JP3244908U - Fixed structure of phase ring - Google Patents

Abstract

An object of the present invention is to provide a fixing structure for a companion wheel that improves attachment stability of the companion wheel. [Solution] A support pillar 300 is drilled in the center of the support pillar, the base of the support pillar is fixedly connected to the rooftop, the support pillar is erected on the roof via the support pillar, and the fixing structure of the support pillar includes: A number of first reinforcing assemblies 1 and clips 5 are included, the first reinforcing assembly including a first supporting member 11, a second supporting member 12 and a connecting member 13, one side of the first supporting member is Several first support members are provided at a preset degree of arc so as to be attached in the circumferential direction of the support column, some of the first support members are provided so as to fit each other and surround the outer periphery of the support column, and the second support members are provided so as to fit together and surround the support column. A connecting member is provided on the side of the first supporting member that is far from the support column, and is provided on one end of the second supporting member near the rooftop, the connecting member is connected to the rooftop via the fastening member, and the clip is attached to the first supporting member. A number of first reinforcing assemblies can be fastened to the outer periphery of the support column. [Selection diagram] Figure 4

Description

TECHNICAL FIELD The present application relates to the field of mounting technology for a companion wheel, and particularly relates to a fixing structure for a companion wheel.

The ring is located at the top of the tower, and is an important part of the tower that defines the top of the tower as a cone.

Due to the high installation position of the companion wheels, it is necessary to pay attention to installation stability issues during installation. Currently, when installing the related technology, by attaching support columns for the related technology, connection with the roof, which serves as the foundation below, is realized. However, the support columns require decorations to be hung and capitals to be attached at a certain height, which places higher demands on the stability of the support columns.

At present, the lower end of the support column is connected to the roof by screws, and the reliability of the connection needs to be improved, and the stability of the support column is insufficient, so adding decorations to the support column and hanging them is necessary. , there is a risk that the stability will be insufficient, which will affect the safe use of the ring.

The inventors believe that the above-mentioned related technology has the drawback of insufficient stability after installing the companion wheel.

The present application provides a fixing structure for a companion wheel to improve attachment stability of the companion wheel.

The following technical proposal is adopted for the phase wheel fixing structure provided in this application.

A fixed structure for a phase wheel provided on a rooftop, wherein a support column is bored in the center of the phase wheel, a column base of the support column is fixedly connected to the rooftop, and the phase wheel is fixed through the support column. The fixed structure of the companion wheel includes several first reinforcing assemblies and clips, and the first reinforcing assembly includes a first supporting member, a second supporting member, and a connecting member. one side of the first support member is provided at a predetermined degree of arc so that it can be attached to the outer periphery of the support column, and the first support members of some of the first reinforcement assemblies are attached to each other. The second support member may be provided on a side of the first support member that is far from the support pillar, and the second support member may be provided on a side of the first support member that is far from the support pillar, and the second support member may be provided on the roof of the second support member. A connecting member is provided at one proximal end, the connecting member is connected to the rooftop via a fastening member, and the clip is provided on the outside of the first supporting member to connect several of the first reinforcing assemblies. It can be tightened around the outer periphery of the support column.

By using the above-mentioned technical solution, the connection of the companion wheel with the rooftop is realized by the support column with a central hole, and the support column plays the role of support and fixation. Since the first support member is used for bonding to the outer periphery of the support column, concentration of stress can be reduced. The connection between the second support member, the first support member, and the rooftop can improve the mounting stability of the support column. The connection area can be increased by the connection member, the connection between the second support member and the rooftop can be easily realized, and the reliability of the connection can be improved. After the installation of the first reinforcing assembly is completed, the clips realize the association and fixation between the different first reinforcing assemblies, and the different first reinforcing assemblies can realize a synergistic effect. By providing a first reinforcing assembly and a clip at one end of the support column near the column base, the installation stability and reliability of the support column can be improved, thereby improving the stability of the companion wheel and improving the safety of the companion wheel. Helps improve performance.

Optionally, the fixed structure of the companion wheel further includes a number of second reinforcing assemblies provided in a circumferential direction of the support column, the second reinforcing assemblies including a horizontal member and an inclined member. , one end of the horizontal member is connected to the support column, the other end of the horizontal member is connected to one end of the inclined member, and the other end of the inclined member is connected to the rooftop.

