A trackable rail basket capable of being towed on a ramp
By setting up a load-bearing structure, a suspended platform structure, and a drive component on the suspended platform, and utilizing the cooperation of a traveling hoist and wire rope, the problem of the suspended platform moving on a slope was solved, thereby improving stability and safety.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANGHAI JINGUAN CURTAIN WALL TECH CO LTD
- Filing Date
- 2024-12-30
- Publication Date
- 2026-06-26
Smart Images

Figure CN224413080U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of construction engineering, and in particular to a track-mounted suspended basket that can be pulled on a slope. Background Technology
[0002] Suspended platforms are construction machinery used for high-altitude operations in building engineering, specifically for curtain wall installation and exterior wall cleaning. They are a new type of high-altitude work equipment that can replace traditional scaffolding, reducing labor intensity, improving work efficiency, and being reusable. The use of suspended platforms in construction is gradually becoming a trend, widely recognized in high-rise and multi-story building exterior wall construction, curtain wall installation, insulation construction, and exterior wall maintenance and cleaning. They can also be used in projects involving large tanks, bridges, and dams.
[0003] Conventional mobile track-mounted suspended platforms can only move at the same horizontal level. When the platform needs to move over a wide range (uphill or downhill) on an inclined structure, existing platforms cannot adequately meet the requirements. Utility Model Content
[0004] The technical problem to be solved by this utility model is to provide a track-mounted suspended basket that can be pulled on a slope, in view of the above-mentioned defects in the existing technology.
[0005] To solve the above-mentioned technical problems, this utility model adopts the following technical solution:
[0006] In order to overcome the above-mentioned defects of the prior art, the embodiments of this utility model provide a track-mounted gondola that can be pulled on a slope, so as to solve the problems mentioned in the background art.
[0007] To solve the above-mentioned technical problems, this utility model adopts the following technical solution:
[0008] A track-mounted suspended platform capable of being pulled along a slope includes a load-bearing structure, a platform structure, and a drive assembly. The load-bearing structure is disposed on the slope; the platform structure is located at the bottom of the load-bearing structure for workers to stand and work on; the drive assembly includes a traction component and a protective structure. The traction component is disposed on the load-bearing structure, and the protective structure is located between the traction component and the platform structure. The traction component drives the platform structure to move up and down and can move obliquely along the slope.
[0009] Preferably, the traction assembly includes a traveling hoist, a traveling trolley, and a first hoist. The number of traveling trolleys is at least three sets connected to the bearing structure. The traveling hoist is located at the bottom of the traveling trolley at the center position. The first hoist is located on both sides of the suspended basket structure. The number of first hoists is at least two sets.
[0010] Preferably, a working wire rope is provided between the traveling hoist and the two sets of first hoists. One end of the working wire rope is connected to the traveling hoist, and the other end is connected to the first hoist via the traveling trolley. The traveling hoist adjusts the position of the first hoist by tightening or lowering the working wire rope, thereby adjusting the position of the suspended platform structure.
[0011] Preferably, a rope groove structure is provided between the traveling trolley and the working wire rope, and the traveling hoist can drive the working wire rope to rotate and tighten or lower around the rope groove structure, wherein there are multiple sets of the rope groove structure.
[0012] Preferably, the protective structure includes a safety wire rope, a limiting block, and a safety main rope. The limiting block is disposed on the safety wire rope. One end of the safety wire rope is connected to the traveling hoist via the traveling trolley. The safety wire rope and the working wire rope move synchronously in opposite directions. The limiting block is used to limit the position of the suspended platform structure. One end of the safety main rope is fixed to the traveling hoist. The remaining structure is used to protect the construction personnel.
[0013] Preferably, a clamping structure is provided between the first hoist and the suspended platform structure for fixing the structures on both sides of the suspended platform structure. The clamping structure includes an L-shaped clamping rod and a coupling plate. The coupling plate is located between the first hoist and the L-shaped clamping rod. At least a portion of the L-shaped clamping rod can support the suspended platform structure.
