Glass curtain wall hoisting construction device and construction method
By combining the suspended platform system, hoisting system, and construction system, the problems of multiple relocations and manual transfers of glass curtain walls were solved, enabling rapid installation and fixation of glass curtain walls and improving construction efficiency and safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- CHINA CONSTR SEVENTH ENG DIVISION CORP LTD
- Filing Date
- 2024-02-26
- Publication Date
- 2026-07-03
AI Technical Summary
Existing glass curtain wall installation methods require multiple glass transfers, rely on manual transfer, are difficult to operate, and have low construction efficiency, especially when constructing on an inclined plane, it is difficult to maintain the glass condition.
The system combines a suspended platform system, a hoisting system, and a construction system. The bottom of the suspended platform is equipped with a loading port. Combined with a winch and glass lifting equipment, the glass position is adjusted by moving the base horizontally and vertically, and the assembly tilt angle is changed by adjusting the cylinder, so as to achieve rapid transfer and fixation of the glass.
It improves the efficiency and safety of glass curtain wall construction, simplifies the operation process, and is suitable for glass curtain wall construction of various scales.
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Figure CN118128314B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of building engineering technology, specifically to a glass curtain wall hoisting and construction device and method. Background Technology
[0002] Glass curtain walls are a common exterior wall decoration structure in modern architecture. They not only enhance the aesthetics of buildings but also provide excellent lighting and views. Conventional glass installation typically involves first installing the curtain wall frame structure onto the wall, ensuring it is horizontally and vertically aligned, then installing the sealing and thermal insulation strips, and finally installing the glass panels.
[0003] In the glass installation process, the existing technology generally uses hoisting or direct handling to transport the glass to the corresponding floor, and then installs the glass from the inside. The installation is difficult, and the glass still needs to be assembled with the help of external tools such as suspended platforms, such as fixing the glass and applying sealant.
[0004] In the prior art, such as the invention patent with patent number 202311102618.4, a glass curtain wall hoisting and construction device based on green building is disclosed, which relates to the field of building construction technology. It is installed in a suspended platform to move the glass. The glass curtain wall hoisting and construction device includes: a movable lifting support unit installed in the suspended platform; a sliding rod horizontally sliding and rotatably connected to the movable lifting support unit; a horizontal drive component with its drive end connected to the sliding rod to drive the sliding rod to rotate; and a fixing component rotatably connected to one end of the sliding rod, and the fixing component includes a suction cup pressing against the glass. This structure combines the suspended platform with the glass curtain wall installation and facilitates the transportation of glass. However, this structure still has the problem of cumbersome construction. Multiple transfers of the glass are prone to damage, the construction steps are complicated, and it relies heavily on manual glass transfer, making construction troublesome. Therefore, it is necessary to study a glass curtain wall hoisting and construction device and method. Summary of the Invention
[0005] Therefore, the purpose of this invention is to provide a glass curtain wall hoisting and construction device and method, which effectively solves the problems of existing glass curtain wall installation methods that require multiple glass transfers, rely heavily on manual transfer for glass installation, are difficult to operate, have low construction efficiency, and are particularly difficult to maintain the glass condition when dealing with partial inclined surface construction.
[0006] To achieve the above objectives, the technical solution adopted by the present invention is: a glass curtain wall hoisting and construction device, comprising a suspended platform system, a hoisting system, and a construction system; wherein...
[0007] The suspended platform system includes a suspended platform and a suspension frame. The suspension frame is arranged on the top of the building. The suspended platform is connected to the suspension frame by a winch and ropes, and the position of the suspended platform can be changed vertically. The bottom of the suspended platform has a loading port.
[0008] The hoisting system includes a winch, auxiliary ropes, and a glass lifting device. The glass lifting device includes a central body, a support arm, a suction cup, an auxiliary arm, and a connecting shaft. The back of the central body is provided with an outwardly extending support arm, a horizontally arranged auxiliary arm, and an upwardly extending boom. The boom is provided with a lifting ring, and the end of the auxiliary arm is provided with a positioning groove. The connecting shaft is fixed to the front of the central body. The auxiliary rope is arranged on both sides and passes through the loading port. The winch is connected to the lifting ring and pulls the glass lifting device upward. The auxiliary rope is nested in the positioning groove to limit the position of the glass lifting device, so that the glass lifting device can carry the glass from the loading port into the suspended platform construction area.
