Cable-stayed curtain wall hoisting device

The inclined cable-stayed curtain wall hoisting device solves the problems of high fixing difficulty and low construction efficiency of existing equipment through the design of inclined cable fixing and sliding track, realizing high-strength installation of support beams and stable lifting of curtain walls, and is suitable for complex building facades.

CN224450107UActive Publication Date: 2026-07-03SHANGHAI CIVIL ENG GRP CO LTD OF CREC +1

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI CIVIL ENG GRP CO LTD OF CREC
Filing Date
2025-07-30
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

Existing curtain wall hoisting equipment is difficult to fix during installation, easily damaged, and unsuitable for installation on super high-rise or complex curved buildings, and has low construction efficiency.

Method used

An inclined cable-stayed curtain wall hoisting device is adopted, which is fixed to the installation platform by the first and second support beams and the inclined cable, thereby increasing the contact area and load-bearing capacity between the support beams and the platform. The curtain wall is stably lifted by using sliding rails and lifting mechanism.

Benefits of technology

It improves the installation strength and load-bearing capacity of the support beams, reduces the risk of curtain wall swaying and collision, adapts to complex building facades, and improves construction efficiency.

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Abstract

The utility model discloses a kind of cable-stayed curtain wall hoisting devices, comprising: first layer installation platform;Second layer installation platform, above the first layer installation platform;The first fixed end of first support beam and the second fixed end of second support beam are fixed on the surface of first layer installation platform;The first end portion of sliding track is installed in first lifting end, and the second end portion of sliding track is installed in second lifting end;Lifting mechanism is slidably installed in sliding track;The first low end portion of first cable-stayed rope is fixed in first lifting end, and first high end portion is fixed in second layer installation platform;Second low end portion of second cable-stayed rope is fixed in second lifting end, and second high end portion is fixed in second layer installation platform.By first cable-stayed rope, the first lifting end of first support beam can be fixed in second layer installation platform, by second cable-stayed rope, the second lifting end of second support beam can be fixed in second layer installation platform, and the load-carrying capacity of first support beam and second support beam can be improved.
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Description

Technical Field

[0001] This utility model relates to the field of construction, and more specifically to a cable-stayed curtain wall hoisting device. Background Technology

[0002] Curtain walls are a common design element for building facades, typically constructed from materials such as glass and aluminum alloys. Currently, the installation of curtain walls on the exterior of modern buildings has become very common.

[0003] Currently, curtain wall installation usually requires hoisting. The most common hoisting method is rail hoisting, which involves setting up support beams perpendicular to the outer surface of the building wall, installing rails on the support beams, and then installing hoisting machinery on the rails.

[0004] In existing technologies, the support beam is fixed to the outer surface of the building wall. During the process of hoisting the curtain wall, the hoisting machinery will exert a large force on the part where the support beam is connected to the building wall, which requires the part where the support beam is connected to the building wall to have high fixing strength, making the installation and fixing difficult.

[0005] Existing curtain wall hoisting solutions only serve to lift the curtain wall to a preset height. In order to facilitate the installation of the curtain wall on the wall when it is hoisted to a suitable position, the hoisting device needs to maintain a sufficiently close distance to the curtain wall during the hoisting process. However, if the curtain wall shakes during the hoisting process, it will increase the risk of collision with the wall and damage to the curtain wall.

[0006] Existing curtain wall hoisting equipment has significant limitations in application. It is difficult to use for the installation of super high-rise buildings or complex curved curtain walls, it is difficult to adapt to complex and ever-changing building facades, it is easy to cause damage to panels during hoisting, and it has low construction efficiency. Therefore, it is necessary to improve the existing curtain wall hoisting equipment. Utility Model Content

[0007] To address the aforementioned technical problems, the purpose of this utility model is to provide a cable-stayed curtain wall hoisting device. A first cable-stayed rope secures the first lifting end of the first support beam to the second-floor installation platform, and a second cable-stayed rope secures the second lifting end of the second support beam to the second-floor installation platform, thereby improving the load-bearing capacity of both the first and second support beams. Furthermore, both the first and second fixed ends of the first and second support beams are fixedly installed on the surface of the first-floor installation platform, which not only facilitates the fixing of the first and second support beams but also increases the contact area between the first and second support beams and the first-floor installation platform, thus improving the installation strength of the first and second support beams.

