A glass curtain wall positioning auxiliary device

The glass curtain wall positioning auxiliary device, composed of sliding rails, a moving platform, a rotating hollow plate, and a suction cup adjustment mechanism, solves the problem of disassembly and movement of existing equipment, and realizes stable installation and flexible hoisting of the equipment to meet the needs of curtain walls of different specifications.

CN224336992UActive Publication Date: 2026-06-09GUANGZHOU NO 4 DECORATION CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGZHOU NO 4 DECORATION CO LTD
Filing Date
2025-07-10
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing glass curtain wall hoisting equipment requires disassembly during movement, resulting in a waste of human resources. Furthermore, traditional auxiliary devices are difficult to adapt to the positioning requirements of curtain wall panels of different specifications and shapes as well as complex building facades, and lack real-time monitoring and feedback functions.

Method used

The glass curtain wall positioning auxiliary device consists of a sliding rail plate, a moving platform, a rotating hollow plate, a suction cup adjustment mechanism, and a drive assembly. Through the quick disassembly mechanism, suction cup adjustment mechanism, and drive assembly, it enables stable installation, angle adjustment, and flexible movement of the hoisting equipment.

Benefits of technology

It enables stable movement and angle adjustment of glass curtain wall hoisting equipment, improves the adaptability and hoisting efficiency of the equipment, reduces waste of human resources, and enhances the ability to fix curtain walls of different sizes.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the technical field of glass curtain wall hoisting equipment, and discloses a glass curtain wall positioning auxiliary device, including a slide rail plate and a hollow long plate. A moving platform is provided on the top of the slide rail plate, and a quick-release mechanism is provided at the bottom of the moving platform. A rotating hollow plate is rotatably connected to the top of the moving platform. A driving component is provided on the rear side of the top of the rotating hollow plate, and support components are provided on both the left and right sides of the top of the rotating hollow plate. The support components are used for better hoisting of the glass curtain wall. A suction cup adjustment mechanism is provided on the inner wall of the hollow long plate. In this utility model, by arranging and fixing the slide rail plate to the top of the high-rise building, placing the moving platform on it, and having the sliding wheels engage the slide rail plate, rotating the rotating rod causes the convex block to drive the connecting rod to move, the sliding strip slides within the limiting plate, and the auxiliary wheel engages the inner side of the slide rail plate to adjust the angle of the hoisting equipment and optimize the movement.
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Description

Technical Field

[0001] This utility model relates to the technical field of glass curtain wall hoisting equipment, and in particular to a glass curtain wall positioning auxiliary device. Background Technology

[0002] Glass curtain walls, as an important form of modern building facades, are characterized by their aesthetic appeal, transparency, and excellent lighting, and are widely used in high-rise buildings. During installation, the precise positioning of the curtain wall panels is crucial to construction quality and efficiency. Existing glass curtain wall positioning methods largely rely on manual measurement and adjustment, requiring repeated adjustments to position and angle, which is time-consuming, labor-intensive, and highly susceptible to human error. Traditional auxiliary devices have fixed structures, making it difficult to adapt to the positioning needs of curtain wall panels of different specifications and shapes, as well as complex building facades. Furthermore, they lack real-time monitoring and feedback functions, making it impossible to dynamically adjust positioning parameters. With the increasing demands for precision and intelligence in the construction industry, the need for efficient and precise installation of modern building curtain walls is being addressed.

