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CN-224200106-U - Adjustable unit beam system

CN224200106UCN 224200106 UCN224200106 UCN 224200106UCN-224200106-U

Abstract

The utility model relates to a debugged unit beam system which is arranged on a glass panel and comprises a unit beam, a glass auxiliary frame and a first fixing device, wherein the unit beam comprises a first arc-shaped surface, the glass auxiliary frame comprises a fixing surface which is fixed on the glass panel, a second arc-shaped surface and the radian of which is attached to the first arc-shaped surface, the first fixing device sequentially penetrates through the second arc-shaped surface and the first arc-shaped surface to fix the unit beam on the glass auxiliary frame, and when the peaks of the first arc-shaped surface and the second arc-shaped surface are overlapped, a gap exists between the edge of the first arc-shaped surface and the surface of the glass panel. The utility model can effectively reduce the number of the dies, improve the use frequency of the dies and reduce the die opening cost.

Inventors

  • JIN ZHAO
  • WANG YANLIN
  • ZHANG TAO

Assignees

  • 江苏恒尚节能科技股份有限公司

Dates

Publication Date
20260505
Application Date
20250530

Claims (10)

  1. 1. A tunable cell beam system, mounted to a glass panel, comprising: The unit cross beam comprises a first arc-shaped surface; a glass subframe, comprising: a fixing surface fixed on the glass panel, The radian of the second arc-shaped surface is attached to the first arc-shaped surface; The first fixing device sequentially penetrates through the second arc-shaped surface and the first arc-shaped surface to fix the unit cross beam to the glass auxiliary frame; When the vertexes of the first arc-shaped surface and the second arc-shaped surface are overlapped, a gap exists between the edge of the first arc-shaped surface and the surface of the glass panel.
  2. 2. The tunable element rail system of claim 1, wherein the first arcuate surface is larger in area than the second arcuate surface such that the second arcuate surface covers the first arcuate surface.
  3. 3. The tunable element rail system of claim 1, wherein the first arcuate surface edge extends with a support foot, the support foot being spaced from a surface of the glass panel.
  4. 4. A debugged unit beam system according to claim 3 wherein the support feet have adhesive strips mounted thereon.
  5. 5. The tunable unit rail system of claim 1, wherein the fixing surface of the glass subframe is fixed to the glass panel by an adhesive structure.
  6. 6. The adjustable unit beam system according to claim 5, wherein the glass panel is mounted on a wall structure, a mounting hole is formed in the wall structure, the fixing surface comprises a first plane and a second plane which are located on two sides of the mounting hole, the first plane and the second plane are both fixed to the glass panel through a pasting structure, a first clamping structure is arranged between the first plane and the second plane, the unit beam system further comprises a panel strip structure, one end of the panel strip structure is clamped to the first clamping structure through clamping pins, and the other end of the panel strip structure is fixed in the mounting hole of the wall structure.
  7. 7. The tunable unit cross beam system of claim 6, wherein a seal is provided between an outer side of the molding structure and an inner side of the mounting hole.
  8. 8. The adjustable unit beam system according to claim 6, further comprising a second clamping structure disposed between the first plane and the second plane, wherein the unit beam system further comprises a supporting plate, one end of the supporting plate is hooked and is hooked in the second clamping structure, and a cushion block is disposed between a side edge of a plate body of the supporting plate and a mounting hole of the wall structure.
  9. 9. The tunable unit beam system according to claim 6, further comprising a second fixing device that sequentially passes through the molding structure and the glass subframe from a side of the wall structure remote from the glass panel to fix the glass subframe to the molding structure.
  10. 10. The tunable unit rail system of claim 9, wherein a strip of glue is disposed in a mounting hole of the wall structure from a side of the wall structure remote from the glass panel, sealing the second fixture in the mounting hole.

Description

Adjustable unit beam system Technical Field The utility model relates to a building structure, in particular to a cross beam system of a debugging unit. Background The angle of the unit cross-beam with respect to the glass panel may be different when mounted on the glass panel, as desired. In the prior art, the mounting mode of the unit cross beam is relatively fixed, and the unit cross beam can only be mounted at a fixed angle relative to the glass panel. On the one hand, in order to meet the requirements of different security angles, the mounting structure of the unit cross beam is designed according to different mounting angles, so that the design, manufacturing and opening costs are high and the period is long, and on the other hand, the cross beam dies of various structures and mounting methods also increase the learning cost and the operation cost in actual mounting. Disclosure of utility model Aiming at the defects of the prior art, the utility model discloses a cross beam system of a debugged unit. The technical scheme adopted by the utility model is as follows: The adjustable unit beam system is mounted on a glass panel and comprises a unit beam, a glass auxiliary frame and a first fixing device, wherein the unit beam comprises a first arc-shaped surface, the glass auxiliary frame comprises a fixing surface, the fixing surface is fixed on the glass panel, a second arc-shaped surface is in radian fit with the first arc-shaped surface, the first fixing device sequentially penetrates through the second arc-shaped surface and the first arc-shaped surface to fix the unit beam on the glass auxiliary frame, and when the peaks of the first arc-shaped surface and the second arc-shaped surface are in coincidence, a gap exists between the edge of the first arc-shaped surface and the surface of the glass panel. The further technical scheme is that the area of the first arc-shaped surface is larger than that of the second arc-shaped surface, so that the second arc-shaped surface covers the first arc-shaped surface. The glass panel is characterized in that the edge of the first arc-shaped surface extends to form a supporting leg, and a gap exists between the supporting leg and the surface of the glass panel. The further technical scheme is that the adhesive tape is arranged on the supporting leg. The fixing surface of the glass auxiliary frame is fixed on the glass panel through a pasting structure. The glass panel is mounted on a wall structure, a mounting hole is formed in the wall structure, the fixing surface comprises a first plane and a second plane which are located on two sides of the mounting hole, the first plane and the second plane are both fixed on the glass panel through a pasting structure, a first clamping structure is arranged between the first plane and the second plane, the unit beam system further comprises a panel strip structure, one end of the panel strip structure is clamped in the first clamping structure through a clamping pin, and the other end of the panel strip structure is fixed in the mounting hole of the wall structure. The sealing element is arranged between the outer side surface of the embedded strip structure and the inner side surface of the mounting hole. The unit beam system further comprises a supporting plate, one end of the supporting plate is in a hook shape and is hooked in the second clamping structure, and a cushion block is arranged between the side edge of the plate body of the supporting plate and the mounting hole of the wall body structure. The unit beam system further comprises a second fixing device, wherein the second fixing device sequentially penetrates through the panel strip structure and the glass auxiliary frame from one side, far away from the glass panel, of the wall structure to fix the glass auxiliary frame to the panel strip structure. The further technical scheme is that an adhesive tape is arranged in a mounting hole of the wall structure from one side of the wall structure far away from the glass panel, and the second fixing device is sealed in the mounting hole. The beneficial effects of the utility model are as follows: According to the utility model, the unit cross beam and the glass auxiliary frame are respectively provided with the arc-shaped surfaces which are matched with each other, and as the second arc-shaped surface is fixed relative to the glass auxiliary frame, when the position of the first arc-shaped surface relative to the second arc-shaped surface is changed, a certain angle is generated between the unit cross beam and the plane of the glass panel. When the unit beam and the glass panel are required to have various installation angles, the design structure is not required to be designed, and a plurality of sets of beam molds are not required to be designed due to the angle problem. The number of the dies can be effectively reduced, the use frequency of the dies can be improved, and the die opening cost can be reduced. Drawings F