CN214947992U - Novel installation staple bolt - Google Patents

Abstract

The utility model provides a novel installation staple bolt, including at least one clamp hoop spare, a clamp hoop spare includes 4L shape connecting pieces at least, and L shape connecting piece is the right angle, and 4L shape connecting piece end to end clamp hoop spare, clamp hoop spare have two, and two clamp hoop spare are fixed respectively on the co-altitude of square king-post, and L in the clamp hoop spare appears the corner laminating of connecting piece and square king-post, all is equipped with the support arm on two upper and lower clamp hoop spares. The installation hoop adopts a standardized L-shaped connecting piece and is suitable for square and rectangular columns with various sizes; the installation hoop adopts a component type connection mode, so that the installation is simple and rapid, and the construction time is greatly reduced; the locking piece adopts advanced surface processing, so that the locking piece is rust-proof and has high hardness; the clamp piece can be provided with a plurality of sets of support arms or connected with a plurality of back plates, so that the clamp piece is high in usability and can meet the installation requirements of equipment of various types; the communication equipment on the installation hoop can adjust the position and the angle so as to obtain a better signal receiving surface.

Description

Novel installation staple bolt

Technical Field

The utility model belongs to the technical field of the communication technique and specifically relates to a novel installation staple bolt is related to.

Background

At present, multiple networks of a communication network coexist, multiple network devices need to be installed in the same site, and the existing network antenna feeder installation platform is seriously insufficient. The newly-built station site is slowly developed under the influence of factors such as cost, property and the like, the combined antenna feeder investment is huge, the replaced antenna can be beneficial to the old scene, and the low-cost and high-efficiency modification of the stock station becomes the primary problem of the current-stage base station construction.

With the evolution of the communication network to 5G, the iron tower is also changed from a traditional tower type to a typical square tower column and other sharing schemes from meeting the single network requirements of users in the early stage to meeting the diversified urban requirements of safety, economy, beauty and the like in the present stage.

In order to solve the problem of difficult installation of heterogeneous square tower columns, a square tower column installation hoop is designed according to environmental research, and the existing installation and network deployment can be rapidly solved.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel installation staple bolt to solve the problem that proposes among the above-mentioned background art.

In order to realize the purpose, the utility model discloses a technical scheme that adopts is a novel installation staple bolt, including at least one clamp spare, a clamp spare includes 4L shape connecting pieces at least, and L shape connecting piece is the right angle, 4L shape connecting pieces end to end a clamp spare.

Furthermore, the two hoop members are respectively fixed on different heights of the square tower column, the L-shaped connecting member in the hoop members is attached to the corner of the square tower column, the upper hoop member and the lower hoop member are respectively provided with a support arm, the support arms fix two ends of the holding rod or the threading pipe through fixing members, the holding rod or the threading pipe is stably fixed on the square tower column, and the threading pipe can be a PE pipe.

Furthermore, lines are arranged on one side of the L-shaped connecting piece, which is in contact with the square tower column.

Further, the fixing piece is a U-shaped hoop which is made of flexible materials and is bent into a U shape when being installed; or the fixing piece is made of rigid materials, the fixing piece is U-shaped, threads are arranged at two ends of the fixing piece, the support arm is provided with a fourth connecting hole, and two ends of the fixing piece penetrate through the fourth connecting hole to be connected with a nut, so that the holding rod or the threading pipe is fixed on the support arm.

Furthermore, an installation station is arranged on the L-shaped connecting piece, and the installation station can be used for installing the support arm; the L-shaped connecting piece is of a double-layer structure and comprises a first mounting layer, a second mounting layer and a first connecting layer for connecting the first mounting layer and the second mounting layer, the first mounting layer and the second mounting layer are identical in shape, and the plane of the first connecting layer is perpendicular to the plane of the first mounting layer and the plane of the second mounting layer; be equipped with two connecting plates on the L shape connecting piece, be equipped with a first connecting hole on every connecting plate at least, first connecting hole on two adjacent L shape connecting pieces is connected through the retaining member.

