Lighting roof adjusting device for mobile cabin

By introducing sliding shading plates and water removal plates into the skylight device, and using a servo motor to drive the threaded rod to achieve automatic shading and rainwater removal, the problem of rainwater residue in rainy areas is solved, and light transmission and safety are improved.

CN224379731UActive Publication Date: 2026-06-19XINGSHU TECH CONSTR (HUBEI) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XINGSHU TECH CONSTR (HUBEI) CO LTD
Filing Date
2025-06-23
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing skylight devices for mobile cabins suffer from reduced light transmittance due to residual rainwater in rainy areas, requiring manual cleaning, which is time-consuming, labor-intensive, and dangerous for working at heights.

Method used

It employs sliding light-blocking and water-removing plates, with a servo motor driving a threaded rod to move the light-blocking and water-removing plates, thereby automatically adjusting the degree of light blocking and removing rainwater, and using a scraper to remove rainwater from the glass.

Benefits of technology

It achieves automated rainwater removal, avoiding the hassle of manual cleaning and improving light transmittance and safety.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses a light window adjusting device for mobile cabin relates to light window adjusting device technical field, include: mobile cabin roof board, water removal board and second drive unit second drive unit is used for driving water removal board. This light window adjusting device for mobile cabin sets up the light shield of being able to slide on the light glass and water removal board, and first drive unit and second drive unit can drive light shield and water removal board, and light shield is convenient for adjusting the light shielding degree, when the rainwater is left on the light glass, and the scraper of water removal board bottom can clear up rainwater in time, and effectively prevent its on the light glass form water mark influence the light transmittance of light glass.
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Description

Technical Field

[0001] This utility model relates to the technical field of skylight adjustment devices, specifically a skylight adjustment device for mobile cabins. Background Technology

[0002] In the modern context, the mobile cabin skylight adjustment device combines intelligence and convenience. It uses special materials with high strength and excellent light transmission, and has heat insulation and radiation protection functions. It not only meets the lighting needs of the cabin, but also ensures comfort and safety, creating an ideal light environment for the mobile cabin.

[0003] Existing skylight adjustment devices for mobile cabins mostly operate on the principle of a motor driving a screw or gear to adjust the position of the sunshade, allowing for different levels of shading and user-customizable adjustments. However, in rainy areas, rainwater remains on the skylight glass, affecting its light transmittance and requiring manual cleaning with tools. This is time-consuming, labor-intensive, and poses a high risk of danger when working outdoors at heights. To address these shortcomings, this invention provides a skylight adjustment device for mobile cabins to solve the aforementioned problems. Utility Model Content

[0004] To address the shortcomings of existing technologies, this utility model provides a skylight adjustment device for mobile cabins, which solves the problem that in some rainy areas, rainwater remains on the skylight glass, affecting the light transmittance of the skylight glass and requiring manual cleaning with tools.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a skylight adjustment device for a mobile cabin, comprising:

[0006] The top panel of the mobile cabin has a first track body and a cavity inside, and a water outlet is provided inside the first track body;

[0007] The water removal plate is slidably connected inside the cavity;

[0008] The second drive unit includes a second servo motor disposed on one side of the top plate of the mobile cabin. The output end of the second servo motor is fixedly connected to a second threaded rod. The second threaded rod is threadedly connected to the second track block. The second drive unit is used to drive the dewatering plate.

[0009] Preferably, a light-shielding plate is slidably connected inside the cavity, and first track blocks are fixedly connected to both sides of the light-shielding plate. The first track blocks are slidably connected inside the first track body. A second track body is provided inside the light-shielding plate, and protrusions are fixedly connected to the light-shielding plate.

[0010] Preferably, a first driving unit is provided inside the top panel of the mobile cabin. The first driving unit is used to drive the light-shielding plate, and the first driving unit includes:

[0011] The first servo motor is located on one side of the top plate of the mobile cabin;

[0012] The first threaded rod is fixedly connected to the output end of the first servo motor, and the first threaded rod is threadedly connected to the first track block.

[0013] Preferably, the top plate of the mobile cabin is provided with a card slot.

[0014] Preferably, a plurality of scrapers are fixedly connected to the bottom of the dewatering plate, and a second track block is fixedly connected to the dewatering plate, the second track block being slidably connected within the second track body.

[0015] Preferably, a light-transmitting glass is fixedly connected inside the roof panel of the mobile cabin.

