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CN-224213557-U - Disassembly-free composite heat-preserving external mold

CN224213557UCN 224213557 UCN224213557 UCN 224213557UCN-224213557-U

Abstract

The utility model provides a disassembly-free composite heat-insulating external mold which comprises a first heat-insulating plate and an embedding groove, wherein a first connecting embedding seat used for being connected with a support frame is arranged on the right side of the first heat-insulating plate, a second connecting embedding seat used for being connected with the second heat-insulating plate is arranged at the lower end of the first connecting embedding seat, and a group of fixed embedding seats used for being movably embedded and connected with the support frame are arranged at the upper end of the first connecting embedding seat.

Inventors

  • LIU ZHONGDONG

Assignees

  • 青岛九屋建筑安装有限公司

Dates

Publication Date
20260508
Application Date
20250218

Claims (7)

  1. 1. The disassembly-free composite heat-insulating outer die comprises a first heat-insulating plate (100), an outer heat-insulating plate (110), a first connecting embedding seat (140) and a caulking groove (170), and is characterized in that the right side of the first heat-insulating plate (100) is provided with the first connecting embedding seat (140) used for being connected with a supporting frame (120); The lower end of the first connection embedding seat (140) is provided with a second connection embedding seat (150) for connecting the second insulation board (160), the upper end of the first connection embedding seat (140) is provided with a group of fixed embedding seats (130) for movably embedded connection with the support frame (120), and the rear side of the fixed embedding seats (130) is provided with a group of support frame (120) for movably connecting the first insulation board (100) and the second insulation board (160); The inner sides of the front ends of the first heat-insulating plate (100) and the second heat-insulating plate (160) are respectively provided with a group of outer heat-insulating plates (110) for improving the heat-insulating effect of the first heat-insulating plate (100) and the second heat-insulating plate (160), and a group of caulking grooves (170) for filling heat-insulating materials are formed in the inner sides of the first heat-insulating plate (100) and the second heat-insulating plate (160).
  2. 2. The disassembly-free composite heat-insulating outer mold of claim 1, wherein the first heat-insulating plate (100) and the second heat-insulating plate (160) have the same specification, the first heat-insulating plate (100) and the second heat-insulating plate (160) are of hollow structures, and the first heat-insulating plate (100) and the second heat-insulating plate (160) are of split structures.
  3. 3. The disassembly-free composite heat-insulating outer mold of claim 2, wherein the left sides of the first heat-insulating plate (100) and the second heat-insulating plate (160) are fixedly connected with the first connecting embedding seats (140), and the right sides of the first heat-insulating plate (100) and the second heat-insulating plate (160) are fixedly connected with the second connecting embedding seats (150).
  4. 4. The disassembly-free composite heat-insulating outer mold according to claim 3, wherein the first heat-insulating plate (100) comprises a front shell (10 a) and an inner rotary shaft (10 i), two groups of inner supporting frames (10 b) for supporting are arranged on the inner side of the front shell (10 a), and a group of inner rotary shafts (10 i) for movably connecting with the side supporting arms (10 c) are arranged in the middle position inside each group of inner supporting frames (10 b).
  5. 5. The disassembly-free composite heat-insulating outer mold according to claim 4, wherein a group of connecting seats (10 d) for movably supporting and connecting the outer supporting arms are arranged on the outer sides of the side supporting arms (10 c), a group of buffer seats (10 e) for slowly releasing pressure between the front shell (10 a) and the rear shell (10 f) are arranged on the rear side of the connecting seats (10 d), and the rear shell (10 f) is arranged on the rear side of the front shell (10 a).
  6. 6. The disassembly-free composite heat-insulating outer die as set forth in claim 5, wherein a group of heat-insulating cavities (10 g) for improving heat insulation and heat preservation effects are arranged on the inner side of the front shell (10 a) and the inner side of the rear shell (10 f), and a group of inner plates (10 h) for insulating the interior are arranged between the two groups of heat-insulating cavities (10 g).
  7. 7. The disassembly-free composite heat-insulating outer die of claim 6, wherein the inner wall of the heat-insulating cavity (10 g) is filled with a heat-insulating adhesive layer for insulating temperature conduction, a heat-insulating material for insulating temperature is arranged in the heat-insulating cavity (10 g), the buffer seat (10 e) is connected with the front shell (10 a) and the rear shell (10 f) through a group of air dampers, and the inner lower end of the inner rotary shaft (10 i) is connected with a group of rotary damping movable ends.

