CN215212652U - Diagonal bracing structure for supporting frame - Google Patents

Abstract

The utility model discloses an inclined supporting structure for a supporting frame, which comprises a supporting main rod, a first supporting rod and a second supporting rod; the inclined strut structure comprises an inclined strut component A and an inclined strut component B; the diagonal strut assembly A comprises a first diagonal strut A and a second diagonal strut A; the diagonal strut assembly B comprises a first diagonal strut B and a second diagonal strut B; the first diagonal brace is used for connecting the supporting main rod and the first supporting rod, and the first diagonal brace is used for connecting the supporting main rod and the second supporting rod, so that the first diagonal brace A, the first diagonal brace B and the supporting frame form a triangular support; one end of the second diagonal brace A is connected with the first diagonal brace A, the other end of the second diagonal brace A vertically extends upwards to be connected with the supporting main rod, one end of the second diagonal brace B is connected with the first diagonal brace B, and the other end of the second diagonal brace B vertically extends upwards to be connected with the supporting main rod, so that the second diagonal brace A, the second diagonal brace B and the supporting main rod form a triangular support, the purpose of reinforcement is achieved, and the overall stability of the supporting frame is improved.

Description

Diagonal bracing structure for supporting frame

Technical Field

The utility model belongs to the technical field of the reinforcement technique and specifically relates to a bracing structure for support frame is related to.

Background

With the advent of the 5G era, communication towers, light poles and support frames as main bearing objects are also supplied in large quantities. For high wind pressure or soft foundation areas such as offshore areas, high buildings and the like, the support frame is required to be used to reach the safety standard. For the support frame which is used for a long time and has more hung objects, the bearing capacity is weakened. At present, the existing industry often adopts the mode of replacing the whole body with new, which can cause certain resource waste, and the support frame is particularly applied to a high-rise building, and a great deal of inconvenience can be brought to disassembly, re-assembly and transportation.

SUMMERY OF THE UTILITY MODEL

The utility model aims to prior art's is not enough, the utility model aims to provide a bracing structure for support frame, this bracing structure can form triangle-shaped with the support frame and stabilize bearing structure, reaches reinforced (rfd) purpose to make the bearing capacity of support frame improve greatly, and then promoted the overall stability ability of support frame.

The purpose of the utility model is realized by adopting the following technical scheme:

an inclined support structure for a support frame is used for supporting the support frame, the support frame comprises a main support rod, a first support rod and a second support rod, and the two support rods are respectively connected with the main support rod to form a triangular support; the inclined strut structure comprises an inclined strut component A and an inclined strut component B;

the inclined strut assembly A comprises a first inclined strut A and a second inclined strut A;

the inclined strut assembly B comprises a first inclined strut B and a second inclined strut B;

one end of the first diagonal brace A is connected with the supporting main rod, the other end of the first diagonal brace A is connected with one end, far away from the supporting main rod, of the first supporting rod, one end of the first diagonal brace B is connected with the supporting main rod, and the other end of the first diagonal brace B is connected with one end, far away from the supporting main rod, of the second supporting rod, so that the first diagonal brace A, the first diagonal brace B and the supporting main rod form a triangular support;

one end of the second inclined strut A is connected with the first inclined strut A, the other end of the second inclined strut A extends vertically upwards, one end of the second inclined strut B is connected with the first inclined strut B, and the other end of the second inclined strut B extends vertically upwards;

the top of supporting the mobile jib is still vertical to be connected with consolidates the mobile jib, consolidate and be connected through anchor strut A between mobile jib and the second diagonal brace A, consolidate the mobile jib with connect through anchor strut B between the second diagonal brace B, be connected through anchor strut C between second diagonal brace A and the second diagonal brace B for second diagonal brace A, second diagonal brace B and supporting the mobile jib form the triangular supports.

Furthermore, the inclined strut assembly a further comprises a third inclined strut a, one end of the third inclined strut a is connected with the second inclined strut a, and the other end of the third inclined strut a is connected with the first inclined strut a, so that the first inclined strut a, the second inclined strut a and the third inclined strut a form a triangular support.

