A foldable intelligent monitoring construction fence
By designing a foldable intelligent monitoring construction site fence, the problems of poor portability and weak scene adaptability of construction site fences have been solved. It has achieved portable storage, multi-scene adaptability and rapid installation of intelligent monitoring system, thus improving the stability and transportation efficiency of construction site fences.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- SICHUAN QIANKUN CONSTR GRP CO LTD
- Filing Date
- 2026-04-28
- Publication Date
- 2026-06-30
AI Technical Summary
Existing construction site fencing is non-foldable, bulky, inefficient in transportation and storage, has no adjustable angle, poor adaptability to different scenarios, and lacks dedicated installation space and expansion structure for intelligent monitoring equipment, resulting in insufficient overall adaptability and functionality.
A foldable intelligent monitoring construction fence was designed, which adopts a structure with rotatable and foldable baffle units and adjustable hinge angles, combined with a support and locking auxiliary structure, and equipped with a positioning base and an extension frame to achieve portable storage, multi-scenario adaptability, and support for rapid installation of intelligent monitoring systems.
It improves the portability and stability of construction site fencing, simplifies the installation and dismantling process, enhances transportation and on-site deployment efficiency, and adapts to the construction needs of complex scenarios.
Smart Images

Figure CN122304562A_ABST
Abstract
Description
Technical Field
[0001] This invention belongs to the technical field of construction site enclosure equipment, and specifically relates to a foldable intelligent monitoring construction site enclosure. Background Technology
[0002] Construction site fencing is a common tool used to demarcate construction sites and their surrounding areas. Within the construction area, construction site fencing primarily serves to block and warn, protecting the site and preventing unauthorized personnel from disrupting construction operations. In practice, foldable fencing is often used due to its portability and ease of adjustment to adapt to changes in the construction site.
[0003] In scenarios such as urban alleyway construction, excavation pit perimeter operations, and municipal road maintenance, construction sites often exhibit variable cross-sectional characteristics with alternating widths and narrownesses. For example, in work areas similar to alleyways or excavation pit edges, multiple foldable intelligent monitoring construction barriers need to be spliced together to form a protective barrier. At the same time, warning lights, tool storage, temporary passageways, and other functions are required to meet construction needs.
[0004] Existing technologies have at least the following problems in use: construction fences are not foldable, are bulky, have low transportation and storage efficiency, and are cumbersome to install and dismantle on site; the angles of adjacent fence units are fixed, making them unsuitable for complex scenarios such as curved roads and irregular sites; and intelligent monitoring equipment lacks dedicated installation space and expansion structures, resulting in insufficient overall adaptability and functionality. Summary of the Invention
[0005] This invention provides a foldable intelligent monitoring construction site fence to solve the technical problems of existing construction site fences that are not foldable, resulting in poor portability, inconvenient installation, non-adjustable angles, weak scene adaptability, and difficulty in expanding intelligent monitoring components.
[0006] To achieve the above objectives, the present invention is implemented through the following technical solution: A foldable intelligent monitoring construction fence includes: a positioning base; a monitoring frame mounted on the positioning base, with a rotating groove on the side of the monitoring frame; multiple baffle units rotatably disposed in the rotating groove; a first mounting plate with a first limiting groove and a hinge hole; a second mounting plate with a rotating hole, which is hinged to the hinge hole, and a second limiting groove; in two adjacent baffle units, the end of one baffle unit is engaged in the first limiting groove, and the end of the other baffle unit is engaged in the second limiting groove; adjusting the hinge angle of the first and second mounting plates changes the distribution angle between two adjacent baffle units; and an auxiliary unit detachably mounted on the monitoring frame or the first mounting plate.
[0007] Furthermore, the auxiliary unit includes: a support base with multiple through holes for filling counterweights; a support pad installed on top of the support base, with the support pad and the support base fixedly connected by bolts; and a rotating base installed on the support pad, the rotating base having a limit hole, the rotating hole of the second mounting plate being aligned with the central axis of the limit hole, and the installation position of the rotating central axis of the second mounting plate being fixed by setting a limit shaft between the rotating hole and the limit hole.
[0008] Furthermore, the auxiliary unit also includes: a locking member having a first rotating hole and a second rotating hole, a locking slot being provided on the second mounting plate, the locking member being engaged in the locking slot, and a hinge hole being provided in the locking slot, the hinge hole being coaxially arranged with the first rotating hole, and a pin passing through the hinge hole and the first rotating hole to fix the locking member installed in the locking slot; a rotating connecting rod passing through the second rotating hole and the rotating hole of the locking member; when the rotating connecting rod is fully engaged in the rotating hole, the locking member is locked on the second mounting plate, realizing the synchronous locking of the first mounting plate and the second mounting plate.
