Geological disaster warning fence
By introducing an adjustable-angle connection mechanism into the geological disaster warning fence, the problem of unstable fixing of traditional fences in complex terrain is solved, and stable installation on slopes and curved terrain is achieved, improving the stability and safety of the fence.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHAANXI ENG EXPLORATION RES INST CO LTD
- Filing Date
- 2025-07-28
- Publication Date
- 2026-07-14
AI Technical Summary
Traditional geological disaster warning fences typically use a straight-line design for their fixed supports, which cannot adapt to slopes or curved terrain, resulting in unstable fixation and easy collapse during severe weather, thus losing their warning function.
An adjustable connection mechanism is used, including an angle adjustment structure, a longitudinal stabilization structure, and a lateral stabilization structure. Through spherical hinges and telescopic rods, it is ensured that the fixed plate can adjust its angle and position according to the terrain to form a stable warning fence.
It enables the stable installation of fences in complex terrain, improves the flexibility and adaptability of use, and ensures the stability and safety of warning fences under various terrain conditions, especially the flexible deployment in areas prone to geological disasters.
Smart Images

Figure CN224496036U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of warning fence technology, specifically a geological disaster warning fence. Background Technology
[0002] Geological hazard warning fences are widely used in mountainous and sloping areas prone to geological disasters to serve as early warning and isolation measures. Traditional warning fences mainly consist of fixed supports and warning panels. The fixed supports typically employ a linear design, secured by piles driven into the ground or underground bases. However, this design struggles to adapt to complex terrain, such as slopes and irregular mountains. The linear supports often fail to effectively conform to the ground, leading to instability and a tendency to collapse in severe weather, thus losing their intended warning function. Utility Model Content
[0003] This application provides a geological disaster warning fence to overcome the problem that conventional geological disaster warning fences, due to their typically linear fixed supports, cannot adapt to changes in slopes or curved terrain, resulting in instability and easy collapse during severe weather, thus losing their intended warning function. The specific solution is as follows:
[0004] A geological disaster warning fence includes: a display panel and several fixed units;
[0005] The fixing unit includes a corresponding connecting mechanism and a fixing plate;
[0006] The connecting mechanism adjusts its angle according to the terrain. One end of the connecting mechanism is installed on the slope or mountain, and the other end of the connecting mechanism is installed with a fixing plate.
[0007] The fixing plates are spliced together to form a warning fence fixing plate;
[0008] The display panel is magnetically connected to the warning fence fixing plate.
[0009] Preferably, the connecting mechanism includes an angle adjustment structure located on the side of the fixed plate facing the mountain or slope, a longitudinal stabilizing structure located at the end of the angle adjustment structure facing away from the fixed plate, and a plurality of lateral stabilizing structures located around the angle adjustment structure.
[0010] One end of the angle adjustment structure is vertically installed at the center of the fixed plate facing the mountain or slope, and rotates along the connection point; the other end of the angle adjustment structure is connected to one end of the longitudinal stabilizing structure.
[0011] The other end of the longitudinal stabilizing structure is inserted into the slope or mountain to ensure the longitudinal stability and fixation of the fence;
[0012] The lateral stabilizing structure is arranged radially around the angle adjustment structure, with one end of the lateral stabilizing structure rotatably connected to the angle adjustment structure, and the other end of the lateral stabilizing structure is connected to the fixed plate and the slope / mountain respectively. The lateral stabilizing structure is adjusted according to the slope or undulation of the slope or mountain to improve its adaptability to the slope or mountain.
[0013] Preferably, the end of the longitudinal stabilizing structure inserted into the slope or mountain is conical.
[0014] Preferably, the angle adjustment mechanism is a spherical hinge.
[0015] Preferably, a telescopic rod is provided between the lateral stabilizing structure and the fixed plate;
[0016] The lateral stabilizing structure includes at least two second adjusting rods of a ball joint, with the opposite ends of the two second adjusting rods rotatably connected to the angle adjusting structure and the slope / mountain, respectively.
[0017] One end of the telescopic rod is ball-jointed to the fixed plate.
[0018] Preferably, a connecting seat is provided at the end of the second adjusting rod that connects to the mountain / slope;
[0019] The connecting seat is rotatably connected to the second adjusting rod, and the connecting seat is fixed on the mountain / slope. The other end of the telescopic rod is connected to the connecting seat.
