CN215055170U - Hanging basket system - Google Patents

Hanging basket system Download PDF

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Publication number
CN215055170U
CN215055170U CN202121633991.9U CN202121633991U CN215055170U CN 215055170 U CN215055170 U CN 215055170U CN 202121633991 U CN202121633991 U CN 202121633991U CN 215055170 U CN215055170 U CN 215055170U
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China
Prior art keywords
cantilever
support
basket
hanging
rope
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CN202121633991.9U
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Chinese (zh)
Inventor
王龙
陈鹏
黄智杰
王鹏
王楠
李靖
朱少东
樊芋
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China Construction Civil Engineering Co Ltd
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China Construction Civil Engineering Co Ltd
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Priority to CN202121633991.9U priority Critical patent/CN215055170U/en
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Abstract

The utility model belongs to the technical field of the high altitude construction, a hanging flower basket system is disclosed. The suspension device comprises a supporting component, a cantilever component, a hanging component and a counterweight component. The supporting component is arranged on the first beam and comprises a first supporting pipe; the cantilever assembly comprises a cantilever beam, the cantilever beam penetrates through the first supporting pipe, and the installation position of the cantilever beam on the first supporting pipe is adjustable; the hanging component comprises a hanging basket which is arranged at the first end of the cantilever beam; the counterweight assembly is arranged on the second beam and connected with the second end of the cantilever beam. The utility model provides a hanging flower basket system sets up on the structure roof beam, is supported by the structure roof beam, and need not to hang the concrete balancing weight on the cantilever beam, supports stably, saves installation space, is difficult for taking place the incident.

Description

Hanging basket system
Technical Field
The utility model relates to a high altitude construction technical field especially relates to a hanging flower basket system.
Background
During high-altitude operations such as high-rise outer wall construction, high-altitude advertisement installation, large-scale ship maintenance and bridge maintenance, workers often use a hanging basket as an operation auxiliary device.
At present, a hanging basket is generally supported by a standard hanging bracket, namely, a concrete balancing weight with certain weight is arranged at one end of the hanging bracket so as to balance the hanging basket at the other end of the hanging bracket and the overturning moment generated by the heavy object carried by the hanging basket. However, at present, high-altitude buildings often encounter the situation of narrow roofs, and under the situation, the balancing weight occupies only a narrow space, and the movement of the balancing weight is easily restricted by the narrow space, so that the use of a hanging basket is influenced, the simultaneous construction of the hanging basket and the construction in the narrow space is not facilitated, and the construction period and the engineering quality are influenced; when the roof is narrow, the length of the suspension mechanism is often insufficient, the balancing weight is small, the balance requirement on the overturning moment generated at the hanging basket end cannot be met, and safety accidents such as overturning are easy to happen.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a hanging flower basket system saves installation space, and supports stably, is difficult for taking place the incident.
To achieve the purpose, the utility model adopts the following technical proposal:
a basket system comprising:
the supporting assembly is arranged on the first beam and comprises a first supporting pipe;
the cantilever assembly comprises a cantilever beam, the cantilever beam penetrates through the first supporting pipe, and the installation position of the cantilever beam on the first supporting pipe is adjustable;
the hanging component comprises a hanging basket, and the hanging basket is arranged at the first end of the cantilever beam;
and the counterweight component is arranged on the second beam and is connected with the second end of the cantilever beam.
Further, the supporting component still includes first support, first support includes first pillar, second pillar and connecting rod, first pillar with the equal vertical setting of second pillar is in on the first roof beam, first stay tube level sets up first pillar with on the second pillar, the both ends of connecting rod are connected respectively first pillar with on the second pillar.
Furthermore, the supporting assembly further comprises a first embedded part and a plurality of first embedded bolts, the first support is fixed on the first embedded part, a plurality of first strip holes are formed in the first embedded part, and the first embedded bolts penetrate through the first strip holes in a one-to-one correspondence mode and are fixedly connected to the first beam.
Further, the support assembly further comprises a second support pipe and a second support, the second support is arranged on the first beam, the distance from the second support to the hanging assembly is larger than the distance from the first support to the hanging assembly, the second support pipe is horizontally arranged on the second support, and the cantilever beam penetrates through the second support pipe.
Furthermore, a plurality of first holes are formed in the cantilever beam at intervals along the length direction, a second hole is formed in the first supporting pipe, and a bolt penetrates through the second hole and one of the first holes and is connected with a nut.