Furthermore, the inclined strut assembly a further comprises a fourth inclined strut a, one end of the fourth inclined strut a is connected with the first inclined strut a, the other end of the fourth inclined strut a is connected with the support main rod, and the fourth inclined strut a and the first support rod are fixedly connected through a hoop.

Further, the diagonal brace assembly a further includes a first reinforcing rod a, one end of the first reinforcing rod a is connected to the first diagonal brace a, the other end of the first reinforcing rod a is connected to the support main rod, and the first reinforcing rod a is further connected to the fourth diagonal brace a.

Furthermore, the diagonal bracing assembly a further comprises a second reinforcing rod a, the second reinforcing rod a is located at the top of the first reinforcing rod a, one end of the second reinforcing rod a is connected with the first diagonal bracing rod a, and the other end of the second reinforcing rod a is connected with the supporting main rod, so that the first diagonal bracing rod a, the second reinforcing rod a and the supporting main rod form a triangular support.

Furthermore, the inclined strut assembly B further comprises a third inclined strut B, one end of the third inclined strut B is connected with the second inclined strut B, and the other end of the third inclined strut B is connected with the first inclined strut B, so that the first inclined strut B, the second inclined strut B and the third inclined strut B form a triangular support.

Furthermore, the diagonal support component B further comprises a fourth diagonal support rod B, one end of the fourth diagonal support rod B is connected with the first diagonal support rod B, the other end of the fourth diagonal support rod B is connected with the support main rod, and the fourth diagonal support rod B is fixedly connected with the second support rod through a hoop.

Further, the diagonal brace assembly B further comprises a first reinforcing rod B, one end of the first reinforcing rod B is connected with the first diagonal brace B, the other end of the first reinforcing rod B is connected with the support main rod, and the first reinforcing rod B is further connected with the fourth diagonal brace a.

Furthermore, the diagonal brace component B further comprises a second reinforcing rod B, the second reinforcing rod B is located at the top of the first reinforcing rod B, one end of the second reinforcing rod B is connected with the first diagonal brace B, and the other end of the second reinforcing rod B is connected with the supporting main rod, so that the first diagonal brace B, the second reinforcing rod B and the supporting main rod form a triangular support.

Furthermore, a first reinforcing connecting rod is connected between the first supporting rod and the supporting main rod; a second reinforcing connecting rod is connected between the second supporting rod and the supporting main rod; a third reinforcing connecting rod is connected between the first supporting rod and the first inclined supporting rod A; and a fourth reinforcing connecting rod is connected between the second supporting rod and the first inclined supporting rod B.

Compared with the prior art, the beneficial effects of the utility model reside in that:

the utility model forms a stable triangular supporting structure with the supporting frame through the inclined strut component A, the inclined strut component B and the supporting frame, which is beneficial to reducing the swing of the supporting frame and plays a reinforcing role on the supporting frame, thereby greatly improving the bearing capacity of the supporting frame and further improving the overall stability of the supporting frame; and simultaneously, convenience is provided for installation.

Drawings

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

fig. 2 is a front view of the present invention.

In the figure: 1. supporting the main rod; 10. a first support bar; 11. a second support bar; 2. a first diagonal strut A; 20. a second diagonal strut A; 21. a third diagonal brace A; 22. a fourth diagonal strut A; 23. a first stiffener A; 24. a second reinforcement bar A; 25. hooping; 26. a first reinforcing connecting rod; 27. a second reinforcing connecting rod; 3. a first diagonal strut B; 30. a second diagonal strut B; 31. a third diagonal brace B; 32. a fourth diagonal strut B; 33. a first reinforcement bar B; 34. a second reinforcement bar B; 35. a third reinforcing connecting rod; 36. a fourth reinforcing connecting rod; 4. reinforcing the main rod; 5. a reinforcing rod A; 6. a reinforcing rod B; 7. and a reinforcing rod C.