Furthermore, the L-shaped connecting piece comprises a first sheet metal part and a second sheet metal part, and the L-shaped connecting piece is formed by welding the first sheet metal part and the second sheet metal part;

the first sheet metal part and the second sheet metal part are of double-layer structures, the first sheet metal part comprises a first plate body, the upper end and the lower end of the first plate body are bent ninety degrees in the same direction to form a first installation layer and a second installation layer, the left end of the first plate body is bent ninety degrees towards one side of the first installation layer and one side of the second installation layer to form a connecting plate, and the connecting plate is embedded between the first installation layer and the second installation layer; the second sheet metal part comprises a second plate body, the upper end and the lower end of the second plate body are bent ninety degrees in the same direction to form a third installation layer and a fourth installation layer, the right end of the second plate body is also bent ninety degrees towards one side of the third installation layer and one side of the fourth installation layer to form a connecting plate, and the connecting plate is embedded between the third installation layer and the fourth installation layer; a left empty area is reserved at the left end of the second plate body and used for butt joint of the first sheet metal part and welding, after the first sheet metal part and the second sheet metal part are welded, the first plate body and the second plate body form a first connecting layer in contact with the square tower column, the first installation layer and the third installation layer form a first installation layer, and the second installation layer and the fourth installation layer form a second installation layer.

Furthermore, the support arm is of a double-layer structure and comprises a third installation layer, a fourth installation layer and a second connection layer for connecting the third installation layer and the fourth installation layer, wherein the third installation layer and the fourth installation layer are the same in shape, and the plane where the second connection layer is located is perpendicular to the plane where the third installation layer and the fourth installation layer are located.

Furthermore, the hoop part also comprises a straight connecting piece, the straight connecting piece is positioned between two adjacent L-shaped connecting pieces, two ends of the straight connecting piece are provided with a connecting plate and a first connecting hole, the straight connecting piece can be connected with the L-shaped connecting pieces on two sides through a locking piece respectively, the straight connecting piece is provided with an installation station, and the installation station is used for installing the support arm;

the first-shaped connecting piece is of a double-layer structure and comprises a fifth installation layer, a sixth installation layer and a third connection layer, wherein the third connection layer is used for connecting the fifth installation layer with the sixth installation layer, the fifth installation layer is identical to the sixth installation layer in shape, the plane where the third connection layer is located is perpendicular to the plane where the fifth installation layer and the sixth installation layer are located, the left end and the right end of the third connection layer are both provided with a connection plate, and the connection plate is embedded between the fifth installation layer and the sixth installation layer.

Furthermore, the upper side and the lower side of the connecting plate are both provided with folding lugs, the fifth mounting layer and the sixth mounting layer are both provided with jacks, and the folding lugs are inserted into the jacks.

Further, the locking piece is a steel cable tie or a bolt and a nut;

the installation staple bolt still includes support piece, and the through-hole that runs through from top to bottom is equipped with in the support piece, and support piece locates between first installation layer, the second installation layer, perhaps between third installation layer, the fourth installation layer, perhaps between fifth installation layer, the sixth installation layer.

The utility model has the advantages that:

the installation hoop adopts a standardized L-shaped connecting piece and is suitable for square and rectangular columns with various sizes; the installation hoop adopts a component type connection mode, so that the installation is simple and rapid, and the construction time is greatly reduced; the parts are molded by adopting high-strength steel materials, are not easy to deform under the gravity, are not easy to rust when the surface is anticorrosive, and avoid the maintenance workload; the weight is lightened on the premise of ensuring high strength of the component, so that an installer can conveniently carry the component and can conveniently work high above the ground; the locking piece adopts advanced surface processing, so that the locking piece is rust-proof and has high hardness; the clamp piece can be provided with a plurality of sets of support arms or connected with a plurality of back plates, so that the clamp piece is high in usability and can meet the installation requirements of equipment of various types; the communication equipment on the installation hoop can adjust the position and the angle so as to obtain a better signal receiving surface.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the overall structure of a single mounting hoop;

FIG. 3 is a schematic view of the connection of 4L-shaped connectors to form a clamp member;

FIG. 4 is a schematic view of the connection of 4I-shaped connectors to 4L-shaped connectors to form a clamp;

FIG. 5 is a schematic view of the overall construction of the clip member;

FIG. 6 is a schematic structural view of an L-shaped connector with a thread on the inside;

FIG. 7 is a schematic structural view of an L-shaped connecting member formed by a first sheet metal part and a second sheet metal part;

fig. 8 is a schematic view of a straight connector with a tab and a socket.

