CN219182898U - Simulated green plant suspension hoisting structure - Google Patents

Abstract

The application relates to a simulated green plant suspension hoisting structure which is applied to the field of simulated green plant technology, comprises a simulated green plant used for decoration, a steel beam forming a building structure and a steel pipe, wherein the simulated green plant is connected to the steel pipe through a connecting component; the steel pipe is suspended on the steel beam through a suspension device. The simulation green plant can be laid in a direct suspension mode, the workload is small, and time and labor are saved.

Description

Simulated green plant suspension hoisting structure

Technical Field

The application relates to the field of simulation green planting technology, in particular to a simulation green planting suspension mounting structure.

Background

The artificial green plant is a product which is designed and manufactured by adopting high-simulation environment-friendly materials and is used for compensating the limitation that the green plant can only be viewed in areas. The simulated green plant is suitable for various occasions such as parks, squares, auditoriums, courtyards, hotels and the like to beautify the environment and build atmosphere.

The Chinese patent with the bulletin number of CN207700435U discloses a simulated green plant wall, which comprises a structural wall, a steel wire mesh hung on the structural wall and a simulated green plant detachably fixed on the steel wire mesh, wherein the steel wire mesh is fixed on the surface of the structural wall through expansion bolts, the expansion bolts are arranged in groups on the steel wire mesh, each group of expansion bolts are arranged in a quincuncial manner, each group of expansion bolts are arranged in a matrix manner, and the simulated green plant is fixed on the steel wire mesh through binding or bonding.

For the related art, the inventor considers that when the simulated green plants are laid, the steel wire mesh is required to be fixed on the structural wall through the expansion bolts, and then the simulated green plants are fixed on the steel wire mesh, so that the workload is high, and time and labor are wasted.

Disclosure of Invention

In order to solve the problems that the workload is large, time and labor are wasted when the simulation green plants are distributed, the application provides a simulation green plant hanging and hanging distribution structure.

The application provides a simulation green plant suspension mounting structure adopts following technical scheme:

the simulated green plant hanging and assembling structure comprises a simulated green plant for decoration, a steel beam for forming a building structure and a steel pipe, wherein the simulated green plant is connected to the steel pipe through a connecting component; the steel pipe is suspended on the steel beam through a suspension device.

By adopting the technical scheme, the suspension device can directly suspend the simulated green plants connected to the steel pipes on the steel beams, thereby reducing the workload of the simulated green plant arrangement and achieving the purposes of time and labor saving.

Optionally, the suspension device comprises a fixing mechanism and a suspension mechanism, wherein the fixing mechanism comprises an I-steel, a C-shaped channel steel, a U-shaped bolt and a beam clamp, a square tube is arranged on the steel beam, and the I-steel is fixed at one end of the square tube far away from the steel beam; c type channel-section steel wears to locate in the centre gripping space of U type bolt, the open end of U type bolt runs through the roof beam clamp, the open end threaded connection of U type bolt has fixation nut, fixation nut will the roof beam clamp press from both sides tightly in I-steel and on the C type channel-section steel, suspension mechanism will the steel pipe hang in on the C type channel-section steel.

Through adopting above-mentioned technical scheme, roof beam clamp and U type bolt are fixed C type channel-section steel to promote the bearing capacity and the stability of C type channel-section steel, make the steel pipe be difficult for droing when suspending in midair on C type channel-section steel, thereby increase the security that emulation green planting was suspended in midair.

Optionally, the suspension mechanism includes chain and a pair of shackle, a pair of the one-to-one of shackle is located the both ends of chain, one of them the shackle hang in through suspension assembly on the C channel-section steel, another the shackle is last to be equipped with the banding subassembly, the steel pipe pass through the hoop the tight subassembly connect in on the chain.

Through adopting above-mentioned technical scheme, can promote the convenience of chain dismouting through the shackle to can the different length of quick replacement's chain, with the height adjustment that hangs is planted to emulation green, improved the flexibility that hangs is planted to emulation green.

