Attachment engineering maintenance device
By designing auxiliary engineering maintenance devices, the problem of water trucks being unable to spray water evenly in complex terrain has been solved, achieving uniform spraying and simplifying the maintenance process, thus improving the maintenance effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHINA RAILWAY 19TH BUREAU GRP EAST CHINA ENG CO LTD
- Filing Date
- 2025-06-27
- Publication Date
- 2026-06-26
Smart Images

Figure CN224412554U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of engineering construction, and in particular to an auxiliary engineering maintenance device. Background Technology
[0002] As auxiliary projects outside the main project, ancillary works are crucial to ensuring the normal operation of the main project. For example, when carrying out road construction, slope protection, as an ancillary project, directly affects the stability and safety of the entire project due to its construction quality.
[0003] After the completion of concrete ancillary works, water curing is required to ensure construction quality. The main method of water curing is manual watering, such as using water trucks or other equipment to spray water on the area to be cured.
[0004] However, in practice, due to the limitations of various complex terrains, water trucks often find it difficult to effectively maintain all areas of the ancillary works. In addition, the maintenance of concrete ancillary works often takes a long time, during which it is necessary to regularly go to the areas to be maintained to spray water, making the maintenance process cumbersome. Utility Model Content
[0005] This utility model provides an auxiliary engineering maintenance device to solve the defects of poor maintenance effect and difficult and cumbersome maintenance process in the prior art. It has the advantages of better maintenance effect and more convenient and simple maintenance process.
[0006] This utility model provides an auxiliary engineering maintenance device, comprising:
[0007] A maintenance support frame is designed to be placed on the ground of the area to be maintained, and the maintenance support frame covers at least a portion of the area to be maintained above it;
[0008] A spray structure is arranged on the maintenance support, and the spray area of the spray structure covers at least the entire area to be maintained.
[0009] A water supply system is connected to the spray structure and is used to supply water to the spray structure.
[0010] According to the present invention, an auxiliary engineering maintenance device is provided, wherein the maintenance support includes multiple columns and a frame fixedly connected to the top of the columns, and the spray structure is arranged on the frame of the maintenance support.
[0011] According to the present invention, an auxiliary engineering maintenance device is provided, wherein the frame includes multiple connecting rods arranged horizontally and vertically.
[0012] According to the present invention, an auxiliary engineering maintenance device is provided, wherein the spraying structure includes a spray pipe and a nozzle; the spray pipe is connected to the connecting rod and laid along the length of the connecting rod; and there are multiple nozzles connected to the spray pipe.
[0013] According to the auxiliary engineering maintenance device provided by this utility model, the connecting rod is configured as a tubular structure, and the water supply system is connected to the inner cavity of the connecting rod; the spray structure includes a nozzle, and the nozzle is fixedly connected to the connecting rod.
[0014] According to the present invention, an auxiliary engineering maintenance device includes a water supply system comprising a water tank, a water pump, and a water supply pipe; the water tank is used to store water; the inlet of the water pump is connected to the water tank, and the outlet of the water pump is connected to the spray structure through the water supply pipe.
[0015] According to the auxiliary engineering maintenance device provided by this utility model, the water supply system further includes a control unit and a timer;
[0016] The control unit is communicatively connected to the timer and the water pump; the timer is adapted to measure time intervals, and when the measured water pump stop time reaches a first time interval, it sends a spray signal to the control unit, and the control unit controls the water pump to start based on the spray signal.
[0017] According to the auxiliary engineering maintenance device provided by this utility model, when the timer detects that the start time of the water pump has reached the second time interval, it sends a signal to the control unit to stop spraying, and the control unit controls the water pump to shut down.
[0018] According to the present invention, in an auxiliary engineering maintenance device, the spray pipe and the connecting rod are detachably connected by a connector.
[0019] According to the present invention, an auxiliary engineering maintenance device is provided, wherein the connecting component includes a clamp or a binding strap.
[0020] According to the auxiliary engineering maintenance device provided by this utility model, the bottom end of the column is fixedly connected to a base, and the base is fixedly connected to the ground by ground nails.
[0021] The auxiliary engineering maintenance device provided by this utility model, when performing maintenance of concrete auxiliary works such as slope protection projects, firstly erects a maintenance support frame in the area to be maintained, covering at least part of the area to be maintained, so as to provide an installation foundation for the spray structure; then the spray structure is arranged on the maintenance support frame. When maintenance is required, water is supplied to the spray structure using a water supply system, and the spray structure can then spray water to maintain the area. Since the spray structure is arranged above the area to be maintained, its spray area can easily cover at least the entire area to be maintained, allowing for more uniform and comprehensive spraying of all parts of the area, greatly improving the maintenance effect; in addition, there is no need for water trucks to regularly go to the area to be maintained for spraying, making the maintenance process more convenient and simple. Attached Figure Description
[0022] To more clearly illustrate the technical solutions in 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 some embodiments of this utility model. For those skilled in the art, other drawings can be obtained from these drawings without creative effort.