[0008] To achieve the above objectives, the present invention aims to provide a cable-stayed curtain wall hoisting device, comprising:

[0009] First-level installation platform;

[0010] The second-layer installation platform is located above the first-layer installation platform;

[0011] A first support beam, the first fixed end of the first support beam is fixed to the surface of the first layer mounting platform, and the first lifting end of the first support beam extends to the outside of the first layer mounting platform;

[0012] The second support beam has its second fixed end fixed to the surface of the first layer mounting platform, and its second lifting end extending to the outside of the first layer mounting platform.

[0013] A sliding track, wherein a first end of the sliding track is mounted on the first lifting end, and a second end of the sliding track is mounted on the second lifting end;

[0014] A lifting mechanism is slidably mounted on the sliding track and is used to drive the curtain wall to move.

[0015] The first inclined rope, the first lower end of the first inclined rope is fixed to the first lifting end, and the first upper end of the first inclined rope is fixed to the second layer installation platform;

[0016] The second inclined rope has its second lower end fixed to the second lifting end and its second upper end fixed to the second layer installation platform.

[0017] In some embodiments, the second-layer mounting platform has a first fastener at the position corresponding to the first support beam, and the first high end of the first inclined rope is fixed to the first fastener.

[0018] The second-layer mounting platform has a second fastener at the position corresponding to the second support beam, and the second high end of the second inclined rope is fixed to the second fastener.

[0019] In some embodiments, the second-layer mounting platform has a third fastener at a position corresponding to the area between the first support beam and the second support beam, and the first high end of the first guy rope and the second high end of the second guy rope are both fixed to the third fastener.

[0020] In some embodiments, the second-layer mounting platform has a first fixing lug at the position corresponding to the first support beam, and the first-layer mounting platform has a fourth fastener at a preset position on its surface. The first high end of the first diagonal rope passes through the first fixing lug and extends towards the first-layer mounting platform to the fourth fastener, and is fixed to the fourth fastener.

[0021] The second-layer mounting platform has a second fixed lug at the position corresponding to the second support beam, and the first-layer mounting platform has a fifth fastener at a preset position on its surface. The second high end of the second inclined rope passes through the second fixed lug and extends towards the first-layer mounting platform to the fifth fastener, and is fixed to the fifth fastener.

[0022] In some embodiments, the first end of the sliding track is slidably mounted on the first support beam, and the second end of the sliding track is slidably mounted on the second support beam. Sliding the sliding track relative to the first support beam and the second support beam can adjust the distance between the sliding track and the first layer mounting platform.

[0023] In some embodiments, the first support beam and the second support beam are both I-beams. The first support beam and the second support beam each include a top plate, a bottom plate and a connecting plate. The top of the connecting plate is connected to the top plate and the bottom of the connecting plate is connected to the bottom plate. Each side of the connecting plate has a sliding groove.

[0024] The inclined-stayed curtain wall hoisting device further includes two driving components, which are slidably mounted on the first support beam and the second support beam, respectively. Each driving component includes:

[0025] The system comprises a drive housing, two top pulleys, and a drive component. The two top pulleys are rotatably mounted on the top of the drive housing. The drive component is mounted on the drive housing and connected to at least one of the top pulleys to drive the corresponding top pulley to rotate. The two top pulleys are respectively installed in two sliding grooves. The connecting plate is located between the two top pulleys. The two ends of the sliding track are respectively installed at the bottom of the two drive housings of the two drive components.

[0026] In some embodiments, the lifting mechanism includes a lifting housing, a traveling assembly, and a lifting component. The traveling assembly and the lifting component are both mounted on the lifting housing. The traveling assembly is connected to the sliding rail and is adapted to slide along the length of the sliding rail. The lifting component is adapted to be connected to the curtain wall for lifting the height of the curtain wall.

