CN218788108U - Heliostat girder - Google Patents

Abstract

The utility model discloses a heliostat girder, which comprises a girder body, wherein the girder body is provided with at least one support, and the support is provided with a connecting component used for being connected with the girder body; the connecting component is provided with at least one mounting plate along the circumferential direction of the main beam body, and at least one flat plate structure part is arranged on at least one mounting plate along the circumferential direction of the main beam body; the girder body is provided with mounting planes corresponding to the flat plate structure parts, and at least one of the flat plate structure parts is connected with the mounting planes. The utility model discloses a support passes through dull and stereotyped structure portion and mounting plane and girder body interconnect, because dull and stereotyped structure portion and mounting plane are plane, changes in the connection.

Description

Heliostat girder

Technical Field

The utility model belongs to the technical field of the heliostat, especially, relate to a heliostat girder.

Background

In the field of new energy, solar energy is increasingly used as a clean renewable energy source, and in the field of solar power generation, two solar power generation modes, namely photovoltaic power generation and thermal power generation, are adopted.

The tower type solar thermal power generation adopts a large number of directional reflectors (heliostats) to concentrate sunlight on a central heat exchanger (heat absorber) arranged on the top of the tower, and the fluid in the central heat exchanger is heated to drive a turbine to rotate so as to generate power. The heliostat frame is used as a reflector carrier, so that the heliostat not only has high strength in operation, but also has high surface precision, and the size of a reflected light spot can meet the requirement. The main beam of the heliostat is a key component of the frame of the heliostat, and the reliability and the surface type precision of the whole frame are determined by the structural strength and the precision of the main beam of the heliostat.

The main body of the existing heliostat main beam structure generally adopts a round pipe, then all connecting pieces are welded with the round pipe, and hot galvanizing and rust prevention are carried out after welding. However, the welding can cause the main beam to be deformed by heating, and the welding amount is too large, so that the material is burnt through, and the product quality is influenced. Hot galvanizing and rust prevention are needed after welding, and the hot galvanizing also causes the main beam to be deformed by heating.

SUMMERY OF THE UTILITY MODEL

In view of the problems in the background art, the utility model aims to provide a heliostat girder, which comprises a girder body, wherein the girder body is provided with at least one support, and the support is provided with a connecting component used for being connected with the girder body;

the connecting component is provided with at least one mounting plate along the circumferential direction of the main beam body, and at least one flat plate structure part is arranged on at least one mounting plate along the circumferential direction of the main beam body;

the girder body is provided with mounting planes corresponding to the flat plate structure parts, and at least one of the flat plate structure parts is connected with the mounting planes.

Preferably, the connecting member is provided with at least two plate structure portions arranged at an angle, and the main beam body is provided with at least two installation planes which correspond to the plate structure portions and are arranged at an angle.

Preferably, the mounting plane is arranged along the circumferential direction of the main beam body and is a circumferential surrounding surface of the main beam body or a part of the circumferential surrounding surface.

Preferably, the radial cross-sectional shape of the main beam body is polygonal, each surface of the main beam body in the circumferential direction is the mounting plane, at least one of the mounting plane and the flat structure portion are connected with each other.

Preferably, the radial cross-sectional shape of the connecting member is matched with the radial cross-sectional shape of the main beam body, so that the connecting member can be attached to the main beam body along the circumferential direction of the main beam body, and the connecting member is attached to at least one mounting plane in the circumferential direction of the main beam body through the mounting plate.

Preferably, the support includes a main beam support, the main beam support includes at least one main beam support connection plate, and each main beam support connection plate is provided with one connection component, the connection component includes a polygonal hole and a plurality of mounting plates, the mounting plate is a first single-face plate, and each first single-face plate is provided with one flat plate structure portion;

the polygonal hole is formed in the main beam support connecting plate, the shape of the polygonal hole is matched with that of the main beam body, and the main beam support connecting plate is sleeved on the main beam body through the polygonal hole;

the girder support connecting plate is provided with one first single-sided plate on each edge of the peripheral side of the polygonal hole, and the first single-sided plate is attached to the mounting plane of the girder body.

