CN111972208A - Wind-resistant arbor supporting device and mounting method - Google Patents

Abstract

The invention discloses a wind-resistant arbor supporting device, which comprises a supporting rod and a binding band, wherein the supporting rod and the binding band are arranged around an arbor rod, and the wind-resistant arbor supporting device also comprises a pre-buried steel bar, a tensioned steel wire rope, a force transmission cushion block, a lock head clamp and a binding band lock catch; pre-embedding pre-embedded steel bars in a cushion layer or a base layer around the arbor; the force transmission cushion block is arranged on the inner side of the pre-buried layer, a groove is formed in the upper portion of the force transmission cushion block, a force transmission hole is formed in one side of the groove, and the opening of the force transmission hole faces the stressed steel wire rope; the lower end of the support rod is arranged in the groove of the force transmission cushion block, the upper end of the support rod is connected with one end of a tapered end clamp, the other end of the tapered end clamp is in contact with the arbor rod, a binding belt fixing hole is formed in the support rod, the binding belt is wound on the arbor rod through the binding belt fixing hole, and the two ends of the binding belt are fixed through binding belt lock catches; one end of the tensile steel wire rope is wound on the embedded steel bar, and the other end of the tensile steel wire rope is connected to the lower end of the corresponding supporting rod after passing through the force transmission hole. The invention also discloses an installation method of the wind-resistant arbor supporting device. The invention enhances the wind resistance of the arbor.

Description

Wind-resistant arbor supporting device and mounting method

Technical Field

The invention belongs to the technical field of landscaping, and particularly relates to a wind-resistant arbor supporting device and an installation method, which are used for supporting an arbor when the arbor is planted.

Background

Along with the continuous development of human civilization, the requirements of human beings on the living environment are also continuously improved, and the urban construction development is accompanied with the urban greening process; when the existing residents select the resident cities and cells, the environments of the cities and the cells, particularly the greening environment, are considered; the urban greening can not leave trees, urban roads need trees, residential greening needs trees, the trees are decorated in cities, and living circles of the cities can not be left more and more.

However, current gardens arbor supports fixing device is mostly through setting up the bracing piece around the arbor, and the bracing piece bottom sprag is subaerial, and the bracing piece top is direct to tie up on the arbor with bandage or rope, and it is difficult and troublesome like this not only to operate, and the bandage position is difficult fixed, and is abominable in weather moreover, and it is insecure to appear supporting very easily when wind-force is very strong, leads to the arbor to resist wind energy poor, and the arbor is emptyd easily to arouse the incident.

Disclosure of Invention

The invention provides a wind-resistant arbor supporting device and a mounting method, and aims to overcome the defects of the conventional arbor supporting device from the safety consideration after arbor migration, realize the wind-resistant effect of arbor support and have stronger safety after arbor migration.

The invention adopts the following technical scheme:

a wind-resistant arbor supporting device comprises a supporting rod and a binding band which are arranged around an arbor rod, and also comprises a pre-buried steel bar, a tensioned steel wire rope, a force transmission cushion block, a lock head clamp and a binding band lock catch; pre-embedding pre-embedded steel bars in a cushion layer or a base layer around the arbor; the force transmission cushion block is arranged on the inner side of the pre-buried layer, a groove is formed in the upper portion of the force transmission cushion block, a force transmission hole is formed in one side of the groove, and the opening of the force transmission hole faces the stressed steel wire rope; the lower end of the support rod is arranged in the groove of the force transmission cushion block, the upper end of the support rod is connected with one end of a tapered end clamp, the other end of the tapered end clamp is in contact with the arbor rod, a binding belt fixing hole is formed in the support rod, the binding belt is wound on the arbor rod through the binding belt fixing hole, and the two ends of the binding belt are fixed through binding belt lock catches; one end of the tensile steel wire rope is wound on the embedded steel bar, and the other end of the tensile steel wire rope is connected to the lower end of the corresponding supporting rod after passing through the force transmission hole.

Compared with the prior art, the mounting tool has the advantages that:

when the cushion layer and the base layer are constructed, reinforcing steel bars and a tensile steel wire rope are pre-embedded in advance, the supporting rod is placed in the groove of the force transmission cushion block, and the tensile steel wire rope penetrates through a force transmission hole in the force transmission cushion block and is connected with the supporting rod; under the effect of wind load, the arbor pole transmits the wind load to bandage and bracing piece, and the bracing piece transmits in proper order again for drawn wire rope and embedded steel bar, has improved arbor anti-wind ability.

Preferably, the further technical scheme of the invention is as follows:

the support rod is a hollow round tube, a connecting hole is formed in the lower end of the hollow round tube, the tensile steel wire rope is connected with the lower end of the support rod through the connecting hole, and the tail end of the tensile steel wire rope, extending out of the connecting hole, is locked through the U-shaped buckle.

