CN215518798U - Splayed support assembly - Google Patents

Abstract

The utility model discloses a splayed strut assembly which comprises a left splayed strut, a middle splayed strut, a right splayed strut, a left connecting piece and a right connecting piece; the left splayed brace comprises a left isosceles trapezoid frame and a left rectangular frame, and the upper side surface of the left rectangular frame is arranged on the lower bottom surface of the left isosceles trapezoid frame; the middle splayed brace comprises a middle isosceles trapezoid frame and a middle rectangular frame, and the upper side surface of the middle rectangular frame is arranged on the lower bottom surface of the middle isosceles trapezoid frame; the right splayed brace comprises a right isosceles trapezoid frame and a right rectangular frame, and the upper side surface of the right rectangular frame is arranged on the lower bottom surface of the right isosceles trapezoid frame; left side eight characters prop with right side eight characters prop and set up side by side and be connected, the left waist of left isosceles trapezoid frame is in through left connecting piece setting on the trapezoidal frame of medium waist, the right waist of right isosceles trapezoid frame is in through right connecting piece setting on the trapezoidal frame of medium waist.

Description

Splayed support assembly

Technical Field

The utility model relates to the field of foundation pit supporting equipment, in particular to a splayed support assembly.

Background

The foundation pit support is a supporting, blocking, reinforcing and protecting measure adopted for the side wall of the foundation pit and the surrounding environment in order to ensure the safety of the construction of an underground structure and the surrounding environment of the foundation pit. And the supporting component of the foundation pit support is generally of an integral structure, has the advantage of good supporting strength, but is not easy to transport. Therefore, the easily detachable supporting component is produced at the same time, but the supporting strength of the easily detachable supporting component is not enough, and the effect of supporting the foundation pit can be influenced.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide a splay assembly to solve the problems of the prior art.

In order to achieve the above object, the present embodiment provides a splayed brace assembly, which includes a left splayed brace, a middle splayed brace, a right splayed brace, a left connecting member, and a right connecting member;

the left splayed brace comprises a left isosceles trapezoid frame and a left rectangular frame, the upper side surface of the left rectangular frame is arranged on the lower bottom surface of the left isosceles trapezoid frame, and the lower side surface of the left rectangular frame is parallel to the lower bottom surface of the left isosceles trapezoid frame;

the middle splayed brace comprises a middle waist trapezoidal frame and a middle rectangular frame, the upper side surface of the middle rectangular frame is arranged on the lower bottom surface of the middle waist trapezoidal frame, and the lower side surface of the middle rectangular frame is parallel to the lower bottom surface of the middle waist trapezoidal frame;

the right splayed brace comprises a right isosceles trapezoid frame and a right rectangular frame, the upper side surface of the right rectangular frame is arranged on the lower bottom surface of the right isosceles trapezoid frame, and the lower side surface of the right rectangular frame is parallel to the lower bottom surface of the right isosceles trapezoid frame;

the left splayed brace and the right splayed brace are arranged side by side, the left side surface of the left rectangular frame is arranged on the right side surface of the right rectangular frame, the left waist surface of the left isosceles trapezoid frame is arranged on the middle waist trapezoid frame through a left connecting piece, and the right waist surface of the right isosceles trapezoid frame is arranged on the middle waist trapezoid frame through a right connecting piece;

the downside of left side rectangle frame the downside of right side rectangle frame the left flank of right side isosceles trapezoid frame the lower bottom surface of well rectangle frame with the right flank of left side isosceles trapezoid frame all sets up the connecting hole group.

Furthermore, the left splayed brace comprises a left isosceles trapezoid frame reinforcing assembly, and the left isosceles trapezoid frame reinforcing assembly is arranged on the inner wall of the left isosceles trapezoid frame; or:

the middle splayed brace comprises a middle waist trapezoidal frame reinforcing assembly, and the middle waist trapezoidal frame reinforcing assembly is arranged on the inner wall of the middle waist trapezoidal frame; or:

the splayed right hand side props and strengthens the assembly including right isosceles trapezoid frame, right isosceles trapezoid frame is strengthened the assembly and is set up on the inner wall of right isosceles trapezoid frame.