By using the above technical solution, the supporting force exerted on the support column by the second reinforcing assembly has a different mode of action than the first reinforcing assembly, thereby making it possible to make the companion wheel more stable.

Optionally, a tile may be provided on the top cover of the rooftop, and a connecting end of the horizontal member and the inclined member may abut a side of the tile closer to the rooftop to support the tile.

By using the above technical solution, the horizontal member forms a certain angle with the connecting end of the inclined member, plays the role of supporting the support column, and the connecting end touches the bottom side of the tile, so that the tile It also plays a supporting role.

Optionally, the fixed structure of the companion wheel further includes a third reinforcing assembly coupled at one end to the support column and at the other end to the rooftop, and the highest point of the third reinforcing assembly is connected to the roof. higher than the highest point of the second reinforcement assembly.

By using the above technical solution, the third reinforcing assembly can achieve fixation and support at different heights to the support column, which helps optimize the support effect and improves the stability of the support column.

Optionally, a number of third reinforcing assemblies are provided, a number of the third reinforcing assemblies are provided in a circumferential direction of the support column, and the second reinforcing assembly and the third reinforcing assembly are different from each other. , are provided offset along the circumferential direction of the support column.

By using the above technical solution, the connection points on the roof can be distributed staggered, which optimizes the support effect on the support columns, also reduces stress concentration and improves the reliability of support.

Selectably, the phase wheel includes a phase wheel main body fitted into the support column, and the phase wheel fixing structure further includes a number of phase wheels provided in the circumferential direction of the support column and capable of supporting the phase wheel main body. The fourth reinforcing assembly includes a plurality of step members provided in a stacked manner, and the fourth reinforcing assembly includes a plurality of step members provided in a stacked manner, between adjacent step members, between the step members and the rooftop, and The step member and the third reinforcing assembly may be welded together.

By using the above technical solution, the step members are stacked and provided, it is easy to provide multi-point support to the main wheel, and moreover, effective support for the main wheel is realized. In order to increase the complexity of the structure after stacking multiple step members and improve stability, the contact points during insertion are welded to improve the integrity of the step member and the third reinforcing assembly; They work together to improve the stability of the phase wheel.

Optionally, the fourth reinforcement assembly further includes an internal support member coupled to the step member and provided at an angle, the internal support member having an inclination angle that is equal to the inclination angle of the ramp member. The same or different.

By using the above technical solution, the strength of the step member can be improved by the internal support member, and the supporting effect for the main wheel body can be guaranteed.

Optionally, the second reinforcement assembly is manufactured from steel tubing;
the third reinforcing assembly is made of stainless steel angle iron;
The fourth reinforcement assembly is a stainless steel skeleton.

By using the above technical solution, the supporting strength can be guaranteed and the overall weight can be rationally optimized.

Optionally, a concrete column is encased around the first reinforcing assembly.

By using the above technical solution, the mounting stability of the support column at the column base can be further guaranteed.

Optionally, the pedestal is provided with a connecting plate connected to the roof via a first pre-embedded screw;
The fixed structure of the phase wheel is fixedly connected to the roof through a number of second pre-embedded screws.

By using the above technical solution, the connecting plate can increase the connecting area between the support column and the roof, and the first pre-embedded screw makes it easy to realize the connection, reducing the difficulty of installation. , the attachment reliability is improved, and the second pre-embedded screw allows the fixing structure of the companion wheel to be stably and reliably attached to the rooftop.

To summarize the above, the present application includes at least one of the following beneficial technical effects.

1. The ring is connected to the rooftop by a support pillar bored in the center, and the support pillar plays the role of support and fixation. Since the first support member is used for bonding to the outer periphery of the support column, concentration of stress can be reduced. The connection between the second support member, the first support member, and the rooftop can improve the mounting stability of the support column. The connection area can be increased by the connection member, the connection between the second support member and the rooftop can be easily realized, and the reliability of the connection can be improved. After the installation of the first reinforcing assembly is completed, the clips realize the association and fixation between the different first reinforcing assemblies, and the different first reinforcing assemblies can realize a synergistic effect. By providing a first reinforcing assembly and a clip at one end of the support column near the column base, the installation stability and reliability of the support column can be improved, thereby improving the stability of the companion wheel and improving the safety of the companion wheel. Helps improve performance.