Detailed Description

Embodiments of the invention will be described in further detail with reference to the drawings, it being understood that the examples are illustrative only and should not be taken as limiting the invention, and that all of the features disclosed in the examples or all of the steps in any method or process disclosed herein can be combined in any way, except for mutually exclusive features and/or steps.

A novel installation hoop comprises a hoop part 10 and a support arm 20, wherein the hoop part 10 is connected with the support arm 20, the hoop part 10 is used for connecting a square tower column, the support arm 20 is used for connecting a holding pole 50, and communication equipment can be installed on the holding pole 50; the support arm 20 can also be used for connecting a threading pipe, the installation position of the threading pipe is generally below the communication equipment, the threading pipe can be a PE pipe, and a feeder line and a cable of the communication equipment can safely pass through and safely reach the ground by installing the threading pipe on the square tower column 30, and meanwhile, the equipment routing on the square tower column 30 is also attractive.

In order to fix the clamp member 10 on the square tower 30, the clamp member 10 includes at least 4L-shaped connectors 11, the 4L-shaped connecting pieces 11 are used for being connected to four corners of a square tower column 30, the L-shaped connecting pieces 11 are right-angled and matched with the four corners of the square tower column 30 to realize that the L-shaped connecting pieces 11 are attached to the square tower column 30, two connecting plates 12 are arranged on the L-shaped connecting pieces 11, first connecting holes 13 are arranged on the connecting plates 12, the first connecting holes 13 on different L-shaped connecting pieces 11 can be connected through locking pieces to realize that the 4L-shaped connecting pieces 11 are assembled into a square hoop part 10, when the locking member is connected with the first connection hole 13 between two adjacent L-shaped connecting members 11, the force provided by the locking member to the L-shaped connecting members 11 is always perpendicular to the length direction of the square tower 30, and the force along the length direction of the square tower 30 is not resolved. Thus, the clamping force between the hoop member 10 and the square tower column 30 can be maintained to the maximum, so that the maximum friction force when the hoop member 10 slides on the square tower column 30 is increased, and the hoop member is not easy to slide after being connected to the square tower column 30. Furthermore, the utility model provides a square clamp 10 can not only be applicable to the king-post of square, still is applicable to rectangular king-post, and its suitability is strong.

Preferably, in some embodiments, the locking member is a steel tie, which can be quickly fixed by passing the steel tie through the first connecting holes 13 of two adjacent L-shaped connecting members 11, but this method has the disadvantage that it has the problem of difficult tightening. In this embodiment, the locking member is preferably a bolt and a nut, the bolt and the nut are tightened by a mode which is much stronger relative to the steel binding belt, and the locking member at least comprises a bolt and a nut, and in some occasions, a flat gasket and a spring gasket. In addition, according to the difference of using the scene, the retaining member can also choose for use some other connected modes commonly used, to the selection of connected mode the utility model discloses do not do clear and definite restriction.

Preferably, the contacting side of the L-shaped connecting member 11 and the square tower 30 is provided with a texture 14, the texture 14 may be a protrusion or a depression, and may be regular or irregular, and the texture 14 can increase the maximum friction between the L-shaped connecting member 11 and the square tower 30, thereby improving the bearing capacity of the clamp member 10.

Preferably, a plurality of first connecting holes 13 (a plurality means two or more) are formed in one connecting plate 12, and correspondingly, two adjacent L-shaped connecting members 11 are connected by a plurality of locking members, so that even if one locking member between the adjacent L-shaped connecting members 11 is loosened, the hoop member 10 can still be firmly fixed on the square tower column 30 because other locking members are still in a locking state, and the risk that the hoop member 10 and the communication equipment thereon fall from the high altitude due to the loosening of the locking members is reduced.