Detailed Description

In the following, the present invention is described with priority in conjunction with the accompanying drawings and the detailed description, and it should be noted that, in the premise of no conflict, the embodiments or technical features described below may be arbitrarily combined to form a new embodiment.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "horizontal", "vertical", "top", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that unless explicitly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as being fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; either directly or indirectly through intervening media, or through both elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to specific situations.

The implementation mode is as follows:

as shown in fig. 1-2, the utility model discloses an inclined strut structure for support frame, inclined strut structure is used for supporting the support frame, this support frame are current support frame structure, the support frame is including supporting mobile jib 1, first bracing piece 10 and second bracing piece 11, and two bracing pieces are connected with supporting mobile jib 1 respectively and are formed triangular supports. In order to reinforce the existing support frame structure, the utility model provides an inclined strut structure, which comprises an inclined strut component A and an inclined strut component B, and a stable triangular support structure is formed by the inclined strut component A, the inclined strut component B and the support frame, so that the swinging of the support frame is favorably reduced, and the support frame is strengthened, thereby greatly improving the bearing capacity of the support frame and further improving the overall stability of the support frame; and simultaneously, convenience is provided for installation.

Specifically, the diagonal strut assembly a comprises a first diagonal strut a2 and a second diagonal strut a 20; the diagonal strut assembly B comprises a first diagonal strut B3 and a second diagonal strut B30; one end of the first diagonal strut a2 is connected to the supporting main rod 1, the other end of the first diagonal strut a2 is connected to one end of the first supporting rod 10 away from the supporting main rod 1, that is, the first diagonal strut a2 is used for connecting the first supporting rod 10 to the supporting main rod 1, one end of the first diagonal strut B3 is connected to the supporting main rod 1, the other end of the first diagonal strut B3 is connected to one end of the second supporting rod 11 away from the supporting main rod 1, that is, the first diagonal strut B3 is used for connecting the second supporting rod 11 to the supporting main rod 1, so that the first diagonal strut a2, the first diagonal strut B3 and the supporting main rod 1 form a triangular support. Of course, the connection position of the first diagonal strut a2 and the supporting main rod 1 is higher than the connection position of the first supporting rod 10 and the supporting main rod 1; the connecting position of the first inclined supporting rod B3 and the supporting main rod 1 is higher than the connecting position of the second supporting rod 11 and the supporting main rod 1, so that the bearing capacity of the supporting main rod 1 is better, and the service life is longer.

One end of the second diagonal strut A20 is connected with the first diagonal strut A2, the other end of the second diagonal strut A20 extends vertically upwards, one end of the second diagonal strut B30 is connected with the first diagonal strut B3, and the other end of the second diagonal strut B30 extends vertically upwards; the top of supporting mobile jib 1 still vertically is connected with consolidates mobile jib 4, consolidate and be connected through reinforcement pole A5 between mobile jib 4 and the second diagonal brace A20, consolidate mobile jib 4 with connect through reinforcement pole B6 between the second diagonal brace B30, be connected through reinforcement pole C7 between second diagonal brace A20 and the second diagonal brace B30 for second diagonal brace A20, second diagonal brace B30 and supporting mobile jib 1 form the triangular support, thereby make the stability of support frame more firm.

Further, in this embodiment, the brace assembly a further includes a third brace a21, one end of the third brace a21 is connected to the second brace a20, and the other end of the third brace a21 is connected to the first brace a2, so that the first brace a2, the second brace a20 and the third brace a21 form a triangular support, thereby improving the stability of the support frame. Similarly, the bracing assembly B further includes a third bracing bar B31, one end of the third bracing bar B31 is connected to the second bracing bar B30, and the other end of the third bracing bar B31 is connected to the first bracing bar B3, so that the first bracing bar B3, the second bracing bar B30 and the third bracing bar B31 form a triangular support, thereby improving the stability of the support frame.