[0003] A search revealed Chinese Patent Publication No. CN222125008U, which discloses an auxiliary positioning device for glass curtain wall testing equipment, relating to the field of glass curtain wall testing technology. This device includes a support frame, a limiting mechanism located at the bottom of the support frame for horizontal positioning of the glass curtain wall, and a testing unit. Both the limiting mechanism and the testing unit are located within the space enclosed by the support frame, with the testing unit positioned above the limiting mechanism and connected to the top of the support frame. The testing unit includes a transmission plate located at the top of the support frame, an electromagnetic ring embedded within the transmission plate, and a steel ball for detecting the strength of the glass curtain wall. The electromagnetic ring suspends the steel ball above the glass curtain wall using electromagnetic force. During testing, the electromagnetic ring can be de-energized, allowing the steel ball to impact the glass curtain wall solely under its own weight, thus controlling the impact force and obtaining accurate test data. However, in actual use, the device needs to be disassembled before it can be moved, requiring significant manpower and resulting in a waste of human resources. Utility Model Content

[0004] To overcome the above shortcomings, this utility model provides a glass curtain wall positioning auxiliary device, which aims to improve the problem that in the prior art, hoisting equipment needs to be disassembled before it can be moved, which requires a lot of manpower and thus wastes a lot of human resources.

[0005] To achieve the above objectives, the present invention adopts the following technical solution: a glass curtain wall positioning auxiliary device, comprising a slide rail plate and a hollow long plate, wherein a moving platform is provided on the top of the slide rail plate, a quick disassembly mechanism is provided on the bottom of the moving platform, a rotating hollow plate is rotatably connected to the top of the moving platform, a driving component is provided on the rear side of the top of the rotating hollow plate, and support components are provided on both the left and right sides of the top of the rotating hollow plate. The support components are used to better hoist the glass curtain wall, and a suction cup adjustment mechanism is provided on the inner wall of the hollow long plate.

[0006] The quick disassembly mechanism includes multiple sliding wheels, the tops of which are rotatably connected to the bottom of the mobile platform. Reinforcing plates are fixedly connected to the front and rear sides of the bottom of the mobile platform. Limiting plates are fixedly connected to the left and right sides of the outer walls of the reinforcing plates. Sliding strips are slidably connected to the front and rear bottom sides of the two limiting plates on the left and right sides. Auxiliary wheels are rotatably connected to the left and right bottom sides of the sliding strips. The outer walls of the auxiliary wheels engage with the inner walls of the slide rails. A contraction spring is fixedly connected to an adjacent side of each of the two sliding strips on the front and rear sides. A connecting rod is fixedly connected to the top of an adjacent side of each of the two sliding strips on the front and rear sides. An adjustment assembly is provided at the center of the top of the mobile platform.

[0007] The above technical solution involves arranging and fixing multiple sliding rail plates sequentially on the top of the building where the glass curtain wall to be hoisted is to be installed. A mobile platform is then placed above the sliding rail plates, allowing the sliding wheels to engage and slide above them. A locking block is then placed on a limiting rod and slid upwards, disengaging the locking block from the rotating rod. The rotating rod is then rotated, causing the convex block to rotate. Under the pressure of the convex block, the connecting rods on both sides move relative to each other, causing the sliding strip to slide under the constraint of the limiting plate. This causes the auxiliary wheel to engage with the inner side of the sliding rail plate. Finally, the locking block is slid downwards, engaging and fixing with the rotated rotating rod. This ensures the entire mobile platform is stably installed above the sliding rail plates. The fixing cylinder more stably allows the rotating hollow plate and the structure above to rotate, thereby adjusting the angle of the hoisting equipment and enabling better movement of the hoisting equipment.

[0008] As a further description of the above technical solution:

[0009] The suction cup adjustment mechanism includes a gear, the front and rear sides of which are rotatably connected to the inner wall of the hollow long plate. The rear side of the gear passes through the rear side of the hollow long plate and is fixedly connected to a cross block. The front side of the gear passes through the front side of the hollow long plate and is fixedly connected to a rotating handle. A concave block is slidably connected to the rear part of the hollow long plate. The inner wall of the concave block engages with the outer wall of the cross block. Rack columns are meshed with the left and right sides of the outer wall of the gear. A connecting plate is fixedly connected to the two rack columns at opposite ends. Rubber suction cups are slidably connected to the connecting plate and the left and right sides of the inner wall of the hollow long plate. Adjustment and fixing components are provided on the connecting plate and the outer wall of the hollow long plate.