[0009] The construction system includes a transverse track, a transverse base, a longitudinal base, a support, a loading plate, an adjusting cylinder, and a locking cylinder. The transverse track is arranged transversely on the bottom plate of the suspended platform. The transverse base is movably arranged on the transverse track via casters. A longitudinal track is provided on the transverse base, and the longitudinal base is movably arranged on the longitudinal track via casters. A support is fixed on the longitudinal base. The central area of the loading plate is hinged to the support. The central part of the loading plate has a loading hole adapted to the connecting shaft. The connecting shaft has a locking hole. The locking cylinder is fixed around the loading hole, and a locking shaft is provided on its telescopic rod. The locking shaft can be inserted into the locking hole and presses the central body against the back side of the loading plate. The two ends of the adjusting cylinder are respectively hinged to the loading plate and the support.
[0010] Furthermore, the main body of the feeding port has a square shape, and a clearance opening corresponding to the connecting shaft is provided in the middle of the feeding port.
[0011] Furthermore, four support arms are provided and evenly distributed around the central body. The end of each auxiliary arm is fitted with a telescopic sleeve, and the end of the telescopic sleeve is provided with a positioning groove with an outward opening. The telescopic sleeve can slide on the auxiliary arm and release the auxiliary rope from the positioning groove.
[0012] Furthermore, the surface of the telescopic sleeve is provided with a set screw, and loosening the set screw can release the sleeve-assisted relationship between the telescopic sleeve and the auxiliary arm.
[0013] Furthermore, a baffle is provided on the inner side of the telescopic sleeve, and a sliding rod is fixed on the central body. The sliding rod is slidably fitted on the baffle, and an end plate is provided at the end of the sliding rod. A spring is fitted on the sliding rod, and the spring is located between the baffle and the central body.
[0014] Furthermore, the bracket has an L-shaped structure and two are arranged side by side. The two brackets are connected by a connecting rod combination. The root of the adjusting cylinder is hinged to the connecting rod or the bracket, and changes the tilt angle of the loading plate.
[0015] Furthermore, the front side of the loading plate is provided with pads, which are distributed around the loading holes.
[0016] Furthermore, the end of the connecting shaft has a tapered structure.
[0017] Furthermore, the end of the locking shaft has a block-shaped structure with a bevel, and the locking hole is adapted to the block-shaped structure. As the locking shaft extends within the locking hole, it forces the glass lifting device to move closer to the loading plate.
[0018] A construction method for a glass curtain wall hoisting device includes the following steps:
[0019] Step 1, Suspended Platform System
[0020] The suspension frame is fixed, and then the suspended platform and the winch installed on it are connected to the suspension frame so that the suspended platform can move vertically, providing a continuous multi-construction point for glass curtain wall construction along the vertical direction;
[0021] Step 2, hoisting system
[0022] Secure the winch and the auxiliary ropes distributed on both sides of it firmly; pass the auxiliary ropes through the loading port, connect the hook of the winch to the lifting ring of the glass lifting device, align the positioning groove with the auxiliary rope, and ensure that the depth of the positioning groove will not allow the auxiliary rope to slip out of the positioning groove; then start the winch to allow the glass lifting device to carry the glass through the loading port and enter the construction area inside the basket.
[0023] Step 3, Transfer
[0024] Move the longitudinal base to insert the connecting shaft into the loading hole, then activate the locking cylinder to lock the connecting shaft in the loading hole. Then release the constraints of the auxiliary rope and hook to separate the glass lifting device from the lifting system and transfer it to the loading plate.
[0025] Step 4, Construction System
[0026] The position of the glass hanger is changed by moving the horizontal and vertical bases to reach the corresponding construction point. The assembly tilt angle of the glass is changed by adjusting the cylinder. After the glass curtain wall is firmly fixed, the locking cylinder is activated to separate the connecting shaft from the loading hole.
[0027] Step 5: Remove the glass lifting equipment
[0028] Connect the lifting ring of the glass lifting device to the hook of the winch, move the auxiliary rope into the positioning slot, and move it downward to lift the next glass curtain wall.
