Protective equipment for RTK surveying equipment in rainy weather
By designing the arc-shaped airbag assembly and the height adjustment assembly, the waterproofing and heat dissipation issues of the RTK measurement equipment during rainy weather operations have been solved, achieving stable operation and adaptability to various environments, and improving the safety and reliability of the equipment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 王乙丁
- Filing Date
- 2025-07-30
- Publication Date
- 2026-06-23
AI Technical Summary
Existing RTK measurement equipment is not waterproof when operating in rainy weather, is easily affected by wind and rain, and lacks heat dissipation function, which affects measurement accuracy and stability, making it difficult to adapt to the fixed requirements of different operating scenarios.
It adopts an arc-shaped airbag assembly, including a ring-shaped support airbag, an arc-shaped support airbag, and an arc-shaped rainproof airbag. By inflating, it forms a stable support structure. Combined with height adjustment components and installation fixing components, it achieves multiple protections and flexible installation.
It enhances the equipment's resistance to wind and rain, ensures a sealed protective space, allows for timely drainage, adapts to different operating scenarios, improves the equipment's stability and reliability, and extends its service life.
Smart Images

Figure CN224401838U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of measurement equipment protection technology, and in particular to a protective equipment for RTK measurement equipment operating in rainy weather. Background Technology
[0002] RTK surveying equipment, as a high-precision measuring instrument, is widely used in engineering surveying, topographic mapping and other fields. However, when operating in rainy weather, rainwater can easily penetrate the inside of the equipment, affecting its normal operation, damaging electronic components and shortening its service life.
[0003] Existing protective measures mostly involve covering with ordinary waterproof cloth, which has poor waterproof effect and cannot effectively fix the equipment. In heavy wind and rain, it is easily blown away, causing rainwater to seep in. At the same time, ordinary protective equipment lacks heat dissipation function, and internal heat accumulates when the equipment is working for a long time, affecting the measurement accuracy and stability. In addition, some protective equipment has a fixed structure, which makes it difficult to adapt to the height and installation requirements of different working scenarios, resulting in poor flexibility of use.
[0004] Therefore, this utility model proposes a protective equipment for RTK measurement equipment to operate in rainy weather. Utility Model Content
[0005] The purpose of this invention is to address the shortcomings of existing technologies and to propose a protective device for RTK measurement equipment operating in rainy weather.
[0006] To achieve the above objectives, this utility model adopts the following technical solution: a protective equipment for RTK measurement equipment operating in rainy weather, comprising an arc-shaped airbag assembly, the arc-shaped airbag assembly being composed of an arc-shaped rainproof airbag, and further comprising:
[0007] The top of the arc-shaped rainproof airbag is provided with an annular support airbag and an arc-shaped support airbag in sequence. There are multiple arc-shaped support airbags, and the included angle between two adjacent arc-shaped support airbags is equal. The annular support airbag and the arc-shaped support airbag are interconnected. The top of the arc-shaped support airbag is fixedly connected to a first air inlet valve.
[0008] Furthermore, the annular support airbag and the arc-shaped support airbag are adapted to the top of the arc-shaped rainproof airbag, and a second air inlet valve is fixedly connected to one side of the arc-shaped rainproof airbag. A drain pipe connected to the top is provided on the second air inlet valve.
[0009] The beneficial effects of adopting the above-mentioned further solutions are as follows: the annular support airbag and the arc-shaped support airbag are adapted to the top of the arc-shaped rainproof airbag. After inflation, they can stably support the top, enhancing the overall structure's resistance to wind and rain. The arc-shaped rainproof airbag is inflated through the second air inlet valve to form a sealed protective space, preventing rainwater from entering. The drain pipe is connected to the top, which can drain the water accumulated on the top in time, avoiding rainwater retention and leakage. The multiple designs improve the equipment's protective reliability during rainy weather operations, and the structure has strong adaptability, ensuring stable operation of the equipment.
[0010] Furthermore, the bottom of the arc-shaped rainproof airbag is provided with a threaded rod, and a height adjustment component is provided on the threaded rod. The height adjustment component consists of a rotating adapter disk threaded to the threaded rod and a sleeve frame. The rotating adapter disk is rotatably connected to the top of the sleeve frame. The bottom of the sleeve frame is provided with an annular mounting bracket, and the bottom of the annular mounting bracket is provided with a mounting plate.