[0020] Preferably, the opposite ends of the fixing plate are respectively provided with connecting structures;
[0021] The connection structure includes a connection part and a connection groove that are adapted to be located at opposite ends of the unit fixing plate;
[0022] The connecting part is fixedly connected to the fixing plate, and the connecting part is fastened into the connecting groove.
[0023] Preferably, the thickness of the connecting groove is less than the thickness of the fixing plate, and the connecting groove is located near the side of the fixing plate facing away from the slope / mountain.
[0024] The thickness of the connecting part matches the thickness of the fixing plate, and the connecting part and the fixing plate are flush with the side facing away from the slope / mountain to ensure a tight connection and flat installation between adjacent fixing units.
[0025] Preferably, locking mechanisms are provided on the side of the connecting groove facing away from the slope / mountain and on the side of the connecting part facing away from the slope / mountain, respectively.
[0026] The locking mechanism includes a pressure rod disposed on the wall of the connecting groove and a slot located on the side of the connecting part facing away from the slope / mountain, corresponding to the locking block;
[0027] The pressure rod is an L-shaped rod, one end of which is movably connected to the wall of the connecting groove, and a locking block is provided on the side of the pressure rod facing the connecting groove;
[0028] The locking block is fixed on the pressure rod and inserted into the locking slot.
[0029] Preferably, baffles are fixedly connected to the upper and lower sides of the fixed plate on the side facing away from the connecting mechanism; the display plate is located between the two baffles.
[0030] The beneficial effects of this application are as follows:
[0031] This application utilizes a connecting mechanism that adjusts its angle according to the terrain, ensuring the fence's applicability in complex environments. Each fixing plate is equipped with a corresponding connecting mechanism to secure a single plate, enabling the entire warning fence to be stably installed on various slopes. Even in uneven terrain, it remains stable. By splicing the fixing plates together to form the warning fence fixing panels, adjustments can be made according to different terrain conditions, improving the flexibility and adaptability of use. This effectively enhances the fence's stability and safety, making it particularly suitable for flexible deployment in areas prone to geological disasters.
[0032] The magnetic connection between the fixed plate and the display plate facilitates information updates and enhances the practical value of the device. Attached Figure Description
[0033] Figure 1 This is a side view of a geological disaster warning fence according to an embodiment of this application;
[0034] Figure 2 This is a lower axial view of the connecting mechanism in a geological disaster warning fence according to an embodiment of this application;
[0035] Figure 3 This is a rear view of a connecting mechanism in a geological disaster warning fence according to an embodiment of this application;
[0036] Figure 4 This is a schematic diagram of the upper axial side of the connecting mechanism in a geological disaster warning fence according to an embodiment of this application;
[0037] Figure 5 This is a front view of a connecting mechanism in a geological disaster warning fence according to an embodiment of this application;
[0038] Figure 6 This is a schematic diagram of the connection of the pressure bar in a geological disaster warning fence according to an embodiment of this application;
[0039] In the diagram: 1. First fixing unit; 2. Second fixing unit; 3. Connecting part; 4. Telescopic rod; 5. Second connecting groove; 6. Pressure rod; 7. First connecting groove; 8. Connecting groove; 9. Baffle; 10. Angle adjustment mechanism; 11. First adjusting rod; 12. Ground gripping part; 13. Second adjusting rod; 14. Connecting seat; 15. Slot; 16. Display panel; 61. Mounting hole; 62. Spring. Detailed Implementation
[0040] A geological disaster warning fence includes: a display panel and several fixed units;
[0041] The fixing unit includes a corresponding connecting mechanism and a fixing plate;
[0042] The connecting mechanism adjusts its angle according to the terrain. One end of the connecting mechanism is installed on the slope or mountain, and the other end of the connecting mechanism is installed with a fixing plate.
[0043] The fixing plates are spliced together to form a warning fence fixing plate;
[0044] The display panel is magnetically connected to the warning fence fixing plate.