Furthermore, the counterweight assembly comprises a second embedded part, a counterweight rope and an adapter plate, the second embedded part is arranged on the second beam, the adapter plate is arranged on the second embedded part, one end of the counterweight rope is connected with the adapter plate, and the other end of the counterweight rope is connected with the second end of the cantilever beam.
Furthermore, the adapter plate comprises a first plate and a second plate which are arranged at an included angle, a second strip hole is formed in the first plate, the counterweight rope is movably connected with the second strip hole through a turn buckle, and the second plate is fixed on the second embedded part.
Further, the cantilever assembly further comprises a third support, a roller and a support arm rope, wherein the third support is vertically arranged on the first support pipe, the roller is rotatably arranged on the third support, two ends of the support arm rope are respectively connected with the first end and the second end of the cantilever beam, and the middle of the support arm rope is in rolling connection with the roller.
Further, hang the subassembly and still include lifting machine and work rope, the hanging flower basket passes through the work rope is connected the cantilever beam first end, the lifting machine can pass through the work rope drives the hanging flower basket reciprocates.
Furthermore, the hanging component also comprises a safety rope and a safety rope, and the hanging basket is connected to the first end of the cantilever beam through the safety rope; one end of the safety rope is movably lapped in the hanging basket, and the other end of the safety rope is connected to the first beam and/or the second beam.
Has the advantages that:
the utility model provides a hanging basket system, the first end of cantilever beam hangs the hanging subassembly, the vertical downward application of gravity of hanging the subassembly is served at the first of cantilever beam, produced the decurrent turning moment around the perpendicular cantilever beam of first stay tube at first end from this, the second end of cantilever beam is connected on the counter weight subassembly, when the hanging subassembly of first end produces turning moment around first stay tube, the second end of cantilever beam has along this turning moment pivoted tendency, at this moment, the counter weight subassembly can produce the equal opposite direction's of size rotation partial moment at the second end, and then make the both ends of cantilever beam keep balance. When the gravity of the hanging component changes, the rotating partial moment of the counterweight component acting on the second end of the cantilever beam also changes along with the gravity to balance the rotating moment generated by the hanging component on the first end of the cantilever beam again. When the hanging basket system is used for construction, the other components are basically kept still except the hanging components move so as to stably support the hanging components. The first supporting tube is used for coating and supporting the cantilever beam, so that the cantilever beam is coated and supported by all sides of the first supporting tube, and compared with point support and surface support, the cantilever beam is more stable and firm to support. When the distance among the hanging basket construction surface, the first beam and the second beam is changed, the hanging basket system can adapt to the change by adjusting the installation position of the cantilever beam on the first support pipe, and the application is wide; the support assembly is arranged on the first beam, so that the space on the main plane of the working platform is basically not occupied, the use of a hanging basket system and the construction on the main plane of the working platform are not affected mutually, and the construction period is shortened; the counterweight assembly is arranged on the second beam, and can bear larger overturning weight under the action of the second beam, so that the cantilever beam is ensured not to overturn, and the safety of the hanging basket system is improved. The utility model discloses combine hanging flower basket system and first roof beam and second roof beam, saved the installation space of hanging flower basket system, and realized the stable support to the hanging flower basket, improved the security of hanging flower basket system.
Drawings
Fig. 1 is a schematic structural diagram of a basket system provided by an embodiment of the present invention;
FIG. 2 is a schematic structural view of the support assembly of FIG. 1 disposed on a first beam;
fig. 3 is a schematic structural view of the counterweight assembly disposed on the second beam in fig. 1.
In the figure:
1. a support assembly; 11. a first support tube; 111. a second hole; 12. a first bracket; 121. a first support; 122. a second support; 123. a connecting rod; 13. a first embedded part; 14. a first embedded bolt; 15. a second support tube; 16. a second bracket;
2. a cantilever assembly; 21. a cantilever beam; 211. a first hole; 212. a first end; 213. a second end; 22. a third support; 23. a roller; 24. an arm supporting rope;
3. a hanging component; 31. a hanging basket; 32. a working rope; 33. a safety cord;
4. a counterweight assembly; 41. a second embedded part; 42. a counterweight rope; 43. an adapter plate; 431. a first plate; 4311. a second elongated hole; 432. a second plate; 44. a turn buckle; 45. a second embedded bolt;
5. a first beam;
6. a second beam.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.