[0014] Preferably, the top of the clamping structure is provided with a swing-arm safety lock. One side of the swing-arm safety lock allows the safety wire rope to pass through, and the other side of the structure is provided with a rope clamping structure for the working wire rope to pass through. The swing-arm safety lock can lock the position of the clamping structure.
[0015] Preferably, the bearing structure includes an I-beam rail and a connected safety rope. The I-beam rail is for the traveling trolley to slide on, and the safety rope is for the traveling hoist to move. Both ends of the safety rope are connected to the bottom structure of the I-beam rail through fixing parts. A centrifugal safety lock is provided between the traveling hoist and the safety rope.
[0016] Preferably, a fixing structure is provided between the I-beam rail and the ramp. The fixing structure includes a U-shaped fixing plate, a support frame, and a fixing block connected in sequence. The U-shaped fixing plate is connected to the ramp, and the fixing block is used to fix the I-beam rail.
[0017] Preferably, the suspended platform structure includes a protective frame and a platform plate connected to its bottom, the platform plate being for the construction personnel to stand on, and a control box being provided inside the protective frame to operate the drive components.
[0018] The present invention adopts the above technical solution and has the following technical effects compared with the prior art:
[0019] This invention effectively solves the problem of the suspended platform structure being unable to climb slopes by coordinating the traveling hoist, the first hoist, and the working wire rope. The suspended platform structure can move along the slope, thus greatly reducing the number of suspended platforms, thereby effectively reducing costs. The protective structure can ensure the personal safety of construction personnel, and has strong stability and safety. Attached Figure Description
[0020] Figure 1 This is a cross-sectional schematic diagram of a track-mounted suspended basket that can be pulled on a slope according to the present invention;
[0021] Figure 2 This is a schematic diagram of a track-mounted suspended basket that can be pulled on a slope according to the present invention;
[0022] Figure 3 This is an enlarged view of the traction component of a track-mounted suspended basket that can be pulled on a slope according to the present invention.
[0023] Figure 4 This is an enlarged view of the first hoist and clamping structure of a track-mounted basket that can be pulled on a slope according to this utility model.
[0024] The reference numerals in the attached drawings are as follows: 1. Bearing structure; 101. I-beam rail; 102. Traveling safety rope; 103. Fixing component; 104. Fixing structure; 105. U-shaped fixing plate; 106. Support frame; 107. Fixing block; 2. Slope; 3. Suspended basket structure; 301. Protective frame; 302. Platform plate; 303. Control box; 4. Drive assembly; 401. Traction assembly; 402. Protective structure; 403. Traveling hoist; 404. Traveling trolley; 405. First hoist; 406. Working wire rope; 407. Rope groove structure; 408. Safety wire rope; 409. Limiting block; 410. Safety main rope; 411. Clamping structure; 412. L-shaped clamping rod; 413. Coupling plate; 414. Swing arm type safety lock; 415. Rope clamping structure; 416. Centrifugal safety lock. Detailed Implementation
[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.
[0026] Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this utility model.
[0027] Example 1
[0028] As attached Figures 1 to 4 The illustrated track-mounted gantry that can be pulled on a slope includes a load-bearing structure 1, which is disposed on the slope 2.
[0029] Suspended platform structure 3, which is located at the bottom of the supporting structure 1 for construction workers to stand and work on;
[0030] The drive assembly 4 includes a traction assembly 401 and a protective structure 402. The traction assembly 401 is disposed on the bearing structure 1, and the protective structure 402 is disposed between the traction assembly 401 and the suspended basket structure 3. The traction assembly 401 is used to drive the suspended basket structure 3 to move up and down and can move obliquely along the slope 2.
[0031] Wherein: the load-bearing structure 1 includes a fixed frame and its connecting channel steel structure. The fixed frame is connected to the slope 2 steel structure. The fixed frame is provided with a connecting plate. The connecting plate is fixed to the steel structure by welding or detachable connection. The detachable connection is a threaded connection or a plug-in connection. The traction component 401 is set on the channel steel structure and can slide along its side structure. The side structure of the fixed frame is provided with a fixing groove for fixing the channel steel structure.