[0023] Figure 1 This is a schematic diagram of the structure of an auxiliary engineering maintenance device provided in one embodiment of the present invention.
[0024] Figure 2 This is a schematic diagram of the structure of an auxiliary engineering maintenance device provided in another embodiment of this utility model.
[0025] Figure label:
[0026] 1. Maintenance support; 10. Column; 11. Connecting rod; 2. Spray structure; 20. Spray pipe; 21. Spray head; 3. Water supply system; 30. Water tank; 31. Water pump; 32. Water supply pipe; 4. Connecting parts. Detailed Implementation
[0027] To make the objectives, technical solutions, and advantages of this utility model clearer, the technical solutions of this utility model will be clearly and completely described below with reference to the accompanying drawings. 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 scope of protection of this utility model.
[0028] To facilitate understanding of the auxiliary engineering maintenance device provided by this utility model, its application background will be introduced first. As an auxiliary supporting project outside the main project, the auxiliary project is crucial to ensuring the normal operation of the main project.
[0029] After the completion of concrete ancillary works, water curing is required to ensure construction quality. The main method of water curing is manual watering, such as using water trucks or other equipment to spray water on the area to be cured.
[0030] In practical work, various complex terrains limit the effectiveness of water spraying. For example, in slope protection projects, the area to be cured is located on the slope surface, where water trucks cannot reach. Water trucks can only spray water from the bottom of the slope to the top to achieve the purpose of curing. However, this method of spraying water is uneven and it is difficult to cover the entire area to be cured, making it difficult to effectively cure the various areas of the ancillary works. In addition, the curing work of concrete ancillary works often lasts for a long period of time, during which it is necessary to regularly go to the area to be cured to spray water, making the curing process cumbersome.
[0031] In view of the above problems, this utility model provides an auxiliary engineering maintenance device, which has the advantages of good maintenance effect and convenient and simple maintenance process.
[0032] The following is combined with Figures 1-2 This invention describes an auxiliary engineering maintenance device.
[0033] Reference Figure 1 and Figure 2 An auxiliary engineering maintenance device includes a maintenance support 1, a spray structure 2, and a water supply system 3; wherein, the maintenance support 1 is suitable for being supported on the ground of the area to be maintained, and the maintenance support 1 covers at least part of the area to be maintained, so as to provide an installation foundation for the spray structure 2; the spray structure 2 is arranged on the maintenance support 1, and the spray area of the spray structure 2 covers at least the entire area to be maintained; the water supply system 3 is connected to the spray structure 2 and is used to supply water to the spray structure 2.
[0034] In a specific application scenario, when performing maintenance on concrete ancillary works such as slope protection, a maintenance support 1 is first erected in the area to be maintained. The maintenance support 1 covers at least part of the area to be maintained, providing a foundation for the installation of the spray structure 2. Then, the spray structure 2 is placed on the maintenance support 1. When maintenance is required, water is supplied to the spray structure 2 using the water supply system 3, and the spray structure 2 can then spray water to maintain the area. Since the spray structure 2 is placed above the area to be maintained, its spray area can easily cover at least the entire area to be maintained, allowing for more even and comprehensive spraying of all parts of the area, greatly improving the maintenance effect. In addition, there is no need for water trucks to regularly go to the area to be maintained for spraying, making the maintenance process more convenient and simple.
[0035] The specific structure of each component in the auxiliary engineering maintenance device will be described in detail below with reference to the accompanying drawings.
[0036] Reference Figure 1 and Figure 2 The maintenance support scaffold 1 includes multiple columns 10 and a frame fixedly connected to the top of the columns 10. The bottom of the columns 10 is connected to the ground, forming the support for the entire maintenance support scaffold 1. To improve the stability of the support, especially on slopes, a base can be fixedly connected to the bottom of the columns 10. The base is fixed to the ground with ground nails. Specifically, the base is fixed to the ground outside the area to be maintained, such as in the green belt soil in a slope protection project. The frame provides the installation foundation for the sprinkler structure 2, which is installed on the frame of the maintenance support scaffold 1.
[0037] Depending on the shape of the area to be maintained, the shape of the frame can be adaptively adjusted to better match the shape of the area to be maintained, so that the spray area of the spray structure 2 can better cover the entire area to be maintained.