[0009] Furthermore, the positioning base has multiple bosses, each with a first positioning hole, and a partition groove between two bosses. The positioning base has a counterweight cavity, and the mounting surface of the positioning base has multiple symmetrically distributed slots located on two opposite sides of the mounting surface.
[0010] Furthermore, the monitoring frame has multiple partitions that divide the internal cavity of the monitoring frame into multiple installation cavities, and the side walls of the monitoring frame are distributed with a uniform array of rectangular holes.
[0011] Furthermore, the auxiliary unit also includes: a top extension frame, installed on the top of the monitoring frame, the top extension frame having a sliding slot and multiple snap-fit slots symmetrically distributed among them, and two symmetrically distributed inclined surfaces on the top extension frame, with the snap-fit slots distributed on the two inclined surfaces; a base extension frame, installed at the bottom of the monitoring frame, the base extension frame having a counterweight slot; a monitoring terminal, installed on each partition; and a monitoring unit, including various sensors, with the monitoring terminal connected to the monitoring unit via a connecting cable passing through a rectangular hole.
[0012] Furthermore, the top of the first mounting plate has multi-directionally distributed limiting grooves, and the side of the first mounting plate has multiple mounting rings. The mounting rings are detachably connected with connecting buckles, which are used to support and limit the connection cables.
[0013] Furthermore, the baffle unit is provided with mounting holes, and the first mounting plate is installed on the baffle unit. The positioning bolt passes through the hinge hole and the mounting hole in sequence. The mounting hole is threaded, and the positioning bolt is bolted to the internal thread of the mounting hole to fix the installation position of the first mounting plate on the baffle unit.
[0014] This invention provides a foldable intelligent monitoring construction site fence, with the following advantages: The rotatable and foldable baffle unit and adjustable hinge angle structure enable portable storage and adaptability to various scenarios including straight lines, curves, and corners; the support and locking auxiliary structure reinforces the hinge points and locks the angle, improving the fence's stability and safety; the positioning base, counterweight cavity, and extension frame enhance the fence's anti-tipping ability and facilitate rapid installation of the intelligent monitoring system; and the modular and detachable design simplifies the installation and disassembly process, improving transportation and on-site deployment efficiency. Attached Figure Description
[0015] To more clearly illustrate the technical solutions in the embodiments of the present invention 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 the present invention. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0016] Figure 1 This is a structural schematic diagram of a foldable intelligent monitoring construction fence provided in an embodiment of the present invention; Figure 2 This is a schematic diagram of the monitoring frame provided in an embodiment of the present invention; Figure 3 This is a schematic diagram of the positioning base provided in an embodiment of the present invention; Figure 4 This is another structural schematic diagram of the positioning base provided in an embodiment of the present invention; Figure 5 for Figure 1 Enlarged view at point A1; Figure 6 for Figure 1 Enlarged view at point B1; Figure 7 for Figure 1 Enlarged view of point C1; Figure 8 This is a schematic diagram of the installation structure of the support pad provided in an embodiment of the present invention; Figure 9 This is a schematic diagram of the assembly structure of the locking component provided in an embodiment of the present invention.
[0017] In the diagram: 1-Positioning base; 2-Monitoring frame; 3-Rotating groove; 4-Baffle unit; 5-First mounting plate; 6-First limiting groove; 7-Hinge hole; 8-Second mounting plate; 10-Second limiting groove; 12-Supporting base; 13-Hole; 15-Supporting pad; 16-Rotating base; 19-Locking component; 20-First rotating hole; 21-Second rotating hole; 22-Locking slot; 23-Pin; 24-Rotating connecting rod; 25-Boss; 2 6-First positioning hole; 27-Divider groove; 28-Counterweight cavity; 29-Card slot; 30-Partition plate; 31-Mounting cavity; 32-Rectangular hole; 33-Top extension frame; 34-Sliding card slot; 35-Card slot; 36-Sloping surface; 37-Base extension frame; 38-Counterweight groove; 39-Monitoring terminal; 43-Multi-directional distribution limiting groove; 44-Mounting ring; 45-Connecting buckle; 46-Mounting hole; 47-Positioning bolt; 48-Hinge. Detailed Implementation
[0018] The embodiments of this application will now be described in detail with reference to the accompanying drawings.