[0016] This utility model discloses a skylight adjustment device for mobile cabins, which has the following beneficial effects:

[0017] The mobile cabin uses a skylight adjustment device, which employs a sliding light-shielding plate and a water-removing plate on the skylight glass. The first drive unit and the second drive unit can drive the light-shielding plate and the water-removing plate. The light-shielding plate makes it easy to adjust the degree of light blocking. When rainwater remains on the skylight glass, the scraper at the bottom of the water-removing plate can remove the rainwater in time, effectively preventing water stains from forming on the skylight glass and affecting the light transmittance of the skylight glass. Attached Figure Description

[0018] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0019] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0020] Figure 2 This is a schematic diagram of the second drive unit structure of this utility model;

[0021] Figure 3 This is a schematic diagram of the first driving unit structure of this utility model.

[0022] In the diagram: 1. Top plate of the mobile cabin; 11. First track body; 111. Water outlet; 12. Slot; 13. Cavity; 2. Light-transmitting glass; 3. Light-shielding plate; 31. Second track body; 32. First track block; 33. Protruding block; 4. Water removal plate; 41. Second track block; 42. Scraper; 5. First drive unit; 51. First servo motor; 52. First threaded rod; 6. Second drive unit; 61. Second servo motor; 62. Second threaded rod. Detailed Implementation

[0023] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions in the embodiments of this utility model are described clearly and completely. Obviously, the described embodiments are only some embodiments of this utility model, not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the protection scope of this utility model.

[0024] This application embodiment provides a skylight adjustment device for mobile cabins, which solves the problem that in some rainy areas, rainwater remains on the skylight glass 2, affecting the light transmittance of the skylight glass 2 and requiring manual cleaning with tools. It achieves this by setting a sliding light-shielding plate 3 and a water-removing plate 4 on the skylight glass 2. The first driving unit 5 and the second driving unit 6 can drive the light-shielding plate 3 and the water-removing plate 4. The light-shielding plate 3 is easy to adjust the degree of light blocking. When rainwater remains on the skylight glass 2, the scraper 42 at the bottom of the water-removing plate 4 can remove the rainwater in time, effectively preventing water stains from forming on the skylight glass 2 and affecting the light transmittance of the skylight glass 2.

[0025] To better understand the above technical solutions, the following will provide a detailed explanation of the technical solutions in conjunction with the accompanying drawings and specific implementation methods.

[0026] This utility model discloses a skylight adjustment device for a mobile cabin.

[0027] Example 1: According to the appendix Figure 1-3 As shown, it includes:

[0028] The movable cabin top plate 1 has a first track body 11 and a cavity 13 inside. The first track body 11 has a water outlet 111 inside. The movable cabin top plate 1 serves as the supporting structure for the entire skylight adjustment device.

[0029] The water removal plate 4 is slidably connected inside the cavity 13;

[0030] The second drive unit 6 includes a second servo motor 61 disposed on one side of the top plate 1 of the mobile cabin. The output end of the second servo motor 61 is fixedly connected to a second threaded rod 62. The second threaded rod 62 is threadedly connected to the second track block 41. The second drive unit 6 is used to drive the dewatering plate 4.

[0031] A light-shielding plate 3 is slidably connected inside the cavity 13. A first track block 32 is fixedly connected to both sides of the light-shielding plate 3. The first track block 32 is slidably connected inside the first track body 11. A second track body 31 is provided inside the light-shielding plate 3. A protruding block 33 is fixedly connected to the light-shielding plate 3.

[0032] A first drive unit 5 is installed inside the top plate 1 of the mobile cabin. The first drive unit 5 is used to drive the light shield 3. The first drive unit 5 includes:

[0033] The first servo motor 51 is located on one side of the top plate 1 of the mobile cabin;

[0034] The first threaded rod 52 is fixedly connected to the output end of the first servo motor 51, and the first threaded rod 52 is threadedly connected to the first track block 32.

[0035] The top panel 1 of the mobile cabin is equipped with a card slot 12.

[0036] A translucent glass 2 is fixedly connected inside the roof panel 1 of the mobile cabin.

[0037] The mobile cabin top plate 1 is installed and fixed on the top of the mobile cabin. The light-transmitting glass 2 is in the normal light-transmitting position. The light-shielding plate 3 and the water-removing plate 4 are both in the state of not blocking the light-transmitting glass 2. They are located in the cavity 13 position of the mobile cabin top plate 1. The first threaded rod 52 is driven to rotate by the first servo motor 51 in the first drive unit 5. The first threaded rod 52 is threadedly connected to the first track block 32, which facilitates the movement of the light-shielding plate 3 fixedly connected to it on the light-transmitting glass 2 to achieve the purpose of light blocking.