Further, the left isosceles trapezoid frame reinforcing assembly comprises a first reinforcing plate and a second reinforcing plate;

the first reinforcing plates are arranged in an array mode, one end of each first reinforcing plate is arranged on the lower bottom face of the left isosceles trapezoid frame, and the other end of each first reinforcing plate is arranged on the right waist face of the left isosceles trapezoid frame;

the second reinforcing plates are arranged in an array mode, one end of each second reinforcing plate is arranged on the lower bottom surface of the left isosceles trapezoid frame, and the other end of each second reinforcing plate is arranged on the left waist surface of the left isosceles trapezoid frame;

the structure that the left side eight characters propped, the structure that well eight characters propped and the structure that the right side eight characters propped are the same.

Further, the left connecting piece comprises first H-shaped steel, the left waist surface of the left isosceles trapezoid frame is arranged on the upper edge wing of the first H-shaped steel, and the left waist surface of the middle isosceles trapezoid frame is arranged on the lower edge wing of the first H-shaped steel; or:

the right connecting piece comprises second H-shaped steel, the right waist surface of the right isosceles trapezoid frame is arranged on the upper edge wing of the second H-shaped steel, and the right waist surface of the middle isosceles trapezoid frame is arranged on the lower edge wing of the second H-shaped steel.

Further, the device also comprises a middle connecting piece;

the left waist surface of the left isosceles trapezoid frame and the right waist surface of the right isosceles trapezoid frame are arranged on the upper bottom surface of the middle isosceles trapezoid frame through a middle connecting piece.

Further, the left isosceles trapezoid frame comprises a triangular frame, a first oblique frame and a second oblique frame;

the first oblique frame and the second oblique frame are respectively arranged on two side surfaces of the triangular frame, and the bottom surface of the triangular frame is used as a component of the lower bottom surface of the left isosceles trapezoid frame;

the structure that the left side eight characters propped, the structure that well eight characters propped and the structure that the right side eight characters propped are the same.

Furthermore, the inner walls of the two sides of the triangular frame are connected through transverse plates, and the transverse plates are parallel to the bottom surface of the angular frame.

Furthermore, the transverse plate is connected with the top point of the triangular frame through the vertical plate.

Furthermore, the device also comprises a third oblique frame and a fourth oblique frame;

the third inclined frame is arranged on the right waist edge of the left isosceles trapezoid frame, and the right waist edge of the left isosceles trapezoid frame is used for being connected with an inclined strut assembly through the third inclined frame;

the fourth slant frame sets up on the left waist limit of right isosceles trapezoid frame, the left waist limit of right isosceles trapezoid frame passes through the fourth slant frame and connects another bracing assembly.

Furthermore, the lower side surface of the left rectangular frame and the lower side surface of the right rectangular frame are both arranged at one end of a first straight support assembly, and the other end of the first straight support assembly is used for being arranged on the enclosing purlin;

the right waist surface of the left isosceles trapezoid frame and the left waist surface of the right isosceles trapezoid frame are respectively arranged at one end of an inclined strut assembly, and the other end of the inclined strut assembly is arranged on the enclosing purlin;

the upper bottom surface of the middle waist trapezoid frame is arranged at one end of the second straight supporting assembly, and the other end of the second straight supporting assembly is arranged on the surrounding purlin.

Be different from prior art, above-mentioned technical scheme, the splayed props the subassembly and props through left splayed, well splayed, the splayed concatenation of propping mutually forms, has great support intensity, can keep the stability of foundation ditch. Meanwhile, the splayed strut component can be quickly connected with the first straight strut assembly, the second straight strut assembly and the inclined strut assembly under the matching of the fastener (such as a bolt) and the connecting hole group, and is convenient to transport.

Drawings

FIG. 1 is a schematic cross-sectional view of a splay assembly in this embodiment;

FIG. 2 is a schematic cross-sectional view of the left splay brace in this embodiment;

FIG. 3 is a schematic structural diagram of the splay assembly in this embodiment;

fig. 4 is a schematic structural diagram of the connection of the splayed strut assembly, the first straight strut assembly, the second straight strut assembly, the diagonal strut assembly and the surrounding purlin in this embodiment.

