A new construction fence
By using a symmetrical layout of the inlet and outlet and a design of expansion joints, the problems of complex water pipe connections and poor sealing in construction enclosures were solved, enabling rapid connection and sealing, improving installation efficiency and water supply stability, and reducing maintenance costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- XINJIANG JIANGSHENGSHUOHONG CONSTRUCTION ENGINEERING CO LTD
- Filing Date
- 2025-07-17
- Publication Date
- 2026-06-19
AI Technical Summary
The existing construction site enclosure has complex water pipe connections, poor sealing, and cannot flexibly adjust the docking length, resulting in time-consuming and labor-intensive installation, easy leakage, and inability to be reused.
The design features a symmetrical layout of the inlet and outlet, combined with an innovative structure of telescopic pipes and sealing caps, enabling rapid connection and sealing. The direct connection between the spray mechanism and the water pipes ensures smooth water flow and adapts to different spacing requirements.
It enables rapid connection, leak-proof sealing, and modular design of construction site fencing, improving installation efficiency and water supply stability while reducing pipeline maintenance costs.
Smart Images

Figure CN224379546U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of construction safety facilities technology, specifically a new type of construction enclosure. Background Technology
[0002] In the construction industry, water-spraying dust suppression barriers are widely used in municipal engineering and road construction. Existing barriers mostly employ independent water supply designs, requiring each unit to be connected to a separate water source, resulting in complex pipeline layouts and low water resource utilization. When continuous barriers need to be installed, there is a lack of effective water pipe connection structures between adjacent units, typically using temporary external flexible hoses for series connection, which suffers from problems such as weak connections and easy leakage. More importantly, traditional water pipe interfaces are mostly fixed designs, unable to flexibly adjust the connection length, making it difficult to guarantee a sealing effect on uneven construction sites, and they cannot be reused after disassembly.
[0003] Currently available modular fencing systems suffer from the following drawbacks: firstly, water pipe connections require additional tools, making installation time-consuming and labor-intensive; secondly, the interfaces have poor sealing, making them prone to leakage when water pressure fluctuates; and thirdly, the connection structure is not wear-resistant, with performance significantly declining after repeated disassembly and reassembly. Therefore, there is an urgent need to develop a water pipe series system that enables rapid connection and reliable sealing, allowing for convenient connection between fencing units. Utility Model Content
[0004] This utility model provides a new type of construction enclosure to at least solve the problem of inconvenient water pipe connection between enclosure units in the prior art.
[0005] To achieve the above objectives, this utility model provides a novel construction enclosure comprising: an enclosure, including a frame, a base disposed at the bottom of the frame, and a baffle disposed on the frame; the frame is inserted into the base; a water inlet, the water inlet being located on one side of the frame, and a first sealing cover for closing the water inlet; a water outlet, the water outlet being located on the other side of the frame corresponding to the water inlet, and a second sealing cover for closing the water outlet; a first water pipe, the first water pipe being disposed on the frame, with its two ends connected to the water inlet and the water outlet respectively, and a telescopic pipe extending out at the water outlet end of the first water pipe for connecting to the water inlet of the next enclosure; and a sprinkler mechanism, the sprinkler mechanism being disposed at the top of the enclosure, and the sprinkler mechanism being connected to the first water pipe so that water enters the first water pipe from the water inlet and is transported to the sprinkler mechanism for water spraying.
[0006] Furthermore, the frame is also equipped with multiple sets of supports to secure the first water pipe.
[0007] Furthermore, the sprinkler system includes a second water pipe installed at the top of the enclosure and a third water pipe for connecting the second water pipe to the first water pipe, with multiple nozzles installed on the second water pipe.
[0008] Furthermore, the third water pipe is equipped with a second valve for adjusting the pressure, and the first water pipe is equipped with a first valve at the end near the outlet.
[0009] Furthermore, the frame is provided with slots for fixing the third water pipe.
[0010] Furthermore, both the inlet and the telescopic pipe have threads at the end where they connect to the inlet to achieve a threaded fit.
[0011] Furthermore, the telescopic tube is a flexible hose.
[0012] Furthermore, the frame is equipped with a connector for accommodating the first and second sealing covers that can be disassembled.