[0010] The above technical solution involves the following steps: When hoisting a long glass curtain wall, first slide the concave block to the top to disengage it from the cross block. Then, rotate the handle to rotate the gears, which in turn drives the meshing rack columns on both sides to move relative to or away from each other, thereby moving the corresponding connecting plates. When fixing a wide glass curtain wall, adjust the fixing components to adjust the rubber suction cups, thereby increasing the contact area between the hoisting equipment and the glass curtain wall.

[0011] As a further description of the above technical solution:

[0012] The adjustment assembly includes two limiting rods, the bottom ends of which are fixedly connected to the top of the moving platform. The outer walls of the two limiting rods are slidably connected to locking blocks. A rotating rod is rotatably connected to the center of the top of the moving platform. The bottom end of the rotating rod passes through the moving platform and is fixedly connected to a protruding block. The outer wall of the rotating rod engages with the inner wall of the locking block.

[0013] The above technical solution involves sliding the locking block upwards on the limiting rod to disengage it from the rotating rod. After rotating the rotating rod, the locking block is slid downwards to engage and fix it with the rotated rod.

[0014] As a further description of the above technical solution:

[0015] The adjusting and fixing assembly includes multiple grooves, the outer walls of which are respectively formed on the left and right sides of the outer walls of the connecting plate and the hollow long plate. The upper and lower sides of the outer wall of the rubber suction cup are threaded with fastening bolts, and the outer walls of the fastening bolts are provided with gaskets.

[0016] The above technical solution involves rotating the fastening bolt to release it from the rubber suction cup, then moving the rubber suction cup above the groove to the desired position, and finally rotating the fastening bolt to fix the rubber suction cup in place.

[0017] As a further description of the above technical solution:

[0018] The drive assembly includes two servo motors, which are respectively fixedly connected to the left and right sides of the rear top of the rotating hollow plate. The output ends of the servo motors are fixedly connected to a winding device. A steel rope is fixedly connected to the inner wall of the winding device. The other end of the steel rope is fixedly connected to a connecting ring. A limit component is provided on the inner wall of the connecting ring.

[0019] The above technical solution involves starting a servo motor to drive the winding device to rotate, thereby winding the steel rope and driving the connecting ring, which in turn moves the hollow long plate.

[0020] As a further description of the above technical solution:

[0021] The limiting component includes two limiting rings, the rear sides of which are respectively fixedly connected to the inner wall of the corresponding connecting ring, and a limiting U-shaped plate is fixedly connected to the front of the top connecting plate.

[0022] The above technical solution involves a limiting ring that moves the hollow long plate, while the limiting U-shaped plate restricts the steel rope to keep the entire glass curtain wall as vertical as possible when pulling the hollow long plate.

[0023] As a further description of the above technical solution:

[0024] The support assembly includes two U-shaped blocks. The bottoms of the two U-shaped blocks are fixedly connected to the top left and right sides of the rotating hollow plate, respectively. A support column is fixedly connected to the front side of the inner wall of the U-shaped block, and a fixed pulley is rotatably connected to the top of the inner wall of the support column.

[0025] The above technical solution allows the steel rope to be hoisted at the optimal angle by the support of the U-shaped block and the support column. At the same time, the fixed pulley reduces friction when the steel rope slides above the support column, which facilitates the hoisting of the hollow long plate.

[0026] As a further description of the above technical solution:

[0027] The top of the mobile platform is fixedly connected to a fixed cylinder, and the top of the outer wall of the fixed cylinder is rotatably connected to the inner wall of the rotating hollow plate.

[0028] Through the above technical solution, the fixed cylinder can limit the rotation of the hollow plate and facilitate the rotation of the hollow plate.