Description of reference numerals:

1. a splayed support assembly;

11. a left splayed support; 111. a left isosceles trapezoid frame; 1111. the upper bottom surface of the left isosceles trapezoid frame; 1112. the left waist surface of the left isosceles trapezoid frame; 112. a left rectangular frame;

12. a middle splayed support; 121. a middle isosceles trapezoid frame; 122. a middle rectangular frame;

13. a right splayed brace; 131. a right isosceles trapezoid frame; 132. a right rectangular frame;

14. a triangular frame; 141. a vertical plate; 142. a transverse plate;

15. a first bezel;

16. a second bezel;

17. a third diagonal frame;

18. a fourth bezel;

19. a left connector;

100. a right connector;

110. a middle connecting piece;

2. a left isosceles trapezoid frame reinforcement assembly;

21. a first reinforcing plate; 22. a second reinforcing plate; 23. a third reinforcing plate; 24. a fourth reinforcing plate;

25. the fifth strengthening board; 26. a sixth reinforcing plate; 27. a first vertical stiffener; 28. a second vertical stiffener;

3. a left rectangular frame reinforcement assembly;

4. connecting the hole groups;

5. a first direct support assembly;

6. a second vertical support assembly;

7. a diagonal bracing assembly;

8. and (7) enclosing purlins.

Detailed Description

To explain technical contents, structural features, and objects and effects of the technical solutions in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

Referring to fig. 1 to 4, the present embodiment provides a splay brace assembly, in which the splay brace assembly 1 includes a left splay brace 11, a middle splay brace 12, a right splay brace 13, a left connecting member 19 and a right connecting member 100. The left splayed brace 11 comprises a left isosceles trapezoid frame 111 and a left rectangular frame 112. The side setting is in on the last side of left side rectangle frame 112 the lower bottom surface of left isosceles trapezoid frame 111, the downside of left side rectangle frame 112 is parallel the lower bottom surface of left isosceles trapezoid frame 111. The middle splayed brace 12 comprises a middle waist trapezoidal frame 121 and a middle rectangular frame 122. The upper side of the middle rectangular frame 122 is disposed on the lower bottom surface of the middle isosceles trapezoid frame 121, and the lower side of the middle rectangular frame 122 is parallel to the lower bottom surface of the middle isosceles trapezoid frame 121. The right splayed brace 13 includes a right isosceles trapezoid frame 131 and a right rectangular frame 132. The upper side of right rectangle frame 132 sets up on the lower bottom surface of right isosceles trapezoid frame 131, the downside of right rectangle frame 132 is parallel the lower bottom surface of right isosceles trapezoid frame 131. The left splayed strut 11 and the right splayed strut 13 are arranged side by side, namely the left splayed strut 11 and the right splayed strut 13 are positioned at the same height. The left side of the left rectangular frame 112 is disposed on the right side of the right rectangular frame 132, the left waist 1112 of the left isosceles trapezoid frame 111 is disposed on the middle isosceles trapezoid frame 121 through the left connecting member 19, and the right waist of the right isosceles trapezoid frame 131 is disposed on the middle isosceles trapezoid frame 121 through the right connecting member 100. The downside of left side rectangle frame the downside of right side rectangle frame the left flank of right side isosceles trapezoid frame the lower bottom surface of well rectangle frame with the right flank of left side isosceles trapezoid frame all sets up the connecting hole group.

Above-mentioned technical scheme, the splayed props the subassembly and props through left splayed, well splayed, the splayed of right side and prop the concatenation mutually and form, has great support intensity, can keep the stability of foundation ditch. Meanwhile, the splayed strut component can be quickly connected with the first straight strut assembly, the second straight strut assembly and the inclined strut assembly under the matching of the fastener (such as a bolt) and the connecting hole group, and is convenient to transport.

In a preferred embodiment, the structure of the left splayed brace, the structure of the middle splayed brace and the structure of the right splayed brace are the same.

Referring to fig. 2, in the present embodiment, the left splay 11 includes a left isosceles trapezoid frame reinforcing assembly 2, and the left isosceles trapezoid frame reinforcing assembly 2 is disposed on an inner wall of the left isosceles trapezoid frame 111. The left isosceles trapezoid frame reinforcing assembly 2 is used for enhancing the supporting strength of the left isosceles trapezoid frame and avoiding the breakage of the left isosceles trapezoid frame due to the overlarge span of the left isosceles trapezoid frame.