Furthermore, two side arms of the opening end of the U-shaped buckle are provided with threads, the opening end penetrates through the gasket to clamp the tensioned steel wire rope between the closed end of the U-shaped buckle and the gasket, and the threads of the two side arms of the opening end of the U-shaped buckle are connected with nuts.

The upper end of the supporting rod and the joint of the lock head card are respectively provided with an opening, and the supporting rod and the lock head card are connected through a pin arranged in the opening.

The contact surface of lock head card and arbor pole is the curved surface, sets up the rubber pad between curved surface and the arbor pole.

The bandage hasp is equipped with the trompil including setting up two lock teeth that set up relatively, the corresponding position of lock tooth, and two lock teeth pass through the bolt and nut connection that sets up in the trompil.

A method for installing the wind-resistant arbor supporting device is implemented by the following steps:

s1, when constructing a cushion layer or a base layer around the arbor planting, pre-embedding embedded steel bars in the cushion layer or the base layer, winding one end of a tensile steel wire rope on the pre-embedded steel bars, and reserving the other end of the tensile steel wire rope outside;

s2, placing the force transmission cushion block on the inner side of the cushion layer or the base layer, enabling one end, reserved outside, of the tensioned steel wire rope to penetrate through the force transmission hole in the force transmission cushion block, placing the lower end of the supporting rod in the groove of the force transmission cushion block, and connecting and fixing the tensioned steel wire rope to the lower end of the supporting rod to form a lower end stress system of the supporting rod;

and S3, connecting the upper end of the supporting rod with a locking clip, winding the binding band on the arbor rod through the locking clip, and locking the two ends of the binding band by using the locking buckle of the binding band to form a stress system at the upper end of the supporting rod.

The installation method of the invention has the advantages that:

combine together garden construction bed course or basic unit and arbor planting, strengthened the wind resistance performance of arbor through the anti-wind measure, guarantee the safety after the arbor migration is planted, avoid appearing the arbor and empty the incident that appears.

Preferably, the further technical scheme of the invention is as follows:

in the step S1, pre-buried reinforcing bars are pre-buried at four corners of the planted arbor, and 2-4 reinforcing bars are pre-buried at each corner.

In step S2, the tensioned steel wire rope passes through the force transmission hole and then passes through the connection hole on the support rod, and the tail end of the tensioned steel wire rope is connected and fixed on the support rod through the U-shaped buckle.

In step S3, the upper end of the support bar is connected with the tapered end card through a pin, a rubber pad is arranged between the card and the contact surface of the arbor rod, and the two ends of the binding band are connected with a bolt through locking teeth forming the locking buckle of the binding band.

Drawings

FIG. 1 is a schematic view of the construction of a wind-resistant arbor support apparatus;

FIG. 2 is an enlarged schematic view at A in FIG. 1;

FIG. 3 is an enlarged schematic view at B of FIG. 1;

FIG. 4 is a front view of a lock cylinder card configuration;

FIG. 5 is a top view of the locking clip attached to the strap;

FIG. 6 is a schematic view of the strap with the strap clasp attached thereto;

FIG. 7 is a schematic view of the strap buckle;

FIG. 8 is a schematic structural view of the U-shaped buckle;

description of reference numerals:

1. a cushion or base layer; 2. embedding reinforcing steel bars in advance; 3. a tensioned wire rope; 4. a force transfer cushion block; 5. a force transfer aperture; 6. connecting holes; 7. a U-shaped buckle; 8. a support bar; 9. locking the head card; 10. a pin; 11. a rubber pad; 12. a binding band fixing hole; 13. binding bands; 14. binding belt locking; 15. locking teeth; 16. a bolt; 17. a tree pole; 18. a paving layer; 19. a gasket; 20. and a nut.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments. It is to be understood that the following description is only for purposes of clearly illustrating the present invention and is not to be taken in a limiting sense.

Referring to fig. 1 to 8, a wind-resistant arbor supporting device is composed of pre-buried steel bars 2, tension steel wire ropes 3, force transmission cushion blocks 4, supporting rods 8, lock head clamps 9, binding bands 13 and the like.

When constructing a cushion layer or a base layer 1 of an arbor planting area, pre-embedded steel bars 2 are pre-embedded in the cushion layer or the base layer 1 and positioned at four corners of the arbor mounting area; one end of a tensile steel wire rope 3 is wound on the embedded steel bar 3, and the length of the embedded steel bar 2 is 300 mm-400 mm; three tensile steel wire ropes 3 are arranged at the interval of 200mm in each step. After the cushion layer or the base layer is constructed, a paving layer 18 is laid above the cushion layer or the base layer, and one end of the tensile steel wire rope 3 wound on the embedded steel bars 2 is embedded in the cushion layer or the base layer 1 together with the embedded steel bars 2; the other end of the tensioned steel wire rope 3 is left outside, and the length of the tensioned steel wire rope is 500-800 mm.

