Search

CN-224228246-U - Adjustable bracket for erecting and reinforcing inclined plate support system

CN224228246UCN 224228246 UCN224228246 UCN 224228246UCN-224228246-U

Abstract

The utility model provides an adjustable bracket for erecting and reinforcing an inclined plate support system, wherein a support pipe is vertically arranged, a support base is arranged at the bottom of the support pipe, a split screw rod is movably inserted into the pipe body of the support pipe at the lower end of the split screw rod, the upper end of the split screw rod extends out of the pipe body, the split screw rod comprises a left half rod body and a right half rod body which are oppositely arranged along radial surfaces, transverse concave-convex structures which are mutually embedded are arranged on the radial surfaces of the left half rod body and the right half rod body, so that the left half rod body and the right half rod body can be fixed in a matched mode at different heights, the split bracket comprises a left half bracket arranged at the top of the left half rod body and a right half bracket arranged at the top of the right half rod body, the adjacent surfaces of the left half bracket and the right half bracket are parallel to the radial surfaces of the split screw rod, and an adjusting nut is movably arranged on the support pipe and meshed with the split screw rod. The construction of the template support at the inclined plate is conveniently and rapidly completed, the stable support of the template at the inclined plate is maintained in the concrete pouring process, and the pouring quality is improved.

Inventors

  • HUANG LEI
  • ZHANG JUBIAO
  • ZHANG WEI
  • SU SHIGUANG
  • ZHANG HAOFEI
  • PENG WEIXING

Assignees

  • 中交建筑集团第二工程有限公司

Dates

Publication Date
20260512
Application Date
20250605

Claims (9)

  1. 1. An adjustable bracket for erecting reinforcement of a sloping plate support system, comprising: the support pipes (1) are vertically arranged, and the bottoms of the support pipes are provided with support bases (2); The lower end of the split screw rod (3) is movably inserted into the pipe body of the supporting pipe (1), the upper end of the split screw rod extends out of the pipe body, the split screw rod (3) comprises a left half rod body (31) and a right half rod body (32) which are oppositely arranged along the radial surface, and the radial surfaces of the left half rod body (31) and the right half rod body (32) are provided with transverse concave-convex structures (33) which are mutually embedded, so that the left half rod body (31) and the right half rod body (32) can be matched and fixed at different heights; the split bracket (4) comprises a left half bracket (41) arranged at the top of a left half rod body (31), a right half bracket (42) arranged at the top of a right half rod body (32), wherein the adjacent surfaces of the left half bracket (41) and the right half bracket (42) are parallel to the radial surface of the split screw rod (3), and And the adjusting nut (5) is movably arranged on the supporting tube (1) and meshed with the split screw rod (3).
  2. 2. Adjustable bracket for the erection reinforcement of inclined plate support system according to claim 1, characterized in that the bottom of the adjusting nut (5) is provided with an annular groove arranged concentric with the threaded hole of the nut, which is in sliding fit with the top of the support tube (1).
  3. 3. Adjustable bracket for erection reinforcement of inclined plate support system according to claim 1 or 2, characterized in that the outer side of the adjusting nut (5) is provided with radially outwardly extending adjusting rods (51), the adjusting rods (51) comprising at least two and being circumferentially equispaced.
  4. 4. The adjustable bracket for erecting reinforcement of a swash plate support system according to claim 1, wherein the transverse concave-convex structures (33) are arranged along a vertical array, including concave structures arranged on a radial surface of the left half rod body (31) and convex structures arranged on a radial surface of the right half rod body (32), and convex structures arranged on a radial surface of the left half rod body (31) and concave structures arranged on a radial surface of the right half rod body (32).
  5. 5. The adjustable bracket for erection reinforcement of a swash plate support system according to claim 4, wherein the distance between the concave structure and the convex structure of the radial surface of the left half rod body (31) is an integer multiple of the pitch of the screw thread, and the distance between the concave structure and the convex structure of the radial surface of the left half rod body (31) and the distance between the concave structure and the convex structure of the radial surface of the right half rod body (32) are identical.
  6. 6. The adjustable bracket for erecting reinforcement of the inclined plate support system according to claim 1, wherein a centralizing ring (6) is arranged in the pipe body, and an inner hole of the centralizing ring (6) is matched with the split screw rod (3).
  7. 7. The adjustable bracket for erecting reinforcement of a sloping plate support system according to claim 1, wherein a left support plate connected with a left half bracket (41) is arranged at the top of the left half rod body (31), and a right support plate connected with a right half bracket (42) is arranged at the top of the right half rod body (32).
  8. 8. The adjustable bracket for erecting reinforcement of a sloping plate support system according to claim 7, characterized in that the left half bracket (41) is provided with a left half rail which is transversely opened, a left bearing tube (71) is transversely arranged on the left half rail, and/or the right half bracket (42) is provided with a right half rail which is transversely opened, and a right bearing tube (72) is transversely arranged on the right half rail.
  9. 9. The adjustable bracket for the erection reinforcement of the inclined plate support system according to claim 8, wherein the left and right bearing pipes (71, 72) are circular pipes.