[0019] In the description of this application, it should be understood that the terms "center", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this application.
[0020] The terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Therefore, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this application, unless otherwise stated, "a plurality of" means two or more.
[0021] In the description of this application, it should be noted that, unless otherwise expressly specified and limited, the terms "installation," "connection," and "joining" should be interpreted broadly. For example, they can refer to welding, bolting, or riveting; they can refer to fixed connections, detachable connections, or integral connections; they can refer to mechanical connections or electrical connections; they can refer to direct connections or indirect connections through an intermediate medium; and they can refer to the internal communication between two components. Those skilled in the art can understand the specific meaning of the above terms in this application based on the specific circumstances.
[0022] Example: like Figures 1 to 9As shown, this embodiment provides a foldable intelligent monitoring construction fence, including: a positioning base 1; a monitoring frame 2, installed on the positioning base 1, with a rotating groove 3 on the side of the monitoring frame 2; multiple baffle units 4, rotatably disposed in the rotating groove 3; a first mounting plate 5, with a first limiting groove 6, and a hinge hole 7; a second mounting plate 8, with a rotating hole, which is hinged to the hinge hole 7, and a second limiting groove 10; in two adjacent baffle units 4, the end of one baffle unit 4 is engaged in the first limiting groove 6, and the end of the other baffle unit 4 is engaged in the second limiting groove 10; adjusting the hinge angle of the first mounting plate 5 and the second mounting plate 8 changes the distribution angle between two adjacent baffle units 4; and an auxiliary unit, detachably installed on the monitoring frame 2 or the first mounting plate 5.
[0023] In this embodiment, the positioning base 1 provides basic support and counterweight installation space, the monitoring frame 2 provides a rotating installation base for the baffle unit 4, the baffle unit 4 can rotate flexibly along the rotating groove 3, which is convenient for folding and storage and unfolding for use; the first mounting plate 5 and the second mounting plate 8 are hinged to form an angle-adjustable structure, which is used to limit the relative angle of adjacent baffle units 4 and adapt to different sites such as straight lines, arcs, and corners.
[0024] Furthermore, the auxiliary unit includes: a support base 12 with multiple through holes 13 for filling counterweights; a support pad 15 installed on top of the support base 12, with the support pad 15 and the support base 12 fixedly connected by bolts; and a rotating base 16 installed on the support pad 15, with a limit hole provided on the rotating base 16. The rotation hole of the second mounting plate 8 is aligned with the central axis of the limit hole, and the installation position of the rotation center axis of the second mounting plate 8 is fixed by setting a limit shaft between the rotation hole and the limit hole.
[0025] In this embodiment, after adjusting the first mounting plate 5 and the second mounting plate 8, the rotation angle of the rotating base 16 and the second mounting plate 8 is actively adjusted to bring the upper surface of the rotating base 16 into contact with the bottom surface of the first mounting plate 5, thereby supporting and reinforcing the hinge point. The support base 12 fills the hole 13 with counterweights to improve bottom stability, and the support pad 15 raises the height of the rotating base 16 and ensures structural strength. The rotating base 16 is coaxially positioned with the second mounting plate 8 to ensure the stability of the hinge center. After adjustment, it abuts against the first mounting plate 5 to prevent the hinge point from loosening or deforming.
[0026] Furthermore, the auxiliary unit also includes: a locking member 19, which has a first rotating hole 20 and a second rotating hole 21. A locking slot 22 is provided on the second mounting plate 8. The locking member 19 is engaged in the locking slot 22, and a hinge hole 7 is provided in the locking slot 22. The hinge hole 7 is coaxially arranged with the first rotating hole 20. A pin 23 passes through the hinge hole 7 and the first rotating hole 20 to fix the locking member 19 in the locking slot 22. A rotating connecting rod 24 passes through the second rotating hole 21 and the rotating hole of the locking member 19. When the rotating connecting rod 24 is fully engaged in the rotating hole, the locking member 19 is locked on the second mounting plate 8, realizing the synchronous locking of the first mounting plate 5 and the second mounting plate 8.
[0027] In this embodiment, the locking member 19 is rotatable around the pin 23, and the rotating connecting rod 24 is used to link the locking member 19 and the second mounting plate 8. After being locked in place, the angle is locked to prevent angle deviation during use.
[0028] Furthermore, the positioning base 1 has multiple bosses 25, each boss 25 has a first positioning hole 26, and a partition groove 27 is provided between two bosses 25. The positioning base 1 has a counterweight cavity 28, and multiple symmetrically distributed slots 29 are provided on the mounting surface of the positioning base 1. The slots 29 are distributed on two opposite sides of the mounting surface.