The force transmission cushion block 4 is prefabricated by C30 concrete, and a cuboid groove is reserved in the center of the upper part of the force transmission cushion block 4 and used for placing the support rod 8. One side of the groove of the force transmission cushion block 4 is obliquely downwards provided with a force transmission hole 5 by 30 degrees. When the arbor is planted, the force transmission cushion block is placed at the position, close to the tensioned steel wire rope 3, of the inner side of the cushion layer or the base layer 1, and the opening of the force transmission hole faces the tensioned steel wire rope 3, so that the tensioned steel wire rope can conveniently penetrate through the force transmission hole 5.

The support rod 8 is made of a galvanized steel pipe of 48 x 2mm, and the length is determined according to the height of the arbor 17. The lower end of the supporting rod 8 is arranged in a groove on the force transmission cushion block 4 and is abutted against the force transmission hole 5. The reserved end of the stressed steel wire rope 3 penetrates through the force transmission hole and then enters the supporting rod 8, penetrates out of the connecting hole 6 formed in the lower end of the supporting rod 8, the penetrating end is locked on the supporting rod 8 through the U-shaped buckle 7, and the number of the U-shaped buckles 7 is adjusted according to the wind load tension of the stressed steel wire rope 3. Threads are arranged on two side arms of the open end of the U-shaped buckle 7, the tension steel wire rope 3 is clamped between the closed end of the U-shaped buckle 7 and the gasket 19 after the gasket 19 penetrates through the open end, and nuts 20 are connected and locked on the threads of the two side arms of the open end of the U-shaped buckle 7.

The junction of the upper end of the support rod 8 and the lock head clamp 9 is respectively provided with a hole, and a pin 10 is arranged in the hole for connection. Lock head card 9 adopts the processing of 5mm thick steel sheet, and one end and the contact of arbor pole 17, the contact surface processing become with the curved surface that the arbor surface accords with, places rubber pad 11 between curved surface and arbor pole 17 during the support, prevents that lock head card 9 from damaging arbor pole surface. The one end of the lock head card 9 that contacts with arbor pole 17 is equipped with bandage fixed orifices 12, and bandage 13 adopts the nylon bandage, passes and takes the fixed orifices 12 after the winding on arbor pole 17, can twine many circles with the reinforcing connection. The end of the strap 13 is locked by a strap lock 14 composed of a pair of oppositely disposed lock teeth 15 and a bolt 16, thereby connecting the head clip 9 with the arbor shaft 17. The locking teeth 15 are formed by processing a 5mm steel plate, saw teeth of 1-2mm are formed at two ends of the steel plate and bent, holes are formed in the opposite positions of the middle parts of the pair of locking teeth 15, and bolts 16 penetrate through the holes to connect the two locking teeth 15 and are fastened by nuts.

A method for installing the wind-resistant arbor supporting device is implemented by the following steps:

s1, pre-burying the pre-buried steel bars 2 with the length of 300 mm-400 mm in the cushion layer or the base layer 1 when the cushion layer or the base layer 1 around the arbor planting is constructed; in order to ensure the stable planting of the arbor, four corners of the arbor are respectively pre-buried, the number of pre-buried steel bars at each corner is 3, and the distance between the pre-buried steel bars at each corner is 200 mm; meanwhile, one end of the tensile steel wire rope 3 is wound on the embedded steel bar 2, and the other end is reserved outside, and the length is 500-800 mm.

S2, placing the force transfer cushion block 4 at a proper position on the inner side of the cushion layer or the base layer 1, enabling one end, reserved outside, of the tensioned steel wire rope 3 to penetrate through a force transfer hole 5 reserved in the force transfer cushion block 4, placing the lower end of a support rod 8 in a groove of the force transfer cushion block 4, enabling the lower end of the support rod to be abutted against the force transfer hole 5, enabling the tensioned steel wire rope 3 to penetrate through the force transfer hole 5 and then enter the support rod 8, penetrating out of a connecting hole 6 in the support rod 8, and locking the tensioned steel wire rope 3 through a U-shaped buckle 7.

S3, the upper end of the supporting rod 8 is connected with the locking head clamp 9 through the pin 10, a rubber pad 11 is added between the curved surface of the locking head clamp 9 and the surface of the arbor rod 17, the binding band 13 penetrates through the binding band fixing hole 12 on the locking head clamp 9 and then is wound on the arbor rod 17, the two ends of the binding band 13 are overlapped, the locking teeth 15 of the binding band lock catch 14 bite the overlapping part of the binding band, the binding band 13 is locked through the bolt 16, and a stress system at the upper end of the supporting rod is formed.