[0029] The beneficial effects of the above technical solution are as follows: This invention utilizes a suspended platform structure to construct glass curtain walls. To facilitate the integration of the two, the structure of the suspended platform is modified, with a loading port provided at the bottom of the platform. This allows the glass lifting equipment to carry the glass into the platform space. Subsequently, a construction system is arranged within the platform space. The construction system can acquire the glass lifting equipment, separate it from the original hoisting system, and transfer it to a loading plate. The loading plate is then moved to move the glass to the corresponding position. Thus, after acquiring the glass, the position of the glass can be finely adjusted using the loading plate structure arranged on the platform, achieving the goal of quickly aligning the glass with the frame.
[0030] In terms of position transfer, the present invention can perform lateral and longitudinal movement, and can also change the tilt angle of the loading plate by adjusting the cylinder, thus making it applicable to the construction of glass curtain walls on inclined surfaces. For complex construction sites, the present invention shows good adaptability and greatly improves construction efficiency.
[0031] Regarding the detachment of the glass lifting device, the present invention connects the glass lifting device to the loading plate via a connecting shaft, thereby detaching the glass lifting device from the auxiliary rope and the winch. To facilitate separation, the present invention provides outward-opening positioning grooves at both ends of the auxiliary arm. This positioning groove structure facilitates the separation of the auxiliary rope from the opening and provides a movable telescopic sleeve to achieve this purpose.
[0032] Therefore, this invention has a novel structure. The use of a suspended platform, glass lifting equipment, and loading plate structure enables rapid glass assembly. In terms of construction, the glass can be directly transferred to the suspended platform and then fixed to the wall after position transfer, which improves construction efficiency. It also makes it convenient for auxiliary personnel to load and stabilize the glass from the outside. It has the advantages of simple operation, high construction efficiency, and strong safety, and is suitable for glass curtain wall construction of various scales. Attached Figure Description
[0033] Figure 1 This is a schematic diagram of the construction structure of the present invention;
[0034] Figure 2 This is a structural diagram of the construction system;
[0035] Figure 3 This is a schematic diagram of the longitudinal and lateral movement structure;
[0036] Figure 4 for Figure 2 Front view structural diagram;
[0037] Figure 5 for Figure 2 A schematic diagram of the rear view structure;
[0038] Figure 6 This is a structural diagram of the hoisting system;
[0039] Figure 7 for Figure 6 A top-view structural diagram;
[0040] Figure 8 This is a schematic diagram of the implementation structure of the slide spring;
[0041] Figure 9 for Figure 6 A schematic diagram of the side view structure;
[0042] Figure 10 This is a schematic diagram of a dual-feed-outlet structure;
[0043] Figure 11 This is a schematic diagram of the mating structure of the lock rod and the lock hole.
[0044] Reference numerals: 1-Suspended basket system, 101-Suspended basket, 102-Loading port, 103-Suspension frame, 2-Lifting system, 21-Central body, 22-Connecting shaft, 23-Locking hole, 231-Inclined surface, 24-Lifting arm, 241-Lifting ring, 25-Support arm, 251-Suction cup, 26-Auxiliary arm, 261-Telescopic sleeve, 262-Positioning groove, 27-Baffle, 271-Slide rod, 272-Spring, 273-End plate, 28-Auxiliary rope, 28-Traction rope, 3-Construction system, 31-Longitudinal base, 32-Transverse base, 33-Transverse track, 34-Bracket, 35-Loading plate, 36-Adjusting cylinder, 37-Locking cylinder, 371-Locking shaft, 38-Loading hole, 39-Padded block. Detailed Implementation
[0045] The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments:
[0046] Example 1: This example aims to provide a glass curtain wall hoisting construction device and construction method, mainly used for the construction of glass curtain walls. In view of the problems in the existing technology, the installation of glass curtain walls requires multiple transfers of glass, and the glass on the wall mostly relies on manual transfer, which is difficult to operate and has low construction efficiency. Especially when facing the construction of some inclined surfaces, it is difficult to maintain the state of the glass. This example mainly combines the suspended basket with the glass hoisting tool. The two work together to achieve the purpose of installing the glass on the wall from the outside.
