations and other scenarios.
The system incorporates casters, a support mechanism, a lifting gas spring, an angle adjustment mechanism, and control equipment to achieve omnidirectional automatic floodlighting, with height adjustment, angle adjustment, and stable support functions.
It improves the mobility, stability, and adaptability of lighting equipment, meets the all-round lighting needs in different scenarios, and extends the service life of the equipment.
Smart Images

Figure CN224454490U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of lighting equipment technology, specifically an all-around automatic floodlight. Background Technology
[0002] In many fields of modern society, such as construction, outdoor work, disaster relief, large-scale event setup, and temporary lighting in remote areas, good lighting conditions are crucial for ensuring smooth work, improving efficiency, and ensuring personnel safety. However, traditional lighting equipment often has many limitations in these scenarios and struggles to meet actual needs.
[0003] 1. Traditional lighting fixtures are usually designed for fixed-angle floodlighting or spotlighting, and once installed, their lighting direction and angle are difficult to adjust. This is extremely inconvenient when different directions or areas need to be illuminated.
[0004] 2. Traditional lighting equipment is less stable on uneven ground or in harsh environments. For example, at outdoor construction sites, the ground may be uneven or muddy, and traditional light fixtures are prone to tipping over when placed, causing lighting interruptions or even damage to the fixtures.
[0005] Therefore, there is an urgent need for an all-around automatic floodlight to solve the above problems. Utility Model Content
[0006] The purpose of this utility model embodiment is to provide an all-around automatic floodlight to solve the problems mentioned in the background art.
[0007] To achieve the above objectives, this utility model provides the following technical solution:
[0008] An omnidirectional automatic floodlight includes a mounting bracket and lighting fixtures, wherein the lighting fixtures are provided in several groups, and further includes:
[0009] The casters are connected to the bottom of the mounting bracket;
[0010] A fixed bracket is connected to the top of the mounting bracket;
[0011] Control device, connected to the top of the mounting bracket;
[0012] The support mechanism, connected to the bottom of the mounting bracket, is used to support the mounting bracket;
[0013] The mounting mechanism is connected to the fixed bracket;
[0014] The lifting air column is connected to the installation mechanism;
[0015] A gasoline engine assembly is connected to a mounting bracket and located inside a fixed bracket; the gasoline engine assembly is used to provide power to the lifting valve.
[0016] The top plate is connected to the top of the lifting air rod;
[0017] An angle adjustment mechanism, with one end connected to the top plate and the other end connected to the lighting fixture, is used to adjust the angle of the lighting fixture.
[0018] As a further embodiment of this utility model: the supporting mechanism includes:
[0019] A fixed frame plate is connected to a mounting bracket, and a locking hole is provided on the fixed frame plate;
[0020] A sliding frame plate is slidably connected to a fixed frame plate, and the sliding frame plate has a second locking hole;
[0021] A pressing rod passes through and is slidably connected to the sliding square plate, and a handle is provided at the top of the pressing rod;
[0022] A suction cup connects to the bottom end of the threaded rod;
[0023] The lever engages with locking holes one and two, and a pull ring is provided at the top of the lever.
[0024] As a further embodiment of this utility model: the mounting mechanism includes:
[0025] The fixing block is connected to the top of the fixing bracket;
[0026] A fixed semi-circle is rotatably connected to a fixed block via a rotating shaft. Two sets of fixed semi-circles are provided and are symmetrically arranged about the lifting air rod. The two sets of fixed semi-circles are connected by bolts.
[0027] The insertion rod connects to the bottom end of the lifting air rod;
[0028] A connecting block is connected to the bottom of a fixed bracket, and the connecting block has an insertion hole.
[0029] The second fixing bolt is threadedly connected to the connecting block and abuts against the insertion rod.
[0030] As a further embodiment of this utility model: the angle adjustment mechanism includes:
[0031] The U-shaped fixing frame is connected to the top plate, and the U-shaped fixing frame is provided in several groups;
[0032] One fixing bolt is threadedly connected to the U-shaped fixing bracket and is fixedly abutted against the side wall of the lighting fixture.
[0033] Compared with the prior art, the beneficial effects of this utility model are:
[0034] Flexible movement: Thanks to the design of the casters, the work light can be easily moved to any area that needs lighting, greatly improving the ease of use of the work light.