In the description of the present invention, unless expressly stated or limited otherwise, the terms "connected," "connected," and "fixed" are to be construed broadly, e.g., as meaning permanently connected, detachably connected, or integral to one another; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.
In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.
In the description of the present embodiment, the terms "upper", "lower", "right", etc. are used in an orientation or positional relationship based on that shown in the drawings only for convenience of description and simplicity of operation, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used only for descriptive purposes and are not intended to have a special meaning.
In high-altitude operations, a basket system is often required as an auxiliary operating device. The current basket system is generally arranged on the main plane of a working platform, so that the assembly and maintenance of the basket system are convenient. On the hanging basket system, the hanging component is arranged at one end of the cantilever beam, is hung in the air by the cantilever beam and can move up and down during working. And a concrete balancing weight is hung at the other end of the cantilever beam to balance the overturning force generated by the weight of the hanging component. However, many work platforms in current high-altitude buildings are often narrow and small, and the hanging basket system is arranged on the main plane of the work platform, so that the space of the main plane on the work platform is directly occupied, the construction of the main plane, the storage of equipment and the use of the hanging basket system cannot be considered at the same time, and the construction period and the construction progress are influenced.
This embodiment provides a hanging flower basket system, and hanging flower basket system sets up on work platform's first roof beam 5 and second roof beam 6, need not to hang the concrete balancing weight on cantilever beam 21, and the support is stable, saves installation space, and is difficult for taking place the incident. As shown in fig. 1, specifically, the basket system in the present embodiment includes: support assembly 1, cantilever subassembly 2, hang subassembly 3 and counter weight subassembly 4.
As shown in fig. 1, the support assembly 1 is provided on a first beam 5 to support a basket system. The support assembly 1 comprises a first support tube 11, the cantilever assembly 2 comprises a cantilever beam 21, and the cantilever beam 21 penetrates through the first support tube 11 and is supported by the first support tube 11. In one embodiment, the inner diameter of the first support tube 11 is slightly larger than the outer diameter of the cantilever beam 21, and the cantilever beam 21 is inserted through the first support tube 11. The first supporting tube 11 has the characteristic of coating the cantilever beam 21, so that the cantilever beam 21 is coated and supported by all surfaces of the first supporting tube 11, and the supporting stability of the cantilever beam 21 is improved.
Optionally, the first supporting pipe 11 is a steel square pipe, the cantilever beam 21 is a steel square tube, steel cost is low, structural strength is high, cost of the hanging basket system can be reduced, and safety of the hanging basket system can be guaranteed. In one embodiment, the cantilever beam 21 is made of an integral molding, and when the cantilever beam bears a large load, the integral molding has high structural strength and is not easy to break. In another embodiment, the cantilever beam 21 may also be formed by splicing a plurality of short beams, when the cantilever beam 21 is enough to support the loads at two ends thereof, the plurality of short beams are convenient for transportation and installation, especially for installation and disassembly in high altitude, and when a reliability problem occurs in a single short beam, the cantilever beam 21 can be repaired by only replacing the corresponding damaged short beam, thereby saving the cost.
The mounting position of the cantilever beam 21 on the first support tube 11 is adjustable. Preferably, a plurality of first holes 211 are formed in the cantilever beam 21 at intervals along the length direction, a second hole 111 is formed in the first support tube 11, and a bolt passes through the second hole 111 and one of the plurality of first holes 211 and is connected to a nut. The installation position of the cantilever beam 21 on the first support pipe 11 is fixed by combining the bolt and the hole, the structure is simple, the installation is convenient, and the position of the cantilever beam 21 relative to the first support pipe 11 can be conveniently adjusted. Optionally, as shown in fig. 1 to 2, a plurality of first holes 211 are distributed on the square through cantilever beam 21 at equal intervals along the length direction, each of the first holes 211 penetrates from one surface of the cantilever to the other surface opposite to the one surface, two second holes 111 having the same size as the first holes 211 are arranged at corresponding positions of the first support tube 11 in a penetrating manner at the same interval, during installation, the cantilever beam 21 is inserted into and penetrates through the first support tube 11, two of the two second holes 111 and two of the plurality of first holes 211 are made to correspond to each other, and two sets of bolts respectively penetrate through the two sets of corresponding first holes 211 and second holes 111 and are connected to two nuts, thereby completing adjustment and fixation of the position of the cantilever beam 21 on the first support tube 11. Two second holes 111 are provided to fix the cantilever beam 21 and the first support tube 11 so that a better relative positioning between the two can be achieved.