[0045] It should be noted that:
[0046] In this application, several fixing plates are detachably connected to form a warning fence fixing plate for installing a display panel; each fixing plate is connected to a connecting mechanism on the side facing the slope / mountain, so that each fixing plate can be fixed individually to improve the stability of its installation; the connecting mechanism can be adjusted to adapt to different slopes or mountains for installation.
[0047] The display panel and the mounting plate are magnetic materials with opposite magnetic poles. The width of the mounting plate matches the width of the display panel, and the number of mounting plates is determined by the length of the display panel to improve installation convenience and flexibility. In other embodiments, the display panel can also be fixed with bolts to accommodate display panels of different materials or to provide additional fixation when magnetic force is insufficient.
[0048] Furthermore, the connecting mechanism includes an angle adjustment structure located on the side of the fixed plate facing the mountain or slope, a longitudinal stabilizing structure located at the end of the angle adjustment structure facing away from the fixed plate, and several lateral stabilizing structures located around the angle adjustment structure.
[0049] One end of the angle adjustment structure is vertically installed at the center of the fixed plate facing the mountain or slope, and rotates along the connection point; the other end of the angle adjustment structure is connected to one end of the longitudinal stabilizing structure.
[0050] The other end of the longitudinal stabilizing structure is inserted into the slope or mountain to ensure the longitudinal stability and fixation of the fence;
[0051] The lateral stabilizing structure is arranged radially around the angle adjustment structure, with one end of the lateral stabilizing structure rotatably connected to the angle adjustment structure, and the other end of the lateral stabilizing structure is connected to the fixed plate and the slope / mountain respectively. The lateral stabilizing structure is adjusted according to the slope or undulation of the slope or mountain to improve its adaptability to the slope or mountain.
[0052] It should be noted that:
[0053] In this application, the angle adjustment mechanism is a spherical connector, which provides a guarantee for multiple fixed plates to be spliced together into a complete warning fence fixed plate.
[0054] The longitudinal stabilizing structure is the first adjusting rod, which is a telescopic rod structure, providing assurance for the adaptability of the unit fixed plate in terms of height. The lateral stabilizing structure ensures fixation on uneven terrain.
[0055] Furthermore, the end of the longitudinal stabilizing structure inserted into the slope or mountain is conical.
[0056] Furthermore, a telescopic rod is provided between the lateral stabilizing structure and the fixed plate;
[0057] The lateral stabilizing structure includes at least two ball-joint second adjusting rods, with the opposite ends of the two second adjusting rods rotatably connected to the angle adjusting structure and the slope / mountain, respectively.
[0058] One end of the telescopic rod is ball-jointed to the fixed plate.
[0059] It should be noted that:
[0060] In this application, by setting the lateral stabilizing structure to include at least two second adjusting rods comprising ball joints, wherein the second adjusting rods are telescopic rod structures, a joint-like connection mechanism is formed to adapt to the problem of installation on complex terrain.
[0061] Furthermore, a connecting seat is provided at the end of the second adjusting rod that connects to the mountain / slope.
[0062] The connecting seat and the second adjusting rod are rotatably connected via a rotating shaft. The connecting seat is fixed to the mountain / slope by, but not limited to, bolts. The other end of the telescopic rod is rotatably connected to the connecting seat via a rotating shaft.
[0063] Furthermore, the opposite ends of the fixing plate are respectively provided with connecting structures;
[0064] The connection structure includes a connection part and a connection groove that are adapted to be located at opposite ends of the unit fixing plate;
[0065] The connecting part is fixedly connected to the fixing plate, and the connecting part is fastened into the connecting groove.
[0066] It should be noted that:
[0067] In this application, the overall shape of the connecting groove and the connecting part includes, but is not limited to, rectangle, square and dovetail.
[0068] Furthermore, the thickness of the connecting groove is less than the thickness of the fixing plate, and the connecting groove is located near the side of the fixing plate facing away from the slope / mountain; that is, the side of the connecting groove facing away from the slope / mountain is open, and the side facing the slope / mountain is closed.
[0069] The thickness of the connecting part matches the thickness of the fixing plate, and the connecting part and the fixing plate are flush with the side facing away from the slope / mountain to ensure a tight connection and flat installation between adjacent fixing units.