Description

Disassembly-free composite heat-preserving external mold Technical Field The utility model belongs to the technical field of heat preservation boards, and relates to a disassembly-free composite heat preservation outer mold. Background The heat-insulating wall board is a wall material with heat-insulating function, and mainly aims to keep indoor temperature stable and reduce energy consumption. The heat insulation material is widely applied to the parts of building external walls, roofs, floors and the like, is favored by the market in terms of the characteristics of excellent heat insulation performance, fireproof performance, environmental protection performance and the like, and can not be carried out on the basis of dismantling-free if the heat insulation material is required to be replaced in the maintenance or upgrading process of a heat insulation system, so that a series of problems and challenges can be brought. The inability to replace the insulation board without disassembly means that the original insulation must be removed, which greatly increases construction difficulty and cost. In the dismantling process, a large amount of manpower and material resources are needed, and the surrounding environment and the building structure can be damaged to different degrees, so that a dismantling-free composite heat-insulating external mold is needed to solve the problems. Disclosure of utility model Aiming at the defects existing in the prior art, the utility model aims to provide a disassembly-free composite heat-preserving external mold, which solves the problems in the prior art. The utility model is realized by the following technical scheme that the disassembly-free composite heat-insulating outer die comprises a heat-insulating plate I and a caulking groove, wherein a connecting caulking seat I used for being connected with a supporting frame is arranged on the right side of the heat-insulating plate I; The lower end of the connecting embedding seat is provided with a connecting embedding seat II for connecting the heat-insulating plate II, the upper end of the connecting embedding seat I is provided with a group of fixed embedding seats for movably embedded connection with the supporting frames, and the rear side of the fixed embedding seat is provided with a group of supporting frames for movably connecting the heat-insulating plate I and the heat-insulating plate II; The inner sides of the front ends of the first heat-insulating plate and the second heat-insulating plate are respectively provided with a group of outer heat-insulating plates for improving the heat-insulating effect of the first heat-insulating plate and the second heat-insulating plate, a group of caulking grooves for filling heat-insulating materials are formed in the inner sides of the first heat-insulating plate and the second heat-insulating plate, and the indoor temperature and the outdoor temperature can be insulated by using the first heat-insulating plate and the second heat-insulating plate. As a preferred implementation mode, the first insulation board and the second insulation board have the same specification, the first insulation board and the second insulation board are of hollow structures, and the first insulation board and the second insulation board are of split structures. As a preferred implementation mode, the first insulation board and the second insulation board are fixedly connected with the two groups of connection embedded seats, the support frame can be movably connected through the first connection embedded seats and the second connection embedded seats, and the folding angle between the first insulation board and the second insulation board is adjusted. As a preferred implementation mode, the first heat-insulating plate comprises a front shell and an inner shaft, two groups of inner supporting frames for supporting are arranged on the inner side of the front shell, and a group of inner shafts for being movably connected with the side supporting arms are arranged in the middle position inside each group of inner supporting frames. As a preferred embodiment, the outside of the side supporting arm is provided with a group of connecting seats for movably supporting and connecting the outer supporting arm, the rear side of the connecting seats is provided with a group of buffer seats for slowly releasing the pressure between the front shell and the rear shell, and the rear side of the front shell is provided with the rear shell, so that the staff can conveniently detach the whole body and replace the heat insulation material by using the front shell and the rear shell. As a preferable implementation mode, the inner side of the front shell and the inner side of the rear shell are respectively provided with a group of heat insulation cavities for improving heat insulation and heat preservation effects, and a group of inner plates for insulating the inside are arranged between the two groups of heat insulation