[0011] The beneficial effects of adopting the above-mentioned further solution are as follows: the threaded rod at the bottom of the arc-shaped rainproof airbag cooperates with the height adjustment component, and the rotating adapter can drive the threaded rod to rise and fall by rotating the adapter plate, so as to flexibly adjust the height of the protective structure and adapt to the needs of different operating scenarios. The sleeve frame, the ring mounting frame, and the mounting plate form a stable support system to ensure structural stability when adjusting the height. This design not only improves the equipment's adaptability to diverse operating environments, but also ensures the reliability of the overall structure when providing rain protection.
[0012] Furthermore, an installation and fixing assembly is provided on the annular mounting bracket below the sleeve bracket. The installation and fixing assembly consists of a connecting seat and a cross slide rod that penetrates the mounting plate. A sliding sleeve is slidably connected to the cross slide rod. There are four sliding sleeves in total, and the four sliding sleeves are arranged in a cross shape.
[0013] The beneficial effects of adopting the above-mentioned further solution are as follows: the mounting and fixing components under the ring mounting frame can flexibly adjust the positions of the four cross-shaped sliding sleeves according to the characteristics of the support structure through the sliding cooperation of the cross slide rod and the sliding sleeve, so as to realize multi-directional fixing point adjustment. This design enables the protective equipment to adapt to support structures of different shapes and sizes, enhances the flexibility and adaptability of installation, ensures rapid and stable installation in complex working environments, and improves overall stability and reliability.
[0014] Furthermore, the bottom of the sliding sleeve is provided with a right-angle mounting bracket, which is an L-shaped structure, with the vertical ends of two mutually symmetrical right-angle mounting brackets being far apart from each other.
[0015] The beneficial effects of adopting the above-mentioned further solution are: the L-shaped right-angle mounting bracket at the bottom of the sliding sleeve, through the symmetrical design of the vertical ends being far apart from each other, can form a stable diagonal support on different support structure surfaces. Combined with the flexible sliding of the sliding sleeve, it can quickly adapt to various installation scenarios. This structure not only expands the fixing range, but also balances the force through the symmetrical layout, making the protective equipment more stable in complex environments and improving the overall wind and rain resistance and reliability.
[0016] Furthermore, springs are provided on both sides of the sliding sleeve on the cross slide rod, and the two ends of the springs are connected to the mounting plate and the baffles provided on the cross slide rod.
[0017] The beneficial effects of adopting the above-mentioned further solution are as follows: the springs on the cross slide are located on both sides of the sliding sleeve, and the elastic force can form a stable clamp on the sliding sleeve. When the equipment is subjected to external vibration or displacement, the springs can buffer the impact force, prevent the sliding sleeve from loosening, and ensure the connection between the right-angle mounting bracket and the support structure is stable. This design enhances the seismic resistance and reliability of the installation and fixing, allows the protective equipment to remain stable in complex environments, and improves the overall protection effect.
[0018] Compared with the prior art, the advantages and positive effects of this utility model are as follows:
[0019] In this invention, an annular support airbag is interconnected with multiple arc-shaped support airbags distributed at equal angles. After being inflated through the first air inlet valve at the top, a stable support structure can be formed on the top of the arc-shaped rainproof airbag. This design not only enhances the deformation resistance of the rainproof airbag, but also optimizes the stress distribution by utilizing the synergistic effect of the annular and arc shapes, enabling the protective structure to effectively resist the impact of wind and rain. The evenly distributed support airbags also avoid local stress concentration, extend the overall service life, and improve the safety and reliability of the equipment during rainy weather operations. Attached Figure Description
[0020] Figure 1 This is a front view of the protective equipment for RTK measurement equipment operating in rainy weather according to this utility model;
[0021] Figure 2 This is an exploded view of the protective equipment for RTK measurement equipment operating in rainy weather according to this utility model;
[0022] Figure 3 This is an exploded view of the arc-shaped airbag assembly in the protective equipment for rainy operation of an RTK measurement device according to this utility model.
[0023] Figure 4 This is an exploded view of the installation and fixing components in the protective equipment for rainy operation of an RTK measurement device according to this utility model;
[0024] Figure 5This is a structural diagram of the height adjustment component in the protective equipment for rainy weather operation of an RTK measurement device according to this utility model.
[0025] Figure Labels
[0026] 1. Arc-shaped airbag assembly; 11. Annular support airbag; 12. Arc-shaped support airbag; 13. First air intake valve; 14. Arc-shaped rainproof airbag; 141. Second air intake valve; 15. Drain pipe; 16. Threaded rod;
[0027] 2. Height adjustment assembly; 21. Sleeve bracket; 22. Rotary adapter plate; 23. Annular mounting bracket; 231. Mounting upright plate;
[0028] 3. Mounting and fixing components; 31. Connecting seat; 32. Cross slide bar; 33. Sliding sleeve; 34. Right angle mounting bracket; 35. Spring. Detailed Implementation
[0029] 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.