[0032] The suspended platform structure 3 includes a suspended frame structure and a base plate. The suspended frame structure is composed of multiple sets of steel rod structures that are fixed by welding or threaded connection. The steel rod structure is directly equipped with a protective net and protective rods. The protective rods are covered with cotton pads to protect the construction personnel. The bottom of the steel rod structure has a slot structure to fix the base plate structure. The bottom of the steel rod structure is also equipped with support rods. There are multiple sets of support rods. The structures at both ends are fixed to the steel rod structure by threaded connection or plug-in method. The support rods are used to support the base plate.
[0033] The traction assembly 401 includes a drive wire rope, a hoisting unit, and a traveling mechanism. At least part of the traveling mechanism is mounted on the channel steel structure and can slide along the inclined direction of the channel steel structure. The hoisting unit includes a main control hoist and two sets of auxiliary hoists. The drive wire rope is provided with at least two sets, one end of which is connected to the two sets of auxiliary hoists respectively, and the other end of which is connected to the main control hoist. The auxiliary hoists are respectively located on both sides of the hanging frame structure. An auxiliary fixing structure is provided between the auxiliary hoists and the hanging frame structure. The auxiliary fixing structure is a U-shaped structure to clamp the side structure of the hanging frame structure. The U-shaped structure has multiple connecting holes to fix the hanging frame structure through threaded rods or plug-in rods. The drive wire rope is connected to the main control hoist through the traveling mechanism.
[0034] The traveling mechanism is equipped with a roller structure. When the main control hoist operates the drive wire rope, the roller structure converts the lateral force into a vertical force, which facilitates the adjustment of the position of the auxiliary hoist and its connected suspension frame structure. The auxiliary hoist can assist the main control hoist in adjusting the position of the suspension frame structure.
[0035] The protective structure 402 includes a safety rope and a safety lock. One end of the safety rope is connected to the main control hoist, and the other end passes through the hanging frame structure. The safety lock includes a rope lock and a limit lock. The rope lock is installed on the hanging frame structure and the safety rope. The main control hoist can drive the safety rope and the drive wire rope to move synchronously in opposite directions. The rope lock is used to lock the position of the safety rope and the hanging frame structure. The limit lock is installed on the safety rope so that when the drive wire rope and the hanging frame structure connected to it fall unexpectedly, part of its own structure can stop it outside the main control hoist, thereby terminating the fall.
[0036] Example 2
[0037] Based on Embodiment 1, the solution in Embodiment 1 will be further described in detail below with reference to the specific working method, such as... Figures 1 to 4 As shown below, see details:
[0038] In a preferred embodiment, the traction assembly 401 includes a traveling lift 403, a traveling trolley 404, and a first lift 405. At least three sets of traveling trolleys 404 are connected to the supporting structure 1. The traveling lift 403 is located at the bottom of the traveling trolley 404 at the center position. The first lift 405 is located on both sides of the suspended basket structure 3, with at least two sets of the first lift 405. Furthermore, the three sets of traveling trolleys 404 are spaced apart at the bottom of the supporting structure 1. Each traveling trolley 404 has wheels for movement on the supporting structure 1. The distance between the traveling trolleys 404 on both sides is adapted to the width of the suspended basket structure 3. A transmission belt is provided between adjacent traveling trolleys 404, which can fix the three sets of traveling trolleys 404 as a whole for synchronous movement. The traveling lift 403 and the traveling trolley 404 in the middle position are fixed by a detachable connection, which can be a plug-in or snap-fit connection. The first lift 405 is used to adjust the position of the suspended basket structure 3.