[0013] A novel construction enclosure utilizing this utility model includes: an enclosure comprising a frame, a base at the bottom of the frame, and a baffle on the frame; the frame is inserted into the base; a water inlet located on one side of the frame, with a first sealing cap for closing the inlet; a water outlet located on the opposite side of the frame corresponding to the water inlet, with a second sealing cap for closing the outlet; a first water pipe mounted on the frame, with its two ends connected to the water inlet and the water outlet respectively, and a telescopic pipe extending from the outlet end for connecting to the water inlet of the next enclosure; and a sprinkler mechanism located at the top of the enclosure, connected to the first water pipe to allow water to enter the first water pipe from the inlet. The pipes are then transported to the sprinkler system for water spraying. This invention effectively solves the problems of difficult pipe connection and poor sealing in traditional construction site enclosures through the innovative design of a series water supply system. The symmetrical layout of the inlet and outlet, combined with the extension characteristics of the telescopic pipe, enables rapid connection between adjacent enclosures. The through-type structure of the first water pipe, combined with the sealing function of the sealing cap, forms a stable water supply channel. The direct connection design between the sprinkler system and the first water pipe ensures smooth water flow and improves dust suppression efficiency. The telescopic characteristics of the telescopic pipe adapt to the needs of enclosure layout with different spacing, and the independent storage structure of the sealing cap prevents the loss of parts. Ultimately, through the synergistic effect of rapid connection, leak-proof sealing, and modular design, the installation efficiency and water supply stability of the enclosure system are significantly improved, while reducing pipeline maintenance costs. Attached Figure Description
[0014] The accompanying drawings, which form part of this application, are used to provide a further understanding of the present invention. The illustrative embodiments of the present invention and their descriptions are used to explain the present invention and do not constitute an undue limitation of the present invention. In the drawings:
[0015] Figure 1 This is a first perspective structural diagram of an optional embodiment of the present invention;
[0016] Figure 2 This is a second perspective structural diagram of an optional embodiment of the present invention;
[0017] Figure 3 This is a schematic diagram of the series operation according to an optional embodiment of the present invention;
[0018] Figure 4 This is a schematic diagram of the operation of one optional embodiment of the present invention;
[0019] Figure 5 This is an exploded structural diagram of one optional embodiment of the present invention.
[0020] The above figures include the following reference numerals:
[0021] 10. Enclosure; 11. Frame; 12. Base; 13. Baffle; 20. Water inlet; 21. First sealing cover; 30. Water outlet; 31. Second sealing cover; 40. First water pipe; 41. Telescopic pipe; 42. First valve; 50. Sprinkler mechanism; 51. Second water pipe; 52. Third water pipe; 53. Sprinkler head; 54. Second valve; 60. Support leg; 70. Slot; 90. Connector. Detailed Implementation
[0022] It should be noted that, unless otherwise specified, the embodiments and features described in this application can be combined with each other. The present invention will now be described in detail with reference to the accompanying drawings and embodiments.
[0023] This utility model discloses a new type of construction site enclosure, such as Figures 1 to 5As shown, it includes: a fence, comprising a frame, a base at the bottom of the frame, and a baffle on the frame; the frame is inserted into the base; a water inlet, located on one side of the frame, with a first sealing cap for closing the inlet; a water outlet, located on the other side of the frame corresponding to the water inlet, with a second sealing cap for closing the outlet; a first water pipe, mounted on the frame, with its two ends connected to the water inlet and the water outlet respectively, and a telescopic pipe extending from the outlet end of the first water pipe to connect to the water inlet of the next fence; and a sprinkler mechanism, located at the top of the fence, connected to the first water pipe so that water enters the first water pipe from the inlet and is then transported to the sprinkler mechanism. This invention effectively solves the problems of difficult water pipe connection and poor sealing in traditional construction site enclosures through the innovative design of a series water supply system. The symmetrical layout of the inlet and outlet, combined with the extension characteristics of the telescopic pipe, enables rapid connection between adjacent enclosures. The through-type structure of the first water pipe, combined with the sealing function of the sealing cap, forms a stable water supply channel. The direct connection design between the spraying mechanism and the first water pipe ensures smooth water flow and improves dust suppression efficiency. The telescopic characteristics of the telescopic pipe adapt to the needs of enclosure layout with different spacing, and the independent storage structure of the sealing cap prevents the loss of parts. Finally, through the synergistic effect of rapid connection, leak-proof sealing, and modular design, the installation efficiency and water supply stability of the enclosure system are significantly improved, while reducing pipeline maintenance costs.
[0024] Furthermore, such as Figures 1 to 5 As shown, the frame 11 is also equipped with multiple sets of support legs 60 to fix the first water pipe 40, so as to prevent the first water pipe 40 from coming off the frame 11 under the influence of water flow and improve the overall working stability.
[0025] Furthermore, the spraying mechanism 50 includes a second water pipe 51 disposed at the top of the enclosure 10 and a third water pipe 52 for connecting the second water pipe 51 with the first water pipe 40. The second water pipe 51 is provided with a plurality of nozzles 53. By placing the second water pipe 51 and the nozzles 53 at the top, water flow or water mist can be sprayed from top to bottom, which significantly improves the dust suppression effect.