[0035] Stable support: The design of the support mechanism ensures that the work light can be stably supported under different ground conditions, avoiding the impact on lighting effect due to uneven ground or swaying of the work light.
[0036] Convenient height adjustment: The combination of the lifting air strut and the gasoline engine unit enables rapid height adjustment of the lighting fixtures, allowing for flexible adjustment of the lighting height according to actual needs and meeting the lighting requirements of different scenarios.
[0037] Flexible angle adjustment: The angle adjustment mechanism allows the lighting fixture to be adjusted in all directions, enabling wide-angle lighting coverage and improving the flexibility and adaptability of the lighting.
[0038] Heat dissipation and protection: The design of the heat sink and Y-shaped support frame not only extends the service life of the lamp, but also protects the lifting mast, improving the reliability and durability of the work light.
[0039] In summary, the omnidirectional automatic floodlight of this invention has advantages such as flexible movement, stable support, convenient height adjustment, flexible angle adjustment, and good heat dissipation and protection performance. It can meet the omnidirectional lighting needs of various scenarios such as outdoor operations, construction sites, and emergency rescue, and has broad application prospects. Attached Figure Description
[0040] Figure 1 This is a schematic diagram of the structure of an all-around automatic floodlight in an embodiment of this utility model.
[0041] Figure 2 for Figure 1 A magnified schematic diagram of the structure at point A in the middle.
[0042] Figure 3 This is a schematic diagram of the support mechanism in an embodiment of the present utility model.
[0043] Figure 4 This is a schematic diagram of the structure of the locking rod in an embodiment of this utility model.
[0044] Figure 5 This is a schematic diagram of the installation mechanism in an embodiment of the present utility model.
[0045] Figure 6 This is a structural breakdown diagram of the installation mechanism in an embodiment of this utility model.
[0046] In the diagram: 1. Mounting bracket; 2. Casters; 3. Fixed bracket; 4. Control equipment; 5. Support mechanism; 6. Installation mechanism; 7. Lifting air column; 8. Gasoline engine assembly; 9. U-shaped fixing bracket; 10. Lighting fixture; 11. Fixing bolt one; 12. Radiator; 13. Y-shaped support frame; 14. Top plate; 51. Fixed square frame plate; 52. Sliding square frame plate; 53. Pressing rod; 54. Suction cup; 55. Clamping rod; 56. Handle; 57. Pull ring; 61. Fixed semi-circle; 62. Fixing block; 63. Rotating shaft; 64. Insert rod; 65. Connecting block; 66. Insertion hole; 67. Fixing bolt two. Detailed Implementation
[0047] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0048] In this embodiment of the utility model, please refer to Figures 1 to 6 An all-around automatic floodlight includes a mounting bracket 1 and a lighting fixture 10, wherein the lighting fixture 10 is provided with several groups, and further includes:
[0049] 2 swivel wheels are connected to the bottom of mounting bracket 1;
[0050] Fixed bracket 3 is connected to the top of mounting bracket 1;
[0051] Control device 4 is connected to the top of mounting bracket 1;
[0052] Support mechanism 5 is connected to the bottom of mounting bracket 1 and is used to support mounting bracket 1;
[0053] The mounting mechanism 6 is connected to the fixed bracket 3;
[0054] The lifting air rod 7 is connected to the installation mechanism 6;
[0055] A gasoline engine assembly 8 is connected to the mounting bracket 1 and located inside the fixed bracket 3. The gasoline engine assembly 8 is used to provide power to the lifting air strut 7.
[0056] Top plate 14 is connected to the top of lifting air rod 7;
[0057] An angle adjustment mechanism is connected at one end to the top plate 14 and at the other end to the lighting fixture 10, and is used to adjust the angle of the lighting fixture 10.
[0058] The equipment is moved as a whole using casters 2. After being moved to the designated position, the support mechanism 5 provides stable support for the mounting bracket 1. The angle of the lighting fixture 10 is adjusted using the angle adjustment mechanism. The gasoline engine 8 is started to provide power to the lifting air strut 7. The extension and retraction of the lifting air strut 7 is controlled by the control device 4 to achieve the height adjustment of the lighting fixture 10. When it is necessary to raise the lighting fixture 10, the control device 4 drives the lifting air strut 7 to extend. When it is necessary to lower the lighting fixture 10, the control device 4 drives the lifting air strut 7 to retract.