Preferably, the boom assembly 2 further comprises a third bracket 22, a roller 23 and an arm rope 24. In one embodiment, the third support 22 is a square through column vertically welded above the first support tube 11, the roller 23 is rotatably connected to the upper end of the square through column, the support arm rope 24 can be a steel wire rope, a first rotating plate is arranged at the first end 212 of the cantilever beam 21, a second rotating plate is arranged at the second end 213 of the cantilever beam 21, the first rotating plate and the second rotating plate are both rotatably connected to the cantilever beam 21, one end of the support arm rope 24 is connected to the second rotating plate, the other end of the support arm rope 24 is connected to the first rotating plate, and the middle part of the support arm rope 24 is in rolling connection with the roller 23. Under the restraint of the two ends of the cantilever beam 21 and the roller 23, the support arm ropes 24 and the cantilever beam 21 jointly enclose a triangle, the support arm ropes 24 on the two sides of the roller 23 form two sides of the triangle, the cantilever beam 21 forms the bottom edge of the triangle, when the first end 212 and the second end 213 of the cantilever beam 21 are unbalanced, the support arm ropes 24 roll relative to the roller 23, the lengths of the two sides are further adjusted, the first rotating plate and the second rotating plate rotate relative to the cantilever beam 21, the included angles between the two sides and the bottom edge of the triangle are adjusted, and therefore the two ends of the cantilever beam 21 enter a balanced state again.
Preferably, the support assembly 1 further comprises a first bracket 12, the first bracket 12 comprising a first support column 121, a second support column 122 and a connecting rod 123. As shown in fig. 2, in one embodiment, the first support column 121 and the second support column 122 are equal length cubic tubes of 60 × 100, and are parallel to each other. Between the first leg 121 and the second leg 122, a connecting rod 123 is perpendicular to and connects the two legs together. Optionally, the connecting rod 123 is square tube and is welded on the two support columns, and the width and height of the fillet weld at each welding position of the connecting rod 123 and the two support columns are both equal to or greater than 6mm and are not interruptible, so as to ensure the connection strength of the first support column 121 and the second support column 122. The first and second support columns 121 and 122 are vertically disposed above the upper plane of the first beam 5, and when the upper plane of the first beam 5 is not flat, the upper plane of the first beam 5 may be trimmed to be horizontal so that the first and second support columns 121 and 122 are perpendicular to the horizontal plane. The first support tube 11 is welded horizontally to the upper ends of the first support column 121 and the second support column 122, and the first support column 121 and the second support column 122 are integrally centered on the lower tube wall of the first support tube 11 to keep the gravity balance of the first support tube 11 itself on the first bracket 12. The level sets up first supporting tube 11 to the messenger runs through in the cantilever beam 21 of first supporting tube 11 and keeps the level, makes the cantilever beam 21 distribute the power on first supporting tube 11 even, avoids appearing stress concentration on first supporting tube 11, leads to becoming invalid. When the both ends bearing of cantilever beam 21, great power can be exerted to above-mentioned two pillars to cantilever beam 21, because these two pillar positions are different, and the power that acts on these two pillars can be different, links to each other two pillars through connecting rod 123, can offset the partial effort that acts on the opposite direction on two pillars to reduce the load of two pillars, promote the stability and the security of first support 12.