[0047] like Figure 1 As shown, a glass curtain wall hoisting construction device includes a suspended platform system 1, a hoisting system 2, and a construction system 3. The suspended platform system 1 is not much different from a traditional suspended platform. Its improvement lies in using the suspended platform as the installation base, assembling the construction system 3, and opening a loading port on the suspended platform to facilitate the glass hoisting system 2 to transfer the glass from the bottom to the inside of the suspended platform.
[0048] In specific structures, such as Figure 1The suspended platform system 1, as demonstrated, includes a suspended platform 101 and a suspension frame 103. The suspension frame 103 is located on the top of the building. The suspended platform 101 is connected to the suspension frame 103 via a winch and ropes, allowing for vertical movement of the platform. A loading port 102 is provided at the bottom of the suspended platform. Two suspension frames 103 can be arranged as needed, one on each side. The two suspension frames 103 are connected to the sides of the suspended platform 101 via winches, enabling vertical movement of the platform and allowing the construction system 3 mounted on it to be moved vertically to the corresponding location. The platform, connected to the suspension frame via winches and ropes, can move vertically, providing continuous multiple construction points for glass curtain wall construction. The loading port 102 at the bottom of the platform facilitates the entry of glass lifting equipment.
[0049] During implementation, the main body of the feeding port 102 is square in shape, and a clearance opening corresponding to the connecting shaft is provided in the middle of the feeding port 102. This structure can reduce the coverage area of the feeding port 102 and ensure safety. If necessary, an upward-extending protective plate can be set around the feeding port 102 to prevent foreign objects from falling from the feeding port 102.
[0050] like Figure 6-9 As shown, the hoisting system 2 includes a winch, an auxiliary rope 28, and a glass lifting device. The glass lifting device includes a central body 21, a support arm 25, a suction cup 251, an auxiliary arm 26, and a connecting shaft 22. In this embodiment, the central body 21 is disc-shaped. The back of the central body 21 is provided with an outwardly extending support arm 25, a horizontally arranged auxiliary arm 26, and an upwardly extending boom 24. The boom is provided with a lifting ring 241. In a specific example, there are four support arms 25, which are evenly distributed around the central body 21. The auxiliary arms 26 are horizontally distributed and extend to the left and right sides of the central body 21 to correspond with the auxiliary rope 28. The winch extends downward with a traction rope 28, and the end of the traction rope is provided with a hook, which is connected to the lifting ring 241.
[0051] The end of the auxiliary arm 26 is provided with a positioning groove 262, which is a U-shaped groove structure that opens outward. This structure facilitates the entry of the auxiliary rope 28 and its release after adjustment. The auxiliary rope 28 is arranged on both sides and passes through the loading port 102. The winch is connected to the lifting ring and pulls the glass lifting device upward. The auxiliary rope 28 is nested in the positioning groove to limit the position of the glass lifting device, so that the glass lifting device can carry the glass from the loading port 102 into the suspended platform construction area.
[0052] The connecting shaft 22 is fixed on the front of the central body 21; its purpose is to first connect with the construction system 3 as part of the glass lifting device. After the connection is stable, the connection between the glass lifting device and the original lifting system 2 is released, that is, the limiting of the auxiliary rope 28 and the positioning groove 262, and the connection between the lifting ring and the hook, so as to realize the transfer of the glass lifting device.
[0053] Construction system 3 includes a transverse track 33, a transverse base 32, a longitudinal base 31, a support 34, a loading plate 35, an adjusting cylinder 36, and a locking cylinder 37; such as Figure 2-3 As shown, the transverse track 33 is arranged transversely on the bottom plate of the suspended basket 101. The transverse base 32 is movably arranged on the transverse track 33 via moving wheels. A longitudinal track is provided on the transverse base. The longitudinal base is movably arranged on the longitudinal track via moving wheels. A bracket 34 is fixed on the longitudinal base 31. Through this structure, a moving structure that can move inward and outward and left and right in the suspended basket can be formed. The bracket is arranged on the moving structure to realize the purpose of position adjustment such as transfer, translation, and swing of the glass hoist.