Optionally, the suspension assembly comprises a channel steel lock catch, a channel steel buckle plate and an eye bolt, wherein the channel steel lock catch is arranged in a cavity of the C-shaped channel steel and is abutted against a folded edge of the C-shaped channel steel, the channel steel lock catch is connected with a suspension bolt in a threaded manner, the channel steel buckle plate is sleeved on the suspension bolt, the suspension bolt is connected with a self-locking nut in a threaded manner, and the self-locking nut abuts against the C-shaped channel steel; the eye bolt is in threaded connection on the suspension bolt, the eye bolt is located self-locking nut keeps away from the one side of channel-section steel buckle, one of them the shackle is connected on one of them a pair of corresponding otic placode.

Through adopting above-mentioned technical scheme, the channel-section steel hasp supports to paste on the hem of C channel-section steel, therefore eye bolt is when being fixed in the channel-section steel hasp through the suspension nut, the difficult condition that drops that appears to further increase the security that emulation green plants the suspension.

Optionally, the tightening assembly comprises a pair of hoops, the two ends of the pair of hoops are respectively provided with an ear plate, and tightening bolts penetrate through the two corresponding ear plates of the pair of hoops, and the tightening bolts tighten the pair of hoops on the steel pipe; the other shackle is connected to the pair of anchor ears.

Through adopting above-mentioned technical scheme, staple bolt can strengthen the fixed stability of steel pipe, promotes the convenience of steel pipe dismouting simultaneously to further reduce the work load that the green planting of emulation laid.

Optionally, the coupling assembling includes link net and a plurality of ribbon, the green planting of emulation is located on the link net, the green planting of emulation with connect to lay between the net and connect the cloth, be equipped with a plurality of through-holes on the cloth, be equipped with the grommet in the through-hole, the ribbon passes the grommet is around locating on the steel pipe.

Through adopting above-mentioned technical scheme, the ribbon is around locating on the steel pipe after passing the grommet, can be connected whole connection net and steel pipe to the simulation green plant and the fixed convenience of steel pipe have been promoted.

Optionally, be equipped with the reinforcement subassembly on the C type channel-section steel, the reinforcement subassembly is including strengthening buckle and reinforcing bolt, consolidate the buckle through reinforcing bolt is fixed in on the C type channel-section steel, consolidate the buckle support tightly in the roof beam presss from both sides and keep away from one side of I-steel.

Through adopting above-mentioned technical scheme, consolidate the buckle and support tightly in the roof beam clamp, reducible roof beam clamp self takes place the condition of displacement when fixing C type channel-section steel to further promoted the stability that the roof beam clamp was fixed to C type channel-section steel.

Optionally, a rubber pad is arranged between the pair of anchor ear and the steel pipe, and the pair of anchor ear is used for propping the rubber pad against the outer wall of the steel pipe.

By adopting the technical scheme, the rubber pad can reduce abrasion between the anchor ear and the steel pipe caused by rigid connection, thereby prolonging the service lives of the anchor ear and the steel pipe.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the suspension device can directly suspend the simulated green plants connected to the steel pipes on the steel beams, so that the workload of the simulated green plant arrangement is reduced, and the purposes of time and labor saving are achieved;

2. the beam clamp and the U-shaped bolt fix the C-shaped channel steel, and the bearing capacity and the stability of the C-shaped channel steel are improved, so that the steel pipe is not easy to fall off when being hung on the C-shaped channel steel, and the safety of the simulated green planting hanging is improved;

3. the convenience of chain dismouting can be promoted through the shackle to can the different length of quick replacement's chain, with the height that hangs is planted to the emulation green, improve the flexibility that hangs is planted to the emulation green.

Drawings

Fig. 1 is a schematic view of a simulated green plant suspension assembly structure in an embodiment of the present application.

Fig. 2 is an enlarged view of a portion a in fig. 1.

Fig. 3 is an enlarged view of a portion B in fig. 1.

Fig. 4 is a schematic view of a suspension device in an embodiment of the present application.