Preferably, the support assembly 1 further includes a first embedded part 13 and a plurality of first embedded bolts 14, the lower ends of the first support column 121 and the second support column 122 are integrally and centrally welded above the first embedded part 13, and the first embedded part 13 is provided with a plurality of first elongated holes. In one embodiment, the first embedded part 13 is a rectangular steel plate, four first elongated holes with central symmetry are formed in the first embedded part 13 and are respectively located at four corners of the first embedded part 13, the screw head of each first embedded bolt 14 is vertically embedded in the first beam 5 downwards, the screw rod portion penetrates through the first elongated hole corresponding to the screw rod portion one by one and exceeds the upper plane of the first beam 5, and a nut matched with each first embedded bolt 14 is screwed on the top end of the screw rod portion. When the nuts are screwed to the heads and tightly pressed against the first embedment members 13, the first embedment members 13 are firmly fixed to the first beam 5. When the nuts are screwed to be away from the first embedded part 13, the first embedded part 13 can move along the first strip hole relative to the first embedded bolt 14, so that the position of the first embedded part 13 can be adjusted conveniently. The first embedded part 13 is restrained by the first embedded bolt 14 and the nut matched with the first embedded bolt, so that the hanging basket system is convenient to disassemble and assemble, firm to install and strong in bearing capacity, the supporting component 1 can have strong bearing capacity, the hanging capacity of the hanging basket system is improved, and the safety of the hanging basket system is guaranteed. Due to the movable connection relation between the first strip hole and the first embedded bolt 14, the position of the first embedded part 13 can be adjusted according to the actual installation position of the first support 12 before fixing, and the position of the support component 1 can be accurately fixed. Optionally, the first embedded bolts 14 are chemical bolts, and the first embedded parts 13 are fixed by the chemical bolts, so that stress concentration cannot occur in the first beam 5, the structure of the first beam 5 cannot be damaged, and the safety of the hanging basket system is ensured.
Preferably, the support assembly 1 further comprises a second support tube 15 and a second bracket 16. Part of the moment applied by the hanger assembly 3 on the cantilever beam 21 can be carried by the second bracket 16, improving the safety of the basket system. In one embodiment, as shown in fig. 2, the second bracket 16 is a square tube, the lower portion of which is fixed to the side wall of the first beam 5 by two bolts, and the second support tube 15 is horizontally welded to the top end of the second bracket 16. Compared with the first support 12, the distance from the second support 16 to the hanging component 3 is larger than the distance from the first support 12 to the hanging component 3, when one end of the hanging component 3 is heavier, the second support 16 shares part of load on the counterweight component 4, the overturning of the cantilever beam 21 caused by insufficient counterweight is avoided, and the safety of the hanging basket system is improved. Optionally, the second support tube 15 is an integrally formed part, so that the installation is convenient and the structural strength is high. In one embodiment, the second support tube 15 is added to mainly reduce the load bearing capacity of the first support tube 11, and therefore, the wall thickness and length of the second support tube 15 may be smaller than those of the first support tube 11. In another embodiment, the second support tubes 15 are identical to the first support tubes 11 and are each capable of carrying a relatively large load in order to increase the load carrying capacity of the entire basket system. Preferably, the axis of the second support tube 15 is collinear with the axis of the first support tube 11, and the cantilever beam 21 extends through both support tubes, and is supported horizontally by both support tubes. Optionally, a second hole 111 is also provided in the second support tube 15, and a bolt is passed through the second hole 111 and one of the plurality of first holes 211 in the cantilever beam 21 and is connected to a nut to achieve relative fixation between the cantilever beam 21 and the second support tube 15.
As shown in fig. 1, the hanging basket 31 is disposed at the first end 212 of the cantilever beam 21, the hanging basket 31 can move up and down to assist high-altitude operation, the counterweight assembly 4 is disposed on the second beam 6 and connected to the second end 213 of the cantilever beam 21, and under the action of the second beam 6, the counterweight assembly 4 can bear a large overturning weight to balance the moment applied to the cantilever beam 21 by the hanging basket 31, so that the cantilever beam 21 is ensured not to overturn, and the safety of the hanging basket system is improved. It should be noted that, when there are a plurality of structural beams on the construction platform, at least one of the structural beams may be selected as the first beam 5 and at least one of the structural beams may be selected as the second beam 6 according to the installation requirements of the nacelle system. Alternatively, the second beam 6 is located below the first beam 5 when the second beam 6 and the first beam 5 are in the same vertical plane.
Preferably, the hanging assembly 3 includes a working rope 32 and a hoist in addition to the basket 31. The working rope 32 is connected with the hanging basket 31, and the hanging basket 31 is hung on the first rotating plate; the hoister is arranged on the hanging basket 31 and is connected with a working rope 32 on the hanging basket 31; the lifting machine lifts the hanging basket 31 through the winding working rope 32, and when the lifting machine unreels, the hanging basket 31 descends; when the hanging basket system works, materials and personnel required by construction can be loaded in the hanging basket 31 and quickly transported to a construction position by the elevator.