[0054] Structurally, the central area of the loading plate 35 is hinged to the bracket 34. The central part of the loading plate 35 is provided with a loading hole adapted to the connecting shaft 22. The connecting shaft 22 is provided with a locking hole 23. Structurally, the locking hole 23 is a square hole or a round hole. In order to lock the shaft and prevent it from rotating, in this embodiment, the locking cylinder 37 is fixed around the loading hole 38, and a locking shaft 371 is provided on its telescopic rod. The locking shaft can be inserted into the locking hole 23 and the center body 21 is pressed against the back side of the loading plate 35. The connecting shaft 22 and the loading plate 35 are fixed together to facilitate the connection between the glass lifting device and the original lifting system 2, and to provide a basis for transfer. In implementation, the end of the connecting shaft 22 is tapered. This structure makes it easy to enter the loading hole 38 and facilitates operation.
[0055] The two ends of the adjusting cylinder 36 are respectively hinged to the loading plate 35 and the bracket 34. This embodiment can achieve movement in a plane by means of horizontal and vertical movement. At the same time, the tilt angle of the loading plate 35 can be changed by adjusting the extension and retraction of the cylinder 36, thus making it suitable for glass curtain wall construction in different scenarios.
[0056] In the specific structure, the bracket 34 is L-shaped and two are arranged side by side. The two brackets 34 are connected by a connecting rod. The root of the adjusting cylinder 36 is hinged to the connecting rod or the bracket 34, and changes the tilt angle of the loading plate 35. The front of the loading plate 35 is provided with pads 39, which are distributed around the loading hole 38.
[0057] The purpose of this embodiment is to provide support points for the glass on the outside and to construct the glass curtain wall using a suspended scaffold structure. To facilitate the combination of the two, the structure of the suspended scaffold is modified, and a loading port 102 is provided at the bottom of the suspended scaffold. Figure 10As shown in the diagram, the loading port 102 can be arranged on one side or both sides during implementation. Each loading port 102 can be equipped with a corresponding hoisting system 2, with the two operating alternately to improve construction efficiency. The glass enters the suspended platform space from the loading port 102. The construction system 3 is assembled inside the suspended platform and can retrieve the glass lifting equipment. The glass lifting equipment is separated from the original hoisting system 2 and transferred to the loading plate 35. Then, the loading plate 35 is moved to transfer the glass to the corresponding position. After retrieving the glass, the position of the glass can be finely adjusted with the help of the loading plate 35 structure arranged on the suspended platform, so as to achieve the purpose of quickly aligning the glass with the frame. The structure of suspended platform, glass lifting equipment and loading plate 35 can realize the rapid assembly of glass. In terms of construction, the glass can be directly transferred to the suspended platform and then fixed to the wall after position transfer, which improves construction efficiency. It is convenient for auxiliary personnel to load and stabilize the glass from the outside. It has the advantages of simple operation, high construction efficiency and strong safety, and is suitable for glass curtain wall construction of various scales.
[0058] A construction method for a glass curtain wall hoisting device includes the following steps:
[0059] Step 1, Suspended Platform System 1
[0060] The suspension frame is fixed, and then the suspended platform and the winch installed on it are connected to the suspension frame, so that the suspended platform can move vertically, providing a continuous number of construction points for glass curtain wall construction. The suspension frame is an outward cantilever structure with a counterweight on the rear side. Its purpose is to support the weight of the suspended platform and move the platform up or down to change its position, providing corresponding installation points for construction.
[0061] Step 2, hoisting system 2
[0062] Secure the winch and the auxiliary ropes 28 distributed on both sides of it firmly; pass the auxiliary ropes 28 through the loading port 102, connect the hook of the winch to the lifting ring of the glass lifting device, and align the positioning groove with the auxiliary rope 28. The depth of the positioning groove will prevent the auxiliary rope 28 from coming out of the positioning groove; then start the winch so that the glass lifting device carries the glass through the loading port 102 and enters the construction area inside the suspended basket. The purpose of this structure is to lift the glass lifting device from below and transport the glass to the suspended basket position. In implementation, the lifting system 2 can be one or two, preferably two lifting systems 2, which can realize alternating work up and down, and improve construction efficiency.
[0063] Step 3, Transfer
[0064] Move the longitudinal base to insert the connecting shaft 22 into the loading hole 38, then activate the locking cylinder 37 to lock the connecting shaft 22 into the loading hole 38, then release the constraints of the auxiliary rope 28 and the hook to separate the glass lifting device from the lifting system 2 and transfer it to the loading plate 35; this step is used to transfer the glass from the lifting system 2 to the construction system 3.