[0070] Furthermore, locking mechanisms are respectively provided on the groove wall on the side of the connecting groove facing away from the slope / mountain and on the side of the connecting part facing away from the slope / mountain;
[0071] The locking mechanism includes a pressure rod disposed on the wall of the connecting groove and a slot located on the side of the connecting part facing away from the slope / mountain, corresponding to the locking block;
[0072] The pressure rod is an L-shaped rod, one end of which is movably connected to the wall of the connecting groove, and a locking block is provided on the side of the pressure rod facing the connecting groove;
[0073] The locking block is fixed on the pressure rod and inserted into the locking slot.
[0074] It should be noted that:
[0075] In this application, the pressure rod 6 is elastically connected to the sidewalls of the connecting groove 8 facing away from the fixing assembly, to ensure the tightness of the connection between adjacent fixing units. The pressure rod is elastically connected to the mounting hole 61 via a spring 62. When adjacent fixing units are connected, the pressure rod 6 is engaged in the limiting groove (i.e., the first connecting groove 7 and the second connecting groove 5) under the action of the spring, thus achieving fixation. The elastic force of the spring ensures that when it is necessary to connect adjacent fixing units, the pressure rod can move under the action of the spring and engage in the connecting groove.
[0076] A locking block is fixedly connected to the side of the pressure rod 6 facing the fixing plate. This block engages with the slot 15 on the connecting part 3 to lock adjacent fixing units. The shape of the locking block matches the slot. The movement of the pressure rod inserts the locking block into the slot, thus fixing the unit in place.
[0077] Furthermore, baffles are fixedly connected to the upper and lower sides of the fixed plate on the side facing away from the connecting mechanism; the display plate is located between the two baffles.
[0078] It should be noted that:
[0079] The baffles are fixedly connected to the upper and lower sides of the fixed plate on the side facing away from the fixed assembly, and are used to limit the movement range of the display panel. Alternatively, the baffles can be replaced with elastic limiting strips or magnetic limiters to achieve the same limiting effect on the display panel.
[0080] 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.
[0081] Please see Figure 1-5 This utility model provides a geological disaster warning fence, including a display panel and a connecting mechanism, wherein the connecting mechanism includes at least a plurality of fixing units;
[0082] At least one fixing unit is provided in this application, and the fixing unit includes a fixing plate;
[0083] A display panel 16 is mounted on one side of the fixing plate, and a connecting mechanism is provided on the other side of the fixing plate;
[0084] The connecting mechanism includes a spherical connector 10 suspended at the center of the fixed plate on the side facing away from the display panel 16. One end of the spherical connector 10 is connected to the fixed plate, and the other end of the spherical connector is provided with a first adjusting rod 11. A plurality of second adjusting rods 13 are provided around the spherical connector 10. The top end of the first adjusting rod 11 is connected to the spherical connector 10, and the bottom end of the first adjusting rod 11 is inserted into the slope or mountain. The bottom end of the first adjusting rod 11 is conical. The second adjusting rods 13 are telescopic rods.
[0085] The second adjusting rod 13 is arranged radially on the periphery of the spherical connector 10. One end of the second adjusting rod 13 is rotatably connected to the periphery of the spherical connector, and the other end of the second adjusting rod 13 is provided with a connecting seat 14.
[0086] In one embodiment of this application, the rotational connection between the second adjusting rod 13 and the spherical connector is achieved by an arc-shaped connecting rod. The end of the second adjusting rod 13 facing the spherical connector is provided with an arc-shaped through hole that matches the arc-shaped connecting rod. The arc-shaped connecting rod passes through the arc-shaped through hole and the two ends of the arc-shaped connecting rod are fixedly connected to the periphery of the spherical connector.
[0087] In one embodiment of this application, the second adjusting rod 13 includes at least two connecting rods, with one end of the two connecting rods facing each other in a spherical connection, and the other ends of the two connecting rods facing away from each other respectively rotatably connected to the arc-shaped connecting rod and the connecting seat 14, so as to adapt to the arc surface of different slopes or mountains.
[0088] The connecting seat 14 is rotatably connected to the end of the second adjusting rod 13 facing away from the spherical connector via a rotating shaft. The connecting seat 14 is provided with a fixing hole, and a bolt / screw is disposed in the fixing hole. The connecting seat 14 is fixed to the slope or mountain by the bolt / screw, thereby fixing the fixing plate to the surface of the slope or mountain.