Description

Adjustable bracket for erecting and reinforcing inclined plate support system Technical Field The utility model relates to the field of constructional engineering, in particular to an adjustable bracket for erecting and reinforcing an inclined plate supporting system. Background At present, most concrete floors adopt a concrete cast-in-situ form, so that quick construction is convenient. In the construction of the template support, the template erection at the non-flat plate position often has an irregular problem, for example, the inclined plates such as stair plates, haunching beam plates and the like are reinforced in a heightening mode, the operation is time-consuming, the stable support of the inclined plates with different inclination angles is difficult to realize, and the forming quality is not up to standard. In the later quality inspection, the concrete quality problem of the floor slab at the non-flat plate position is far beyond the flat plate position, so that more later repair construction is caused, and the construction cost is increased. Disclosure of utility model Based on the construction method, the adjustable bracket for erecting and reinforcing the inclined plate support system is provided, so that construction of the formwork support at the inclined plate with different inclination angles can be conveniently and rapidly completed, stable support of the formwork at the inclined plate is maintained in the concrete pouring process, and pouring molding quality is improved. In order to achieve the aim, the adjustable bracket for erecting and reinforcing the inclined plate support system comprises a support pipe, split screws, split brackets and adjusting nuts, wherein the support pipe is vertically arranged, a support base is arranged at the bottom of the support pipe, the lower ends of the split screws are movably inserted into the pipe body of the support pipe, the upper ends of the split screws extend out of the pipe body, the split screws comprise left half rod bodies and right half rod bodies which are oppositely arranged along radial surfaces, the radial surfaces of the left half rod bodies and the right half rod bodies are provided with transverse concave-convex structures which are mutually embedded, so that the left half rod bodies and the right half rod bodies can be matched and fixed at different heights, the split brackets comprise left half brackets arranged at the top of the left half rod bodies and right half brackets arranged at the top of the right half rod bodies, the adjacent surfaces of the left half brackets and the right half brackets are parallel to the radial surfaces of the split screws, and the adjusting nuts are movably arranged on the support pipe and meshed with the split screws. Further, the bottom of the adjusting nut is provided with an annular groove which is concentrically arranged with the threaded hole of the nut, and the annular groove is in sliding fit with the top of the supporting tube. Further, the outer side of the adjusting nut is provided with adjusting rods which extend outwards in the radial direction, and the adjusting rods at least comprise two adjusting rods and are uniformly distributed along the circumference. Further, the transverse concave-convex structure is arranged along the vertical array, and comprises a concave structure arranged on the radial surface of the left half rod body, a convex structure arranged on the radial surface of the right half rod body, and a convex structure arranged on the radial surface of the left half rod body and a concave structure arranged on the radial surface of the right half rod body. Further, the distance between the concave structure and the convex structure of the radial surface of the left half rod body is an integral multiple of the pitch of the screw thread, and the distance between the concave structure and the convex structure of the radial surface of the left half rod body is consistent with the distance between the concave structure and the convex structure of the radial surface of the right half rod body. Further, a centralizing ring is arranged in the pipe body, and an inner hole of the centralizing ring is matched with the split screw rod. Further, a left support plate connected with the left half support seat is arranged at the top of the left half rod body, and a right support plate connected with the right half support seat is arranged at the top of the right half rod body. Further, the left half support seat is provided with a left half rail which is transversely opened, a left bearing pipe is transversely arranged on the left half rail, and/or the right half support seat is provided with a right half rail which is transversely opened, and a right bearing pipe is transversely arranged on the right half rail. Further, the left bearing tube and the right bearing tube are round tubes. The adjustable bracket for erecting the reinforced sloping plate support system has the beneficial effects