Preferably, to prevent the working string 32 from being accidentally broken during use, causing injury or death, the hanger assembly 3 further includes a safety string 33. Specifically, the safety rope 33 is a steel wire rope and is arranged beside the working rope 32, one end of the safety rope 33 is connected to the cantilever beam 21 independently of the working rope 32, and the other end is connected to the basket 31. Further, the gondola 31 often serves as a manned tool to assist in working at height, and therefore, in order to ensure personal safety, the hanging assembly 3 further comprises safety ropes. One end of the safety rope is fixedly connected to the first beam 5 and/or the second beam 6, the other end of the safety rope is freely lapped in the hanging basket 31, after a constructor enters the hanging basket 31, the safety rope is tied to the body of the constructor, then the hanging basket 31 is lifted, and high-altitude operation is carried out.
Preferably, as shown in fig. 3, the counterweight assembly 4 includes a second embedded part 41, a counterweight rope 42 and an adapter plate 43, the second embedded part 41 is fixed on the side wall of the second beam 6 near the second end 213 of the cantilever beam 21, the adapter plate 43 is welded on the second embedded part 41, one end of the counterweight rope 42 is connected with the adapter plate 43, and the other end of the counterweight rope 42 is connected with the second end 213 of the cantilever beam 21. Fix cantilever beam 21's second end 213 on second roof beam 6 through counter weight rope 42, removed counter weight concrete's setting from, saved the occupation space of work platform owner plane, accessible second roof beam 6 provides great counter weight when cantilever beam 21 is short with the balanced overturning moment who hangs subassembly 3 production, has guaranteed the safety of hanging flower basket system.
In one embodiment, the second embedded part 41 is a rectangular steel plate, four third elongated holes are formed in the second embedded part 41, the third elongated holes are located at four corners of the second embedded part 41, the counterweight assembly 4 further includes four second embedded bolts 45, screw heads of the four second embedded bolts 45 are embedded in the second beam 6, screw portions of the second embedded bolts 45 penetrate through the third elongated holes corresponding to the second embedded bolts one by one and expose side surfaces of the second beam 6, and nuts corresponding to the second embedded bolts 45 are screwed on top ends of the screw portions. When the nuts are screwed and tightly pressed against the second embedment members 41, the second embedment members 41 are firmly fixed to the sides of the second beam 6. When the nut is screwed and moved away from the second embedded part 41, the second embedded part 41 can move along the third strip hole relative to the second embedded bolt 45, and the position of the second embedded part is adjusted. Due to the movable connection relationship between the third elongated hole and the second embedded bolt 45, the second embedded part 41 can still further perform position adjustment according to the actual installation position of the counterweight assembly 4 before being fixed. Optionally, the second embedded bolts 45 are chemical bolts, and the second embedded parts 41 are fixed by the chemical bolts, so that stress concentration cannot occur in the second beam 6, the structure of the second beam 6 cannot be damaged, and the safety of the hanging basket system is ensured.
In one embodiment, the counterweight rope 42 is a steel wire rope, one end of which is connected to the second rotating plate on the cantilever beam 21, and the other end of which is connected to the ring at one end of the turn-buckle 44, so that the hook at the other end of the turn-buckle 44 is hooked on the adapter plate 43 to facilitate the installation and the disassembly of the counterweight rope 42. The turn buckle 44 can be extended and retracted by a lead screw to adjust the tightness of the weight rope 42. Preferably, an L-shaped adapter plate 43 is welded in the center of the second embedded part 41, the L-shaped adapter plate 43 includes a first plate 431 and a second plate 432 which are connected at a right angle, the first plate 431 and the second plate 432 are both square plates, the plate surface of the second plate 432 is parallel to the plate surface of the second embedded part 41 and is welded on the second embedded part 41, the first plate 431 is perpendicular to the horizontal plane, two second strip holes 4311 which are parallel to each other are formed in the first plate 431, the second strip holes 4311 are parallel to the horizontal plane, a bolt passes through one of the second strip holes 4311 and is connected with a nut, and the bolt after being connected with the nut can still slide in the second strip hole 4311. The hook of the turn buckle 44 hooks onto the bolt, thereby slidably attaching the weight line 42 to the second elongated hole 4311. The first plate 431 and the second plate 432 are perpendicular to each other, so that the direction of the force on the counterweight rope 42 acting on the second embedded part 41 can be changed, the tensile force on the counterweight rope 42 is prevented from acting on the second embedded part 41 by a large shearing force, and the firmness of the second embedded part 41 on the second beam 6 is prevented from being damaged. The hook of the lag bolt 44 can be hooked on any one of the two second long holes 4311 to adjust the direction of the counterweight rope 42; the free sliding of the bolt in the second elongated hole 4311 allows the self-adjustment of the weight line 42 during operation.