Preferably, the main beam support comprises two main beam support connecting plates which are arranged in parallel, and a first connecting component is arranged between the two main beam support connecting plates to be connected with each other.

Preferably, all the first single-face plates on one or two main beam support connecting plates are integrally formed into polygonal sleeves, the shapes of the polygonal sleeves are matched with the radial cross sections of the main beam bodies, the main beam support connecting plates are sleeved on the polygonal sleeves through the polygonal holes, and the polygonal sleeves are sleeved on the main beam bodies.

Preferably, the first connecting assembly includes a connecting flange and a plurality of first support columns, and the connecting flange is disposed at one end of the main beam support connecting plate, which is far away from the polygonal hole.

Preferably, the first single-sided plate and the main beam support connecting plate are integrally formed.

Preferably, the support comprises a push rod support, and the push rod support comprises two push rod support connecting plates arranged in parallel;

the connecting component comprises one mounting plate, the mounting plate is a multi-surface mounting plate, each surface of the multi-surface mounting plate is a flat plate structure part, and the two push rod support connecting plates are arranged on the multi-surface mounting plate;

the shape of multiaspect mounting panel with the girder body phase-match, the multiaspect mounting panel subsides establish connect in correspond on the girder body on the mounting plane.

Preferably, the support comprises a secondary beam support, the secondary beam support comprises an upper support plate and a lower support plate, the connecting member comprises a plurality of mounting notches and a plurality of mounting plates, the mounting plates are second single-face plates, and each second single-face plate is provided with one flat plate structure part;

the upper support plate and the lower support plate are respectively provided with a multilateral installation notch with the shape matched with that of the main beam body, and the upper support plate and the lower support plate are clamped on the main beam body through the multilateral installation notches;

the upper support plate and the lower support plate are respectively provided with one second single-face plate on each edge of the multi-edge installation gap, and the second single-face plates are attached to the installation plane of the main beam body.

Preferably, the secondary beam support comprises two upper support plates arranged in parallel and two lower support plates arranged in parallel, and second connecting assemblies are respectively arranged between the two upper support plates and between the two lower support plates so as to be connected with each other.

Preferably, the second connecting assembly includes a plurality of second supporting pillars.

Preferably, the second single-sided board on the upper support plate and the upper support plate are integrally formed, and the second single-sided board on the lower support plate and the lower support plate are integrally formed.

Preferably, the flat plate structure portion and the mounting plane are connected to each other by a fastener.

The utility model discloses owing to adopt above technical scheme, make it compare with prior art and have following advantage and positive effect:

1. the utility model discloses a support passes through dull and stereotyped structure portion and mounting plane and girder body interconnect, because dull and stereotyped structure portion and mounting plane are plane, changes in the connection.

2. The utility model discloses a dull and stereotyped structural part and mounting surface are connected to the fastener for the installation of support and girder body has been avoided using the welding to be connected, and then can avoid the girder body to take place to warp at the welded in-process, simultaneously, adopts the mode that the fastener is connected, and after the pedestal mounting was accomplished, also need not to carry out anticorrosive treatment such as hot-galvanize to the girder again, can effectively simplify manufacturing process and reduce manufacturing cost. And the flat plate structure part and the mounting plane are both planar, when the flat plate structure part and the mounting plane are connected by the fastening piece, the mounting can be firmer, if the flat plate structure part and the mounting plane are not planar, the fastening piece is in line contact with the support and the main beam body, on one hand, the connection is not firm, and on the other hand, the support and the main beam body are deformed.

3. The utility model discloses be equipped with two at least dull and stereotyped structure portions that become the angle setting on the connecting elements, the girder body is equipped with two at least and the corresponding and angled mounting surface of dull and stereotyped structure portion, and quick location when can realize the pedestal mounting through two at least angled dull and stereotyped structure portions and two at least mounting surface's cooperation, and can prevent its rotation when pedestal mounting for the installation is more smooth.