Reference numerals: 1. simulation green planting; 2. a steel beam; 3. a steel pipe; 4. a suspension device; 41. a fixing mechanism; 411. i-steel; 412. c-shaped channel steel; 413. u-shaped bolts; 414. a beam clamp; 42. a suspension mechanism; 421. a chain; 422. shackle off; 5. a connection assembly; 51. a connecting net; 52. connecting cloth; 53. a tie; 6. square tubes; 7. a fixed screw cap; 8. a suspension assembly; 81. a channel steel lock catch; 82. channel steel buckle plate; 83. an eye bolt; 9. a tightening assembly; 91. a hoop; 10. a suspension bolt; 11. a self-locking nut; 12. ear plates; 13. tightening the bolt; 14. a grommet; 15. a reinforcement assembly; 151. reinforcing the buckle plate; 152. reinforcing bolts; 16. and a rubber pad.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-4.

The embodiment of the application discloses a simulated green plant suspension mounting structure. Referring to fig. 1 and 2, the suspension mounting structure includes a steel pipe 3, and a dummy green plant 1 is connected to the steel pipe 3 through a connection assembly 5. Specifically, the connection assembly 5 includes a connection net 51, a connection cloth 52 and a plurality of binding tapes 53, the connection cloth 52 and the artificial green plants 1 are all stitched on the connection net 51, and the connection cloth 52 is located between the artificial green plants 1 and the connection net 51. In the embodiment of the application, the connection net 51 is a common fishing net, the connection cloth 52 is fireproof cloth, a plurality of through holes are formed in the edge of one side, close to the steel pipe 3, of the connection cloth 52, and the grommet 14 is installed in each of the through holes. Therefore, the ribbon 53 passes through the grommet 14 and is wound on the steel pipe 3, so that the whole connecting net 51 can be connected with the steel pipe 3, and the operation is convenient, time-saving and labor-saving.

Referring to fig. 2 and 3, the suspension structure further includes a suspension device 4, and after the artificial green plant 1 is connected to the steel pipe 3, the steel pipe 3 is suspended from the steel beam 2 constituting the building structure by the suspension device 4. The suspension device 4 is composed of a fixing mechanism 41 and a suspension mechanism 42, specifically, the fixing mechanism 41 comprises I-steel 411, C-shaped channel steel 412, U-shaped bolts 413 and a beam clamp 414, a square pipe 6 is welded at the bottom of the steel beam 2, the I-steel 411 and the C-shaped channel steel 412 are sequentially arranged below the square pipe 6, the I-steel 411 is fixed with the square pipe 6 through bolts, the C-shaped channel steel 412 is penetrated into a clamping space of the U-shaped bolts 413, the open ends of the U-shaped bolts 413 penetrate through the beam clamp 414 and are in threaded connection with fixing nuts 7, and the fixing nuts 7 enable the beam clamp 414 to be abutted against the lower flange of the I-steel 411 and the C-shaped channel steel 412; the suspension mechanism 42 suspends the steel pipe 3 on the C-channel steel 412. In addition, the C-shaped channel steel 412 is further provided with a reinforcing component 15, the reinforcing component 15 comprises a reinforcing buckle plate 151 and a reinforcing bolt 152, the reinforcing buckle plate 151 is fixed at the top of the C-shaped channel steel 412 by the reinforcing bolt 152, and the reinforcing buckle plate 151 abuts against one end, far away from the i-steel 411, of the beam clamp 414.

In the embodiment of the application, the fixing mechanism 41 and the reinforcing component 15 are symmetrically arranged by taking the square tube 6 as an axis, so that the fixing mechanism 41 improves the bearing capacity and stability of the C-shaped channel steel 412; meanwhile, the reinforcing component 15 can reinforce and limit the beam clamp 414, so that the situation that the beam clamp 414 displaces when fixing the C-shaped channel steel 412 is reduced, the stability of the fixing mechanism 41 for fixing the C-shaped channel steel 412 is further improved, the steel pipe 3 is not easy to fall off when being hung on the C-shaped channel steel 412, and the safety of the simulation green plant 1 hanging is improved.