Referring to fig. 2, specifically, the left isosceles trapezoid frame reinforcing assembly 2 includes a first reinforcing plate 21 and a second reinforcing plate 22, and the first reinforcing plate 21 and the second reinforcing plate 22 may be disposed in a staggered manner. One end of the first reinforcing plate 21 is arranged on the lower bottom surface of the left isosceles trapezoid frame 111, and the other end of the first reinforcing plate 21 is arranged on the right waist surface of the left isosceles trapezoid frame 111. One end of the second reinforcing plate 22 is disposed on the lower bottom surface of the left isosceles trapezoid frame 111, and the other end of the second reinforcing plate 22 is disposed on the left waist surface 1112 of the left isosceles trapezoid frame.

Referring to fig. 2, preferably, the first reinforcing plates 21 are multiple, and the multiple first reinforcing plates 21 are arranged in an array; the second reinforcing plate 22 is plural, and the plural second reinforcing plates 22 are arranged in an array.

Referring to fig. 1 and fig. 2, similarly, the middle splayed brace includes a middle waist trapezoid frame reinforcing assembly, and the middle isosceles trapezoid frame reinforcing assembly is disposed on an inner wall of the middle waist trapezoid frame. The middle waist trapezoid frame reinforcing assembly is used for enhancing the supporting strength of the middle waist trapezoid frame and avoiding the middle waist trapezoid frame from being broken due to overlarge span.

Specifically, the middle waist trapezoid frame reinforcing assembly comprises a first reinforcing plate 21 and a second reinforcing plate 22, and the first reinforcing plate 21 and the second reinforcing plate 22 may be arranged in a staggered manner. One end of the first reinforcing plate 21 is disposed on the lower bottom surface of the middle waist trapezoid frame, and the other end of the first reinforcing plate 21 is disposed on the right waist surface of the middle waist trapezoid frame. One end of the second reinforcing plate 22 is disposed on the lower bottom surface of the middle waist trapezoid frame, and the other end of the second reinforcing plate 22 is disposed on the left waist surface of the middle waist trapezoid frame.

Preferably, the first reinforcing plate 21 is plural, and the plural first reinforcing plates 21 are arranged in an array; the second reinforcing plate 22 is plural, and the plural second reinforcing plates 22 are arranged in an array.

Referring to fig. 1 and fig. 2, similarly, the right splayed brace includes a right isosceles trapezoid frame reinforcing assembly, and the right isosceles trapezoid frame reinforcing assembly is disposed on an inner wall of the right isosceles trapezoid frame. The right isosceles trapezoid frame reinforcing assembly is used for enhancing the supporting strength of the right isosceles trapezoid frame and avoiding the right isosceles trapezoid frame from being broken due to overlarge span.

Specifically, the right isosceles trapezoid frame reinforcing assembly comprises a first reinforcing plate 21 and a second reinforcing plate 22, and the first reinforcing plate 21 and the second reinforcing plate 22 may be arranged in a staggered manner. One end of the first reinforcing plate 21 is arranged on the lower bottom surface of the right isosceles trapezoid frame 131, and the other end of the first reinforcing plate 21 is arranged on the right waist surface of the right isosceles trapezoid frame 131. One end of the second reinforcing plate 22 is disposed on the lower bottom surface of the right isosceles trapezoid frame 131, and the other end of the second reinforcing plate 22 is disposed on the left waist surface of the right isosceles trapezoid frame 131.

Referring to fig. 2, in the present embodiment, the left connecting member 19 includes a first H-shaped steel. The left waist surface 1112 of the left isosceles trapezoid frame is arranged on the upper edge wing of the first H-shaped steel, and the left waist surface of the middle isosceles trapezoid frame 121 is arranged on the lower edge wing of the first H-shaped steel. Wherein the upper edge wing of the first H-shaped steel is parallel to the lower edge wing of the first H-shaped steel. The H-shaped steel has the advantages of strong bending resistance, simple construction, cost saving, light structural weight and the like in all directions.

Referring to fig. 2, in the present embodiment, the right connecting member 100 includes a second H-shaped steel, the right waist surface of the right isosceles trapezoid frame 131 is disposed on the upper edge wing of the second H-shaped steel, and the right waist surface of the middle isosceles trapezoid frame 121 is disposed on the lower edge wing of the second H-shaped steel.