[0027] In some embodiments, the sliding track is an I-beam, the sliding track includes a top support plate, a bottom support plate and a middle partition plate, the top of the middle partition plate is connected to the top support plate, the bottom of the middle partition plate is connected to the bottom support plate, and each side of the middle partition plate has a travel groove.

[0028] The walking assembly includes two walking wheels and a walking drive component. The two walking wheels are rotatably mounted on the top of the lifting housing. The walking drive component is mounted on the lifting housing and connected to at least one of the walking wheels to drive the corresponding walking wheel to rotate. The two walking wheels are respectively installed in the two walking slots, and the intermediate partition is located between the two walking wheels.

[0029] The lifting assembly includes a winding drum, a lifting drive, and a lifting rope. The winding drum is rotatably mounted on the bottom of the lifting housing. The lifting drive is mounted on the lifting housing and connected to the winding drum to drive the winding drum to rotate. The top of the lifting rope is connected to the winding drum, and the curtain wall is adapted to be installed on the bottom of the lifting rope.

[0030] In some embodiments, the angle between the first support beam, the second support beam and the outer wall of the first-layer mounting platform is greater than 90°.

[0031] In some embodiments, the first-layer installation platform is provided with a plurality of first support beams, a plurality of second support beams, and a plurality of sliding rails, which are connected end to end and surround the first-layer installation platform. Attached Figure Description

[0032] The preferred embodiments will be described below in a clear and easy-to-understand manner, in conjunction with the accompanying drawings, to further explain the above-mentioned characteristics, technical features, advantages and implementation methods of this utility model.

[0033] Figure 1 This is a schematic diagram of the structure of the inclined curtain wall hoisting device according to a preferred embodiment of the present invention;

[0034] Figure 2 This is a schematic diagram of a modified embodiment of the inclined curtain wall hoisting device of the preferred embodiment of this utility model;

[0035] Figure 3 This is a top view of the preferred embodiment of the inclined curtain wall hoisting device of this utility model;

[0036] Figure 4 This is a schematic diagram showing the state transformation of another modified embodiment of the inclined curtain wall hoisting device of the preferred embodiment of this utility model;

[0037] Figure 5 This is a front structural schematic diagram of the inclined curtain wall hoisting device according to a preferred embodiment of the present invention;

[0038] Figure 6 This is a schematic diagram of another modified embodiment of the inclined curtain wall hoisting device, which is a preferred embodiment of this utility model;

[0039] Figure 7 This is a schematic diagram of the structure of the inclined curtain wall hoisting device surrounding the wall, which is a preferred embodiment of this utility model. Detailed Implementation

[0040] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the specific implementation methods of this utility model will be described below with reference to the accompanying drawings. Obviously, the drawings described below are merely some embodiments of this utility model. For those skilled in the art, other drawings and other implementation methods can be obtained based on these drawings without any creative effort.

[0041] To keep the drawings concise, each figure only schematically shows the parts relevant to the utility model, and these do not represent the actual structure of the product. Furthermore, for ease of understanding, in some figures, only one of the components with the same structure or function is schematically depicted, or only one is labeled. In this document, "one" not only means "only one," but can also mean "more than one."

[0042] It should also be further understood that the term “and / or” as used in this application specification and the appended claims means any combination of one or more of the associated listed items and all possible combinations, and includes such combinations.

[0043] In this document, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "linking" should be interpreted broadly. For example, they can refer to fixed connections, detachable connections, or integral connections; they can refer to mechanical connections or electrical connections; they can refer to direct connections or indirect connections through an intermediate medium; and they can refer to the internal connection between two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.

[0044] Furthermore, in the description of this application, the terms "first," "second," etc., are used only to distinguish descriptions and should not be construed as indicating or implying relative importance.

[0045] refer to Figures 1 to 7This application provides a cable-stayed curtain wall hoisting device 100, which includes a first-layer installation platform 11, a second-layer installation platform 12, a first support beam 21, a second support beam 22, a sliding track 30, a lifting mechanism 40, a first cable-stayed rope 51, and a second cable-stayed rope 52.