[0029] This utility model has the following beneficial effects:

[0030] 1. In this utility model, by arranging and fixing the slide rail plates on the top of the high-rise building, the mobile platform is placed on it, the sliding wheel engages with the slide rail plate, the locking block slides upward to release the engagement with the rotating rod, the rotating rod is rotated to make the convex block drive the connecting rod to move, the sliding strip slides within the limiting plate, the auxiliary wheel engages with the inner side of the slide rail plate, the locking block slides to the bottom and engages with the rotating rod to ensure the stability of the mobile platform, the fixing cylinder makes the rotating hollow plate and the upper structure rotate, adjust the angle of the hoisting equipment, and optimize the movement.

[0031] 2. In this utility model, the sliding concave block is used to release the engagement with the cross block, the handle is rotated to make the gear rotate, which drives the rack column and the connecting plate to move. When fixing the wide glass curtain wall, the fastening bolt is rotated to release the rubber suction cup. After moving the suction cup to the appropriate position, the bolt is tightened again to increase the contact area between the hoisting equipment and the curtain wall, thereby better adsorbing and fixing glass curtain walls of different sizes. Attached Figure Description

[0032] Figure 1 This is a perspective view of a glass curtain wall positioning auxiliary device proposed in this utility model;

[0033] Figure 2 This is a front view of a glass curtain wall positioning auxiliary device proposed in this utility model;

[0034] Figure 3 This is a top view of a glass curtain wall positioning auxiliary device proposed in this utility model;

[0035] Figure 4 This is an exploded view of the moving platform of a glass curtain wall positioning auxiliary device proposed in this utility model;

[0036] Figure 5 This is a schematic diagram of the adjustment components of a glass curtain wall positioning auxiliary device proposed in this utility model;

[0037] Figure 6 This is a schematic diagram of the suction cup adjustment mechanism of a glass curtain wall positioning auxiliary device proposed in this utility model.

[0038] Legend:

[0039] 1. Slide rail plate; 2. Quick disassembly mechanism; 201. Sliding wheel; 202. Reinforcing plate; 203. Sliding bar; 204. Auxiliary wheel; 205. Limiting plate; 206. Retraction spring; 207. Connecting rod; 208. Adjustment assembly; 2081. Limiting rod; 2082. Locking block; 2083. Rotating rod; 2084. Convex block; 3. Suction cup adjustment mechanism; 301. Gear; 302. Cross block; 303. Rotating handle; 304. Concave block; 305. Rack column; 306. Connector 307. Plate; 308. Rubber suction cup; 309. Adjustment and fixing assembly; 3001. Groove; 3002. Gasket; 3003. Fastening bolt; 4. Moving platform; 5. Rotating hollow plate; 6. Hollow long plate; 7. Drive assembly; 701. Servo motor; 702. Winding device; 703. Steel rope; 704. Connecting ring; 8. Limiting assembly; 801. Limiting ring; 802. Limiting U-shaped plate; 9. Support assembly; 901. U-shaped block; 902. Support column; 903. Fixed pulley; 10. Fixed cylinder. Detailed Implementation

[0040] 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.