Referring to fig. 1, in the present embodiment, the connector further includes a middle connector 110, and the left waist surface 1112 of the left isosceles trapezoid frame and the right waist surface of the right isosceles trapezoid frame 131 are both disposed on the upper bottom surface of the middle isosceles trapezoid frame 121 through the middle connector 110. The left waist surface 1112 of the left isosceles trapezoid frame is arranged on the left waist surface of the middle isosceles trapezoid frame 121 through the first H-shaped steel, and is also arranged on the upper bottom surface of the middle isosceles trapezoid frame 121 through the middle connecting piece 110; the right waist surface of the right isosceles trapezoid frame 131 is not only disposed on the right waist surface of the middle isosceles trapezoid frame 121 through the first H-shaped steel, but also disposed on the upper bottom surface of the middle isosceles trapezoid frame 121 through the middle connection member 110. Therefore, the stability of the connection of the left splayed brace, the middle splayed brace and the right splayed brace can be increased.

Referring to fig. 1 and fig. 2, in the present embodiment, the left isosceles trapezoid frame 111 includes a triangle frame 14, a first slant frame 15, and a second slant frame 16. The first oblique frame 15 and the second oblique frame 16 are respectively disposed on two side surfaces of the triangular frame 14. The bottom surface of the triangular frame 14 serves as a component of the lower bottom surface of the left isosceles trapezoid frame 111, and the lower bottom surface of the left isosceles trapezoid frame 111 further includes a side of the first inclined frame 15 and a side of the second inclined frame 16.

Referring to fig. 1 and fig. 2, similarly, the middle isosceles trapezoid frame also includes a triangle frame, a first oblique frame and a second oblique frame, and the right isosceles trapezoid frame also includes a triangle frame, a first oblique frame and a second oblique frame, so that the connection relationship between the triangle frame and the oblique frames is not repeated herein.

Referring to fig. 2, in the present embodiment, the first reinforcing plate 21 in the left isosceles trapezoid frame 111 is taken as an example for description: the first reinforcing plate 21 includes a third reinforcing plate 23 and a fourth reinforcing plate 24. The third reinforcing plate 23 is disposed in the first bezel 15, and the third reinforcing plate 23 supports both inner walls of the first bezel 15. The fourth reinforcing plate 24 is provided on the inner wall of the triangular frame 14, and supports both inner walls of the triangular frame. Wherein the third reinforcement plate 23 and the fourth reinforcement plate 24 are parallel.

Referring to fig. 1 and 2, similarly, the first reinforcing plate 21 disposed in the middle isosceles trapezoid frame also includes a third reinforcing plate 23 and a fourth reinforcing plate 24, and the first reinforcing plate 21 disposed in the right isosceles trapezoid frame also includes the third reinforcing plate 23 and the fourth reinforcing plate 24.

Referring to fig. 2, in the present embodiment, the second reinforcing plate 22 in the left isosceles trapezoid frame 111 is taken as an example for description: the second reinforcing plate 22 includes a fifth reinforcing plate 25 and a sixth reinforcing plate 26. The fifth reinforcing plate 25 is disposed in the second bezel 16, and the fifth reinforcing plate 25 supports both inner walls of the second bezel 16. The sixth reinforcing plate 26 is provided on the inner wall of the triangular frame, and the sixth reinforcing plate 26 supports both inner walls of the triangular frame. Wherein the fifth reinforcing plate 25 and the sixth reinforcing plate 26 are parallel. Note that the fifth reinforcing plate 25 and the sixth reinforcing plate 26 are provided alternately.

Referring to fig. 1 and 2, similarly, the second reinforcing plate 22 disposed in the middle isosceles trapezoid frame also includes a fifth reinforcing plate 25 and a sixth reinforcing plate 26, and the second reinforcing plate 22 disposed in the right isosceles trapezoid frame also includes a fifth reinforcing plate 25 and a sixth reinforcing plate 26.