[0046] The second-layer mounting platform 12 is located above the first-layer mounting platform 11. That is, there is a certain height difference between the first-layer mounting platform 11 and the second-layer mounting platform 12, with the second-layer mounting platform 12 being higher than the first-layer mounting platform 11.

[0047] The first fixed end 211 of the first support beam 21 is fixed to the surface of the first layer mounting platform 11, and the first lifting end 212 of the first support beam 21 extends to the outside of the first layer mounting platform 11. The second fixed end 221 of the second support beam 22 is fixed to the surface of the first layer mounting platform 11, and the second lifting end 222 of the second support beam 22 extends to the outside of the first layer mounting platform 11. Preferably, the distance by which the first support beam 21 extends beyond the first layer mounting platform 11 and the distance by which the second support beam 22 extends beyond the first layer mounting platform 11 are the same.

[0048] The first end 31 of the sliding track 30 is mounted on the first lifting end 212, and the second end 32 of the sliding track 30 is mounted on the second lifting end 222. The lifting mechanism 40 is slidably mounted on the sliding track 30. The lifting mechanism 40 is used to drive the curtain wall to move, for example, by lifting the height of the curtain wall or driving the curtain wall to slide along the length extension direction of the sliding track 30.

[0049] The first lower end 511 of the first inclined rope 51 is fixed to the first lifting end 212, and the first upper end 512 of the first inclined rope 51 is fixed to the second layer mounting platform 12. The second lower end 521 of the second inclined rope 52 is fixed to the second lifting end 222, and the second upper end 522 of the second inclined rope 52 is fixed to the second layer mounting platform 12.

[0050] In this application, the first lifting end 212 of the first support beam 21 can be fixed to the second layer mounting platform 12 by the first inclined rope 51, and the second lifting end 222 of the second support beam 22 can be fixed to the second layer mounting platform 12 by the second inclined rope 52, thereby improving the load-bearing capacity of the first support beam 21 and the second support beam 22. On the other hand, the first fixed end 211 of the first support beam 21 and the second fixed end 221 of the second support beam 22 are both fixedly installed on the surface of the first layer mounting platform 11, which not only facilitates the fixing of the first support beam 21 and the second support beam 22, but also increases the contact area between the first support beam 21, the second support beam 22 and the first layer mounting platform 11, thereby improving the installation strength of the first support beam 21 and the second support beam 22.

[0051] refer to Figure 5 The second-layer mounting platform 12 has a first fastener 61 at the position corresponding to the first support beam 21, and the first high end 512 of the first inclined rope 51 is fixed to the first fastener 61. The second-layer mounting platform 12 has a second fastener 62 at the position corresponding to the second support beam 22, and the second high end 522 of the second inclined rope 52 is fixed to the second fastener 62.

[0052] refer to Figure 6 In a modified embodiment, the second-layer mounting platform 12 has a third fastener 63 located in the area between the first support beam 21 and the second support beam 22. The first high-end portion 512 of the first guy rope 51 and the second high-end portion 522 of the second guy rope 52 are both fixed to the third fastener 63. In this modified embodiment, the first high-end portion 512 of the first guy rope 51 and the second high-end portion 522 of the second guy rope 52 are gathered together and fixed to the third fastener 63, which reduces the number of fasteners used.

[0053] Preferably, the first fastener 61, the second fastener 62, and the third fastener 63 are all ear plates with ear holes that are fixedly installed on the second layer mounting platform 12. After the first high-end part 512 and / or the second high-end part 522 pass through the ear hole of the corresponding ear plate, the overlapping parts of the first diagonal rope 51 and / or the second diagonal rope 52 are locked by a fastening lock to achieve a fixing effect.