[0041] Reference Figure 1 , Figure 4 and Figure 5This utility model provides an embodiment of a glass curtain wall positioning auxiliary device, comprising a slide rail 1 and a hollow long plate 6. A moving platform 4 is provided at the top of the slide rail 1, and a quick-release mechanism 2 is provided at the bottom of the moving platform 4. A rotating hollow plate 5 is rotatably connected to the top of the moving platform 4. A driving assembly 7 is provided on the rear side of the top of the rotating hollow plate 5, and support assemblies 9 are provided on both the left and right sides of the top of the rotating hollow plate 5. The support assemblies 9 are used for better hoisting of the glass curtain wall. A suction cup adjustment mechanism 3 is provided on the inner wall of the hollow long plate 6. The quick-release mechanism 2 includes multiple sliding wheels. 201. The tops of multiple sliding wheels 201 are rotatably connected to the bottom of the moving platform 4. The moving platform 4 is placed above the slide rail 1, so that the sliding wheels 201 engage and slide above the slide rail 1. Reinforcing plates 202 are fixedly connected to the front and rear sides of the bottom of the moving platform 4. Limiting plates 205 are fixedly connected to the left and right sides of the outer wall of the reinforcing plates 202. Sliding strips 203 are slidably connected to the front and rear sides of the bottom of the two limiting plates 205 on the left and right sides. Auxiliary wheels 204 are rotatably connected to the left and right sides of the bottom of the sliding strips 203. The outer wall of the auxiliary wheel 204 is flush with the inner wall of the slide rail 1. The sliding bars 203 on both the front and rear sides are locked together. A retraction spring 206 is fixedly connected to each adjacent side of the sliding bars 203 on both the front and rear sides. A connecting rod 207 is fixedly connected to the top of each adjacent side of the sliding bars 203 on both the front and rear sides. An adjustment assembly 208 is provided at the center of the top of the moving platform 4. The adjustment assembly 208 includes two limiting rods 2081. The bottom ends of the two limiting rods 2081 are fixedly connected to the top of the moving platform 4. A locking block 2082 is slidably connected to the outer wall of each of the two limiting rods 2081. A rotating rod 2083 is rotatably connected to the center of the top of the moving platform 4. A protruding block 2084 is fixedly connected to the bottom of the mobile platform 4. The locking block 2082 slides upward on the limiting rod 2081, so that the locking block 2082 is disengaged from the rotating rod 2083. Then, the rotating rod 2083 is rotated, which in turn drives the protruding block 2084 to rotate. Under the pressure of the protruding block 2084, the connecting rods 207 on both sides move relative to each other, and the outer wall of the rotating rod 2083 engages with the inner wall of the locking block 2082. The top of the mobile platform 4 is fixedly connected to the fixing cylinder 10, and the top of the outer wall of the fixing cylinder 10 is rotatably connected to the inner wall of the rotating hollow plate 5.

[0042] Specifically, multiple slide rail plates 1 are arranged and fixed sequentially on the top of the high-rise building where the glass curtain wall to be hoisted is to be installed. Then, a moving platform 4 is placed above the slide rail plates 1, causing the sliding wheels 201 to engage and slide above the slide rail plates 1. Next, the locking block 2082 slides upwards on the limiting rod 2081, disengaging the locking block 2082 from the rotating rod 2083. The rotating rod 2083 is then rotated, causing the convex block 2084 to rotate. Under the pressure of the convex block 2084, the connecting rods 207 on both sides move relative to each other, causing the sliding strip 203 to slide under the constraint of the limiting plate 205. This causes the auxiliary wheel 204 to engage on the inner side of the slide rail plate 1. Then, slide the locking block 2082 to the bottom, so that the locking block 2082 engages and fixes with the rotated rod 2083 after rotation, thereby ensuring that the entire mobile platform 4 is stably installed above the slide rail plate 1. The fixed cylinder 10 more stably allows the rotating hollow plate 5 and the structure above to rotate, thereby adjusting the angle of the hoisting equipment and allowing the hoisting equipment to move better. The moving height of the hollow long plate 6 is controlled by the drive component 7, thereby driving the fixed glass curtain wall to move. Under the limitation of the limiting U-shaped plate 802 in the limiting component 8, the hoisted glass curtain wall can be moved at a better angle, and the support component 9 can better slide the steel rope 703.