Drawings

The following detailed description of embodiments of the present invention is provided with reference to the accompanying drawings, in which:

fig. 1 is an overall schematic view of a heliostat to which the heliostat main beam of the present invention is applied;

FIG. 2 is an enlarged view of a portion of FIG. 1 with the mirror hidden;

FIG. 3 is an enlarged view of a portion of FIG. 2 with the frame of the heliostat concealed;

fig. 4 is a schematic view of a main beam of the heliostat of the invention;

fig. 5 is a cross-sectional view of an embodiment of a heliostat main beam of the invention;

fig. 6 is a cross-sectional view of an embodiment of a heliostat main beam of the invention;

FIG. 7 is a side view of a first embodiment of the support of the present invention;

fig. 8 is a front view of a first embodiment of the support of the present invention;

fig. 9 is a side view of a first embodiment of the support of the present invention;

fig. 10 is a front view of a second embodiment of the support of the present invention;

FIG. 11 is an axial view of a second embodiment of the stand according to the present invention;

FIG. 12 is a schematic view of the connection of the third embodiment of the support of the present invention;

FIG. 13 is a side view of the upper support plate of the present invention;

fig. 14 is a front view of the upper support plate of the present invention;

fig. 15 is a side view of the upper support plate of the present invention;

fig. 16 is a side view of the lower support plate of the present invention;

fig. 17 is a side view of the lower support plate of the present invention;

fig. 18 is a front view of the lower support plate of the present invention.

Description of reference numerals:

1: a column; 2: a rotary speed reducer; 3: a connecting seat; 4: a heliostat main beam; 41: a main beam body; 411: a mounting plane; 42: a main beam support; 421: a main beam support connecting plate; 422: a first single panel; 423: a polygonal hole; 424: a connecting flange; 425: a first support column; 43: a push rod support; 431: the push rod support is connected with the plate; 432: a multi-sided mounting plate; 44: a secondary beam support; 441: an upper support plate; 442: a lower support plate; 443: a second single panel; 444: a second support column; 5: a secondary beam assembly; 51: a secondary beam; 52: supporting a beam; 6: a mirror; 7: an electric push rod.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. The advantages and features of the present invention will become more apparent from the following description. It is to be noted that the drawings are in a very simplified form and are not to be construed as precise ratios as are merely intended to facilitate and distinctly illustrate the embodiments of the present invention.

It should be noted that all the directional indicators (such as up, down, left, right, front, back \8230;) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the attached drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

Referring to fig. 1-18, the core of the present invention is to provide a heliostat girder for use in a heliostat. Referring to fig. 1, 2 and 3, the heliostat includes a column 1, a rotary speed reducer 2, a connecting base 3, a heliostat main beam 4, a secondary beam assembly 5 and a reflecting mirror 6. The heliostat main beam 4 and the secondary beam assembly 5 jointly form a heliostat mirror frame, the heliostat mirror frame is used for installing a reflector 6, and the heliostat main beam 4 is a main stress component of the heliostat mirror frame.

The secondary beam assembly 5 includes a secondary beam 51 and two support beams 52, the secondary beam is disposed above the heliostat main beam 4, and the two support beams 52 are disposed on two sides of the heliostat main beam 4 in the axial direction.

The heliostat main beam 4 comprises a main beam body 41, at least one support is arranged on the main beam body 41, a connecting component used for being connected with the main beam body 41 is arranged on the support, at least one mounting plate is arranged on the connecting component along the circumferential direction of the main beam body 41, at least one flat plate structure part is arranged on at least one mounting plate along the circumferential direction of the main beam body 41, and the flat plate structure part is a flat plate model.

The main beam body 41 is provided with mounting planes 411 at positions corresponding to the flat plate structure portions, and at least one of the flat plate structure portions is connected with the mounting planes 411. Specifically, the flat plate structure portion and the mounting plane are connected to each other by a fastener, which may be a bolt, a rivet, or the like.