In the present embodiment, the first support pipe 11 and the second support pipe 15 are horizontally provided on the first bracket 12 and the second bracket 16, respectively, and the first bracket 12 and the second bracket 16 are fastened to the first beam 5. The supporting component 1 is arranged on the first beam 5 of the working platform instead of the main plane of the working platform, so that the occupation of the space of the main plane of the working platform is avoided, and convenience is provided for the storage and construction of other equipment on the main plane. The cantilever beam 21 horizontally penetrates through the first supporting tube 11 and the second supporting tube 15, and is supported by the first supporting tube 11 and the second supporting tube 15 in a wrapping mode, and compared with point support and surface support, the cantilever beam 21 is more stable and is not prone to overturning. Meanwhile, the installation position of the cantilever beam 21 on the first support pipe 11 is adjustable, so that the distance between the hanging component 3 on the first end 212 of the cantilever beam 21 and the construction surface of the hanging basket 31 can be adjusted, and the distance between the second end 213 of the cantilever beam 21 and the second beam 6 can be adjusted; therefore, when the distance among the construction surface of the hanging basket 31, the first beam 5 provided with the support component 1 and the second beam 6 provided with the counterweight component 4 is changed, the hanging basket system can adapt to the change by adjusting the installation position of the cantilever beam 21 on the first support pipe 11, and the wide application is realized. Besides the cantilever beam 21, the cantilever assembly 2 further comprises a third support 22, a roller 23 and a support arm rope 24, the third support 22 is vertically arranged on the first support tube 11, the roller 23 is rotatably arranged on the third support 22, two ends of the support arm rope 24 are respectively connected with the first end 212 and the second end 213 of the cantilever beam 21, and the middle part of the support arm rope 24 is connected with the roller 23 in a rolling manner, so that when the first end 212 and the second end 213 of the cantilever beam 21 are unbalanced, the support arm rope 24 can roll relative to the roller 23 and adaptively adjust the angle between the support arm rope and the cantilever beam 21, and two ends of the cantilever beam 21 are always balanced.
The hanging component 3 is connected to the first end 212 of the cantilever beam 21, the hanging component 3 comprises a hanging basket 31, a lifting machine, a working rope 32, a safety rope 33 and a safety rope, the lifting machine drives the hanging basket 31 to move up and down along the working rope 32, the safety rope 33 connects the hanging basket 31 to the cantilever beam 21 to serve as safety guarantee of the working rope 32 and guarantee safety of the hanging basket 31, and the safety rope is connected to the first beam 5 and/or the second beam 6 and tied to the body of a worker in the hanging basket 31 to guarantee safety of the worker. The second end 213 of the cantilever beam 21 is connected with the counterweight assembly 4 to balance the moment applied to the cantilever beam 21 by the hanging assembly 3, so as to ensure the safety of the hanging assembly 3. The counterweight component 4 comprises a second embedded part 41, a counterweight rope 42 and an L-shaped adapter plate 43, one end of the counterweight rope 42 is connected with the second end 213 of the cantilever beam 21, the other end of the counterweight rope 42 is connected to the second embedded part 41 through the L-shaped adapter plate 43, the second embedded part 41 is fixed on the second beam 6 through a second embedded bolt 45, and by means of the action of the second beam 6, the counterweight component 4 can bear large overturning weight, the cantilever beam 21 is ensured not to overturn, the safety of the hanging basket system is improved, a concrete counterweight block does not need to be hung on the cantilever beam 21, and the installation space of the hanging basket system is saved.
It is obvious that the above embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention. Numerous obvious variations, rearrangements and substitutions will now occur to those skilled in the art without departing from the scope of the invention. And are neither required nor exhaustive of all embodiments. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present invention should be included in the protection scope of the claims of the present invention.