Referring to fig. 2 and 4, the suspension mechanism 42 includes a chain 421 and a pair of shackles 422, the shackles 422 are connected to both ends of the chain 421 in one-to-one correspondence, and one of the shackles 422 is fixed to the steel pipe 3 by the tightening assembly 9 and the other shackles 422 is fixed to the C-channel steel 412 by the suspension assembly 8. Specifically, the tightening assembly 9 includes a pair of hoops 91, two ends of the pair of hoops 91 are integrally formed with ear plates 12, two opposite ear plates 12 on the pair of hoops 91 are connected through a tightening bolt 13, the steel pipe 3 is penetrated in a clamping space formed between the pair of hoops 91, and the tightening bolt 13 tightens the pair of hoops 91 against the steel pipe 3; one pair of lugs 12 is fixed to one shackle 422, and connects the steel pipe 3 to the chain 421.

Therefore, when the height of the suspension of the simulation green plant 1 needs to be adjusted, the chain 421 with different lengths can be quickly disassembled, assembled and replaced through the shackle 422, so that the workload of arranging the simulation green plant 1 is reduced, and the flexibility of the suspension of the simulation green plant 1 is improved; the anchor ear 91 is fixed with the shackle 422 again after hooping the steel pipe 3 to connect the steel pipe 3 on the chain 421, thereby promote the convenience of steel pipe 3 dismouting when reinforcing the fixed stability of steel pipe 3, further reduce the work load that emulation green plant 1 laid.

In addition, in order to reduce abrasion between the anchor ear 91 and the steel pipe 3 due to rigid connection, a rubber gasket 16 is filled between the anchor ear 91 and the steel pipe 3, and the rubber gasket 16 can reduce friction between the anchor ear 91 and the steel pipe 3, thereby protecting the anchor ear 91 and the steel pipe 3 at the same time and prolonging the service lives of the anchor ear 91 and the steel pipe 3.

Referring to fig. 2 and 4, the suspension assembly 8 includes a channel steel latch 81, a channel steel buckle 82 and an eye bolt 83, the channel steel latch 81 is disposed in a cavity of the C-shaped channel steel 412 and is mounted on two legs of the C-shaped channel steel 412, the channel steel latch 81 is connected with a suspension bolt 10 in a threaded manner, the suspension bolt 10 extends downwards to form the C-shaped channel steel 412, the channel steel buckle 82 is sleeved on the channel steel latch, the suspension bolt 10 is connected with a self-locking nut 11 in a threaded manner, the self-locking nut 11 abuts against the channel steel buckle 82 on the C-shaped channel steel 412, the eye bolt 83 is connected with the suspension bolt 10 in a threaded manner and is located on one side, far from the channel steel buckle 82, of the self-locking nut 11, and the other shackle 422 is fixed with the eye bolt 83 to fix the chain 421 on the C-shaped channel steel 412.

Therefore, the channel lock 81 is attached to both legs of the C-channel 412, and then can be clamped together with the channel lock 82 to the C-channel 412 by tightening the self-locking nut 11. Therefore, the chain 421 is not easy to fall off or shift after being connected to the eye bolt 83, thereby further increasing the safety of the artificial green plant 1 suspension.

In the embodiment of the present application, in order to improve the stability of the suspension of the artificial green plant 1, the suspension devices 4 are arranged in plurality.

The implementation principle of the simulated green plant suspension mounting structure in the embodiment of the application is as follows: the C-shaped channel steel 412 is fixed below the steel beam 2 in advance through the fixing mechanism 41, one end of the chain 421 is fixed on the C-shaped channel steel 412 through the suspension component 8, and the other end of the chain is connected with the steel pipe 3 through the tightening component 9 so as to suspend the steel pipe 3 below the steel beam 2; the simulated green plants 1 and the connecting cloth 52 are sewed on the connecting net 51 in advance; both steps are preformed. Therefore, when the simulation green plants 1 are laid, the simulation green plants 1 can be suspended and laid only by penetrating the binding belts 53 through the grommets 14 on the connecting cloth 52 and winding the binding belts on the steel pipes 3 on site, so that the workload of laying the simulation green plants 1 is reduced, and time and labor are saved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The utility model provides a green suspension of planting of emulation joins in marriage structure, includes that is used for decorating green planting (1) of emulation and constitutes building structure's girder steel (2), its characterized in that: the artificial green plant (1) is connected to the steel pipe (3) through a connecting component (5); the steel pipe (3) is suspended on the steel beam (2) through a suspension device (4).