Preferably, the L-shaped connector 11 is a double-layer structure, and includes a first mounting layer 15, a second mounting layer 16, and a first connecting layer 17 connecting the first mounting layer 15 and the second mounting layer 16, the first mounting layer 15 and the second mounting layer 16 have the same shape, the plane of the first connecting layer 17 is perpendicular to the plane of the first mounting layer 15 and the plane of the second mounting layer 16, the first connecting layer 17 is a contact area between the L-shaped connector 11 and the square tower 30, and the double-layer structure can maintain a sufficient contact area between the L-shaped connector 11 and the square tower 30, so that the L-shaped connector 11 can be stable after being mounted. If the L-shaped connecting member 11 is of a single-layer structure, the L-shaped connecting member 11 needs to have a sufficient thickness in order to ensure stability after installation. Compared with the L-shaped connecting piece 11 with a double-layer structure, the L-shaped connecting piece 11 with a single-layer structure requires more materials during manufacturing, has high manufacturing cost, heavy parts and inconvenient carrying, and in an actual installation test, the effect of the L-shaped connecting piece 11 with the single-layer structure after being installed on the square tower column 30 is basically the same as that of the L-shaped connecting piece 11 with the double-layer structure, so the L-shaped connecting piece 11 preferably has the double-layer structure. In some other embodiments, the L-shaped connector 11 is a multi-layered structure, such as three or more layers. The L-shaped connecting piece 11 with the three-layer structure can achieve the effect similar to that of the L-shaped connecting piece 11 with the two-layer structure when being installed. However, in the factory processing process, the L-shaped connecting piece 11 with the double-layer structure can be formed (sheet metal part) through sheet metal stamping and bending, the processing is easy, and the processing cost is low; however, in general, the three-layer structure cannot be directly processed by a sheet metal process, and a casting mold mode is selected, so that the processing is complicated, and the processing cost is high. Therefore, the L-shaped connecting member 11 of the double-layer structure is preferable in the case of not much difference in performance, which can save cost.

Preferably, referring to fig. 7, the L-shaped connecting member 11 is formed by welding the first sheet metal part 80 and the second sheet metal part 81, because the right-angled L-shaped connecting member 11 cannot be directly formed by a sheet metal process. The first sheet metal part 80 and the second sheet metal part 81 are of a double-layer structure, the first sheet metal part 80 comprises a first plate body 17, the upper end and the lower end of the first plate body 17 are bent ninety degrees in the same direction to form a first installation layer 18 and a second installation layer 19, and the left end of the first plate body 17 is bent ninety degrees in one side of the first installation layer 18 and the second installation layer 19 to form a connecting plate 12. Further, the connection plate 12 is embedded between the first mounting layer 18 and the second mounting layer 19. Similarly, the second sheet metal part 81 includes a second plate body 90, the upper and lower ends of the second plate body 90 are bent ninety degrees in the same direction to form a third mounting layer 91 and a fourth mounting layer 92, the right end of the second plate body 90 is also bent ninety degrees in the direction of one side of the third mounting layer 91 and the fourth mounting layer 92 to form a connecting plate 12, and the connecting plate 12 is embedded between the third mounting layer 91 and the fourth mounting layer 92. Further, a left empty region 93 is reserved at the left end of the second plate body 90, the left empty region 93 is used for butt joint of the first sheet metal part 80, after the welding of the first sheet metal part 80 and the second sheet metal part 81 is completed, the first plate body 17 and the second plate body 90 form a first connecting layer 17 in contact with the square tower column 30, the first installation layer 18 and the third installation layer 91 form a first installation layer 15, the second installation layer 19 and the fourth installation layer 92 form a second installation layer 16, and the L-shaped connecting piece 11 formed in the mode is low in manufacturing cost and completely meets the requirement in strength.

Preferably, the first installation layer 15 and the second installation layer 16 of the L-shaped connecting member 11 are provided with installation stations for installing the arm 20, in this embodiment, the installation stations on the L-shaped connecting member 11 are second connection holes 94, the second connection holes 94 can be used for connecting the arm 20, at least two second connection holes 94 are provided on the first installation layer 15 and the second installation layer 16, and the second connection holes 94 are used in pairs, because the single second connection hole 94 cannot limit the rotation of the arm 20 when connecting the arm 20. Further, since the L-shaped connecting member 11 has a double-layer structure, in order to ensure the stability of the mounting arm 20 after mounting, the mounting arm 20 also has a double-layer structure, and the double-layer structure of the mounting arm 20 and the double-layer structure of the L-shaped connecting member 11 are clamped together. Specifically, referring to fig. 2, the mounting arm 20 includes a third mounting layer 21, a fourth mounting layer 22, and a second connecting layer 23 connecting the third mounting layer 21 and the fourth mounting layer 22, where the third mounting layer 21 and the fourth mounting layer 22 have the same shape, and a plane of the second connecting layer 23 is perpendicular to a plane of the third mounting layer 21 and the fourth mounting layer 22. The third installation layer 21 and the fourth installation layer 22 of the support arm 20 are provided with at least two third connection holes, the positions of the third connection holes correspond to the second connection holes 94, and the support arm 20 can be installed by installing nuts in the second connection holes 94 and the third connection holes.