[0065] Step 4, Construction System 3
[0066] The position of the glass hanger is changed by the horizontal and vertical bases and reaches the corresponding construction point. The assembly tilt angle of the glass is changed by adjusting the cylinder 36. After the glass curtain wall is firmly fixed, the locking cylinder 37 is activated to separate the connecting shaft 22 from the loading hole 38.
[0067] Step 5: Remove the glass lifting equipment
[0068] Connect the lifting ring of the glass lifting device to the hook of the winch, move the auxiliary rope 28 into the positioning slot, and move it downward to lift the next glass curtain wall.
[0069] Example 2 further illustrates the structure of the auxiliary arm 26.
[0070] In this embodiment, the end of the auxiliary arm 26 is fitted with a telescopic sleeve, and the end of the telescopic sleeve is provided with a positioning groove with an outward opening. The telescopic sleeve can slide on the auxiliary arm 26 and disengage the auxiliary rope 28 from the positioning groove.
[0071] This embodiment provides two structures. The first structure is as follows: the surface of the telescopic sleeve is provided with a set screw. Loosening or loosening the set screw can release the fitting relationship between the telescopic sleeve and the auxiliary arm 26. The set screw structure can be quickly adjusted and the telescopic sleeve can be held in any position. This arbitrary position includes at least one of restricting the auxiliary rope 28 in the positioning groove and removing the auxiliary rope 28 from the positioning groove. The position change is due to the sliding adjustment of the telescopic sleeve relative to the auxiliary arm 26.
[0072] In the second structure, a baffle 27 is provided on the inner side of the telescopic sleeve, and a slide rod 271 is fixed on the central body 21. The slide rod is slidably fitted on the baffle 27, and an end plate 273 is provided at the end of the slide rod 271. A spring 272 is fitted on the slide rod. The spring is located between the baffle and the central body 21. By manually moving the telescopic sleeve, the total length can be shortened, so that the positioning groove is disengaged from the auxiliary rope 28.
[0073] With the above structure, this embodiment can achieve rapid separation of the auxiliary rope 28 and improve separation efficiency. Of course, the separation can also be achieved by the linear extension and retraction of the cylinder. For example, a cylinder is provided between the baffle and the central body 21. Through the action of the cylinder, the auxiliary rope 28 can be automatically detached.
[0074] Example 3 further illustrates the structure of the locking shaft.
[0075] like Figure 11 As shown, the end of the locking shaft has a block structure with a bevel, and the locking hole 23 is adapted to the block structure. As the locking shaft extends in the locking hole 23, it forces the glass hanger to move closer to the loading plate 35.
[0076] In this embodiment, the end of the locking shaft 371 has a bevel 231. By utilizing the beveled fit between the locking shaft and the locking hole 23, an inward pressing force can be applied to the connecting shaft 22 during downward movement, which has a locking and tightening effect and ensures the fixing effect. At the same time, during implementation, the number of shafts can be increased, such as adding multiple auxiliary shafts around the connecting shaft 22, to ensure the positioning effect and reduce the load on the locking bearing.
Claims
1. A glass curtain wall hoisting and construction device, characterized in that: This includes the suspended platform system, hoisting system, and construction system; among which... The suspended platform system includes a suspended platform and a suspension frame. The suspension frame is arranged on the top of the building. The suspended platform is connected to the suspension frame by a winch and ropes, and the position of the suspended platform can be changed vertically. The bottom of the suspended platform has a loading port. The hoisting system includes a winch, auxiliary ropes, and a glass lifting device. The glass lifting device includes a central body, a support arm, a suction cup, an auxiliary arm, and a connecting shaft. The back of the central body is provided with an outwardly extending support arm, a horizontally arranged auxiliary arm, and an upwardly extending boom. The boom is provided with a lifting ring, and the end of the auxiliary arm is provided with a positioning groove. The connecting shaft is fixed to the front of the central body. The auxiliary rope is arranged on both sides and passes through the loading port. The winch is connected to the lifting ring and pulls the glass lifting device upward. The auxiliary rope is nested in the positioning groove to limit the position of the glass lifting device, so that the glass lifting device can carry the glass from the loading port into the suspended platform construction area. The construction system includes a transverse track, a transverse base, a longitudinal base, a support, a loading plate, an adjusting cylinder, and a locking cylinder. The transverse track is arranged transversely on the bottom plate of the suspended platform. The transverse base is movably arranged on the transverse track via casters. A longitudinal track is provided on the transverse base, and the longitudinal base is movably arranged on the longitudinal track via casters. A support is fixed on the longitudinal base. The central area of the loading plate is hinged to the support. The central part of the loading plate has a loading hole adapted to the connecting shaft. The connecting shaft has a locking hole. The locking cylinder is fixed around the loading hole, and a locking shaft is provided on its telescopic rod. The locking shaft can be inserted into the locking hole and presses the central body against the back side of the loading plate. The two ends of the adjusting cylinder are respectively hinged to the loading plate and the support.