Claims (10)

1. A basket system, comprising:
a support assembly (1) arranged on the first beam (5), the support assembly (1) comprising a first support tube (11);
the cantilever assembly (2) comprises a cantilever beam (21), and the cantilever beam (21) penetrates through the first support pipe (11) and is adjustable in installation position on the first support pipe (11);
the hanging assembly (3) comprises a hanging basket (31), and the hanging basket (31) is arranged at the first end (212) of the cantilever beam (21);
and the counterweight component (4) is arranged on the second beam (6) and is connected with the second end (213) of the cantilever beam (21).
2. The basket system according to claim 1, characterized in that the support assembly (1) further comprises a first support (12), the first support (12) comprises a first support column (121), a second support column (122) and a connecting rod (123), the first support column (121) and the second support column (122) are both vertically arranged on the first beam (5), the first support tube (11) is horizontally arranged on the first support column (121) and the second support column (122), and two ends of the connecting rod (123) are respectively connected on the first support column (121) and the second support column (122).
3. The hanging basket system according to claim 2, characterized in that the supporting assembly (1) further comprises a first embedded part (13) and a plurality of first embedded bolts (14), the first bracket (12) is fixed on the first embedded part (13), a plurality of first elongated holes are arranged on the first embedded part (13), and the first embedded bolts (14) penetrate through the first elongated holes in a one-to-one correspondence manner and are fixedly connected to the first beams (5).
4. A basket system according to claim 2, characterized in that the support assembly (1) further comprises a second support pipe (15) and a second bracket (16), the second bracket (16) being arranged on the first beam (5), the distance of the second bracket (16) to the hanging assembly (3) being greater than the distance of the first bracket (12) to the hanging assembly (3), the second support pipe (15) being arranged horizontally on the second bracket (16), the cantilever beam (21) extending through the second support pipe (15).
5. The basket system according to claim 1, characterized in that a plurality of first holes (211) are arranged on the cantilever beam (21) at intervals along the length direction, a second hole (111) is arranged on the first supporting tube (11), and a bolt passes through the second hole (111) and one of the first holes (211) and is connected with a nut.
6. The basket system according to claim 1, characterized in that the counterweight assembly (4) comprises a second embedded part (41), a counterweight rope (42) and an adapter plate (43), the second embedded part (41) is arranged on the second beam (6), the adapter plate (43) is arranged on the second embedded part (41), one end of the counterweight rope (42) is connected with the adapter plate (43), and the other end of the counterweight rope (42) is connected with the second end (213) of the cantilever beam (21).
7. The hanging basket system according to claim 6, wherein the adapter plate (43) comprises a first plate (431) and a second plate (432) which are arranged at an included angle, a second long hole (4311) is formed in the first plate (431), the counterweight rope (42) is movably connected with the second long hole (4311) through a basket bolt (44), and the second plate (432) is fixed on the second embedded part (41).
8. The basket system according to claim 1, characterized in that the cantilever assembly (2) further comprises a third bracket (22), a roller (23) and a support arm rope (24), the third bracket (22) is vertically arranged on the first support pipe (11), the roller (23) is rotatably arranged on the third bracket (22), two ends of the support arm rope (24) are respectively connected with the first end (212) and the second end (213) of the cantilever beam (21), and the middle part of the support arm rope (24) is in rolling connection with the roller (23).
9. A gondola system according to claim 1 characterized in that the hanging assembly (3) further comprises a hoist and a working rope (32), the gondola (31) is connected to the first end (212) of the cantilever beam (21) by the working rope (32), the hoist can move the gondola (31) up and down by the working rope (32).
10. Basket system according to claim 9, characterized in that the hanging assembly (3) further comprises safety cords (33) and safety cords, the basket (31) being connected to the first end (212) of the cantilever beam (21) by means of the safety cords (33); one end of the safety rope is movably lapped in the hanging basket (31), and the other end of the safety rope is connected to the first beam (5) and/or the second beam (6).
CN202121633991.9U 2021-07-19 2021-07-19 Hanging basket system Active CN215055170U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202121633991.9U CN215055170U (en) 2021-07-19 2021-07-19 Hanging basket system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202121633991.9U CN215055170U (en) 2021-07-19 2021-07-19 Hanging basket system

Publications (1)

Publication Number Publication Date
CN215055170U true CN215055170U (en) 2021-12-07

Family

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202121633991.9U Active CN215055170U (en) 2021-07-19 2021-07-19 Hanging basket system

Country Status (1)

Country Link
CN (1) CN215055170U (en)

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