[0043] Reference Figure 1 , Figure 2 and Figure 6The suction cup adjustment mechanism 3 includes a gear 301. The front and rear sides of the gear 301 are rotatably connected to the inner wall of the hollow long plate 6. The rear side of the gear 301 penetrates the rear side of the hollow long plate 6 and is fixedly connected to a cross block 302. The front side of the gear 301 penetrates the front side of the hollow long plate 6 and is fixedly connected to a rotating handle 303. A concave block 304 is slidably connected to the rear part of the hollow long plate 6. The inner wall of the concave block 304 engages with the outer wall of the cross block 302. Rack pinions 305 are meshed with the left and right sides of the outer wall of the gear 301. Connecting plates 306 are fixedly connected to the far ends of the two rack pinions 305. Rotating the rotating handle 303 causes the gear 301 to rotate, which in turn drives the meshing rack pinions 305 on both sides to move relative to or away from each other, thereby moving the corresponding connecting plates 306. Rubber suction cups 307 are slidably connected to the inner walls of the connecting plate 306 and the hollow long plate 6 on both the left and right sides. Adjustment and fixing components 308 are provided on the outer walls of the connecting plate 306 and the hollow long plate 6. The adjustment and fixing components 308 include multiple grooves 3081, and the outer walls of the multiple grooves 3081 are respectively opened on the left and right sides of the outer walls of the connecting plate 306 and the hollow long plate 6. Fastening bolts 3083 are threadedly connected to the upper and lower sides of the outer walls of the rubber suction cups 307. Washers 3082 are provided on the outer walls of the fastening bolts 3083. Rotating the fastening bolts 3083 releases the fastening bolts 3083 from fixing the rubber suction cups 307. Then, the rubber suction cups 307 are moved so that they move above the grooves 3081. After moving to the desired position, the fastening bolts 3083 are rotated to fix the rubber suction cups 307.

[0044] Specifically, when hoisting a long glass curtain wall, first slide the concave block 304 to the top to disengage it from the cross block 302. Then, rotate the handle 303 to rotate the gear 301, which in turn drives the meshing rack columns 305 on both sides to move relative to or away from each other, thereby moving the corresponding connecting plate 306. When fixing a wide glass curtain wall, rotate the fastening bolt 3083 to release it from fixing the rubber suction cup 307. Then, move the rubber suction cup 307 above the groove 3081. After moving it to the desired position, rotate the fastening bolt 3083 to fix the rubber suction cup 307, thereby increasing the contact area between the hoisting equipment and the glass curtain wall.

[0045] Reference Figure 2 , Figure 3 and Figure 4The drive assembly 7 includes two servo motors 701, which are fixedly connected to the left and right sides of the rear top of the rotating hollow plate 5, respectively. Each servo motor 701 has a winding device 702 fixedly connected to its output end. A steel rope 703 is fixedly connected to the inner wall of the winding device 702, and a connecting ring 704 is fixedly connected to the other end of the steel rope 703. Starting the servo motors 701 drives the winding device 702 to rotate, thereby winding the steel rope 703, which then enters the connecting ring 704 and moves the hollow plate 6 through the limiting ring 801. A limit assembly 8 is provided on the inner wall of the connecting ring 704; the limit assembly 8 includes two limiting rings 801, whose rear sides are fixedly connected to the inner walls of the corresponding connecting rings 704. The top connecting plate 306 is fixedly connected to a limiting U-shaped plate 802 at its front. Under the constraint of the limiting U-shaped plate 802, the steel rope 703 keeps the entire glass curtain wall as vertical as possible when pulling the hollow long plate 6. The support component 9 includes two U-shaped blocks 901. The bottom of the two U-shaped blocks 901 is fixedly connected to the top left and right sides of the rotating hollow plate 5, respectively. The inner wall front side of the U-shaped block 901 is fixedly connected to a column 902. The top of the inner wall of the column 902 is rotatably connected to a fixed pulley 903. With the support of the U-shaped blocks 901 and the column 902, the steel rope 703 can be hoisted at the optimal angle for the hollow long plate 6. At the same time, under the action of the fixed pulley 903, the friction is reduced when the steel rope 703 slides above the column 902.