[0030] like Figure 1-5 As shown, this utility model provides a technical solution: a protective equipment for RTK measurement equipment operating in rainy weather, including an arc-shaped airbag assembly 1, which is composed of an arc-shaped rainproof airbag 14, and further including:
[0031] The top of the arc-shaped rainproof airbag 14 is sequentially provided with annular support airbags 11 and arc-shaped support airbags 12. Multiple arc-shaped support airbags 12 are provided, and the included angle between two adjacent arc-shaped support airbags 12 is equal. The annular support airbags 11 and the arc-shaped support airbags 12 are interconnected. The top of the arc-shaped support airbags 12 is fixedly connected to a first air inlet valve 13. Through the interconnection between the annular support airbags 11 and multiple arc-shaped support airbags 12 distributed at equal included angles, after inflation through the first air inlet valve 13 at the top, a stable support structure can be formed on the top of the arc-shaped rainproof airbag 14. This design not only enhances the deformation resistance of the rainproof airbag, but also optimizes the stress distribution by utilizing the synergistic effect of the annular and arc shapes, so that the protective structure can effectively resist the impact of wind and rain. The evenly distributed support airbags also avoid local stress concentration, extend the overall service life, and improve the safety and reliability of the equipment during rainy weather operations.
[0032] The annular support airbag 11 and the arc-shaped support airbag 12 are adapted to the top of the arc-shaped rainproof airbag 14. A second air inlet valve 141 is fixedly connected to one side of the arc-shaped rainproof airbag 14. A drain pipe 15 connected to the top is provided on the second air inlet valve 141. The annular support airbag 11 and the arc-shaped support airbag 12 are adapted to the top of the arc-shaped rainproof airbag 14. After inflation, they can stably support the top and enhance the overall structure's ability to resist wind and rain. The arc-shaped rainproof airbag 14 is inflated through the second air inlet valve 141 to form a sealed protective space to prevent rainwater from entering. The drain pipe 15 is connected to the top and can drain the water accumulated on the top in time to avoid rainwater retention and leakage. The multiple designs improve the equipment's protective reliability during rainy weather operations, and the structure has strong adaptability to ensure stable operation of the equipment.
[0033] The arc-shaped rainproof airbag 14 has a threaded rod 16 at its bottom, and a height adjustment component 2 is installed on the threaded rod 16. The height adjustment component 2 consists of a rotating adapter 22 threadedly connected to the threaded rod 16 and a sleeve frame 21. The rotating adapter 22 is rotatably connected to the top of the sleeve frame 21. The bottom of the sleeve frame 21 has an annular mounting frame 23, and the bottom of the annular mounting frame 23 has a mounting plate 231. The threaded rod 16 at the bottom of the arc-shaped rainproof airbag 14 cooperates with the height adjustment component 2. Rotating the rotating adapter 22 can drive the threaded rod 16 to rise and fall through the threaded transmission, flexibly adjusting the height of the protective structure to adapt to the needs of different operating scenarios. The sleeve frame 21, the annular mounting frame 23, and the mounting plate 231 form a stable support system to ensure structural stability during height adjustment. This design not only improves the equipment's adaptability to diverse operating environments but also ensures the reliability of the overall structure during rain protection.
[0034] A mounting and fixing assembly 3 is installed on the annular mounting frame 23 below the sleeve frame 21. The mounting and fixing assembly 3 consists of a connecting seat 31 and a cross slide rod 32 that penetrates the mounting upright plate 231. Sliding sleeves 33 are slidably connected to the cross slide rod 32. There are four sliding sleeves 33 in total, and the four sliding sleeves 33 are arranged in a cross shape. The mounting and fixing assembly 3 below the annular mounting frame 23 can flexibly adjust the position of the four cross-shaped sliding sleeves 33 according to the characteristics of the support structure through the sliding cooperation between the cross slide rod 32 and the sliding sleeves 33, so as to realize multi-directional fixing point adjustment. This design enables the protective equipment to adapt to support structures of different shapes and sizes, enhances the flexibility and adaptability of installation, ensures rapid and stable installation in complex working environments, and improves overall stability and reliability.