In this embodiment, the inclined strut assembly applies force to the two waist surfaces of the isosceles trapezoid frame to prevent the deformation of the isosceles trapezoid frame due to insufficient force applied to the two waist surfaces. The inner walls of the two sides of the triangular frame 14 are connected through a horizontal plate 142, and the horizontal plate 142 is parallel to the bottom surface of the angular frame, and the structure is shown in fig. 2. In use, the cross plate 142 is parallel to the horizontal plane. Preferably, a plurality of transverse plates 142 are provided, and each transverse plate 142 is parallel to the upper bottom surface of the isosceles trapezoid frame; the plurality of horizontal plates 142 may be stacked up and down, and the plurality of horizontal plates 142 may be provided at intervals. Therefore, the transverse plate can enhance the supporting strength of the triangular frame so as to adapt to a longer inclined strut assembly.

In this embodiment, the second vertical supporting assembly 6 applies a force to the upper bottom surface of the isosceles trapezoid frame, and in order to prevent the deformation of the upper bottom surface of the isosceles trapezoid frame caused by insufficient force, the upper bottom surface of the isosceles trapezoid frame is connected to the transverse plate through a vertical plate 141, which is as shown in fig. 2. Preferably, the vertical plate 141 is parallel to the second vertical support assembly 6, that is, the vertical plate 141 is perpendicular to the upper bottom surface of the isosceles trapezoid frame. Preferably, the vertical plate 141 is placed on the symmetry line of the triangular frame 14, that is, the vertical plate 141 connects the vertexes of the triangular frame 14. It should be noted that, when the first upright supporting assembly 5 or the second upright supporting assembly is assembled on the isosceles trapezoid frame, the first upright supporting assembly 5 is perpendicular to the upper bottom surface of the isosceles trapezoid frame. Preferably, the riser 141 is a plurality of, and a plurality of the risers 141 are symmetrical about the symmetry line of the triangular frame to adapt to a longer direct-bracing assembly.

Referring to fig. 2, in the present embodiment, the left isosceles trapezoid frame reinforcing assembly 2 further includes a vertical reinforcing plate. The vertical reinforcing plate is perpendicular to the upper bottom surface 1111 of the left isosceles trapezoid frame, and the vertical reinforcing plate supports at least two inner side walls of the isosceles trapezoid frame. The vertical stiffeners include a first vertical stiffener 27 and a second vertical stiffener 28. The first vertical reinforcing plate 27 is disposed on an inner wall of the first bezel 15 or an inner wall of the second bezel 16. The second vertical reinforcing plate 28 is disposed on the triangular frame, specifically, one end of the second vertical reinforcing plate 28 is disposed on the transverse plate, and the other end of the second vertical reinforcing plate 28 is disposed at a joint of the fourth reinforcing plate 24 and the sixth reinforcing plate 26. It should be noted that the first vertical reinforcing plate 27 and the second vertical reinforcing plate 28 are both perpendicular to the upper bottom surface of the isosceles trapezoid frame.

In a similar way, the middle isosceles trapezoid frame reinforcing assembly further comprises a vertical reinforcing plate, and the right isosceles trapezoid frame reinforcing assembly further comprises a vertical reinforcing plate.

In the present embodiment, the left rectangular frame 112 further includes a left rectangular frame reinforcement assembly 3. The left rectangular frame reinforcing assembly 3 is disposed on the inner side wall of the left rectangular frame 112. The left rectangular frame reinforcing assembly 3 comprises a plurality of rectangular frame reinforcing plates which are arranged in an array manner, and two ends of each rectangular frame reinforcing plate are respectively arranged on two inner side walls of the left rectangular frame 112.

Similarly, the middle rectangular frame further comprises a middle rectangular frame reinforcing assembly, and the right rectangular frame further comprises a right rectangular frame reinforcing assembly.

Referring to fig. 1, in the present embodiment, the splay assembly 1 further includes a third oblique frame 17 and a fourth oblique frame 18. The right side limit of third slant frame 17 sets up on the right waist limit of left isosceles trapezoid frame, the right waist limit of left isosceles trapezoid frame is used for connecting a bracing assembly 7 through third slant frame 17. The right side of the third inclined frame 17 is not parallel to the right waist of the left isosceles trapezoid frame 111. The left side edge of the fourth inclined frame 18 is arranged on the left waist edge of the right isosceles trapezoid frame 131, and the left waist edge of the right isosceles trapezoid frame 131 is connected with another inclined strut assembly 7 through the fourth inclined frame 18. The left side of the fourth inclined frame 18 is not parallel to the left waist side of the left isosceles trapezoid frame 111.