When the arm 20 is mounted, the first mounting layer 15 and the second mounting layer 16 may be bent by the force of the bolts. Preferably, a supporting part 24 is arranged between the first installation layer 15 and the second installation layer 16, a through hole penetrating up and down is formed in the supporting part 24, when the support arm is installed, a bolt penetrates through the through hole in the supporting part 24 and the second connecting hole 94 in the L-shaped connecting part 11, so that the supporting part 24 can support the first installation layer 15 and the second installation layer 16, and oblique angles are formed at the upper end and the lower end of the supporting part 24, so that the supporting part 24 can be conveniently installed between the first installation layer 15 and the second installation layer 16.

Preferably, the second connecting layer 23 is provided with a fourth connecting hole 25, a fixing member 40 can be installed in the fourth connecting hole 25, and the holding rod 50 can be fixed on the support arm 20 by the fixing member 40. Specifically, at least two or more than three fourth connecting holes 25 are formed in one support arm 20, and the fixing member 40 may be made of a flexible material and bent into a U shape during installation; the securing member 40 may also be a U-shaped clip made of a rigid material and shaped in a U-shape. Further, the two ends of the fixing member 40 are provided with threads, the two ends of the fixing member 40 penetrate through the fourth connecting hole 25 to connect with a nut, the holding pole can be fixed by tightening the nut, and the holding pole 50 is fixed on the support arm 20. Wherein, the two ends of the fixing member 40 respectively pass through two different fourth connecting holes 25 through the fourth connecting holes 25, and the two fourth connecting holes 25 may be adjacent or non-adjacent. In some other embodiments, the fourth connection hole 25 may be formed by two ends of the fixing member 40 passing through the same fourth connection hole 25, and the fourth connection hole 25 is elongated. The shape of the fourth connection hole 25 may be a kidney shape, a circle shape, a rectangle shape, an oval shape, etc.

Preferably, at least two hoop members 10 are disposed on the square tower column 30, the two hoop members 10 are respectively fixed at different heights of the square tower column 30, support arms 20 are disposed on both the two hoop members 10, and the support arms 20 fix both ends of the holding pole 50 through fixing members 40, so as to realize stable fixation of the holding pole 50 on the square tower column 30. In addition, in real life, the holding pole 50 may be installed in an inclined manner for better operation of the communication device. The inclined installation can be adjusted by adjusting the fixing member 40 to different fourth connecting holes 25; alternatively, the support arms 20 of the upper and lower clamp members 10 are designed to have different lengths, and the angle adjustment is performed by changing the distance between the upper and lower ends of the holding pole 50 and the square tower 30.

Preferably, the band member 10 further includes a linear connecting member 60, the linear connecting member 60 can be used for mounting the band member 10 on a thicker square tower 30, the linear connecting member 60 is located between two adjacent L-shaped connecting members 11, and two ends of the linear connecting member 60 are provided with the connecting plates 12 and the first connecting holes 13, and can be connected with the L-shaped connecting members 11 on two sides through a locking member 70, respectively, the band member 10 including the linear connecting member 60 is mounted without using a locking member with a long length, but instead using two locking members 70 with short lengths, and using two locking members 70 with short lengths helps to improve the mounting stability of the band member 10 on the square tower 30.

Preferably, the in-line connector 60 is also provided with a mounting station for mounting the arm 20, and in this embodiment, referring to fig. 4, the mounting station on the in-line connector 60 is a fifth connecting hole 95, and the fifth connecting hole 95 and the second connecting hole 94 have the same function and can be used for connecting the arm 20. Specifically, the first-shaped connecting member 60 has a double-layer structure, and the first-shaped connecting member 60 includes a fifth mounting layer 61, a sixth mounting layer 62, and a third connecting layer 63 connecting the fifth mounting layer 61 and the sixth mounting layer 62, where the fifth mounting layer 61 and the sixth mounting layer 62 have the same shape, and a plane of the third connecting layer 63 is perpendicular to a plane of the fifth mounting layer 61 and the sixth mounting layer 62. The fifth connecting holes 95 are formed in the fifth mounting layer 61 and the sixth mounting layer 62, and at least two of the fifth connecting holes 95 are formed and located corresponding to the third connecting holes of the arm 20. Further, a support is also provided between the fifth and sixth mounting layers 61, 62.