[0038] The frame serves as the installation base for the spray structure 2. Its coverage area can be smaller than, equal to, or larger than the area to be maintained. The specific design can be flexibly adapted to the actual application scenario and requirements. The only requirement is that the spray area of the spray structure 2 can cover the entire area to be maintained.
[0039] Specifically, the frame has a rectangular structure, which includes multiple connecting rods 11 arranged horizontally and vertically. More specifically, the four outermost connecting rods 11 are arranged in a rectangle, and the connecting rod 11 in the middle can extend along the length of the frame and be arranged along the width of the frame, or it can extend along the width of the frame and be arranged along the length of the frame, thereby providing sufficient space for the spray structure 2 to ensure that the spray area of the spray structure 2 can fully cover the area to be maintained.
[0040] The water supply system 3 includes a water tank 30, a water pump 31, and a water supply pipe 32. The water tank 30 is used to store water, the inlet of the water pump 31 is connected to the water tank 30, and the outlet is connected to the spray structure 2 through the water supply pipe 32. The water pump 31 can draw water from the water tank 30 to the spray structure 2 for spraying.
[0041] Depending on different needs and application scenarios, the spray structure 2 can be arranged in different forms. In one embodiment of this utility model, refer to... Figure 1 The spray structure 2 includes spray pipes 20 and nozzles 21. The spray pipes 20 are connected to connecting rods 11 and laid along the length of the connecting rods 11. Spray pipes 20 on different connecting rods 11 can be interconnected to form a pipe network. In this case, the water supply pipe 32 only needs to be connected to any point in the pipe network to simultaneously supply water to multiple spray pipes 20, which improves the convenience of water supply. Of course, under specific needs, the spray pipes 20 on different connecting rods 11 can also be supplied with water individually without being interconnected. In this case, the water supply pipe 32 needs to be connected to multiple spray pipes 20 respectively. Multiple nozzles 21 are connected to the spray pipes 20.
[0042] Using the above technical solution, the connection method between the connecting rods 11 in the maintenance frame will not affect the arrangement of the spray pipes 20. Therefore, adjacent connecting rods 11 can be connected in a variety of feasible ways. For example, adjacent connecting rods 11 can be connected by different types of connecting components such as disc buckle connectors, socket connectors, and U-shaped hangers.
[0043] The sprinkler pipe 20 and the connecting rod 11 can also be connected in various feasible ways. Specifically, the sprinkler pipe 20 and the connecting rod 11 can be detachably connected using a connector 4. More specifically, the connector 4 can be a clamp, and the sprinkler pipe 20 and the connecting rod 11 can be connected by the clamp; the connector 4 can also be a binding strap, such as nylon rope or steel wire rope, and the sprinkler pipe 20 and the connecting rod 11 can be bound and fixed by the binding strap.
[0044] Of course, the connection between the spray pipe 20 and the connecting rod 11 includes, but is not limited to, the connection methods listed above. Other forms of connectors 4 that can ensure a stable connection between the two and facilitate their disassembly are also applicable.
[0045] In another embodiment of this utility model, referring to Figure 2 The connecting rod 11 is configured as a tubular structure, and the water supply system 3 is connected to the inner cavity of the connecting rod 11, enabling water supply to the inner cavity of the connecting rod 11. Different connecting rods 11 can be interconnected to form a pipe network. For example, adjacent connecting rods 11 can be connected through flanges. In this case, the water supply pipe 32 only needs to be connected to any position in the pipe network to supply water to multiple connecting rods 11 simultaneously, which is beneficial to improving the convenience of water supply. Of course, under specific needs, different connecting rods 11 can also be supplied with water separately without being interconnected. In this case, the water supply pipe 32 needs to be connected to multiple connecting rods 11 respectively. The spray structure 2 includes multiple spray heads 21, which are connected to the connecting rods 11.
[0046] It is understood that the specifications of the nozzle 21 typically determine its key characteristics such as flow coefficient, spray pattern, coverage area, and installation method. Therefore, different specifications of nozzles 21 can be selected according to different application scenarios and requirements. Furthermore, the spray coverage area of the spray structure 2 can be adjusted by changing the arrangement position, arrangement method, and number of nozzles 21. No specific limitations are imposed in this embodiment of the invention.
[0047] For ease of control, in one embodiment of this invention, the water supply system 3 further includes a control unit and a timer; wherein, the timer is suitable for measuring time intervals; the control unit is communicatively connected to the timer and the water pump 31, and when the timer measures that the water pump 31 has stopped for a first time interval, it sends a spray signal to the water pump 31 to control the water pump 31 to start; when the water pump 31 has started for a second time interval, the control unit sends a stop spray signal to the water pump 31 to control the water pump 31 to shut down. With this configuration, the timer can control the water pump 31 to start and stop at specific times, thereby curing the concrete auxiliary works at specific times and frequencies, ensuring the curing effect while making the curing process more convenient.