The support is connected with the main beam body 41 through the flat structure part and the mounting plane 411, and the flat structure part and the mounting plane 411 are planar, so that connection is easier.

And specifically connect dull and stereotyped structural part and mounting surface 411 through the fastener for the installation of support and girder body 41 has avoided using the welding to connect, and then can avoid girder body 41 to take place to warp at the welded in-process, and simultaneously, the mode of adopting the fastener to connect, after the support installation is accomplished, also need not to carry out anticorrosive treatment such as hot-galvanize to the girder again, can effectively simplify manufacturing process and reduce manufacturing cost. Furthermore, the flat plate structure portion and the mounting plane 411 are both planar, and when the flat plate structure portion and the mounting plane 411 are connected by a fastener, the mounting can be more firmly performed, and if the flat plate structure portion and the mounting plane 411 are not planar, the fastener is in line contact with the support and the main beam body 411, which results in weak connection and deformation of the support and the main beam body 411.

Further, the installation plane 411 is disposed along the circumferential direction of the main beam body 41, and is a circumferential surrounding surface or a portion of the circumferential surrounding surface of the main beam body 41. That is, the mounting plane 411 is formed by the outer wall surface of the main beam body 41, not by other structures provided on the main beam body 41.

In this embodiment, the shapes of the connecting member and the main beam body 41 are not limited, and it is only necessary that the connecting member and the main beam body 41 are provided with at least one flat plate structure portion and the mounting plane 411 at the joint to realize the fastener connection.

Furthermore, at least two plate structures are disposed on the connecting member at an angle, and the main beam body 41 has at least two mounting planes 411 corresponding to the plate structures and at an angle. Through the cooperation of at least two dull and stereotyped structure portions that become angle and at least two mounting plane 411, quick location when the support mounting can be realized, and can prevent its rotation when the support mounting for the installation is more smooth.

Specifically, referring to fig. 5, in the present embodiment, the radial cross-sectional shape of the main beam body 41 is a polygon, and is a regular polygon, specifically a regular octagon, and each surface of the main beam body 41 in the circumferential direction is a mounting plane 411. Of course, in other embodiments, the cross-sectional shape of the main beam body 41 may also be an irregular polygon as shown in fig. 6, and the main beam body has a mounting plane 411 and a circular arc surface, and the mounting plane 411 and the circular arc surface are arranged in a staggered manner. The radial cross-sectional shape of the connecting member is matched with the radial cross-sectional shape of the main beam body 41, so that the connecting member can be attached to the main beam body 41 along the circumferential direction of the main beam body 41, and the connecting member is attached to at least one mounting plane in the circumferential direction of the main beam body 41 through a mounting plate.

Referring to fig. 3, 7, 8 and 9, in a first version of the support, the support is used as a main beam support 42 and is unitized with two supports of the first version. Of course, in other embodiments, the first solution of the support may also be used as the push rod support and the secondary beam support, and is not limited herein.

The main beam supports 42 include at least one main beam support connection plate 421, and each main beam support connection plate 421 has a connection member thereon. In this embodiment, the main beam support 42 includes two main beam support connection plates 421 arranged in parallel and two connection members, and a first connection assembly is arranged between the two main beam support connection plates 421 to connect with each other, so that the main beam support 42 forms a double-layer plate structure, and the structural strength is higher.

Specifically, the first connecting assembly includes a connecting flange 424 and a plurality of first supporting posts 425, and the connecting flange 424 is a hollow circular disk. Connecting flange 424 is located girder support connecting plate 421 and the one end that connecting seat 3 is connected that rotates, and the centre bore of connecting flange 424 and the through-hole that the support connecting plate and connecting seat 3 are connected that rotate set up with one heart. Two first support posts 425 are provided, and the first support posts 425 are fasteners sleeved with sleeves, such as bolts or rivets sleeved with sleeves.

Each main beam support connection plate 421 is provided with a connection member, which includes a polygonal hole 423 and a plurality of mounting plates, which are first single-sided plates 422, that is, each mounting plate is provided with only one flat plate structure portion.