[0039] In a preferred embodiment, a working wire rope 406 is provided between the traveling hoist 403 and the two sets of first hoists 405. One end of the working wire rope 406 is connected to the traveling hoist 403, and the other end is connected to the first hoist 405 via the traveling trolley 404. The traveling hoist 403 adjusts the position of the first hoist 405 by tightening or lowering the working wire rope 406, thereby adjusting the position of the suspended platform structure 3. Furthermore, the traveling hoist 403 can drive the connected working wire rope 406 to adjust its length outside the traveling hoist 403. The traveling trolley 404 can support the working wire rope 406 without affecting its extension or contraction. By controlling the working wire rope 406, the position of the first hoist 405 is adjusted, thereby adjusting the position of the suspended platform structure 3 to facilitate construction work.
[0040] In a preferred embodiment, a rope groove structure 407 is provided between the traveling trolley 404 and the working wire rope 406. The traveling hoist 403 can drive the working wire rope 406 to rotate and tighten or lower around the rope groove structure 407. The number of rope groove structures 407 is multiple. Furthermore, multiple rope groove structures 407 are provided inside the traveling trolley 404. The groove size of the rope groove structure 407 is adapted to the width of the working wire rope 406 so that it can rotate around the rope groove structure 407. The setting position of the rope groove structure 407 allows the traveling hoist 403 to generate a vertically upward or downward force on the working wire rope 406 vertically connected to the first hoist 405, thereby causing the suspended basket structure 3 to move vertically upward / downward with good stability.
[0041] In a preferred embodiment, the protective structure 402 includes a safety wire rope 408, a limiting block 409, and a safety main rope 410. The limiting block 409 is mounted on the safety wire rope 408. One end of the safety wire rope 408 is connected to the traveling hoist 403 via the traveling trolley 404. The safety wire rope 408 and the working wire rope 406 move synchronously in opposite directions. The limiting block 409 is used to limit the position of the suspended platform structure 3. One end of the safety main rope 410 is fixed to the traveling hoist 403, and the remaining structure is used to protect the construction personnel. Furthermore, the safety... The steel wire rope 408 can assist the working steel wire rope 406 in fixing the suspended platform structure 3. The connection position of the safety steel wire rope 408 in the traveling hoist 403 and the traveling trolley 404 allows the safety steel wire rope 408 to move synchronously in the opposite direction when the working steel wire rope 406 moves up / down. When the working steel wire rope 406 moves downward beyond the normal value, the suspended platform structure 3 moves downward synchronously. At this time, the safety steel wire rope 408 moves upward. When it moves to the position of the limit block 409, at least part of the structure of the limit block 409 will be blocked outside the traveling hoist 403, thereby stopping the downward movement of the suspended platform structure 3, avoiding the occurrence of accidents, and increasing the safety factor.
[0042] In a preferred embodiment, a clamping structure 411 is provided between the first hoist 405 and the suspended basket structure 3 for fixing the structures on both sides of the suspended basket structure 3. The clamping structure 411 includes an L-shaped clamping rod 412 and a coupling plate 413. The coupling plate 413 is disposed between the first hoist 405 and the L-shaped clamping rod 412. At least part of the structure of the L-shaped clamping rod 412 can support the suspended basket structure 3. Furthermore, the L-shaped clamping rod 412 is an integrally formed structure. The horizontal side structure can support the bottom structure of the suspended basket structure 3. A shallow groove is provided at the bottom of the suspended basket structure 3 corresponding to the position of the horizontal side structure. The shallow groove allows the horizontal side structure to enter. The horizontal side structure and the shallow groove are provided with multiple sets of connecting holes. The connecting holes can be fixed into a whole by threaded rods or plug-in rods. One end of the coupling plate 413 is fixed to the bottom of the L-shaped clamping rod 412, and the remaining structure can fix the first hoist 405 and the suspended basket structure 3.
[0043] In a preferred embodiment, the clamping structure 411 is provided with a swing-arm safety lock 414 at its top. One side of the swing-arm safety lock 414 is for the safety wire rope 408 to pass through, and the other side is provided with a rope clamping structure 415 for the working wire rope 406 to pass through. The swing-arm safety lock 414 can lock the position of the clamping structure 411. Furthermore, the rope clamping structure 415 is provided with roller sets, and at least two sets of roller sets are provided to clamp the safety wire rope 408. When the safety wire rope 408 moves up or down, the roller sets rotate to assist the safety wire rope 408 in moving. The swing-arm safety lock 414 is provided with a through hole for the safety wire rope 408 to pass through, and the swing-arm safety lock 414 is provided with a locking member, which can lock the safety wire rope 408 in the through hole to prevent its up and down movement.