[0054] refer to Figure 2In one modified embodiment, the second-layer mounting platform 12 has a first fixing lug 71 at a position corresponding to the first support beam 21, and the first-layer mounting platform 11 has a fourth fastener 64 at a predetermined position on its surface. The first high end portion 512 of the first diagonal cable 51 passes through the first fixing lug 71 and extends towards the first-layer mounting platform 11 to the fourth fastener 64, where it is fixed. The second-layer mounting platform 12 has a second fixing lug 72 at a position corresponding to the second support beam 22, and the first-layer mounting platform 11 has a fifth fastener 65 at a predetermined position on its surface. The second high end portion 522 of the second diagonal cable 52 passes through the second fixing lug 72 and extends towards the first-layer mounting platform 11 to the fifth fastener 65, where it is fixed. In this modified embodiment, the first high end 512 of the first inclined rope 51 passes through the fourth fastener 64, and the second high end 522 of the second inclined rope 52 passes through the fifth fastener 65, and are both fixed to the first layer mounting platform 11. This makes it easier to operate because the fixing of the first support beam 21, the fixing of the second support beam 22, the fixing of both ends of the first inclined rope 51, and the fixing of both ends of the second inclined rope 52 are all carried out on the same layer of the first layer mounting platform 11.

[0055] refer to Figure 4 In one modified embodiment, the first end 31 of the sliding rail 30 is slidably mounted to the first support beam 21, and the second end 32 of the sliding rail 30 is slidably mounted to the second support beam 22. Sliding the sliding rail 30 relative to the first support beam 21 and the second support beam 22 can adjust the distance between the sliding rail 30 and the first layer mounting platform 11. In this modified embodiment, both ends of the sliding rail 30 are movably mounted to the first support beam 21 and the second support beam 22. Sliding the sliding rail 30 relative to the first support beam 21 and the second support beam 22 can change the distance between the sliding rail 30 and the first layer mounting platform 11. During the curtain wall installation process, when lifting the curtain wall, the sliding rail 30 is first slid away from the first layer mounting platform 11 to avoid collision between the curtain wall and the wall during lifting; after the curtain wall is lifted to a suitable height, the sliding rail 30 is slid closer to the first layer mounting platform to facilitate the removal of the curtain wall from the sliding rail 30.

[0056] refer to Figure 5Preferably, the first support beam 21 and the second support beam 22 are both I-beams. The first support beam 21 and the second support beam 22 each include a top plate 231, a bottom plate 232 and a connecting plate 233. The top of the connecting plate 233 is connected to the top plate 231, and the bottom of the connecting plate 233 is connected to the bottom plate 232. Each side of the connecting plate 233 has a sliding groove 230.

[0057] The inclined curtain wall hoisting device 100 further includes two driving components 24, which are slidably mounted on the first support beam 21 and the second support beam 22, respectively.

[0058] Specifically, the driving component 24 includes a driving housing 241, two top pulleys 242, and a driving member 243. The two top pulleys 242 are rotatably mounted on the top of the driving housing 241, and the driving member 243 is mounted on the driving housing 241. The driving member 243 is connected to at least one of the top pulleys 242 and drives the corresponding top pulley 242 to rotate. The two top pulleys 242 are respectively installed in two sliding grooves 230, and the connecting plate 233 is located between the two top pulleys 242. The two ends of the sliding track 30 are respectively installed at the bottom of the two driving housings 241 of the two driving components 24. When the driving member 243 drives the top pulleys 242 to rotate, the top pulleys 242 can roll along the length extension direction of the base plate 232, thereby changing the position of the sliding track 30 relative to the first support beam 21 and the second support beam 22.

[0059] refer to Figure 1 The lifting mechanism 40 includes a lifting housing 41, a traveling component 42, and a lifting component 43. The traveling component 42 and the lifting component 43 are both installed on the lifting housing 41. The traveling component 42 is connected to the sliding track 30 and is adapted to slide along the length direction of the sliding track 30. The lifting component 43 is adapted to be connected to the curtain wall and is used to lift the height of the curtain wall.

[0060] Specifically, the sliding track 30 is an I-beam, and the sliding track 30 includes a top support plate 331, a bottom support plate 332, and a middle partition plate 333. The top of the middle partition plate 333 is connected to the top support plate 331, and the bottom of the middle partition plate 333 is connected to the bottom support plate 332. Each side of the middle partition plate 333 has a travel groove 330.