Preferably, when the linear connecting member 60 is used for connecting the support arm 20, the horizontal position of the linear connecting member 60 can be adjusted by adjusting the two locking members 70 on the two sides of the linear connecting member 60, so as to adjust the horizontal position of the support arm 20, and the horizontal position adjustment of the support arm 20 can drive the horizontal position adjustment of the holding pole 50 and the horizontal position adjustment of the communication equipment on the holding pole 50; the fixing part 40 on the support arm 20 of the push rod can realize the angle adjustment of the holding rod 50, the angle adjustment of the communication equipment can be indirectly realized, and the combination of the position adjustment and the angle adjustment can fully meet the adjustment requirement of the communication equipment so as to obtain a better signal receiving surface.

Preferably, referring to fig. 4, the in-line connector 60 may be formed by a sheet metal process, like the first sheet metal part 80 and the second sheet metal part 81, the in-line connector 60 is formed by bending the upper and lower ends of the third connecting layer 63 in the same direction by ninety degrees to form the fifth mounting layer 61 and the sixth mounting layer 62, and the left and right ends of the third connecting layer 63 are formed by bending the fifth mounting layer 61 and the sixth mounting layer 62 by ninety degrees to form the connecting plates 12 on both sides. Further, the connection plate 12 is embedded between the fifth mounting layer 61 and the sixth mounting layer 62.

Preferably, the connecting plate 12 is elastically deformed by the tightening force of the locking member 70 during the installation of the band member 10, and the elastic deformation is properly adapted to firmly fix the band member 10 to the square-shaped tower 30. In some embodiments, in order to avoid excessive deformation of the connecting plate 12, the connecting plate 12 is provided with a folded lug, the mounting layers on the upper and lower sides are provided with insertion holes, and the folded lug on the connecting plate 12 is inserted into the insertion hole of the mounting layer, for example, in fig. 8, the folded lug 96 is provided on the upper and lower sides of the connecting plate 12, the fifth mounting layer 61 and the sixth mounting layer 62 are provided with insertion holes 97, and the folded lug 96 is inserted into the insertion hole 97 in the sheet metal process of the in-line connector 60. This design is equally applicable to the L-shaped connecting element 11, which is similar in construction and will not be described in detail here.

Preferably, the L-shaped connecting piece 11, the linear connecting piece 60 and the support arm 20 can be made of high-strength steel materials, are not easy to deform and cannot rust. The utility model discloses a novel installation staple bolt adopts the equipment mode of part formula, need not the welding in the installation, and the installation is simple swift, and the product has better corrosion resisting ability, work load when reducing later maintenance. The bolt and the nut in the locker 70 are surface-treated to increase the hardness thereof and make it less prone to rust.

The above description is only the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through creative work should be covered within the protection scope of the present invention, and therefore, the protection scope of the present invention should be subject to the protection scope defined by the claims.

Claims (10)

1. The utility model provides a novel installation staple bolt, includes at least one staple bolt spare, its characterized in that, a staple bolt spare includes 4L shape connecting pieces at least, and L shape connecting piece is the right angle, 4L shape connecting pieces end to end one staple bolt spare.

2. A novel installation hoop as claimed in claim 1, wherein there are two hoop members, the two hoop members are fixed at different heights of the square tower column, the L-shaped connecting member in the hoop members is attached to the corner of the square tower column, the upper and lower hoop members are provided with support arms, the support arms fix the two ends of the holding rod or the threading pipe through fixing members, so as to realize the stable fixation of the holding rod or the threading pipe on the square tower column, and the threading pipe can be PE pipe.

3. The novel mounting hoop as claimed in claim 2, wherein the L-shaped connecting piece is provided with lines on the side contacting with the square tower column.