[0044] In a preferred embodiment, the supporting structure 1 includes an I-beam rail 101 and a connected safety rope 102. The I-beam rail 101 allows the traveling trolley 404 to slide, and the safety rope 102 allows the traveling hoist 403 to move. Both ends of the safety rope 102 are connected to the bottom structure of the I-beam rail 101 via fixing members 103. A centrifugal safety lock 416 is provided between the traveling hoist 403 and the safety rope 102. Furthermore, the I-beam rail 101 allows the traveling trolley 404 to slide along its side structure, and the fixing members 103 are welded or detachably connected to the I-beam rail. The bottom of the structure on both sides of the I-beam rail 101 can be detachably connected by threaded connection or snap-fit. The fixing part 103 includes a fixing part and a connecting part. The fixing part is used to connect with the I-beam rail 101, and the connecting part is used to fix the structure at both ends of the walking safety rope 102. The connecting part is set at a certain height so that the walking safety rope 102 is away from the I-beam rail 101 to facilitate the movement of the walking hoist 403 along the walking safety rope 102. The centrifugal safety lock 416 is used to lock the position of the walking hoist 403 relative to the walking safety rope 102, so as to prevent the walking hoist 403 from sliding downwards at an angle under the action of gravity. It has good stability and a high safety factor.
[0045] In a preferred embodiment, a fixing structure 104 is provided between the I-beam rail 101 and the ramp 2. The fixing structure 104 includes a U-shaped fixing plate 105, a support frame 106, and a fixing block 107 connected in sequence. The U-shaped fixing plate 105 is connected to the ramp 2, and the fixing block 107 is used to fix the I-beam rail 101. Further, the vertical side structure of the U-shaped fixing plate 105 is fixed to the steel structure of the ramp 2 by welding or threaded connection, and the horizontal side serves as a coupling surface to fix the support frame 106. The support frame 106 has a triangular overall structure and is fixed by welding or detachable connection. The triangular structure has better stability. The fixing block 107 is provided on the two sets of side structures of the triangular structure. The structures on the two sets of side structures of the triangle corresponding to the positions of the fixing block 107 are provided with shallow grooves for the fixing block 107 to connect. The fixing block 107 is a U-shaped structure used to clamp the triangular structure. The shallow groove is provided with coupling holes, which can be used to fix the U-shaped structure by inserting a rod or threaded rod.
[0046] In a preferred embodiment, the suspended platform structure 3 includes a protective frame 301 and a platform plate 302 connected to its bottom. The platform plate 302 is for the construction personnel to stand on. A control box 303 is installed inside the protective frame 301 to control the drive assembly 4. Furthermore, multiple sets of protective rods are provided between the side structures of the protective frame 301. Connecting pieces are provided at both ends of the protective rods. The connecting pieces are fixed to the side structures of the protective frame 301 by threaded connection. Soft sleeves are provided on the protective rods for the protection of the construction personnel. The bottom of the protective frame 301 is provided with a slot to fix the platform plate 302. The structure on the side of the slot corresponding to the position of the platform plate 302 is provided with threaded holes for fixing by threaded rods. The overall structure has good stability. The control box 303 is provided with function buttons to remotely control the various electrical control devices in the drive assembly 4.
[0047] Finally, the following points should be noted: First, in the description of this application, it should be noted that, unless otherwise specified and limited, the terms "installation", "connection", and "linkage" should be interpreted broadly, and can be mechanical or electrical connections, or internal connections between two components, or direct connections. "Up", "down", "left", "right", etc. are only used to indicate relative positional relationships. When the absolute position of the described object changes, the relative positional relationship may change.
[0048] Secondly, the accompanying drawings of the embodiments disclosed in this utility model only involve the structures involved in the embodiments disclosed in this utility model. Other structures can refer to the general design. In the absence of conflict, the same embodiment and different embodiments of this utility model can be combined with each other.