2. The glass curtain wall hoisting and construction device according to claim 1, characterized in that: The main body of the feeding port is square in shape, and a clearance opening corresponding to the connecting shaft is provided in the middle of the feeding port.
3. The glass curtain wall hoisting and construction device according to claim 1, characterized in that: The support arm is provided in four parts, which are evenly distributed around the central body. The end of the auxiliary arm is fitted with a telescopic sleeve, and the end of the telescopic sleeve is provided with a positioning groove with an outward opening. The telescopic sleeve can slide on the auxiliary arm and release the auxiliary rope from the positioning groove.
4. The glass curtain wall hoisting and construction device according to claim 3, characterized in that: The telescopic sleeve has a threaded top screw on its surface. Loosening or releasing the top screw can release the sleeve from the auxiliary arm.
5. The glass curtain wall hoisting and construction device according to claim 3, characterized in that: The inner side of the telescopic sleeve is provided with a baffle, and a sliding rod is fixed on the central body. The sliding rod is slidably fitted on the baffle, and an end plate is provided at the end of the sliding rod. A spring is fitted on the sliding rod, and the spring is located between the baffle and the central body.
6. The glass curtain wall hoisting and construction device according to claim 1, characterized in that: The bracket has an L-shaped structure and two are arranged side by side. The two brackets are connected by a connecting rod. The root of the adjusting cylinder is hinged to the connecting rod or the bracket, and changes the tilt angle of the loading plate.
7. The glass curtain wall hoisting and construction device according to claim 1, characterized in that: The loading plate has pads on its front side, which are distributed around the loading holes.
8. The glass curtain wall hoisting and construction device according to claim 1, characterized in that: The end of the connecting shaft has a tapered structure.
9. The glass curtain wall hoisting and construction device according to claim 1, characterized in that: The end of the locking shaft has a block-shaped structure with a bevel. The lock hole is adapted to the block-shaped structure. As the locking shaft extends into the lock hole, it forces the glass lifting device to move closer to the loading plate.
10. The construction method of the glass curtain wall hoisting construction device according to claim 1, characterized in that: Includes the following steps Step 1, Suspended Platform System The suspension frame is fixed, and then the suspended platform and the winch installed on it are connected to the suspension frame so that the suspended platform can move vertically, providing a continuous multi-construction point for glass curtain wall construction along the vertical direction; Step 2, hoisting system Secure the winch and the auxiliary ropes distributed on both sides of it firmly; pass the auxiliary ropes through the loading port, connect the hook of the winch to the lifting ring of the glass lifting device, align the positioning groove with the auxiliary rope, and ensure that the depth of the positioning groove will not allow the auxiliary rope to slip out of the positioning groove; then start the winch to allow the glass lifting device to carry the glass through the loading port and enter the construction area inside the basket. Step 3, Transfer Move the longitudinal base to insert the connecting shaft into the loading hole, then activate the locking cylinder to lock the connecting shaft in the loading hole. Then release the constraints of the auxiliary rope and hook to separate the glass lifting device from the lifting system and transfer it to the loading plate. Step 4, Construction System The position of the glass hanger is changed by moving the horizontal and vertical bases to reach the corresponding construction point. The assembly tilt angle of the glass is changed by adjusting the cylinder. After the glass curtain wall is firmly fixed, the locking cylinder is activated to separate the connecting shaft from the loading hole. Step 5: Remove the glass lifting equipment Connect the lifting ring of the glass lifting device to the hook of the winch, move the auxiliary rope into the positioning slot, and move it downward to lift the next glass curtain wall.