2. By making the supporting force applied to the support column by the second reinforcement assembly different from that of the first reinforcement assembly, the companion wheel is made more stable.

3. The second reinforcement assembly and the third reinforcement assembly realize fixation and support at different heights to the support column, which helps optimize the support effect and improves the stability of the support column.

FIG. 2 is a schematic diagram of a companion ring fixed to a rooftop according to an embodiment of the present application. It is a schematic structure diagram of the fixing structure of the phase ring of the Example of this application. FIG. 3 is a schematic structural diagram of a third reinforcing assembly and a fourth reinforcing assembly according to an embodiment of the present application; FIG. 4 is an enlarged view of the concrete pillar at location A in FIG. 3 after being concealed.

The present application will be described in more detail below with reference to FIGS. 1 to 4.

In the embodiments of the present application, a structure for fixing a phase wheel is disclosed. Referring to FIGS. 1 to 4, the ring is installed on the rooftop 100, a support pillar 300 is bored in the center of the ring, the base of the support pillar 300 is fixedly connected to the roof 100, and the ring is installed on the roof 100. It is erected on the rooftop 100 via support columns 300. The fixing structure of the companion wheel includes several first reinforcing assemblies 1 and clips 5. The first reinforcing assembly 1 includes a first support member 11 , a second support member 12 and a connection member 13 . One side of the first support member 11 is provided at a preset arc so that it can be attached to the outer periphery of the support column 300. The first support members 11 of several first reinforcement assemblies 1 may be installed to fit each other and surround the outer periphery of the support column 300, and the second support members 12 may be installed to support the first support members 11. A connecting member 13 is provided on the side far from the pillar 300 and is provided at one end of the second support member 12 near the rooftop 100, and the connecting member 13 is connected to the rooftop 100 via a fastening member. A clip 5 is provided on the outside of the first support member 11 to allow several first reinforcing assemblies 1 to be fastened to the outer periphery of the support column 300.

The process of fixing and attaching the phase wheel in this embodiment mainly includes fixing the column base for attaching the support column 300, attaching the first reinforcing assembly 1 etc. for reinforcing the support column 300, and fixing the column head 500 of the support column 300. and the installation of the decoration 400 provided on the outside of the support column 300, and the installation procedure in the installation process can be determined and adjusted according to actual needs and experience, ensuring stable and reliable installation of the companion wheel. It would be good if we could achieve this.

The support column 300 may be formed by welding multi-stage steel columns. Furthermore, a steel plate may be provided between the steel columns of different stages, and the steel columns of different stages can be connected by welding to the steel plates. Providing the steel plate reduces the difficulty of welding and improves the reliability of the connection.

Optionally, the column base is provided with a connecting plate 310 that is connected to the roof 100 via a first pre-embedded screw 6.

The connection plate 310 is fixedly connected to the end of the column base of the support column 300, and can increase the connection area between the support column 300 and the rooftop 100, and can easily realize the connection by the first pre-embedded screw 6. Reduces installation difficulty and improves installation reliability. Preferably, the connecting plate 310 is a steel plate.

Rooftop 100 in this example may refer to the top of a building or structure to which a companion ring can be attached. The companion wheel is mainly connected to the roof 100 by a support pillar 300 bored in the center, and the support pillar 300 plays a supporting and fixing role and is located at the center axis of the companion wheel. Two, three or four first reinforcing assemblies 1 may be provided. The first support members 11 are used to attach to the outer periphery of the support column 300, so when the support column 300 is a cylinder, some of the first support members 11 are completely It can enclose a circle. In other embodiments, there may be a distance between adjacent first support members 11 as long as the outer periphery of the support column 300 can be covered. The side of the first support member 11 far from the support column 300 may be an arcuate surface so as to reduce the volume, lighten the gravity, and reduce the pressure on the rooftop 100. It may be flat to increase the thickness and improve reinforcement strength.