Referring to fig. 3, when the third diagonal frame 17 and the fourth diagonal frame 18 exist, the right side surface of the fourth diagonal frame 18 and the left side surface of the third diagonal frame 17 are both provided with the connecting hole group 4. Therefore, the splayed strut assembly is convenient to be connected with the inclined strut assembly through a fastener (such as a bolt). The last side of left side rectangle frame the left waist of left isosceles trapezoid frame the right flank of third slant frame the left waist of middle isosceles trapezoid frame the last bottom surface of middle isosceles trapezoid frame the right waist of right isosceles trapezoid frame the lower bottom surface of right isosceles trapezoid frame the left side of fourth slant frame the last bottom surface of right isosceles trapezoid frame all sets up the connection punch combination, so splayed props subassembly self and can assemble through fastener (like the bolt).

Referring to fig. 3, in the present embodiment, the plurality of connection holes in each connection hole group may be arranged in an array, for example, the plurality of connection holes in each connection hole group may be arranged in an X shape, that is, the X-shaped connection hole group is composed of a plurality of connection holes distributed on two intersecting lines.

Referring to fig. 4, in the present embodiment, the splay assembly 1 is connected to a first straight strut assembly 5, a second straight strut assembly 6 and two inclined strut assemblies 7. The lower side surface of the left rectangular frame and the lower side surface of the right rectangular frame are both arranged at one end of a first straight support assembly 5, and the other end of the first straight support assembly 5 is arranged on an enclosing purlin 8; the right waist surface of the left isosceles trapezoid frame and the left waist surface of the right isosceles trapezoid frame are respectively arranged at one end of an inclined strut assembly 7, and the other end of the inclined strut assembly 7 is arranged on the surrounding purlin 8; the upper bottom surface of the middle waist trapezoid frame is arranged at one end of a second straight support assembly 6, and the other end of the second straight support assembly 6 is arranged on the surrounding purlin 8. In this way, the two symmetrical strut assemblies 7 form a figure-of-eight shape. It should be noted that the first and second upright supporting assemblies 5 and 6 are connected to two opposite faces of the purlin 8.

It should be noted that, although the above embodiments have been described herein, the utility model is not limited thereto. Therefore, based on the innovative concepts of the present invention, the technical solutions of the present invention can be directly or indirectly applied to other related technical fields by making changes and modifications to the embodiments described herein, or by using equivalent structures or equivalent processes performed in the content of the present specification and the attached drawings, which are included in the scope of the present patent.

Claims (10)

1. A splayed support assembly is characterized by comprising a left splayed support, a middle splayed support, a right splayed support, a left connecting piece and a right connecting piece;

the left splayed brace comprises a left isosceles trapezoid frame and a left rectangular frame, the upper side surface of the left rectangular frame is arranged on the lower bottom surface of the left isosceles trapezoid frame, and the lower side surface of the left rectangular frame is parallel to the lower bottom surface of the left isosceles trapezoid frame;

the middle splayed brace comprises a middle waist trapezoidal frame and a middle rectangular frame, the upper side surface of the middle rectangular frame is arranged on the lower bottom surface of the middle waist trapezoidal frame, and the lower side surface of the middle rectangular frame is parallel to the lower bottom surface of the middle waist trapezoidal frame;

the right splayed brace comprises a right isosceles trapezoid frame and a right rectangular frame, the upper side surface of the right rectangular frame is arranged on the lower bottom surface of the right isosceles trapezoid frame, and the lower side surface of the right rectangular frame is parallel to the lower bottom surface of the right isosceles trapezoid frame;

the left splayed brace and the right splayed brace are arranged side by side, the left side surface of the left rectangular frame is arranged on the right side surface of the right rectangular frame, the left waist surface of the left isosceles trapezoid frame is arranged on the middle waist trapezoid frame through a left connecting piece, and the right waist surface of the right isosceles trapezoid frame is arranged on the middle waist trapezoid frame through a right connecting piece;

the downside of left side rectangle frame the downside of right side rectangle frame the left flank of right side isosceles trapezoid frame the lower bottom surface of well rectangle frame with the right flank of left side isosceles trapezoid frame all sets up the connecting hole group.

