CN-224213677-U - Waterproof heat preservation integrated system structure of deep groove technology

Abstract

The application relates to the field of outer wall structures, in particular to a waterproof and heat-insulating integrated system structure for a deep groove process. Including a plurality of substrate heat preservation strips and heated board, each substrate heat preservation strip is fixed to be set up on the wall and splice into a plurality of square, the heated board is including being arranged in the bottom in square and the fixed top that sets up on the bottom and outwards extends the bottom all around, the top of heated board is fixed to be laminated on the substrate heat preservation strip of four frames of square, reserves the interval between the top of two adjacent heated boards to the top side of two heated boards and the partial surface that corresponds the substrate heat preservation strip constitute the slot. The system has unique structure, avoids the system problem of cracking and water seepage of the traditional deep groove heat preservation process, has good heat preservation effect, high efficiency and convenience in construction, various deep groove shapes and low cost.

Inventors

• PENG YUEFEI
• LIU WEI
• ZHENG MIN
• CHEN XIN

Assignees

• 福建省三棵树新材料有限公司

Dates

Publication Date

20260508

Application Date

20250429

Claims (7)

1. 1. The waterproof and heat-insulating integrated system structure for the deep groove process is characterized by comprising a plurality of substrate heat-insulating strips and heat-insulating boards, wherein each substrate heat-insulating strip is fixedly arranged on a wall surface and spliced into a plurality of square grids, each heat-insulating board comprises a bottom part arranged in each square grid and a top part fixedly arranged on the bottom part and the periphery of each heat-insulating board extends outwards to form the bottom part, the top parts of the heat-insulating boards are fixedly attached to the substrate heat-insulating strips of four frames of the square grids, and a space is reserved between the top parts of two adjacent heat-insulating boards, so that the side surfaces of the top parts of the two heat-insulating boards and part of the outer surfaces of the corresponding substrate heat-insulating strips form grooves.
2. 2. The integrated waterproof and thermal-insulation system structure for the deep groove process, as set forth in claim 1, wherein the bottom portion has a shape and size consistent with those of the square hollow area, and the top portion has a square shape.
3. 3. The integrated waterproof and heat-insulating system structure for the deep groove process of claim 1, wherein the side surface of the top is one or a combination of a plane, an arc surface and a double arc surface.
4. 4. The deep groove process waterproof and heat-insulating integrated system structure of claim 1, wherein the heat-insulating board is connected with the substrate heat-insulating strip through bonding mortar, and the substrate heat-insulating strip is also connected with the wall surface through bonding mortar.
5. 5. The deep groove process waterproof and heat-insulating integrated system structure of claim 1, wherein the surface of the groove is further covered with a bonding mortar layer.
6. 6. The integrated waterproof and thermal insulation system structure for the deep groove process of claim 5, wherein the outer surface of the top of the thermal insulation board and the surface of the bonding mortar layer of the groove are both sprayed with a facing layer.
7. 7. The deep groove process waterproof and heat-insulating integrated system structure of claim 1, wherein the joint of the substrate heat-insulating strip and the substrate heat-insulating strip is provided with self-adhesive mesh cloth.

Description

Waterproof heat preservation integrated system structure of deep groove technology Technical Field The application relates to the field of outer wall structures, in particular to a waterproof and heat-insulating integrated system structure for a deep groove process. Background The statements in this section merely provide background information related to the present disclosure and may not constitute prior art. The design of the outer wall groove can enable the outer wall surface to generate a shadow effect, so that stronger third dimension and layering sense are created, the whole effect is more attractive, the strength of the outer wall can be increased, the pressure resistance and the friction force are improved, and the whole stability and the durability are enhanced. The external wall groove structure in the related art needs to be provided with an insulation board, an aluminum alloy modeling groove is provided on the insulation board according to the design, filling leveling mortar is provided in the surrounding frame of the aluminum alloy modeling groove, and finally, a finish coat is sprayed. The structure of the outer wall groove has complex process, the comprehensive cost is high by adopting a plurality of aluminum alloy modeling grooves and filling leveling mortar, and the filling leveling mortar and aluminum alloy have poor cohesiveness and are easier to crack. Disclosure of Invention In view of the above, the application provides a waterproof and heat-insulating integrated system structure for a deep groove process, which has low cost and is not easy to crack. In order to achieve the above purpose, the present application is realized by the following technical scheme: The waterproof and heat-insulating integrated system structure for the deep groove process is characterized by comprising a plurality of substrate heat-insulating strips and heat-insulating boards, wherein each substrate heat-insulating strip is fixedly arranged on a wall surface and spliced into a plurality of square grids, each heat-insulating board comprises a bottom part arranged in each square grid and a top part fixedly arranged on the bottom part and the periphery of each heat-insulating board extends outwards to form the bottom part, the top parts of the heat-insulating boards are fixedly attached to the substrate heat-insulating strips of four frames of the square grids, and a space is reserved between the top parts of two adjacent heat-insulating boards, so that the side surfaces of the top parts of the two heat-insulating boards and part of the outer surfaces of the corresponding substrate heat-insulating strips form grooves. According to the waterproof and heat-insulating integrated system structure for the deep groove process, the heat-insulating plates are fixedly installed on the substrate heat-insulating strips spliced into square, grooves can be arranged between the tops of adjacent heat-insulating plates and the substrate heat-insulating strips, an aluminum alloy modeling groove and leveling mortar are not needed, so that the manufacturing cost is low, and the problems of poor adhesion between the filling leveling mortar and the aluminum alloy and easiness in cracking are solved. In some embodiments, the bottom portion has a contour size that conforms to the shape size of the square hollow area and the top portion has a square shape. In some embodiments, the sides of the top are one or a combination of planar, cambered, and double cambered surfaces. The sides of the top of the insulation board may be provided in various shapes according to the specific shape of the groove. In some embodiments, the insulation board is connected with the substrate insulation bar through bonding mortar, and the substrate insulation bar is also connected with the wall surface through bonding mortar. In some embodiments, the surface of the groove is further covered with a layer of adhesive mortar. In some embodiments, the exterior surface of the top of the insulation board and the surface of the bonding mortar layer of the groove are both sprayed with a finish layer. In some embodiments, a self-adhesive mesh is provided at the junction of the substrate thermal insulation strip and the substrate thermal insulation strip. This mainly serves as reinforcement. According to the technical scheme, the application has at least the following advantages and positive effects: 1. According to the waterproof and heat-insulating integrated system structure for the deep groove process, the heat-insulating plates are fixedly installed on the substrate heat-insulating strips spliced into square, grooves can be arranged between the tops of adjacent heat-insulating plates and the substrate heat-insulating strips, an aluminum alloy modeling groove and leveling mortar are not needed, so that the manufacturing cost is low, and the problems of poor adhesion between the filling leveling mortar and the aluminum alloy and easiness in cracking are solved. 2. Th