[0089] Telescopic rods 4 are respectively provided between the connecting seat 14 and the fixed plate, and the telescopic rods 4 are movably connected to the connecting seat 14 and the fixed plate respectively.
[0090] In this application, the fixing plate and the display plate 16 are magnetic plates with opposite magnetic poles, and the display plate 16 is magnetically connected to the side of the fixing plate facing away from the connecting mechanism.
[0091] In one embodiment of this application, baffles 9 are respectively provided on opposite sides of the side of the fixing plate facing the display panel 16, and the baffles 9 are respectively fixedly connected to the upper and lower sides of the side of the fixing plate facing away from the connecting mechanism.
[0092] The display panel 16 is located between two opposing baffles 9.
[0093] In this application, the two ends (i.e., the left and right sides) of the fixing plate are respectively provided with matching connecting grooves 8 and connecting parts 3, such as Figure 2 and Figure 3 As shown, the connecting groove 8 and the connecting part 3 form a matching T-shaped structure. A baffle is provided on the side of the connecting groove 8 facing the connecting mechanism, and a slot matching the baffle is provided on the side of the connecting part 3 facing the connecting mechanism. This allows for the following: when two adjacent fixing units are detachably connected, if the two adjacent fixing plates are engaged with the adjacent connecting part 3 within the connecting groove 8, both the side of the adjacent fixing plates facing the connecting mechanism and the side facing away from the connecting mechanism are flat. (See attached diagram) Figure 2The first fixing unit 1 and the second fixing unit 2 are shown. The connecting part 3 in the first fixing unit 1 is inserted into the connecting groove 8 of the second fixing unit 2. In order to improve the stability of the connection between two adjacent fixing units, pressure rods 6 are respectively provided on the side walls of the connecting groove 8 facing away from the connecting mechanism (top). The side walls of the connecting groove 8 and the top of the side of the connecting groove 8 facing the connecting part 3 are provided with a first connecting groove 7. The side of the connecting part 3 facing away from the connecting mechanism is respectively provided with a second connecting groove 5 that matches the first connecting groove 7.
[0094] The width of the first connecting groove 7 and the second connecting groove 5 matches the width of the pressure rod 6, so that when the pressure rod 6 is engaged in the first connecting groove 7 and the second connecting groove 5, the top surface of the entire fixing plate is flat.
[0095] The pressure rod 6 is elastically connected to the side (top) of both sides of the connecting groove 8 facing away from the connecting mechanism. The specific connection method is as follows: Figure 6 As shown: Mounting holes 61 are provided on the side walls of the connecting groove 8 facing away from the connecting mechanism (top). The pressure rod 6 is an L-shaped rod, with one end elastically connected to the mounting hole and the other end outside the mounting hole. The elastic connection between the pressure rod 6 and the mounting hole is achieved by a spring 62, which is located inside the mounting hole 61. The top end of the spring is connected to the end of the pressure rod 6 that extends into the mounting hole, and the bottom end of the spring 62 is fixed inside the mounting hole 61. It should be noted that when the pressure rod 6 is rotated and engaged in the first connecting groove 7 and the second connecting groove 5, the spring is in its natural state.
[0096] The pressure rod 6 is fixedly connected to a locking block on the side facing the fixing plate. A corresponding locking slot 15 is provided in the first connecting groove 7 at the top of the side of the connecting groove 8 facing the connecting part 3. The locking block is inserted into the locking slot 15.
[0097] When using the geological disaster warning fence described in this application, firstly, select an appropriate number of fixing units based on the terrain. Taking two fixing units as an example, place the fixing plate of the first fixing unit on the slope or mountainside. Adjust the extension and angle of the first adjusting rod 11 and the second adjusting rod 13 to ensure the fixing plate stably conforms to the terrain. Then, insert the connecting part 3 of the second fixing unit into the connecting groove 8 of the first fixing unit. The pressure rod 6 and spring 62 ensure a tight connection between the connecting part and the connecting groove. The locking block of the pressure rod is inserted into the locking groove of the connecting part, locking adjacent fixing units. Repeat this process until all fixing units are connected. Finally, use lateral stabilizing fasteners to fix the entire warning fence to the slope or mountainside, ensuring the fence's lateral stability. The entire installation process is quick and simple, ensuring the fence remains stable under various terrain conditions and effectively serving as a warning.