[0029] In this embodiment, the boss 25 and the first positioning hole 26 are used for ground positioning and installation, the partition groove 27 facilitates the handling and splicing of the base, the counterweight cavity 28 is used to place counterweights to improve wind resistance, and the slot 29 is used to quickly snap the monitoring frame 2.
[0030] Furthermore, the monitoring frame 2 has multiple partitions 30, which divide the internal cavity of the monitoring frame 2 into multiple mounting cavities 31, and the side wall of the monitoring frame 2 is distributed with uniformly arrayed rectangular holes 32.
[0031] In this embodiment, the multi-layer partition 30 forms an independent mounting cavity 31 for placing monitoring terminal 39, power supply and other equipment, and the rectangular hole 32 is used for cable to pass through and heat dissipation.
[0032] Furthermore, the auxiliary unit also includes: a top extension frame 33, installed on the top of the monitoring frame 2, the top extension frame 33 having a sliding slot 34 and multiple snap-fit slots 35, the multiple snap-fit slots 35 being symmetrically distributed among each other, and the top extension frame 33 having two symmetrically distributed inclined surfaces 36, with the snap-fit slots 35 distributed on the two inclined surfaces 36; a base extension frame 37, installed at the bottom of the monitoring frame 2, the base extension frame 37 having a counterweight slot 38; a monitoring terminal 39, installed on each partition 30; and a monitoring unit, including various sensors, the monitoring terminal 39 being connected to the monitoring unit through a connecting cable passing through a rectangular hole 32.
[0033] In this embodiment, the top extension frame 33 is used to install warning lights, display screens, and sensor devices. The sliding slot 34 and the snap-fit slot 35 enable quick assembly and disassembly. The inclined surface 36 facilitates drainage layout. The base extension frame 37 further increases the counterweight space. The monitoring terminal 39 works with the sensors to achieve real-time monitoring of environmental, safety, and displacement data. The monitoring unit also includes a visual sensor for site monitoring or a spray structure for corresponding dust control.
[0034] Furthermore, the top of the first mounting plate 5 has multi-directionally distributed limiting grooves 43, and the side of the first mounting plate 5 is provided with multiple mounting rings 44. The mounting rings 44 are detachably connected with connecting buckles 45, which are used to support and limit the connection cables.
[0035] In this embodiment, the multi-directionally distributed limiting grooves 43 are adapted to the positioning of baffle units 4 at different angles, and the mounting ring 44 and the connecting buckle 45 realize the orderly arrangement and fixation of cables.
[0036] Furthermore, the baffle unit 4 is provided with a mounting hole 46, and the first mounting plate 5 is mounted on the baffle unit 4. The positioning bolt 47 passes through the hinge hole 7 and the mounting hole 46 in sequence. The mounting hole 46 is threaded, and the positioning bolt 47 is bolted to the internal thread of the mounting hole 46 to fix the mounting position of the first mounting plate 5 on the baffle unit 4.
[0037] In this embodiment, the mounting hole 46 and the positioning bolt 47 cooperate to achieve a firm connection between the first mounting plate 5 and the baffle unit 4. The threaded connection ensures the installation strength and facilitates disassembly and maintenance.
[0038] In summary, this invention patent achieves portable storage and flexible adaptation to multiple scenarios through the rotatable, foldable, and hinged-angle adjustable structure of the baffle unit 4; improves the connection stability and safety of the fencing through the auxiliary support and locking structure; enhances the counterweight stability and adapts to the expansion of intelligent monitoring systems through the modular design of the positioning base 1 and the extension frame; and simplifies the on-site installation and disassembly process through the detachable and quick-installation connection method, improving construction deployment efficiency and meeting the intelligent safety fencing needs of multiple scenarios such as building construction, municipal maintenance, and emergency isolation.
[0039] The above description is merely a specific embodiment of the present invention, but the scope of protection of the present invention is not limited thereto. Any variations or substitutions that can be easily conceived by those skilled in the art within the technical scope described in the present invention should be included within the scope of protection of the present invention. Therefore, the scope of protection of the present invention should be determined by the scope of the claims.