[0038] Example 2: According to the appendix Figure 1-3 As shown, it includes:

[0039] The movable cabin top plate 1 has a first track body 11 and a cavity 13 inside. The first track body 11 has a water outlet 111 inside. The movable cabin top plate 1 serves as the supporting structure for the entire skylight adjustment device.

[0040] The water removal plate 4 is slidably connected inside the cavity 13;

[0041] The second drive unit 6 includes a second servo motor 61 disposed on one side of the top plate 1 of the mobile cabin. The output end of the second servo motor 61 is fixedly connected to a second threaded rod 62. The second threaded rod 62 is threadedly connected to the second track block 41. The second drive unit 6 is used to drive the dewatering plate 4.

[0042] A light-shielding plate 3 is slidably connected inside the cavity 13. A first track block 32 is fixedly connected to both sides of the light-shielding plate 3. The first track block 32 is slidably connected inside the first track body 11. A second track body 31 is provided inside the light-shielding plate 3. A protruding block 33 is fixedly connected to the light-shielding plate 3.

[0043] Multiple scrapers 42 are fixedly connected to the bottom of the water removal plate 4, and a second track block 41 is fixedly connected to the water removal plate 4. The second track block 41 is slidably connected to the second track body 31.

[0044] When rainwater remains on the skylight 2, the scraper 42 at the bottom of the water removal plate 4 can remove the rainwater in time, effectively preventing water stains from forming on the skylight 2 and affecting its light transmittance. First, the second servo motor 61 in the second drive unit 6 drives the second threaded rod 62 to rotate. The second threaded rod 62 is threadedly connected to the second track block 41, which facilitates the movement of the water removal plate 4 fixedly connected to it on the skylight 2. The scraper 42 at the bottom of the water removal plate 4 abuts against the skylight 2, which facilitates the removal of water on it into the first track body 11, so that it can flow out from the water outlet 111, effectively preventing water stains from forming on the skylight 2 and affecting its light transmittance.

[0045] The foregoing has shown and described the basic principles, main features, and advantages of this utility model. Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of the claims. The scope of protection of this utility model is defined by the appended claims and their equivalents.

Claims

1. A skylight adjustment device for a mobile cabin, characterized in that, include: The mobile cabin top plate (1) is provided with a first track body (11) and a cavity (13) inside, and a water outlet (111) is provided inside the first track body (11). The water removal plate (4) is slidably connected to the cavity (13); The second drive unit (6) includes a second servo motor (61) disposed on one side of the top plate (1) of the mobile cabin. The output end of the second servo motor (61) is fixedly connected to a second threaded rod (62). The second threaded rod (62) is threadedly connected to the second track block (41). The second drive unit (6) is used to drive the dewatering plate (4).

2. The adjustable skylight for a mobile cabin according to claim 1, characterized in that, A light-shielding plate (3) is slidably connected inside the cavity (13). A first track block (32) is fixedly connected to both sides of the light-shielding plate (3). The first track block (32) is slidably connected inside the first track body (11). A second track body (31) is provided inside the light-shielding plate (3). A protruding block (33) is fixedly connected to the light-shielding plate (3).

3. The adjustable skylight for a mobile cabin according to claim 1, characterized in that, A first drive unit (5) is provided inside the top plate (1) of the mobile cabin. The first drive unit (5) is used to drive the light shield (3). The first drive unit (5) includes: The first servo motor (51) is located on one side of the top plate (1) of the mobile cabin; The first threaded rod (52) is fixedly connected to the output end of the first servo motor (51), and the first threaded rod (52) is threadedly connected to the first track block (32).

4. The light-transmitting skylight adjustment device for a mobile cabin according to claim 1, characterized in that, The mobile cabin top plate (1) is provided with a slot (12).

5. The adjustable skylight for a mobile cabin according to claim 2, characterized in that, The bottom of the dewatering plate (4) is fixedly connected to multiple scrapers (42), and a second track block (41) is fixedly connected to the dewatering plate (4). The second track block (41) is slidably connected to the second track body (31).

6. The adjustable skylight for a mobile cabin according to claim 1, characterized in that, A light-transmitting glass (2) is fixedly connected inside the top panel (1) of the mobile cabin.