Claims
1. A geological disaster warning fence, characterized in that, include: Display panel and several fixed units; The fixing unit includes a corresponding connecting mechanism and a fixing plate; The connecting mechanism adjusts its angle according to the terrain. One end of the connecting mechanism is installed on the slope or mountain, and the other end of the connecting mechanism is installed with a fixing plate. The fixing plates are spliced together to form a warning fence fixing plate; The display panel is magnetically connected to the warning fence fixing plate.
2. The geological disaster warning fence according to claim 1, characterized in that, The connecting mechanism includes an angle adjustment structure located on the side of the fixed plate facing the mountain or slope, a longitudinal stabilizing structure located at the end of the angle adjustment structure facing away from the fixed plate, and several lateral stabilizing structures located around the angle adjustment structure. One end of the angle adjustment structure is vertically installed at the center of the fixed plate facing the mountain or slope, and rotates along the connection point; the other end of the angle adjustment structure is connected to one end of the longitudinal stabilizing structure. The other end of the longitudinal stabilizing structure is inserted into the slope or mountain to ensure the longitudinal stability and fixation of the fence; The lateral stabilizing structure is arranged radially around the angle adjustment structure, with one end of the lateral stabilizing structure rotatably connected to the angle adjustment structure, and the other end of the lateral stabilizing structure is connected to the fixed plate and the slope / mountain respectively. The lateral stabilizing structure is adjusted according to the slope or undulation of the slope or mountain to improve its adaptability to the slope or mountain.
3. A geological disaster warning fence according to claim 2, characterized in that, The longitudinal stabilizing structure is inserted into the slope or mountain at one end in a conical shape.
4. A geological disaster warning fence according to claim 2, characterized in that, The angle adjustment structure is a spherical hinge.
5. A geological disaster warning fence according to claim 2, characterized in that, Telescopic rods are respectively provided between the lateral stabilizing structure and the fixed plate; The lateral stabilizing structure includes at least two ball-joint second adjusting rods, with the opposite ends of the two second adjusting rods rotatably connected to the angle adjusting structure and the slope / mountain, respectively. One end of the telescopic rod is ball-jointed to the fixed plate.
6. A geological disaster warning fence according to claim 5, characterized in that, The second adjusting rod is equipped with a connecting seat at the end that connects to the mountain / slope. The connecting seat is rotatably connected to the second adjusting rod, and the connecting seat is fixed on the mountain / slope. The other end of the telescopic rod is connected to the connecting seat.
7. A geological disaster warning fence according to claim 2, characterized in that, The opposite ends of the fixing plate are respectively provided with connecting structures; The connection structure includes a connection part and a connection groove that are adapted to be located at opposite ends of the unit fixing plate; The connecting part is fixedly connected to the fixing plate, and the connecting part is fastened into the connecting groove.
8. A geological disaster warning fence according to claim 7, characterized in that, The thickness of each connecting groove is less than the thickness of the fixing plate, and the connecting groove is located on the side of the fixing plate facing away from the slope / mountain. The thickness of the connecting part matches the thickness of the fixing plate, and the connecting part and the fixing plate are flush with the side facing away from the slope / mountain to ensure a tight connection and flat installation between adjacent fixing units.
9. A geological disaster warning fence according to claim 7, characterized in that, Locking mechanisms are respectively provided on the side of the connecting groove facing away from the slope / mountain and on the side of the connecting part facing away from the slope / mountain. The locking mechanism includes a pressure rod disposed on the wall of the connecting groove and a slot located on the side of the connecting part facing away from the slope / mountain, corresponding to the locking block; The pressure rod is an L-shaped rod, one end of which is movably connected to the wall of the connecting groove, and a locking block is provided on the side of the pressure rod facing the connecting groove; The locking block is fixed on the pressure rod and inserted into the locking slot.
10. A geological disaster warning fence according to claim 1, characterized in that, The upper and lower sides of the fixed plate facing away from the connecting mechanism are respectively fixedly connected to baffles; The display panel is located between the two baffles.