The second support member 12 may have a frame structure or a plate-like structure. When the second support member 12 has a frame structure, a diagonally provided support rod may be included, and one end of the support rod is connected to the outside of the first support member 11 and the other end is connected to the outside of the first support member 11 through the connection member 13. When connected to the rooftop 100 and provided diagonally, a triangular area is formed between the first support member 11, the support rod, and the rooftop 100, reducing weight and improving stability due to the triangular structure. do. When the second support member 12 has a plate-like structure, it is provided in a right triangle shape so that the right angle is closer to the column base position of the support column 300 so that the second support member 12 can play a stable support role. You can. The connection member 13 may have a plate-like structure and is provided at the bottom of the second support member 12, thereby facilitating the connection between the second support member 12 and the rooftop 100 and improving the reliability of the connection. The connection area can be increased to improve the Specifically, the fastening member may be a second pre-implanted screw.

After the installation of the first reinforcing assemblies 1 is completed, the clips 5 realize the association and fixing between the different first reinforcing assemblies 1, and the synergistic effect of the different first reinforcing assemblies 1 can be realized. Preferably, one clip 5 may be provided along the circumferential direction of the support column 300 to be fitted to the outside of the plurality of first reinforcing assemblies 1. The clips 5 may be provided on the first support members 11, and the two adjacent first support members 11 are connected by cooperation of the clips 5 on the two adjacent first support members 11. By providing the first reinforcing assembly 1 and the clip 5 at one end of the support column 300 close to the column base, the installation stability and reliability of the support column 300 can be improved, thereby improving the stability of the companion wheel. , which helps improve the safety performance of the wheel.

With continued reference to FIGS. 1-4, a concrete column 7 is optionally sheathed around the outer periphery of the first reinforcing assembly 1. As shown in FIGS.

After both the first reinforcing assembly 1 and the clip 5 are installed in place, a certain height of concrete can be poured at the bottom end of the support column 300, further ensuring the reliability of the fixing. Specifically, the length, width, and height after concrete is placed can be set as necessary.

Optionally, the companion wheel fixation structure further includes a number of second reinforcing assemblies 2 provided circumferentially of the support column 300. The second reinforcement assembly 2 includes a horizontal member 21 and an inclined member 22, one end of the horizontal member 21 is connected to the support column 300, the other end of the horizontal member 21 is connected to one end of the inclined member 22, and the other end of the horizontal member 21 is connected to one end of the inclined member 22. The other end is connected to the rooftop 100.

The connection position between the horizontal member 21 and the support column 300 may be provided above the concrete column 7, or may be attached to the top surface of the concrete column 7, or may be attached at a distance from the top surface of the concrete column 7. may be provided. In order to provide effective support to the support column 300 and to avoid stress concentration on the rooftop 100, the horizontal distance from one end of the inclined member 22 connected to the rooftop 100 to the central axis of the support column 300 is is greater than the horizontal distance from the first reinforcement assembly 1 and/or the concrete column 7 to the central axis of the support column 300. The mode of action of the supporting force applied to the support column 300 can be made different according to the following method. 21 is connected at the end to the support column 300 and makes point contact with the support column 300, which helps the phase wheel to withstand forces from multiple directions and make it more stable. Specifically, an attachment part can be provided on the rooftop 100, and the attachment part has a structure that protrudes from the upper surface of the rooftop 100. A support column 300, a first reinforcing assembly 1 and a concrete column 7 are provided at the attachment point and connect one end of the slope member 22 to the surface of the rooftop 100. Preferably, the ramp member 22 is connected to the rooftop 100 via a second pre-installed screw. Further, by providing a structure such as a fixed bolt on the outer periphery of the lower end of the support column 300 and then placing the concrete column 7, the fixing effect of the support column 300 can be optimized.

Optionally, tiles 110 are provided on the roof of the rooftop 100. In other embodiments, the connecting ends of the horizontal member 21 and the inclined member 22 can abut the side of the tile 110 closer to the rooftop 100 so as to support the tile 110 (not shown).

The tiles 110 on the rooftop 100 may have one end connected to the rooftop 100 and the other end provided outside the ring, so that a portion of the support column 300 close to one end of the rooftop 100 is positioned below the tile 110. let The connecting ends of the horizontal member 21 and the inclined member 22 form a certain angle and play a role of supporting the support column 300, and also play the role of supporting the tiles 110 by contacting the lower side of the tiles 110. You can also accomplish this.