[0061] The walking assembly 42 includes two walking wheels 421 and a walking drive component 422. The two walking wheels 421 are rotatably mounted on the top of the lifting housing 41, and the walking drive component 422 is mounted on the lifting housing 41. The walking drive component 422 is connected to at least one of the walking wheels 421 and is used to drive the corresponding walking wheel 421 to rotate. The two walking wheels 421 are respectively installed in the two walking grooves 330, and the intermediate partition 333 is located between the two walking wheels 421.

[0062] The lifting assembly 43 includes a winding drum 431, a lifting drive 432, and a lifting rope 433. The winding drum 431 is rotatably mounted on the bottom of the lifting housing 41. The lifting drive 432 is mounted on the lifting housing 41 and connected to the winding drum 431 for driving the winding drum 431 to rotate. The top of the lifting rope 433 is connected to the winding drum 433, and the curtain wall is adapted to be installed at the bottom of the lifting rope 433. The lifting drive 432 is adapted to drive the winding drum 431 to rotate, so that the lifting rope 433 is wound around the winding drum 431 or released from the winding drum 431, thereby enabling control of the rise or fall of the curtain wall connected to the bottom of the lifting rope 433.

[0063] In a modified embodiment, the angle between the first support beam 21, the second support beam 22, and the outer wall surface of the first layer mounting platform 11 is greater than 90°. That is, the first support beam 21 and the second support beam 22 are respectively installed at an angle relative to the top surface of the first layer mounting platform 11. When the curtain wall is installed at the bottom of the lifting rope 433, the tension of the lifting rope 433 on the first support beam 21 or the second support beam 22 can be decomposed into a first component extending along the length extension direction of the first support beam 21 or the second support beam 22 and a component perpendicular to the length extension direction of the first support beam 21 or the second support beam 22. Compared with the horizontal setting of the support beam, the force perpendicular to the length extension direction of the support beam can be reduced while the tension remains unchanged, thereby increasing the load-bearing capacity of the support beam.

[0064] refer to Figure 7 The first-layer mounting platform 11 is surrounded by multiple first support beams 21, multiple second support beams 22, and multiple sliding tracks 30. These sliding tracks 30 are connected end-to-end and encircle the first-layer mounting platform 11. Similarly, the multiple sliding tracks 30 are connected end-to-end and encircle the wall. When the lifting mechanism 40 moves along the sliding tracks 30, it can move the curtain wall to any area around the wall.

[0065] Those skilled in the art should understand that the embodiments of the present invention described above and shown in the accompanying drawings are merely examples and do not limit the present invention. The advantages of the present invention have been fully and effectively realized. The functions and structural principles of the present invention have been shown and explained in the embodiments, and any modifications or variations may be made to the implementation of the present invention without departing from the stated principles.

Claims

1. A cable-stayed curtain wall hoisting device, characterized by, include: First-level installation platform; The second-layer installation platform is located above the first-layer installation platform; A first support beam, the first fixed end of the first support beam is fixed to the surface of the first layer mounting platform, and the first lifting end of the first support beam extends to the outside of the first layer mounting platform; The second support beam has its second fixed end fixed to the surface of the first layer mounting platform, and its second lifting end extending to the outside of the first layer mounting platform. A sliding track, wherein a first end of the sliding track is mounted on the first lifting end, and a second end of the sliding track is mounted on the second lifting end; A lifting mechanism is slidably mounted on the sliding track and is used to drive the curtain wall to move. The first inclined rope, the first lower end of the first inclined rope is fixed to the first lifting end, and the first upper end of the first inclined rope is fixed to the second layer installation platform; The second inclined rope has its second lower end fixed to the second lifting end and its second upper end fixed to the second layer installation platform.

2. The cable-borne curtain wall hoist of claim 1, wherein, The second-layer installation platform has a first fastener at the position corresponding to the first support beam, and the first high end of the first inclined rope is fixed to the first fastener; The second-layer mounting platform has a second fastener at the position corresponding to the second support beam, and the second high end of the second inclined rope is fixed to the second fastener.