2. The simulated green plant suspension mounting structure of claim 1, wherein: the suspension device (4) comprises a fixing mechanism (41) and a suspension mechanism (42), wherein the fixing mechanism (41) comprises I-steel (411), C-shaped channel steel (412), U-shaped bolts (413) and beam clamps (414), square pipes (6) are arranged on the steel beams (2), and the I-steel (411) is fixed at one ends, far away from the steel beams (2), of the square pipes (6); c type channel-section steel (412) wear to locate in the centre gripping space of U type bolt (413), the open end of U type bolt (413) runs through beam clamp (414), the open end threaded connection of U type bolt (413) has fixation nut (7), fixation nut (7) will beam clamp (414) support tightly in I-steel (411) and on C type channel-section steel (412), suspension mechanism (42) will steel pipe (3) hang in on C type channel-section steel (412).

3. The simulated green plant suspension mounting structure of claim 2, wherein: the suspension mechanism (42) comprises a chain (421) and a pair of shackles (422), wherein the shackles (422) are arranged at two ends of the chain (421) in a one-to-one correspondence mode, one shackles (422) are suspended on the C-shaped channel steel (412) through a suspension component (8), the other shackles (422) are provided with a tightening component (9), and the steel pipe (3) is connected to the chain (421) through the tightening component (9).

4. A simulated green plant suspension mounting structure as claimed in claim 3, wherein: the suspension assembly (8) comprises a channel steel lock catch (81), a channel steel lock catch (82) and an eye bolt (83), wherein the channel steel lock catch (81) is arranged in a cavity of the C-shaped channel steel (412) and is abutted against a folded edge of the C-shaped channel steel (412), the channel steel lock catch (81) is connected with a suspension bolt (10) in a threaded manner, the channel steel lock catch (82) is sleeved on the suspension bolt (10), the suspension bolt (10) is connected with a self-locking nut (11) in a threaded manner, and the self-locking nut (11) abuts against the channel steel lock catch (82) on the C-shaped channel steel (412); the lifting bolt (83) is in threaded connection with the suspension bolt (10), the lifting bolt (83) is located on one side, away from the channel steel buckle plate (82), of the self-locking nut (11), and one of the shackle (422) is connected with the lifting bolt (83).

5. A simulated green plant suspension mounting structure as claimed in claim 3, wherein: the tightening assembly (9) comprises a pair of hoops (91), ear plates (12) are arranged at two ends of the hoops (91), tightening bolts (13) are arranged on the two corresponding ear plates (12) of the hoops (91) in a penetrating manner, and the hoops (91) are tightened on the steel pipe (3) by the aid of the tightening bolts (13); the other shackle (422) is connected to a corresponding pair of ear plates (12).

6. The simulated green plant suspension mounting structure of claim 1, wherein: the connecting assembly (5) comprises a connecting net (51) and a plurality of binding belts (53), the simulation green plants (1) are arranged on the connecting net (51), connecting cloth (52) is arranged between the simulation green plants (1) and the connecting net (51), a plurality of through holes are formed in the connecting cloth (52), grommet (14) are arranged in the through holes, and the binding belts (53) penetrate through the grommet (14) and are wound on the steel pipe (3).

7. The simulated green plant suspension mounting structure of claim 2, wherein: be equipped with on C type channel-section steel (412) and consolidate subassembly (15), consolidate subassembly (15) including strengthening buckle (151) and reinforcing bolt (152), consolidate buckle (151) through reinforcing bolt (152) be fixed in on C type channel-section steel (412), consolidate buckle (151) support tightly in beam clamp (414) are kept away from one side of I-steel (411).

8. The simulated green plant suspension mounting structure of claim 5, wherein: a rubber pad (16) is arranged between the pair of anchor clamps (91) and the steel pipe (3), and the pair of anchor clamps (91) tightly supports the rubber pad (16) on the outer wall of the steel pipe (3).

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