[0049] Finally, the above description is only a preferred embodiment of the present utility model and is not intended to limit the present utility model. 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 track-guided gondola that can be pulled on a slope, characterized in that, The system includes a load-bearing structure, a suspended platform structure, and a drive assembly. The load-bearing structure is located on a slope. The suspended platform structure is located at the bottom of the load-bearing structure for construction workers to stand and work. The drive assembly includes a traction component and a protective structure. The traction component is located on the load-bearing structure, and the protective structure is located between the traction component and the suspended platform structure. The traction component is used to drive the suspended platform structure to move up and down and can move obliquely along the slope.
2. A trackable roof rack system according to claim 1, wherein: The traction assembly includes a traveling hoist, a traveling trolley, and a first hoist. At least three sets of the traveling trolleys are connected to the bearing structure. The traveling hoist is located at the bottom of the traveling trolley at the center position. The first hoist is located on both sides of the suspended basket structure. At least two sets of the first hoist are provided.
3. The track-guided gondola capable of being pulled on a slope according to claim 2, characterized in that: A working wire rope is provided between the traveling hoist and the two sets of first hoists. One end of the working wire rope is connected to the traveling hoist, and the other end is connected to the first hoist via the traveling trolley. The traveling hoist adjusts the position of the first hoist by tightening or lowering the working wire rope, thereby adjusting the position of the suspended platform structure.
4. The track-guided gondola capable of being pulled on a slope according to claim 3, characterized in that: A rope groove structure is provided between the traveling trolley and the working wire rope. The traveling hoist can drive the working wire rope to rotate and tighten or lower around the rope groove structure. There are multiple sets of rope groove structures.
5. The track-guided gondola capable of being pulled on a slope according to claim 4, characterized in that: The protective structure includes a safety wire rope, a limiting block, and a safety main rope. The limiting block is mounted on the safety wire rope. One end of the safety wire rope is connected to the traveling hoist via the traveling trolley. The safety wire rope and the working wire rope move synchronously in opposite directions. The limiting block is used to limit the position of the suspended platform structure. One end of the safety main rope is fixed to the traveling hoist. The remaining structure is used to protect the construction personnel.
6. The track-guided gondola capable of being pulled on a slope according to claim 5, characterized in that: A clamping structure is provided between the first hoist and the suspended platform structure for fixing the structures on both sides of the suspended platform structure. The clamping structure includes an L-shaped clamping rod and a coupling plate. The coupling plate is located between the first hoist and the L-shaped clamping rod. At least part of the L-shaped clamping rod can support the suspended platform structure.
7. The track-guided gondola capable of being pulled on a slope according to claim 6, characterized in that: The clamping structure is equipped with a swing-arm safety lock on its top. One side of the swing-arm safety lock allows the safety wire rope to pass through, and the other side has a rope clamping structure for the working wire rope to pass through. The swing-arm safety lock can lock the position of the clamping structure.
8. The track-guided suspended platform capable of being pulled on a slope according to claim 2, characterized in that: The supporting structure includes an I-beam rail and a connected safety rope. The I-beam rail is for the traveling trolley to slide on, and the safety rope is for the traveling hoist to move. Both ends of the safety rope are connected to the bottom structure of the I-beam rail through fixing parts. A centrifugal safety lock is provided between the traveling hoist and the safety rope.
9. A track-guided suspended platform capable of being pulled on a slope according to claim 8, characterized in that: A fixing structure is provided between the I-beam rail and the ramp. The fixing structure includes a U-shaped fixing plate, a support frame and a fixing block connected in sequence. The U-shaped fixing plate is connected to the ramp and the fixing block is used to fix the I-beam rail.
10. The track-guided gondola capable of being pulled on a slope according to claim 1, characterized in that: The suspended platform structure includes a protective frame and a platform plate connected to its bottom. The platform plate is for the construction workers to stand on. A control box is installed inside the protective frame to operate the drive components.