[0046] Specifically, by activating the servo motor 701, the winding device 702 can be rotated, thereby winding the steel rope 703, which then enters the connecting ring 704 and moves the hollow long plate 6 through the limiting ring 801. Simultaneously, under the constraint of the limiting U-shaped plate 802, the steel rope 703 keeps the entire glass curtain wall as vertical as possible when pulling the hollow long plate 6. With the support of the U-shaped block 901 and the column 902, the steel rope 703 can be hoisted at the optimal angle for the hollow long plate 6. At the same time, under the action of the fixed pulley 903, the friction of the steel rope 703 is reduced when sliding above the column 902, which facilitates the hoisting of the hollow long plate 6.

[0047] Working principle: First, multiple slide rail plates 1 are arranged and fixed on the top of the building where the glass curtain wall to be hoisted is to be installed. Then, the moving platform 4 is placed above the slide rail plates 1, so that the sliding wheel 201 engages and slides above the slide rail plate 1. Then, the locking block 2082 slides upward on the limiting rod 2081, so that the locking block 2082 is disengaged from the rotating rod 2083. Then, the rotating rod 2083 is rotated, which in turn drives the convex block 2084 to rotate. Under the pressure of the convex block 2084, the connecting rods 207 on both sides move relative to each other, which in turn drives the sliding strip 203 to slide under the restriction of the limiting plate 205, thereby driving the auxiliary wheel 204 to engage on the inner side of the slide rail plate 1. Then, the locking block 2082 is slid to the bottom, so that the locking block 2082 engages and is fixed with the rotated rod 2083 after rotation, thereby ensuring that the entire mobile platform 4 is stably installed above the slide rail plate 1. The fixed cylinder 10 allows the rotating hollow plate 5 and the structure above it to rotate more stably, thereby adjusting the angle of the hoisting equipment and allowing the hoisting equipment to move better. The moving height of the hollow long plate 6 is controlled by the drive component 7, thereby driving the fixed glass curtain wall to move. Under the limitation of the limiting U-shaped plate 802 in the limiting component 8, the hoisted glass curtain wall can be moved at a better angle, and the support component 9 provides better sliding for the steel rope 703.

[0048] Furthermore, when hoisting a long glass curtain wall using the suction cup adjustment mechanism 3, the concave block 304 is first slid upwards to disengage from the cross block 302. Then, the rotating handle 303 is turned, causing the gear 301 to rotate. This drives the meshing rack columns 305 on both sides to move relative to or away from each other, thereby moving the corresponding connecting plate 306. When fixing a wider glass curtain wall, the fastening bolt 3083 can be turned to release the fastening bolt 3083 from fixing the rubber suction cup 307. Then, the rubber suction cup 307 is moved above the groove 3081. After moving to the desired position, the fastening bolt 3083 is turned to fix the rubber suction cup 307, thereby increasing the contact area between the entire hoisting equipment and the glass curtain wall.

[0049] Finally, it should be noted that the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. Although the present utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.

Claims

1. A glass curtain wall positioning auxiliary device, comprising a slide rail (1) and a hollow long plate (6), characterized in that: The top of the slide rail plate (1) is provided with a moving platform (4), the bottom of the moving platform (4) is provided with a quick disassembly mechanism (2), the top of the moving platform (4) is rotatably connected with a rotating hollow plate (5), the rear side of the top of the rotating hollow plate (5) is provided with a drive assembly (7), the top left and right sides of the rotating hollow plate (5) are provided with support assemblies (9), the support assemblies (9) are used to better hoist the glass curtain wall, and the inner wall of the hollow long plate (6) is provided with a suction cup adjustment mechanism (3). The quick disassembly mechanism (2) includes multiple sliding wheels (201), the tops of which are rotatably connected to the bottom of the mobile platform (4). The bottom front and rear sides of the mobile platform (4) are fixedly connected to a reinforcing plate (202). The outer walls of the reinforcing plate (202) are fixedly connected to a limiting plate (205) on both the left and right sides. The bottom front and rear sides of the two limiting plates (205) on the left and right sides are slidably connected to a sliding strip (203). The bottom left and right sides of the sliding strip (203) are rotatably connected to an auxiliary wheel (204). The outer wall of the auxiliary wheel (204) engages with the inner wall of the slide rail plate (1). The adjacent sides of the two sliding strips (203) on the front and rear sides are fixedly connected to a retraction spring (206). The top of the adjacent sides of the two sliding strips (203) on the front and rear sides are fixedly connected to a connecting rod (207). An adjustment component (208) is provided at the top center of the mobile platform (4).