[0026] Furthermore, the third water pipe 52 is equipped with a second pressure regulating valve 54, and the first water pipe 40 is equipped with a first valve 42 at one end near the outlet 30; this allows the operator to adjust the internal pressure of the pipe according to the pipe connection length and the on-site usage conditions during operation, so as to avoid excessive or insufficient pressure.
[0027] Furthermore, the frame 11 is provided with a slot 70 for fixing the third water pipe 52. The third water pipe 52 is placed inside the frame of the frame 11, which can protect it and prevent it from being damaged by complex construction conditions on site, thus effectively extending the service life of the equipment.
[0028] Furthermore, both the inlet 20 and the telescopic pipe 41 are threaded at the end where they connect with the inlet 20 to achieve threaded engagement. This not only improves the overall sealing performance while connecting the series, but also effectively transmits the pressure in the initial part of the pipeline, preventing leakage at the connection point. This avoids wasting water resources and ensures the normal operation of the equipment at the end of the series connection.
[0029] Furthermore, the telescopic tube 41 is a flexible hose, which can cope with complex situations such as uneven ground and bends, enhancing the adaptability of the equipment.
[0030] Furthermore, the frame 11 is provided with a connector 90 for placing the disassembled first sealing cover 21 and second sealing cover 31, to prevent the first sealing cover 21 and second sealing cover 31 from being lost due to lack of storage space after disassembly, and to facilitate unified management by staff.
[0031] During on-site operations, construction workers vertically insert the frame 11 into the insertion slot of the base 12, and use a rubber hammer to tap the bottom of the frame 11 to make it fully engage with the base 12. Then, multiple installed enclosures 10 are connected in series. The first sealing cover 21 and the second sealing cover 31 are removed and placed on the connector 90. The telescopic pipe 41 is pulled out and screwed to the water inlet 20 of the next adjacent enclosure 10. After checking that everything is correct, the water supply pipe of the water tank is connected to the water inlet 20 of the first enclosure 10. The first valve 42 is opened, and the water pump of the water tank is started to supply water. The operation of the sprinkler head 53 is constantly monitored, and the first valve 42 and the second valve 54 are adjusted as needed. After the spraying operation is completed, the water pump, the first valve 42 and the second valve 54 are turned off, the telescopic pipe 41 is unscrewed and retracted to the first water pipe 40, the first sealing cover 21 and the second sealing cover 31 are removed from the connector 90 and reinstalled in their original positions, waiting for the next operation.
[0032] The above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model. Various modifications and variations can be made to this utility model by those skilled in the art. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.
Claims
1. A novel construction site enclosure, characterized in that, include: The enclosure (10) includes a frame (11), a base (12) disposed at the bottom of the frame (11), and a baffle (13) disposed on the frame (11); the frame (11) is inserted into the base (12); Water inlet (20), the water inlet (20) is opened on one side of the frame (11), and the water inlet (20) is provided with a first sealing cover (21) that can close the water inlet (20); The water outlet (30) is located on the other side of the frame (11) corresponding to the water inlet (20). The water outlet (30) is provided with a second sealing cover (31) on the outside of the water outlet (30) to close the water outlet (30). The first water pipe (40) is installed on the frame (11). The two ends of the first water pipe (40) are connected to the inlet (20) and the outlet (30) respectively. The first water pipe (40) has a telescopic pipe (41) at one end of the outlet (30) that can extend and connect to the inlet (20) of the next enclosure. A spraying mechanism (50) is installed on the top of the enclosure (10). The spraying mechanism (50) is connected to the first water pipe (40) so that water from the inlet (20) enters the first water pipe (40) and is then transported to the spraying mechanism (50) for spraying.
2. The novel construction enclosure according to claim 1, characterized in that, The frame (11) is also provided with multiple sets of legs (60) to fix the first water pipe (40).
3. The novel construction enclosure according to claim 2, characterized in that, The spraying mechanism (50) includes a second water pipe (51) disposed on the top of the enclosure (10) and a third water pipe (52) for connecting the second water pipe (51) and the first water pipe (40). The second water pipe (51) is provided with a plurality of nozzles (53).
4. The novel construction enclosure according to claim 3, characterized in that, The third water pipe (52) is provided with a second valve (54) for adjusting pressure, and the first water pipe (40) is provided with a first valve (42) at one end near the outlet (30).
5. The novel construction enclosure according to claim 3, characterized in that, The frame (11) is provided with a slot (70) for fixing the third water pipe (52).
6. The novel construction enclosure according to claim 1, characterized in that, Both the inlet (20) and the telescopic pipe (41) are threaded at the end where they connect with the inlet (20) to achieve threaded engagement.
7. The novel construction enclosure according to claim 1, characterized in that, The telescopic tube (41) is a flexible hose.
8. The novel construction site enclosure according to claim 1, characterized in that, The frame (11) is provided with a connector (90) for accommodating the first sealing cover (21) and the second sealing cover (31) that can be disassembled.