The second reinforcing assembly 2 is manufactured from steel tubes to ensure support reliability and to reduce the overall weight.

Continuing to refer to FIGS. 1-4, optionally, the companion wheel fixation structure further includes a third reinforcing assembly 3 coupled at one end to the support column 300 and at the other end to the rooftop 100; The highest point of the third reinforcement assembly 3 is higher than the highest point of the second reinforcement assembly 2.

The third reinforcement assembly 3 may be a number of obliquely provided bar-like structures, one end of which is connected to the support column 300 of the bar-like structure is higher than the second reinforcement assembly 2, and is placed on the roof 100 of the bar-like structure. The distance between the one end connected to the roof 100 of the inclined member 22 of the second reinforcement assembly 2 and the central axis of the support column 300 is smaller than the distance between the one end connected to the roof 100 and the central axis of the support column 300. , thereby achieving fixation and support to the support column 300 at different heights. Since the first reinforcing assembly 1, the second reinforcing assembly 2, the third reinforcing assembly 3, etc. have different connection positions with the rooftop 100 and different distances to the central axis of the supporting column 300, forces are applied to the supporting column 300 from different directions. can be added, which helps optimize the support effect and improve the stability of the support column 300. It can be understood that the width and height of the first reinforcement assembly 1, the concrete column 7, the second reinforcement assembly 2, and the third reinforcement assembly 3 can be set as necessary, as long as they can ensure stable supporting action. right.

Optionally, several third reinforcing assemblies 3 are provided, some third reinforcing assemblies 3 are provided in the circumferential direction of the support column 300, and the second reinforcing assemblies 2 and the third reinforcing assemblies 3 are provided in the support column 300. They are provided offset along the circumferential direction of the pillar 300.

The number of second reinforcement assemblies 2 and third reinforcement assemblies 3 can be set as required, and in this embodiment, since a structure having eight corners is used for both the roof 100 and the companion wheel, the second reinforcement Eight assemblies 2 and eight third reinforcing assemblies 3 are provided. Here, one of the second reinforcing assembly 2 and the third reinforcing assembly 3 corresponds one-to-one to the eight corner structures, and the other is provided shifted along the circumferential direction, so that This allows for misalignment distribution of the connection points, optimizing the support effect on the support column 300, reducing stress concentration, and improving support reliability.

The third reinforcing assembly 3 is manufactured from stainless steel angle iron so as to ensure sufficient support strength.

Continuing to refer to FIGS. 1-4, the companion wheel optionally includes a companion wheel main body 200 that is fitted into a support column 300. The fixed structure of the phase wheel further includes a number of fourth reinforcing assemblies 4 provided in the circumferential direction of the support column 300 so as to support the phase wheel main body 200. The fourth reinforcing assembly 4 is provided with a plurality of step members 41 that are stacked and provided, and there are gaps between adjacent step members 41, between the step members 41 and the rooftop 100, and between the step members 41 and the third reinforcing assembly 3. Both are connected by welding.

The number of fourth reinforcing assemblies 4 can be determined according to the structure of the main wheel. In this embodiment, the main wheel main body 200 is provided with eight corners corresponding to the shape of the rooftop 100, and has eight corners. Eight fourth reinforcement assemblies 4 are provided to support the main wheel main body 200. The step members 41 are stacked and provided to easily provide multi-point support to the phase wheel main body 200, and also to provide effective support to the phase wheel main body 200 having an irregular external structure. Since the height of the phase ring main body 200 is high, the overall height of the fourth reinforcing assembly 4 is also increased, and the complexity of the structure after stacking the plurality of step members 41 is improved, so that it is difficult to insert the step members 41 into each other. There is also an insertion provision for the step member 41 and the third reinforcing assembly 3. In order to improve stability, by welding the contact points during insertion, the overall integrity of the step member 41 and the third reinforcing assembly 3 is improved, and they work together to improve the stability of the companion wheel. Further, the roof 100 is made of concrete, and the connection between the step member 41 and the roof 100 is achieved by welding the step member 41 and a steel plate embedded in the concrete of the roof 100 in advance.