2. The glass curtain wall positioning auxiliary device according to claim 1, characterized in that: The suction cup adjustment mechanism (3) includes a gear (301), the front and rear sides of which are rotatably connected to the inner wall of the hollow long plate (6). The rear side of the gear (301) penetrates the rear side of the hollow long plate (6) and is fixedly connected to a cross block (302). The front side of the gear (301) penetrates the front side of the hollow long plate (6) and is fixedly connected to a rotating handle (303). A concave block (304) is slidably connected to the rear of the hollow long plate (6). The inner wall of the gear (304) engages with the outer wall of the cross block (302). The outer walls of the gear (301) are meshed with rack columns (305) on both sides. The two rack columns (305) are fixedly connected to a connecting plate (306) at opposite ends. The connecting plate (306) and the inner walls of the hollow long plate (6) are slidably connected with rubber suction cups (307). The connecting plate (306) and the outer walls of the hollow long plate (6) are provided with adjusting and fixing components (308).

3. The glass curtain wall positioning auxiliary device according to claim 1, characterized in that: The adjustment assembly (208) includes two limiting rods (2081), the bottom ends of which are fixedly connected to the top of the moving platform (4). The outer walls of the two limiting rods (2081) are slidably connected to a locking block (2082). A rotating rod (2083) is rotatably connected to the middle of the top of the moving platform (4). The bottom end of the rotating rod (2083) passes through the moving platform (4) and is fixedly connected to a convex block (2084). The outer wall of the rotating rod (2083) engages with the inner wall of the locking block (2082).

4. The glass curtain wall positioning auxiliary device according to claim 2, characterized in that: The adjusting and fixing assembly (308) includes multiple grooves (3081), the outer walls of the multiple grooves (3081) are respectively opened on the left and right sides of the outer walls of the connecting plate (306) and the hollow long plate (6), and the upper and lower sides of the outer wall of the rubber suction cup (307) are threaded with fastening bolts (3083), and the outer walls of the fastening bolts (3083) are provided with washers (3082).

5. A glass curtain wall positioning auxiliary device according to claim 2, characterized in that: The drive assembly (7) includes two servo motors (701). The two servo motors (701) are respectively fixedly connected to the left and right sides of the rear top of the rotating hollow plate (5). The output ends of the servo motors (701) are fixedly connected to a winding device (702). A steel rope (703) is fixedly connected to the inner wall of the winding device (702). The other end of the steel rope (703) is fixedly connected to a connecting ring (704). A limit component (8) is provided on the inner wall of the connecting ring (704).

6. The glass curtain wall positioning auxiliary device according to claim 5, characterized in that: The limiting component (8) includes two limiting rings (801), the rear sides of the two limiting rings (801) are respectively fixedly connected to the inner wall of the corresponding connecting ring (704), and the front part of the top connecting plate (306) is fixedly connected to a limiting U-shaped plate (802).

7. The glass curtain wall positioning auxiliary device according to claim 1, characterized in that: The support assembly (9) includes two U-shaped blocks (901), the bottoms of the two U-shaped blocks (901) are fixedly connected to the top left and right sides of the rotating hollow plate (5), and a support column (902) is fixedly connected to the front side of the inner wall of the U-shaped block (901). A fixed pulley (903) is rotatably connected to the top of the inner wall of the support column (902).

8. A glass curtain wall positioning auxiliary device according to claim 1, characterized in that: The top of the mobile platform (4) is fixedly connected to the fixed cylinder (10), and the top of the outer wall of the fixed cylinder (10) is rotatably connected to the inner wall of the rotating hollow plate (5).