In this embodiment, the inclined strut assembly a further includes a fourth inclined strut a22, one end of the fourth inclined strut a22 is connected to the first inclined strut a2, the other end of the fourth inclined strut a22 is connected to the main support rod 1, and the fourth inclined strut a22 and the first support rod 10 are fixedly connected through a hoop 25, so as to further improve the stability of the support frame. Similarly, the inclined strut assembly B further includes a fourth inclined strut B32, one end of the fourth inclined strut B32 is connected to the first inclined strut B3, the other end of the fourth inclined strut B32 is connected to the main support rod 1, and the fourth inclined strut B32 and the second support rod 11 are fixedly connected through a hoop 25, so that the stability of the support frame is further improved.

Further, in the embodiment, the inclined strut assembly a further includes a first reinforcing rod a23, one end of the first reinforcing rod a23 is connected to the first inclined strut a2, the other end of the first reinforcing rod a23 is connected to the main support rod 1, and the first reinforcing rod a23 is further connected to the fourth inclined strut a22, so that the stability of the support frame is better. Similarly, the inclined strut assembly B further includes a first reinforcing rod B33, one end of the first reinforcing rod B33 is connected to the first inclined strut B3, the other end of the first reinforcing rod B33 is connected to the main support rod 1, and the first reinforcing rod B33 is further connected to the fourth inclined strut a22, so that the stability of the support frame is better.

Further, in the embodiment, the diagonal brace assembly a further includes a second reinforcing rod a24, the second reinforcing rod a24 is located at the top of the first reinforcing rod a23, one end of the second reinforcing rod a24 is connected to the first diagonal brace a2, and the other end of the second reinforcing rod a24 is connected to the main support rod 1, so that the first diagonal brace a2, the second reinforcing rod a24 and the main support rod 1 form a triangular support, and the stability of the support frame is better. Similarly, the diagonal bracing assembly B further includes a second reinforcing bar B34, the second reinforcing bar B34 is located at the top of the first reinforcing bar B33, one end of the second reinforcing bar B34 is connected with the first diagonal bracing bar B3, and the other end of the second reinforcing bar B34 is connected with the support main rod 1, so that the first diagonal bracing bar B3, the second reinforcing bar B34 and the support main rod 1 form a triangular support, and the stability of the support frame is better.

Further explaining the present embodiment, a first reinforcing connecting rod 26 is further connected between the first supporting rod 10 and the supporting main rod 1, so as to further reinforce the connection between the first supporting rod 10 and the supporting main rod 1; a second reinforcing connecting rod 27 is connected between the second supporting rod 11 and the supporting main rod 1, so that the connection between the second supporting rod 11 and the supporting main rod 1 is further reinforced; a third reinforcing connecting rod 35 is connected between the first supporting rod 10 and the first inclined strut A2, so that the connection between the first inclined strut A2 and the first supporting rod 10 is further reinforced; a fourth reinforcing connecting rod 36 is connected between the second supporting rod 11 and the first diagonal strut B3, so as to further reinforce the connection between the second supporting rod 11 and the first diagonal strut B3.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention cannot be limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are all within the protection scope of the present invention.

Claims (10)

1. An inclined support structure for a support frame is used for supporting the support frame, the support frame comprises a support main rod, a first support rod and a second support rod, and the first support rod and the second support rod are respectively connected with the support main rod to form a triangular support; the method is characterized in that:

the inclined strut structure comprises an inclined strut component A and an inclined strut component B;

the inclined strut assembly A comprises a first inclined strut A and a second inclined strut A;

the inclined strut assembly B comprises a first inclined strut B and a second inclined strut B;

one end of the first diagonal brace A is connected with the supporting main rod, the other end of the first diagonal brace A is connected with one end, far away from the supporting main rod, of the first supporting rod, one end of the first diagonal brace B is connected with the supporting main rod, and the other end of the first diagonal brace B is connected with one end, far away from the supporting main rod, of the second supporting rod, so that the first diagonal brace A, the first diagonal brace B and the supporting main rod form a triangular support;