Optionally, the fourth reinforcement assembly 4 further includes an internal support member 42 coupled to the step member 41 and provided at an angle, the slope angle of the internal support member 42 being equal to the slope angle of the slope member 22. is the same as or different from.

The internal support member 42 is used to improve the strength of the step member 41 and also ensures a supporting effect for the main wheel body 200. Specifically, the step member 41 includes a horizontal portion 411 and a vertical portion 412, and the internal support member 42 may be provided on the side of the step member 41 closer to the support column 300. One end is connected to the horizontal part 411, the other end of the internal support member 42 is connected to the vertical part 412, and the internal support member 42 may be connected to the outside of the step member 41, and together with the step member 41, the inside of the phase wheel main body 200 It would be good if it could play a supporting role. The inclination direction and inclination angle of the internal support member 42 may coincide with the inclination member 22 or may be adjusted according to the actual situation. Furthermore, the inclination direction and inclination angle of the third reinforcement assembly 3 may coincide with the internal support member 42 and/or the inclination member 22, and may be set as required.

The fourth reinforcement assembly 4 is a stainless steel framework, which may be manufactured using steel tubes, providing an effective support effect and also reducing weight.

The fixed structure of the companion wheel is fixedly connected to the roof 100 via a number of second pre-embedded screws (not shown). Specifically, the structures that need to be connected to the rooftop 100, such as the connecting member 13, the inclined member 22, the third reinforcing assembly 3, and the vertical part 412, are all fixed via second pre-embedded screws. Ru. It should be understood that the size of the second pre-implanted screw used in different positions can be selected as needed to ensure secure fixation.

It should be understood that in the fixed structure of the phase ring, parameters such as the size and angle of each part can be selected as necessary.

The implementation principle of the phase wheel fixing structure according to the embodiment of the present application is as follows. The main wheel main body 200 is supported and fixed to the rooftop 100 via a support column 300, and a connecting plate 310 is provided on the lower end surface of the supporting column 300, and the connecting plate 310 is further connected via a first screw 6 embedded in advance. The first reinforcing assembly 1 can be fixed to the rooftop 100 , and the first reinforcing assembly 1 is provided around the outer periphery of the lower end of the supporting column 300 , and the supporting column 300 can be fixed to the rooftop 100 , and the first reinforcing assembly 1 A clip 5 is provided on the outer periphery of the support column 300 to strengthen the fixing effect, and a concrete column 7 is cast outside the first reinforcing assembly 1, so that the lower end of the support column 300 is securely and stably connected through multiple fixings. The supporting column 300 is also provided with a second reinforcing assembly 2 and a third reinforcing assembly 3, which can support different heights of the supporting column 300, respectively, and the second reinforcing assembly 2 and the third reinforcing assembly 3 are Due to the different fixing positions on the rooftop 100, the support effect can be optimized, the direction of force action can be different and it can be better adapted to situations requiring different supports. The fourth reinforcing assembly 4 may serve to strengthen the fixation, and may also serve to effectively support the phase wheel main body 200. The fixing structure of the companion wheel ensures the stability of the attachment of the support column 300 through multiple support and fixing, and furthermore, the companion wheel can be reliably attached to the rooftop 100, improving the installation stability of the companion wheel, and the support column After installing decorations 400, capitals 500, etc. on the upper end of 300, stability can be maintained.

The above are all preferred embodiments of the present application, and do not limit the protection scope of the present application, so any equivalent changes made according to the structure, shape, and principle of the present application are included within the protection scope of the present application. It will be done.

100... Rooftop, 110... Tile, 200... Soil main body, 300... Support column, 310... Connecting plate, 400... Decoration, 500... Pillar head,
DESCRIPTION OF SYMBOLS 1...First reinforcement assembly, 11...First support member, 12...Second support member, 13...Connection member,
2... Second reinforcement assembly, 21... Horizontal member, 22... Inclined member,
3...Third reinforcement assembly,
4... Fourth reinforcement assembly, 41... Step member, 411... Horizontal part, 412... Vertical part, 42... Internal support member,
5...Clip,
6...first pre-embedded screw;
7...Concrete pillar.