[0059] As one embodiment of this utility model, please refer to Figure 1 , Figure 3 and Figure 4 The support mechanism 5 includes:
[0060] A fixed frame plate 51 is connected to the mounting bracket 1, and a locking hole is provided on the fixed frame plate 51;
[0061] A sliding frame plate 52 is slidably connected to a fixed frame plate 51, and a second locking hole is provided on the sliding frame plate 52;
[0062] The pressing rod 53 passes through the sliding square plate 52 and is slidably connected to it. The top of the pressing rod 53 is provided with a handle 56.
[0063] The suction cup 54 is connected to the bottom end of the threaded rod 53;
[0064] The locking rod 55 engages with locking holes one and two, and the top of the locking rod 55 is provided with a pull ring 57.
[0065] The work light can be easily moved to the area requiring illumination using the casters 2. Once in the designated position, the support mechanism 5 provides stable support for the work light. Specifically, the sliding frame plate 52 is slid along the fixed frame plate 51 to the appropriate position. Then, the sliding frame plate 52 is fixed by engaging the locking rod 55 with locking holes one and two. The pressing rod 53 is then pressed downwards, causing the suction cup 54 to contact and adhere to the ground, thus achieving stable support for the mounting bracket 1.
[0066] As one embodiment of this utility model, please refer to Figure 1 , Figure 5 and Figure 6 The mounting mechanism 6 includes:
[0067] The fixing block 62 is connected to the top of the fixing bracket 3;
[0068] A fixed semi-arc 61 is rotatably connected to a fixed block 62 via a rotating shaft 63. Two sets of fixed semi-arcs 61 are provided and are symmetrically arranged about the lifting air rod 7. The two sets of fixed semi-arcs 61 are connected by bolts.
[0069] Insert rod 64 is connected to the bottom end of lifting air rod 7;
[0070] A connecting block 65 is connected to the bottom of the fixed bracket 3, and an insertion hole 66 is provided on the connecting block 65;
[0071] The fixing bolt 67 is threadedly connected to the connecting block 65 and abuts against the insertion rod 64.
[0072] Two sets of fixed semi-circular arcs 61 are fixed to the lifting air rod 7 with bolts. When not in use, the lifting air rod 7 is placed horizontally to reduce the overall size of the equipment and facilitate movement and transportation. When needed, the lifting air rod 7 is placed vertically. During this process, the lifting air rod 7 rotates around the rotating shaft 63, and the insertion rod 64 is inserted into the connecting block 65 through the insertion hole 66. The second fixing bolt 67 is rotated so that the second fixing bolt 67 abuts against the insertion rod 64, thereby fixing the lifting air rod 7.
[0073] As one embodiment of this utility model, please refer to Figure 1 and Figure 2 The angle adjustment mechanism includes:
[0074] The U-shaped fixing frame 9 is connected to the top plate 14, and the U-shaped fixing frame 9 is provided in several groups;
[0075] The fixing bolt 11 is threadedly connected to the U-shaped fixing bracket 9 and is fixedly abutted against the side wall of the lighting fixture 10.
[0076] Loosen the fixing bolt 11, rotate the lighting fixture 10 within the U-shaped fixing bracket 9 to the desired angle, and then tighten the fixing bolt 11 to fix the lighting fixture 10, thereby achieving angle adjustment of the lighting fixture 10.
[0077] As one embodiment of this utility model, please refer to Figure 1 , Figure 2 and Figure 5 It also includes:
[0078] Heat sink 12 is installed on the back of the lighting fixture 10;
[0079] Y-shaped support frame 13, connected to fixed bracket 3, is used to support the horizontally placed lifting air rod 7.
[0080] The lighting fixture 10 generates heat during operation, and the heat sink 12 effectively dissipates the heat, preventing the fixture from being damaged due to overheating and extending its service life. Meanwhile, the Y-shaped support frame 13 provides support and protection for the lifting air column 7 when it is not in operation (i.e., when the lifting air column 7 is in a horizontal position), preventing damage to the lifting air column 7 due to external forces.