[0048] Specifically, a timer is a commonly used component for measuring time intervals. It is commercially available, and its specific structure and working principle can be found in existing technologies. As an event trigger, a timer can trigger a preset event or action when a set time or time interval is reached. The event triggered by the timer is captured and processed by the control unit, thereby generating a signal for controlling the start and stop of the water pump 31.
[0049] Typically, two time intervals can be set on the timer. The first interval is the time between when the water pump 31 stops and when it restarts, and the second interval is the time between when the water pump 31 starts spraying continuously. After each timeout, the control unit controls the water pump 31 to perform the corresponding start-stop action. After a single timeout cycle is completed, the timer will restart a new round of timing and repeat the above process, thereby curing the concrete auxiliary works at a specific time and frequency.
[0050] It should be noted that, without contradiction, those skilled in the art can combine and integrate the different embodiments or examples described in this specification, as well as the features of the different embodiments or examples.
[0051] With the auxiliary engineering maintenance device provided by this utility model, when maintaining concrete auxiliary works such as slope protection projects, firstly, a maintenance support 1 is erected in the area to be maintained. The maintenance support 1 covers at least part of the area to be maintained, providing a foundation for the installation of the spray structure 2. Then, the spray structure 2 is arranged on the maintenance support 1. When maintenance is required, water is supplied to the spray structure 2 using the water supply system 3, and the spray structure 2 can spray water to maintain the area to be maintained. Since the spray structure 2 is arranged above the area to be maintained, its spray area can easily cover at least the entire area to be maintained, allowing for more uniform and comprehensive spraying of all parts of the area to be maintained, greatly improving the maintenance effect. In addition, there is no need for water trucks to regularly go to the area to be maintained for spraying, making the maintenance process more convenient and simple.
[0052] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of this utility model, and not to limit it. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the spirit and scope of the technical solutions of the embodiments of this utility model.
Claims
1. An auxiliary engineering maintenance device characterized by, include: A maintenance support (1) is suitable for support on the ground of the area to be maintained, and the maintenance support (1) covers at least a portion of the area to be maintained above it; A spray structure (2) is arranged on the maintenance support (1), and the spray area of the spray structure (2) covers at least the entire area to be maintained; A water supply system (3) is connected to the spray structure (2) and is used to supply water to the spray structure (2).
2. The auxiliary engineering maintenance device according to claim 1, characterized in that The maintenance support (1) includes multiple columns (10) and a frame fixedly connected to the top of the columns (10), and the spray structure (2) is arranged on the frame of the maintenance support (1).
3. The attendant engineering maintenance device of claim 2, wherein, The frame includes multiple connecting rods (11) arranged horizontally and vertically.
4. The attendant engineering maintenance device of claim 3, wherein, The spray structure (2) includes a spray pipe (20) and a nozzle (21); the spray pipe (20) is connected to the connecting rod (11) and laid along the length of the connecting rod (11); there are multiple nozzles (21) and they are connected to the spray pipe (20).
5. The attendant engineering maintenance device of claim 3, wherein, The connecting rod (11) is configured as a tubular structure, and the water supply system (3) is connected to the inner cavity of the connecting rod (11); the spray structure (2) includes a nozzle (21), which is fixedly connected to the connecting rod (11).
6. The auxiliary engineering maintenance device according to any one of claims 1-5, characterized in that, The water supply system (3) includes a water tank (30), a water pump (31), and a water supply pipe (32); the water tank (30) is used to store water; the inlet of the water pump (31) is connected to the water tank (30), and the outlet is connected to the spray structure (2) through the water supply pipe (32).
7. The auxiliary engineering maintenance device according to claim 6, characterized in that, The water supply system (3) also includes a control unit and a timer; The control unit is communicatively connected to the timer and the water pump (31); the timer is suitable for measuring time intervals, and when the measured stop time of the water pump (31) reaches the first time interval, it sends a spray signal to the control unit, and the control unit controls the water pump (31) to start based on the spray signal.
8. The auxiliary engineering maintenance device according to claim 7, characterized in that, When the timer detects that the start time of the water pump (31) has reached the second time interval, it sends a stop spraying signal to the control unit, and the control unit controls the water pump (31) to shut down.
9. The auxiliary engineering maintenance device according to claim 4, characterized in that, The spray pipe (20) and the connecting rod (11) are detachably connected by a connector (4).
10. The auxiliary engineering maintenance device according to claim 9, characterized in that, The connector (4) includes a clamp or a strap.