3. The cable-borne curtain wall hoist of claim 1, wherein, The second-layer mounting platform has a third fastener at the location corresponding to the area between the first support beam and the second support beam, and the first high end of the first inclined rope and the second high end of the second inclined rope are both fixed to the third fastener.

4. The cable-borne curtain wall hoist of claim 1, wherein, The second-layer mounting platform has a first fixing lug at the position corresponding to the first support beam, and the first-layer mounting platform has a fourth fastener at a preset position on its surface. The first high end of the first diagonal rope passes through the first fixing lug and extends towards the first-layer mounting platform to the fourth fastener, and is fixed to the fourth fastener. The second-layer mounting platform has a second fixed lug at the position corresponding to the second support beam, and the first-layer mounting platform has a fifth fastener at a preset position on its surface. The second high end of the second inclined rope passes through the second fixed lug and extends towards the first-layer mounting platform to the fifth fastener, and is fixed to the fifth fastener.

5. The cable-borne curtain wall hoist of claim 1, wherein, The first end of the sliding track is slidably mounted on the first support beam, and the second end of the sliding track is slidably mounted on the second support beam. Sliding the sliding track relative to the first support beam and the second support beam can adjust the distance between the sliding track and the first layer mounting platform.

6. The cable-borne curtain wall hoist of claim 5, wherein, Both the first support beam and the second support beam are I-beams. Both the first support beam and the second support beam include a top plate, a bottom plate, and a connecting plate. The top of the connecting plate is connected to the top plate, and the bottom of the connecting plate is connected to the bottom plate. Each side of the connecting plate has a sliding groove. The inclined-stayed curtain wall hoisting device further includes two driving components, which are slidably mounted on the first support beam and the second support beam, respectively. Each driving component includes: The system comprises a drive housing, two top pulleys, and a drive component. The two top pulleys are rotatably mounted on the top of the drive housing. The drive component is mounted on the drive housing and connected to at least one of the top pulleys to drive the corresponding top pulley to rotate. The two top pulleys are respectively installed in two sliding grooves. The connecting plate is located between the two top pulleys. The two ends of the sliding track are respectively installed at the bottom of the two drive housings of the two drive components.

7. The cable-borne curtain wall hoist of any one of claims 1 to 6, wherein, The lifting mechanism includes a lifting housing, a traveling assembly, and a lifting component. Both the traveling assembly and the lifting component are mounted on the lifting housing. The traveling assembly is connected to the sliding track and is adapted to slide along the length of the sliding track. The lifting component is adapted to be connected to the curtain wall for lifting the height of the curtain wall.

8. The cable-borne curtain wall hoist of claim 7, wherein, The sliding track is an I-beam, and the sliding track includes a top support plate, a bottom support plate and a middle partition plate. The top of the middle partition plate is connected to the top support plate, the bottom of the middle partition plate is connected to the bottom support plate, and each side of the middle partition plate has a travel groove. The walking assembly includes two walking wheels and a walking drive component. The two walking wheels are rotatably mounted on the top of the lifting housing. The walking drive component is mounted on the lifting housing and connected to at least one of the walking wheels to drive the corresponding walking wheel to rotate. The two walking wheels are respectively installed in the two walking slots, and the intermediate partition is located between the two walking wheels. The lifting assembly includes a winding drum, a lifting drive, and a lifting rope. The winding drum is rotatably mounted on the bottom of the lifting housing. The lifting drive is mounted on the lifting housing and connected to the winding drum to drive the winding drum to rotate. The top of the lifting rope is connected to the winding drum, and the curtain wall is adapted to be installed on the bottom of the lifting rope.

9. The cable-borne curtain wall hoist of claim 7, wherein, The angle between the first support beam, the second support beam and the outer wall of the first-layer installation platform is greater than 90°.

10. The cable-borne wall-hoisting device according to claim 7, wherein The first-layer installation platform is provided with multiple first support beams, multiple second support beams, and multiple sliding rails around its perimeter. The multiple sliding rails are connected end to end and surround the first-layer installation platform.