2. The splayed brace assembly of claim 1, wherein the left splayed brace comprises a left isosceles trapezoid frame reinforcing assembly, the left isosceles trapezoid frame reinforcing assembly being disposed on an inner wall of the left isosceles trapezoid frame; or:

the middle splayed brace comprises a middle waist trapezoidal frame reinforcing assembly, and the middle waist trapezoidal frame reinforcing assembly is arranged on the inner wall of the middle waist trapezoidal frame; or:

the splayed right hand side props and strengthens the assembly including right isosceles trapezoid frame, right isosceles trapezoid frame is strengthened the assembly and is set up on the inner wall of right isosceles trapezoid frame.

3. The splaying assembly of claim 1, wherein the left isosceles trapezoid frame reinforcement assembly comprises a first reinforcement plate and a second reinforcement plate;

the first reinforcing plates are arranged in an array mode, one end of each first reinforcing plate is arranged on the lower bottom face of the left isosceles trapezoid frame, and the other end of each first reinforcing plate is arranged on the right waist face of the left isosceles trapezoid frame;

the second reinforcing plates are arranged in an array mode, one end of each second reinforcing plate is arranged on the lower bottom surface of the left isosceles trapezoid frame, and the other end of each second reinforcing plate is arranged on the left waist surface of the left isosceles trapezoid frame;

the structure that the left side eight characters propped, the structure that well eight characters propped and the structure that the right side eight characters propped are the same.

4. The splay brace assembly according to claim 1, wherein the left connecting piece comprises a first H-shaped steel, the left waist surface of the left isosceles trapezoid frame is arranged on the upper edge wing of the first H-shaped steel, and the left waist surface of the middle isosceles trapezoid frame is arranged on the lower edge wing of the first H-shaped steel; or:

the right connecting piece comprises second H-shaped steel, the right waist surface of the right isosceles trapezoid frame is arranged on the upper edge wing of the second H-shaped steel, and the right waist surface of the middle isosceles trapezoid frame is arranged on the lower edge wing of the second H-shaped steel.

5. The splaying assembly of claim 4, further comprising a middle connector;

the left waist surface of the left isosceles trapezoid frame and the right waist surface of the right isosceles trapezoid frame are arranged on the upper bottom surface of the middle isosceles trapezoid frame through a middle connecting piece.

6. The splayed brace assembly of claim 1, wherein the left isosceles trapezoid frame comprises a triangular frame, a first diagonal frame and a second diagonal frame;

the first oblique frame and the second oblique frame are respectively arranged on two side surfaces of the triangular frame, and the bottom surface of the triangular frame is used as a component of the lower bottom surface of the left isosceles trapezoid frame;

the structure that the left side eight characters propped, the structure that well eight characters propped and the structure that the right side eight characters propped are the same.

7. The splayed brace assembly according to claim 6, wherein the inner walls of the two sides of the triangular frame are connected by a transverse plate, and the transverse plate is parallel to the bottom surface of the angular frame.

8. The splaying assembly of claim 7, wherein the cross plate is further connected to the apex of the triangular frame by a riser.

9. The splayed brace assembly of claim 1, further comprising a third diagonal frame and a fourth diagonal frame;

the third inclined frame is arranged on the right waist edge of the left isosceles trapezoid frame, and the right waist edge of the left isosceles trapezoid frame is used for being connected with an inclined strut assembly through the third inclined frame;

the fourth slant frame sets up on the left waist limit of right isosceles trapezoid frame, the left waist limit of right isosceles trapezoid frame passes through the fourth slant frame and connects another bracing assembly.

10. The splaying assembly according to any one of claims 1 to 9, wherein the lower side of the left rectangular frame and the lower side of the right rectangular frame are both arranged on one end of a first bracing assembly, the other end of the first bracing assembly being arranged on the enclosing purlin;

the right waist surface of the left isosceles trapezoid frame and the left waist surface of the right isosceles trapezoid frame are respectively arranged at one end of an inclined strut assembly, and the other end of the inclined strut assembly is arranged on the enclosing purlin;

the upper bottom surface of the middle waist trapezoid frame is arranged at one end of the second straight supporting assembly, and the other end of the second straight supporting assembly is arranged on the surrounding purlin.

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