[0081] The working principle of this utility model is: two sets of fixed semi-circles 61 are fixed to the lifting air rod 7 by bolts. When not in use, the lifting air rod 7 is placed horizontally, which reduces the overall volume of the equipment and makes it easy to move and transport.
[0082] When using this device, the work light can be easily moved to the area requiring illumination via the casters 2. After reaching the designated position, the sliding frame plate 52 is slid along the fixed frame plate 51 to the appropriate position. Then, the sliding frame plate 52 is fixed by engaging the locking rod 55 with the locking holes 1 and 2. The pressing rod 53 is pressed down to make the suction cup 54 contact the ground and adhere, thereby achieving stable support for the mounting bracket 1. Loosen the fixing bolt 11 and rotate the lighting fixture 10 to the required angle within the U-shaped fixing frame 9. Then tighten the fixing bolt 11 to fix the lighting fixture 10, thereby achieving angle adjustment of the lighting fixture 10. Start the gasoline engine 8 to provide power to the lifting air rod 7. Control the extension and retraction of the lifting air rod 7 through the control device 4 to achieve height adjustment of the lighting fixture 10. When it is necessary to raise the lighting fixture 10, the control device 4 drives the lifting air rod 7 to extend. When it is necessary to lower the lighting fixture 10, the control device 4 drives the lifting air rod 7 to retract, and the lighting fixture 10 provides illumination.
[0083] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.
[0084] Furthermore, it should be understood that although this specification describes embodiments, not every embodiment contains only one independent technical solution. This narrative style is merely for clarity. Those skilled in the art should consider the specification as a whole, and the technical solutions in each embodiment can also be appropriately combined to form other embodiments that can be understood by those skilled in the art.
Claims
1. A full automatic flood working light, comprising a mounting bracket, a lighting lamp, the lighting lamp is provided with several groups, characterized in that, Also includes: The casters are connected to the bottom of the mounting bracket; A fixed bracket is connected to the top of the mounting bracket; Control device, connected to the top of the mounting bracket; The support mechanism, connected to the bottom of the mounting bracket, is used to support the mounting bracket; The mounting mechanism is connected to the fixed bracket; The lifting air column is connected to the installation mechanism; A gasoline engine assembly is connected to a mounting bracket and located inside a fixed bracket; the gasoline engine assembly is used to provide power to the lifting valve. The top plate is connected to the top of the lifting air rod; An angle adjustment mechanism, with one end connected to the top plate and the other end connected to the lighting fixture, is used to adjust the angle of the lighting fixture.
2. A fully automatic flood working light according to claim 1, characterized in that, The supporting structure includes: A fixed frame plate is connected to a mounting bracket, and a locking hole is provided on the fixed frame plate; A sliding frame plate is slidably connected to a fixed frame plate, and the sliding frame plate has a second locking hole; A pressing rod passes through and is slidably connected to the sliding square plate, and a handle is provided at the top of the pressing rod; The suction cup connects to the bottom end of the threaded rod. The lever engages with locking holes one and two, and a pull ring is provided at the top of the lever.
3. The omnidirectional automatic flood working light of claim 1, wherein, The installation mechanism includes: The fixing block is connected to the top of the fixing bracket; A fixed semi-circle is rotatably connected to a fixed block via a rotating shaft. Two sets of fixed semi-circles are provided and are symmetrically arranged about the lifting air rod. The two sets of fixed semi-circles are connected by bolts. The insertion rod connects to the bottom end of the lifting air rod; A connecting block is connected to the bottom of a fixed bracket, and the connecting block has an insertion hole. The second fixing bolt is threadedly connected to the connecting block and abuts against the insertion rod.
4. The omnidirectional automatic flood working light of claim 1, wherein, The angle adjustment mechanism includes: The U-shaped fixing frame is connected to the top plate, and the U-shaped fixing frame is provided in several groups; One fixing bolt is threadedly connected to the U-shaped fixing bracket and is fixedly abutted against the side wall of the lighting fixture.
5. The omnidirectional automatic flood working light of claim 1, wherein, Also includes: Heat sink, installed on the back of the lighting fixture.
6. A fully automatic flood working light according to claim 1, characterized in that, Also includes: The Y-shaped support frame, connected to the fixed bracket, is used to support the horizontally placed lifting air rod.