one end of the second inclined strut A is connected with the first inclined strut A, the other end of the second inclined strut A extends vertically upwards, one end of the second inclined strut B is connected with the first inclined strut B, and the other end of the second inclined strut B extends vertically upwards;

the top of supporting the mobile jib is still vertical to be connected with consolidates the mobile jib, consolidate and be connected through anchor strut A between mobile jib and the second diagonal brace A, consolidate the mobile jib with connect through anchor strut B between the second diagonal brace B, be connected through anchor strut C between second diagonal brace A and the second diagonal brace B for second diagonal brace A, second diagonal brace B and supporting the mobile jib form the triangular supports.

2. A bracing structure for a support frame according to claim 1, wherein: the inclined strut assembly A further comprises a third inclined strut A, one end of the third inclined strut A is connected with the second inclined strut A, and the other end of the third inclined strut A is connected with the first inclined strut A, so that the first inclined strut A, the second inclined strut A and the third inclined strut A form a triangular support.

3. A bracing structure for a support frame according to claim 1, wherein: the inclined strut assembly A further comprises a fourth inclined strut A, one end of the fourth inclined strut A is connected with the first inclined strut A, the other end of the fourth inclined strut A is connected with the support main rod, and the fourth inclined strut A and the first support rod are fixedly connected through a hoop.

4. A bracing structure for a support frame according to claim 3, wherein: the diagonal brace component A further comprises a first reinforcing rod A, one end of the first reinforcing rod A is connected with the first diagonal brace A, the other end of the first reinforcing rod A is connected with the support main rod, and the first reinforcing rod A is further connected with the fourth diagonal brace A.

5. A bracing structure for a support frame according to claim 4, wherein: the diagonal bracing assembly A further comprises a second reinforcing rod A, the second reinforcing rod A is located at the top of the first reinforcing rod A, one end of the second reinforcing rod A is connected with the first diagonal bracing rod A, and the other end of the second reinforcing rod A is connected with the supporting main rod, so that the first diagonal bracing rod A, the second reinforcing rod A and the supporting main rod form a triangular support.

6. A bracing structure for a support frame according to claim 1, wherein: the inclined strut assembly B further comprises a third inclined strut B, one end of the third inclined strut B is connected with the second inclined strut B, and the other end of the third inclined strut B is connected with the first inclined strut B, so that the first inclined strut B, the second inclined strut B and the third inclined strut B form a triangular support.

7. A bracing structure for a support frame according to claim 3, wherein: the diagonal support component B further comprises a fourth diagonal support rod B, one end of the fourth diagonal support rod B is connected with the first diagonal support rod B, the other end of the fourth diagonal support rod B is connected with the support main rod, and the fourth diagonal support rod B and the second support rod are fixedly connected through a hoop.

8. A bracing structure for a support frame according to claim 7, wherein: the diagonal support component B further comprises a first reinforcing rod B, one end of the first reinforcing rod B is connected with the first diagonal support rod B, the other end of the first reinforcing rod B is connected with the support main rod, and the first reinforcing rod B is further connected with the fourth diagonal support rod A.

9. A bracing structure for a support frame according to claim 8, wherein: the diagonal bracing component B further comprises a second reinforcing rod B, the second reinforcing rod B is located at the top of the first reinforcing rod B, one end of the second reinforcing rod B is connected with the first diagonal bracing rod B, and the other end of the second reinforcing rod B is connected with the supporting main rod, so that the first diagonal bracing rod B, the second reinforcing rod B and the supporting main rod form a triangular support.

10. A bracing structure for a support frame according to claim 1, wherein: a first reinforcing connecting rod is connected between the first supporting rod and the supporting main rod; a second reinforcing connecting rod is connected between the second supporting rod and the supporting main rod; a third reinforcing connecting rod is connected between the first supporting rod and the first inclined supporting rod A; and a fourth reinforcing connecting rod is connected between the second supporting rod and the first inclined supporting rod B.

Images