Claims
1. A foldable intelligent monitoring construction fence, characterized in that, include: Positioning base (1); The monitoring frame (2) is installed on the positioning base (1), and the monitoring frame (2) has a rotating groove (3) on its side. Multiple baffle units (4) are rotatably disposed in the rotating groove (3); The first mounting plate (5) has a first limiting groove (6) and a hinge hole (7) is provided on the first mounting plate (5); The second mounting plate (8) has a rotating hole, which is hinged to the hinge hole (7). The second mounting plate (8) has a second limiting groove (10). In two adjacent baffle units (4), the end of one baffle unit (4) is engaged in the first limiting groove (6), and the end of the other baffle unit (4) is engaged in the first limiting groove (6). Adjusting the hinge angle between the first mounting plate (5) and the second mounting plate (8) can change the distribution angle between the two adjacent baffle units (4). The auxiliary unit is detachably mounted on the monitoring frame (2) or the first mounting plate (5).
2. The foldable intelligent monitoring construction fence according to claim 1, characterized in that, The auxiliary unit includes: The support base (12) has multiple through holes (13) for filling with counterweights; A support pad (15) is installed on top of the support base (12), and the support pad (15) and the support base (12) are fixedly connected by bolts; A rotating base (16) is installed on the support pad (15). The rotating base (16) is provided with a limiting hole. The rotating hole of the second mounting plate (8) is aligned with the central axis of the limiting hole. By setting a limiting shaft between the rotating hole and the limiting hole, the installation position of the rotating central axis of the second mounting plate (8) is fixed.
3. The foldable intelligent monitoring construction fence according to claim 2, characterized in that, The auxiliary unit also includes: The locking member (19) has a first rotating hole (20) and a second rotating hole (21). The second mounting plate (8) is provided with a locking slot (22). The locking member (19) is engaged in the locking slot (22). The locking slot (22) is provided with the hinge hole (7). The hinge hole (7) is coaxially arranged with the first rotating hole (20). A pin (23) passes through the hinge hole (7) and the first rotating hole (20) to fix the locking member (19) in the locking slot (22). The rotating connecting rod (24) passes through the second rotating hole (21) and the rotating hole of the locking member (19); when the rotating connecting rod (24) is fully inserted into the rotating hole, the locking member (19) is locked onto the second mounting plate (8), thereby achieving synchronous locking of the first mounting plate (5) and the second mounting plate (8).
4. A foldable intelligent monitoring construction fence according to claim 3, characterized in that, The positioning base (1) has multiple bosses (25), each boss (25) has a first positioning hole (26), and a partition groove (27) is provided between two bosses (25). The positioning base (1) has a counterweight cavity (28), and multiple symmetrically distributed slots (29) are provided on the mounting surface of the positioning base (1). The slots (29) are distributed on two opposite sides of the mounting surface.
5. A foldable intelligent monitoring construction fence according to claim 4, characterized in that, The monitoring frame (2) has multiple partitions (30), which divide the internal cavity of the monitoring frame (2) into multiple mounting cavities (31). The side wall of the monitoring frame (2) is distributed with rectangular holes (32) in a uniform array.
6. A foldable intelligent monitoring construction fence according to claim 5, characterized in that, The auxiliary unit also includes: A top extension frame (33) is installed on the top of the monitoring frame (2). The top extension frame (33) is provided with a sliding slot (34) and multiple slots (35). The multiple slots (35) are symmetrically distributed. The top extension frame (33) is provided with two symmetrically distributed inclined surfaces (36). The slots (35) are distributed on the two inclined surfaces (36). The base extension frame (37) is installed at the bottom of the monitoring frame (2), and the base extension frame (37) is provided with a counterweight slot (38). Monitoring terminals (39) are installed on each partition (30); The monitoring unit includes various sensors, and the monitoring terminal (39) is connected to the monitoring unit through the rectangular hole (32) via a connecting cable.
7. A foldable intelligent monitoring construction fence according to claim 6, characterized in that, The top of the first mounting plate (5) has a multi-directionally distributed limiting groove (43), and the side of the first mounting plate (5) is provided with a plurality of mounting rings (44). A connecting buckle (45) is detachably connected to the mounting ring (44), and the connecting buckle (45) is used to support and limit the connecting cable.
8. A foldable intelligent monitoring construction fence according to claim 7, characterized in that, The baffle unit (4) is provided with a mounting hole (46). The first mounting plate (5) is mounted on the mounting baffle. The positioning bolt (47) passes through the hinge hole (7) and the mounting hole (46) in sequence. The mounting hole (46) is threaded. The positioning bolt (47) is bolted to the internal thread of the mounting hole (46) to fix the mounting position of the first mounting plate (5) on the baffle unit (4).