Polygonal hole 423 is formed in one end of main beam support connection plate 421, which is far away from connection flange 424, and shape of polygonal hole 423 matches main beam body 41, and shape of polygonal hole 423 in this embodiment is a regular octagonal hole. The main beam support connecting plate 421 is sleeved on the main beam body 41 through a polygonal hole 423.

Girder support connecting plate 421 all is equipped with a first single-face plate 422 on every edge of polygonal hole 423 week side, and first single-face plate 422 laminates in the mounting plane 411 of girder body 41, sets up eight first single-face plates 422 in this embodiment altogether, and eight first single-face plates 422 laminate respectively in eight mounting plane 411 of girder body 41, and the one side of keeping away from each other of two girder support connecting plates 421 is located respectively to first single-face plate 422 on two girder support connecting plates 421. The eight first single panels 422 and the eight mounting planes 411 are connected by fasteners, but in other embodiments, the first single panel 422 may not have fasteners, and the first single panel 422 only has a limiting function.

The first single-sided plate 422 is formed by a flange integrally formed with the main beam support connecting plate 421 in this embodiment, but the first single-sided plate 422 may be separately welded to the main beam support connecting plate 421 in other embodiments, which is not limited herein.

Of course, all the first single-sided plates 422 on one or two main beam support connection plates 421 may also be integrally formed into a polygonal sleeve whose shape matches the radial cross section of the main beam body 41, the main beam support connection plates 421 are sleeved on the polygonal sleeve through polygonal holes, and the polygonal sleeve is sleeved on the main beam body 41. That is to say, the two main beam support connection plates 421 can be respectively sleeved on two short polygonal sleeves, or can be simultaneously sleeved on a long polygonal sleeve.

Referring to fig. 3, 10 and 11, in the second embodiment of the support, the support is used as a push rod support 43, but the second embodiment of the support can also be used as a main beam support and a secondary beam support in other embodiments, which is not limited herein.

The push rod support 43 includes two push rod support connection plates 431 and a connection member arranged in parallel, and both sides of the push rod support connection plates 431 are provided with bends to enhance strength.

The connecting member includes a mounting plate, and the mounting plate is a multi-face mounting plate 432, and each face of the multi-face mounting plate 432 is a flat plate structure portion, that is, a plurality of flat plate structure portions are provided on one mounting plate. The shape of the multi-surface mounting plate 432 is matched with the main beam body 41, the multi-surface mounting plate 432 is attached to the corresponding mounting plane 411 on the main beam body 41, and a fastening piece is arranged between the multi-surface mounting plate 432 and the mounting plane 411 of the main beam body 41 for connection.

In this embodiment, the multi-surface mounting plate 432 is formed by bending a whole plate twice, that is, the multi-surface mounting plate 432 is formed by three flat plate structures, and the three flat plate structures are respectively attached to the three mounting planes 411 of the main beam body 41. Of course, in other embodiments, the multi-sided mounting plate 432 may be formed by welding a plurality of plates, and the number of flat plate structures may be other numbers, which is not limited herein.

Two push rod support connection plates 431 are mounted on the multi-face mounting plate 432 and are provided on the middle flat plate structure portion.

Referring to fig. 3, 12 to 18, in a third embodiment of the support, the support is used as a secondary beam support 44, but in other embodiments, the third embodiment of the support can also be used as a primary beam support and a push rod support, which are not limited herein.

The sub-beam mount 4 includes at least one upper plate 441 and at least one lower plate 442, and one connecting member is provided on each of the upper plate 441 and the lower plate 442.

In the present embodiment, the sub-beam mount 44 includes two upper support plates 441 and two lower support plates 442 and corresponding connecting members, and the two upper support plates 441 and the two lower support plates 442 are respectively disposed in parallel. The upper stay 441 is used to connect the sub-beams 51, and the lower stay 442 is used to connect the two support beams 52.