According to the method, a garden cushion layer and a base layer are combined with arbor planting, under the action of wind load, an arbor rod transmits load to a bandage and a supporting rod, and the supporting rod is sequentially transmitted to a tensioned steel wire rope and an embedded twisted steel; the force transmission cushion block and the supporting rod can be used in a turnover way, so that economy is saved; meanwhile, the wind resistance measure is considered, the safety of the trees after the trees are migrated and planted is guaranteed, and safety accidents caused by toppling of the trees are avoided.

The technical principle of the present invention is described above in connection with specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. The utility model provides a wind-resistant arbor strutting arrangement, is including setting up bracing piece and the bandage around the arbor pole, its characterized in that: the tension steel wire rope is connected with the tension steel wire rope through a tension rope; pre-buried reinforcing steel bars are pre-buried in a cushion layer or a base layer around the arbor rod; the force transmission cushion block is arranged on the inner side of the pre-buried layer, a groove is formed in the upper portion of the force transmission cushion block, a force transmission hole is formed in one side of the groove, and the opening of the force transmission hole faces the stressed steel wire rope; the lower end of the support rod is arranged in the groove of the force transmission cushion block, the upper end of the support rod is connected with one end of a tapered end clamp, the other end of the tapered end clamp is in contact with the arbor rod, a binding belt fixing hole is formed in the support rod, the binding belt is wound on the arbor rod through the binding belt fixing hole, and the two ends of the binding belt are fixed through binding belt lock catches; one end of the tensile steel wire rope is wound on the embedded steel bar, and the other end of the tensile steel wire rope is connected to the lower end of the corresponding supporting rod after passing through the force transmission hole.

2. The wind-resistant arbor support device of claim 1, wherein: the support rod is a hollow round tube, a connecting hole is formed in the lower end of the hollow round tube, the tensile steel wire rope is connected with the lower end of the support rod through the connecting hole, and the tail end of the tensile steel wire rope, extending out of the connecting hole, is locked through the U-shaped buckle.

3. The wind-resistant arbor support device of claim 2, wherein: the two side arms of the opening end of the U-shaped buckle are provided with threads, the opening end penetrates through the gasket to clamp the tensioned steel wire rope between the closed end of the U-shaped buckle and the gasket, and the threads of the two side arms of the opening end of the U-shaped buckle are connected with nuts.

4. The wind-resistant arbor support device of claim 1, wherein: the upper end of the supporting rod and the joint of the lock head card are respectively provided with an opening, and the supporting rod and the lock head card are connected through a pin arranged in the opening.

5. The wind-resistant arbor support device of claim 1, wherein: the contact surface of lock head card and arbor pole is the curved surface, sets up the rubber pad between curved surface and the arbor pole.

6. The wind-resistant arbor support device of claim 1, wherein: the bandage hasp is equipped with the trompil including setting up two lock teeth that set up relatively, the corresponding position of lock tooth, and two lock teeth pass through the bolt and nut connection that sets up in the trompil.

7. A method of installing a wind-resistant tree support apparatus according to any one of claims 1 to 6, carried out by:

s1, when constructing a cushion layer or a base layer around the arbor planting, pre-embedding embedded steel bars in the cushion layer or the base layer, winding one end of a tensile steel wire rope on the pre-embedded steel bars, and reserving the other end of the tensile steel wire rope outside;

s2, placing the force transmission cushion block on the inner side of the cushion layer or the base layer, enabling one end, reserved outside, of the tensioned steel wire rope to penetrate through the force transmission hole in the force transmission cushion block, placing the lower end of the supporting rod in the groove of the force transmission cushion block, and connecting and fixing the tensioned steel wire rope to the lower end of the supporting rod to form a lower end stress system of the supporting rod;

s3, connecting the upper end of the support rod with a binding band through a lock head card, winding the binding band on the arbor rod, locking the two ends of the binding band with a locking buckle of the binding band, and forming a stress system at the upper end of the support rod.

8. The installation method of a wind-resistant arbor supporting device according to claim 7, wherein: in the step S1, pre-buried reinforcing bars are pre-buried at four corners of the planted arbor, and 2-4 reinforcing bars are pre-buried at each corner.

9. The installation method of a wind-resistant arbor supporting device according to claim 7, wherein: in step S2, the tensioned steel wire rope passes through the force transmission hole and then passes through the connection hole on the support rod, and the tail end of the tensioned steel wire rope is connected and fixed on the support rod through the U-shaped buckle.

10. The installation method of a wind-resistant arbor supporting device according to claim 7, wherein: in step S1, in step S3, the upper end of the support rod is connected to the locking clip via a pin, a rubber pad is disposed between the locking clip and the contact surface of the arbor rod, and the two ends of the binding band are connected to each other via locking teeth and bolts constituting the fastener of the binding band.

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