4. The novel installation hoop as claimed in claim 2, wherein the fixing member is a U-shaped hoop, and the U-shaped hoop is made of flexible material and is bent into a U shape during installation; or the fixing piece is made of rigid materials, the fixing piece is U-shaped, threads are arranged at two ends of the fixing piece, the support arm is provided with a fourth connecting hole, and two ends of the fixing piece penetrate through the fourth connecting hole to be connected with a nut, so that the holding rod or the threading pipe is fixed on the support arm.

5. The novel mounting hoop according to claim 1, wherein a mounting station is arranged on the L-shaped connecting piece, and the mounting station can be used for mounting the support arm; the L-shaped connecting piece is of a double-layer structure and comprises a first mounting layer, a second mounting layer and a first connecting layer for connecting the first mounting layer and the second mounting layer, the first mounting layer and the second mounting layer are identical in shape, and the plane of the first connecting layer is perpendicular to the plane of the first mounting layer and the plane of the second mounting layer; be equipped with two connecting plates on the L shape connecting piece, be equipped with a first connecting hole on every connecting plate at least, first connecting hole on two adjacent L shape connecting pieces is connected through the retaining member.

6. The novel mounting hoop according to claim 5, wherein the L-shaped connecting piece comprises a first sheet metal part and a second sheet metal part, and the L-shaped connecting piece is formed by welding the first sheet metal part and the second sheet metal part;

the first sheet metal part and the second sheet metal part are of double-layer structures, the first sheet metal part comprises a first plate body, the upper end and the lower end of the first plate body are bent ninety degrees in the same direction to form a first installation layer and a second installation layer, the left end of the first plate body is bent ninety degrees towards one side of the first installation layer and one side of the second installation layer to form a connecting plate, and the connecting plate is embedded between the first installation layer and the second installation layer; the second sheet metal part comprises a second plate body, the upper end and the lower end of the second plate body are bent ninety degrees in the same direction to form a third installation layer and a fourth installation layer, the right end of the second plate body is also bent ninety degrees towards one side of the third installation layer and one side of the fourth installation layer to form a connecting plate, and the connecting plate is embedded between the third installation layer and the fourth installation layer; a left empty area is reserved at the left end of the second plate body and used for butt joint of the first sheet metal part and welding, after the first sheet metal part and the second sheet metal part are welded, the first plate body and the second plate body form a first connecting layer in contact with the square tower column, the first installation layer and the third installation layer form a first installation layer, and the second installation layer and the fourth installation layer form a second installation layer.

7. The novel installation hoop according to claim 2, wherein the support arm has a double-layer structure, and comprises a third installation layer, a fourth installation layer and a second connection layer connecting the third installation layer and the fourth installation layer, wherein the third installation layer and the fourth installation layer have the same shape, and the plane of the second connection layer is perpendicular to the plane of the third installation layer and the fourth installation layer.

8. The novel installation hoop as claimed in claim 1, wherein the hoop member further comprises a straight connecting member, the straight connecting member is located between two adjacent L-shaped connecting members, two ends of the straight connecting member are provided with connecting plates and first connecting holes, the straight connecting member can be connected with the L-shaped connecting members on two sides through a locking member respectively, the straight connecting member is provided with an installation station, and the installation station is used for installing the support arm;

the first-shaped connecting piece is of a double-layer structure and comprises a fifth installation layer, a sixth installation layer and a third connection layer, wherein the third connection layer is used for connecting the fifth installation layer with the sixth installation layer, the fifth installation layer is identical to the sixth installation layer in shape, the plane where the third connection layer is located is perpendicular to the plane where the fifth installation layer and the sixth installation layer are located, the left end and the right end of the third connection layer are both provided with a connection plate, and the connection plate is embedded between the fifth installation layer and the sixth installation layer.

9. The novel mounting hoop as claimed in claim 8, wherein the connecting plate is provided with folding lugs at upper and lower sides thereof, and the fifth and sixth mounting layers are provided with insertion holes into which the folding lugs are inserted.

10. A novel mounting hoop as claimed in claim 5 or 8, wherein the locking member is a steel tie or a bolt and nut;

the installation staple bolt still includes support piece, and the through-hole that runs through from top to bottom is equipped with in the support piece, and support piece locates between first installation layer, the second installation layer, perhaps between third installation layer, the fourth installation layer, perhaps between fifth installation layer, the sixth installation layer.

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