Second connecting members are provided between the two upper support plates 441 and between the two lower support plates 442, respectively, to be connected to each other. Specifically, the second connecting assembly includes a plurality of second supporting columns 444, in this embodiment, three second supporting columns 444 are disposed between the two upper supporting plates 441, and two second supporting columns 444 are disposed between the two lower supporting plates 442. The second supporting post 444 is a fastener sleeved with a sleeve, such as a bolt or a rivet sleeved with a sleeve.

The connecting member includes a polygonal mounting gap and a plurality of mounting plates, the upper support plate 441 and the lower support plate 442 are respectively provided with a polygonal mounting gap having a shape matching the main beam body 41, and the upper support plate 441 and the lower support plate 442 are clamped on the upper and lower sides of the main beam body 41 through the polygonal mounting gaps. In this embodiment, the multi-edge installation notch is a three-edge notch, and in other embodiments, other numbers of edges are also possible, which is not limited herein.

The mounting plates are second single-sided plates 443, that is to say each second single-sided plate 443 is provided with only one flat plate structure portion.

Each of the upper supporting plate 441 and the lower supporting plate 442 has a second single-face plate 443 disposed on each side of the multi-side installation gap, and the second single-face plate 443 is attached to the installation plane 411 of the main beam body 41. In other embodiments, all of the second single-sided plates 443 of the two upper plates 441 are integrally formed, and all of the second single-sided plates 443 of the two lower plates 442 are also integrally formed, i.e., the two upper plates 441 are commonly mounted to a single multi-sided plate, and the two lower plates 441 are commonly mounted to a single multi-sided plate. In this embodiment, each of the upper support plate 441 and the lower support plate 442 is provided with three second single-sided plates 443, and the second single-sided plates 443 on the upper support plate 441 and the upper support plate 441 are integrally formed, specifically, are formed by flanges integrally formed by bending the upper support plate 441; the second single-sided plate 443 of the lower plate 442 is integrally formed with the lower plate 442, and specifically, is formed by a flange integrally formed by bending the lower plate 442. Of course, in other embodiments, the second single-sided plate 443 can be separately welded to the upper support plate 441 and the lower support plate 442, and is not limited herein. Fasteners are arranged between the three second single panels 443 and the three mounting planes 411 for connection, but in other embodiments, the second single panels 443 may not be arranged, and the second single panels 443 only have a limiting function.

In this embodiment, a plurality of supports are provided, including two main beam supports 42, a push rod support 43, and a plurality of sub beam supports 44. The main beam support 42 is rotatably connected with the connecting seat 3, and the rotary speed reducer 2 drives the heliostat frame and the reflector 6 to rotate to adjust the azimuth angle through the transmission of the connecting seat 3 so as to realize sun tracking. The push rod support 43 is used for being rotatably connected with the electric push rod 7, and the electric push rod 7 drives the heliostat frame and the reflector 6 to rotate through the push rod support 43 to adjust the pitch angle so as to realize sun tracking.

The utility model discloses a girder body 41, girder support 42, push rod support 43 and auxiliary girder support 44 are the zinc pre-plating material, and local incision and welding adopt spraying technology to carry out anticorrosive treatment, and girder support 42, push rod support 43 and auxiliary girder support 44 all are connected with girder body 41 through the fastener, have consequently avoided the heat altered shape that whole welding and hot-galvanize produced, have reached the effect that improves 4 precisions of heliostat girder. And the fasteners are adopted for connecting and assembling, so that the production efficiency is improved, and the production cost is further reduced.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments. Even if various changes are made to the present invention, the changes are still within the scope of the present invention if they fall within the scope of the claims and their equivalents.

Claims (14)

1. A heliostat girder is characterized by comprising a girder body, wherein at least one support is arranged on the girder body, and a connecting component used for being connected with the girder body is arranged on the support;

the connecting component is provided with at least one mounting plate along the circumferential direction of the main beam body, and at least one flat plate structure part is arranged on at least one mounting plate along the circumferential direction of the main beam body;

the main beam body is provided with mounting planes corresponding to the flat plate structure parts, and at least one flat plate structure part is connected with the mounting planes.