Claims (10)

A fixing structure for a companion wheel provided on a rooftop (100), wherein a support column (300) is bored in the center of the companion wheel, and a column base of the support column (300) is fixed to the rooftop (100). connected, the companion wheel is erected on the rooftop (100) via the support column (300), and the fixed structure of the companion wheel includes a number of first reinforcing assemblies (1) and clips (5). The first reinforcing assembly (1) includes a first support member (11), a second support member (12) and a connecting member (13), and one side of the first support member (11). are provided at a predetermined degree of arc so that they can be attached to the outer periphery of the support column (300), and the first support members (11) of some of the first reinforcement assemblies (1) are attached to each other. The second support member (12) may be installed to fit and surround the outer periphery of the support column (300), and the second support member (12) may be installed on a side of the first support member (11) far from the support column (300). The connecting member (13) is provided at one end of the second support member (12) near the rooftop (100), and the connecting member (13) is connected to the rooftop (100) via a fastening member. connected, the clip (5) can be provided on the outside of the first support member (11) to tighten several of the first reinforcing assemblies (1) to the outer periphery of the support column (300). , a fixed structure of a phase ring. The fixing structure of the phase wheel further includes a number of second reinforcing assemblies (2) provided in the circumferential direction of the supporting column (300), and the second reinforcing assembly (2) includes horizontal members ( 21) and an inclined member (22), one end of the horizontal member (21) is connected to the support column (300), and the other end of the horizontal member (21) is connected to one end of the inclined member (22). The structure for fixing a phase wheel according to claim 1, wherein the other end of the inclined member (22) is connected to the roof (100). A tile (110) is provided on the top cover of the rooftop (100), and the connecting end of the horizontal member (21) and the inclined member (22) is located on the side of the tile (110) closer to the rooftop (100). The fixing structure of a companion wheel according to claim 2, characterized in that the structure is capable of supporting the tile (110) in abutment. The fixed structure of the phase wheel further includes a third reinforcing assembly (3) connected at one end to the support column (300) and at the other end to the rooftop (100), and the third reinforcing assembly The fixing structure of a companion wheel according to claim 2, characterized in that the highest point of (3) is higher than the highest point of the second reinforcing assembly (2). A number of the third reinforcing assemblies (3) are provided, some of the third reinforcing assemblies (3) are provided in the circumferential direction of the supporting column (300), and some of the third reinforcing assemblies (3) are provided in the circumferential direction of the supporting column (300), and some of the third reinforcing assemblies (3) are provided in the circumferential direction of the supporting column (300). The phase wheel fixing structure according to claim 4, wherein the third reinforcing assembly (3) and the third reinforcing assembly (3) are provided offset along the circumferential direction of the support column (300). The phase wheel includes a phase wheel main body (200) fitted into the support column (300), and the phase wheel fixing structure further includes a phase wheel main body (200) provided in the circumferential direction of the support column (300). A number of fourth reinforcing assemblies (4) capable of supporting the main body (200) are included, and the fourth reinforcing assemblies (4) include a plurality of step members (41) provided in a stacked manner, and the fourth reinforcing assemblies (4) include a plurality of step members (41) provided in a stacked manner. The members (41), the step member (41) and the roof (100), and the step member (41) and the third reinforcing assembly (3) are all welded together. The phase wheel fixing structure according to claim 4, characterized in that: . The fourth reinforcing assembly (4) further includes an internal support member (42) connected to the step member (41) and provided obliquely, the internal support member (42) having an inclination angle. The phase wheel fixing structure according to claim 6, wherein the inclination angle of the inclination member (22) is the same as or different from the inclination angle. said second reinforcing assembly (2) is manufactured from a steel tube;
the third reinforcing assembly (3) is made of stainless steel angle iron;
The companion wheel fixing structure according to claim 6, wherein the fourth reinforcing assembly (4) is a stainless steel frame. The structure for fixing a phase wheel according to claim 1, characterized in that the outer periphery of the first reinforcing assembly (1) is covered with a concrete column (7). The column base is provided with a connecting plate (310) connected to the roof (100) via a first pre-embedded screw (6);
The phase wheel fixing structure according to claim 1, characterized in that the phase wheel fixing structure is fixedly connected to the roof (100) through a number of second pre-embedded screws.

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