[0035] The bottom of the sliding sleeve 33 is provided with a right-angle mounting bracket 34. The right-angle mounting bracket 34 has an L-shaped structure, and the vertical ends of the two symmetrical right-angle mounting brackets 34 are far apart from each other. The L-shaped right-angle mounting brackets 34 at the bottom of the sliding sleeve 33 can form stable diagonal support on different support structure surfaces through the symmetrical design of the vertical ends being far apart. Combined with the flexible sliding of the sliding sleeve 33, it can quickly adapt to various installation scenarios. This structure not only expands the fixing range, but also balances the force through the symmetrical layout, making the protective equipment more stable in complex environments and improving the overall wind and rain resistance and reliability.
[0036] Springs 35 are provided on both sides of the sliding sleeve 33 on the cross slide bar 32. The two ends of the springs 35 are connected to the mounting plate 231 and the baffles provided on the cross slide bar 32. The springs 35 on the cross slide bar 32 are located on both sides of the sliding sleeve 33. With the help of elastic force, the sliding sleeve 33 can be stably clamped. When the equipment is subjected to external vibration or displacement, the springs 35 can buffer the impact force and prevent the sliding sleeve 33 from loosening. This ensures that the connection between the right angle mounting bracket 34 and the support structure is stable. This design enhances the seismic resistance and reliability of the installation and fixation, keeps the protective equipment stable in complex environments, and improves the overall protection effect.
[0037] The above description is merely a preferred embodiment of the present utility model and is not intended to limit the present utility model in any other way. Any person skilled in the art may make changes or modifications to the above-disclosed technical content to create equivalent embodiments for application in other fields. However, any simple modifications, equivalent changes, and modifications made to the above embodiments based on the technical essence of the present utility model without departing from the technical solution of the present utility model shall still fall within the protection scope of the technical solution of the present utility model.
Claims
1. A protective device for RTK measurement equipment operating in rainy weather, comprising an arc-shaped airbag assembly (1), wherein the arc-shaped airbag assembly (1) is composed of an arc-shaped rainproof airbag (14), characterized in that, Also includes: The top of the arc-shaped rainproof airbag (14) is provided with an annular support airbag (11) and an arc-shaped support airbag (12) in sequence. There are multiple arc-shaped support airbags (12), and the included angle between two adjacent arc-shaped support airbags (12) is equal. The annular support airbag (11) and the arc-shaped support airbag (12) are interconnected. The top of the arc-shaped support airbag (12) is fixedly connected to a first air inlet valve (13).
2. The protective equipment for RTK measurement equipment operating in rainy weather according to claim 1, characterized in that: The annular support airbag (11) and the arc-shaped support airbag (12) are adapted to the top of the arc-shaped rainproof airbag (14). A second air inlet valve (141) is fixedly connected to one side of the arc-shaped rainproof airbag (14), and a drain pipe (15) connected to the top is provided on the second air inlet valve (141).
3. The protective equipment for RTK measurement equipment operating in rainy weather according to claim 1, characterized in that: The bottom of the arc-shaped rainproof airbag (14) is provided with a threaded rod (16), and a height adjustment component (2) is provided on the threaded rod (16). The height adjustment component (2) consists of a rotating adapter (22) threadedly connected to the threaded rod (16) and a sleeve frame (21). The rotating adapter (22) is rotatably connected to the top of the sleeve frame (21). The bottom of the sleeve frame (21) is provided with an annular mounting frame (23), and the bottom of the annular mounting frame (23) is provided with a mounting plate (231).
4. The protective equipment for RTK measurement equipment operating in rainy weather according to claim 3, characterized in that: The annular mounting bracket (23) is provided with a mounting and fixing component (3) located below the sleeve bracket (21). The mounting and fixing component (3) consists of a connecting seat (31) and a cross slide rod (32) that passes through the mounting plate (231). A sliding sleeve (33) is slidably connected to the cross slide rod (32). There are four sliding sleeves (33) in total, and the four sliding sleeves (33) are arranged in a cross shape.
5. The protective equipment for RTK measurement equipment operating in rainy weather according to claim 4, characterized in that: The bottom of the sliding sleeve (33) is provided with a right-angle mounting bracket (34), which is an L-shaped structure, and the vertical ends of the two right-angle mounting brackets (34) that are symmetrical to each other are far apart.
6. The protective equipment for RTK measurement equipment operating in rainy weather according to claim 5, characterized in that: Springs (35) are provided on both sides of the sliding sleeve (33) on the cross slide rod (32), and the two ends of the springs (35) are connected to the mounting plate (231) and the baffles provided on the cross slide rod (32).