2. The heliostat girder of claim 1, wherein the connecting member is provided with at least two angled flat plate structures, and the girder body is provided with at least two angled mounting planes corresponding to the flat plate structures.

3. The heliostat girder of claim 2, wherein the mounting plane is disposed along a circumferential direction of the girder body and is or is part of a circumferential enclosure of the girder body.

4. The heliostat girder of claim 3, wherein the radial cross-sectional shape of the girder body is a polygon, each face of the girder body in the circumferential direction is the mounting plane, and at least one of the mounting planes is interconnected with the flat plate structure portion.

5. The heliostat girder of claim 4, wherein a radial cross-sectional shape of the connecting member is matched with a radial cross-sectional shape of the girder body so that the connecting member can be attached to the girder body in a circumferential direction of the girder body, and the connecting member is attached to at least one of the mounting planes in the circumferential direction of the girder body via the mounting plate.

6. The heliostat girder of claim 5, wherein the supports comprise girder supports comprising at least one girder support connection plate with one of the connection members disposed on each of the girder support connection plates, the connection members comprising polygonal holes and a plurality of the mounting plates, the mounting plates being first single-plates with one of the flat plate structures disposed on each of the first single-plates;

the polygonal hole is formed in the main beam support connecting plate, the shape of the polygonal hole is matched with that of the main beam body, and the main beam support connecting plate is sleeved on the main beam body through the polygonal hole;

the girder support connecting plate is provided with one first single-sided plate on each edge of the peripheral side of the polygonal hole, and the first single-sided plate is attached to the mounting plane of the girder body.

7. The heliostat main beam of claim 6, wherein the main beam mount comprises two parallel arranged main beam mount connection plates with a first connection assembly disposed therebetween for interconnection.

8. The heliostat girder of claim 7, wherein all of the first single-sided plates on one or both of the girder support connection plates are integrally formed as polygonal sleeves having shapes matching the radial cross-section of the girder body, the girder support connection plates are sleeved on the polygonal sleeves through the polygonal holes, and the polygonal sleeves are sleeved on the girder body.

9. The heliostat girder of claim 6, wherein the first single-sided plate is integrally formed with the girder mount connection plate.

10. The heliostat girder of claim 5, wherein the support comprises a push rod support comprising two parallel-arranged push rod support connection plates;

the connecting component comprises one mounting plate, the mounting plate is a multi-surface mounting plate, each surface of the multi-surface mounting plate is a flat plate structure part, and the two push rod support connecting plates are arranged on the multi-surface mounting plate;

the shape of multiaspect mounting panel with the girder body phase-match, the multiaspect mounting panel subsides establish connect in correspond on the girder body on the mounting plane.

11. The heliostat girder of claim 5, wherein the support comprises a secondary beam support comprising at least one upper and one lower support, and one of the connecting members is provided on each of the upper and lower supports, the connecting member comprising a plurality of polygonal mounting notches and a plurality of the mounting plates, the mounting plates being second single-sided plates, and one of the flat plate structures being provided on each of the second single-sided plates;

the upper support plate and the lower support plate are respectively provided with a multi-edge mounting notch with the shape matched with that of the main beam body, and the upper support plate and the lower support plate are clamped on the main beam body through the multi-edge mounting notches;

the upper support plate and the lower support plate are respectively provided with one second single-face plate on each edge of the multi-edge installation gap, and the second single-face plates are attached to the installation plane of the main beam body.

12. The heliostat main beam of claim 11 wherein the secondary beam support comprises two parallel-disposed upper struts and two parallel-disposed lower struts, and wherein second connecting assemblies are disposed between the two upper struts and between the two lower struts, respectively, for interconnection.

13. The heliostat girder of claim 11, wherein the second single-sided plate on the upper brace is integrally formed with the upper brace and the second single-sided plate on the lower brace is integrally formed with the lower brace.

14. The heliostat girder of claim 1, wherein the flat plate structure portion and the mounting plane are interconnected by fasteners.

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