CN107419845A - Vacuum inner core non-bearing building wall board - Google Patents

Abstract

The invention relates to a non-load-bearing building wallboard with a vacuum inner core, comprising an inner board, a filling material, an interface agent, a vacuum insulation layer, a grid cloth, and an outer board; the inner board material is a calcium silicate board; the filling material is fiber cement and Polystyrene mixed particles; the vacuum insulation layer is composed of vacuum insulation board and benzene board; the vacuum insulation board is surrounded by benzene board; the outer board is a decorative protective layer; There are two types of A and B, and the connecting parts of the two adjacent models are set as stepped joints to prevent thermal bridges; bolts are embedded in the main frame, and bolts are used between wall panels and wall panels, and between wall panels and the main frame; The upper part of the board is pre-embedded with threaded steel bars for fixing the wall board; the building wall board involved in the invention has good thermal insulation effect and obvious sound insulation and sound absorption effects. Small self-weight, low requirements for construction technology, green and environmental protection during construction, will not cause environmental pollution.

Description

Vacuum core non-load bearing building wall panels

technical field

The invention belongs to the technical field of building technology, and in particular relates to a non-load-bearing building wallboard with a vacuum inner core.

Background technique

At present, the wall panels of houses and buildings are generally concrete structural wall panels, and their disadvantages mainly include:

1. The insulation effect is poor, and the sound insulation and sound absorption effects are not obvious.

2. It is heavy and has high requirements for construction technology, and it is easy to cause environmental pollution during the construction process.

3. It is time-consuming and labor-intensive, and the cost is high, which is not conducive to the policy of economical development.

Therefore, it is extremely important to develop a vacuum inner core non-load-bearing building wallboard for house construction.

Contents of the invention

In order to solve the above-mentioned technical problems, the present invention provides a building wallboard, which solves the problems of poor thermal insulation effect, heavy weight, environmental pollution and high cost of existing wallboards, and provides a simple structure, convenient installation and use, and improved Efficient vacuum core non-load bearing architectural wall panels.

The technical scheme that the present invention adopts is as follows:

A non-load-bearing building wall panel with a vacuum inner core, including an inner panel, a first filling material layer, an interface agent, a vacuum insulation layer, a second filling material layer, a grid cloth, and an outer panel; the inner panel and the first filling material outside it The layers are pasted and connected by a universal adhesive; a vacuum insulation layer is provided on the outside of the first filling material layer, and the surface of the vacuum insulation layer is wrapped with an interface agent; The grid cloth is pasted and connected by a universal glue, and the mesh cloth and the outer panel are connected by a universal glue. The upper part of the first filling material layer of the wall board is pre-embedded with threaded steel bars, and the wall board is fixed by inserting the steel bar into the frame; the wall board The four corners are provided with bolts.

Further, the wall panels are divided into two types, A and B, and the connecting parts of the two adjacent models are set as stepped interfaces to prevent thermal bridges.

Further, for the A-type wall panel, the height of the inner panel is smaller than that of the outer panel, the width of the inner panel is smaller than the width of the outer panel, and the inner panel is arranged in the middle of the outer panel.

Further, in the B-type wallboard, the height of the inner panel is smaller than the height of the outer panel, the width of the inner panel is equal to the width of the outer panel, and the second filling material layer between the inner panel and the outer panel is staggered, The second filling material layer is stepped.

Further, the vacuum insulation layer includes a vacuum insulation panel and a benzene panel, and benzene panels are arranged around the vacuum insulation panel, and horizontal and vertical ribs with holes are arranged inside the vacuum insulation panel; the vacuum insulation panel is composed of a filling core material and a vacuum protection panel. Surface composite composition.

Further, the filling core material in the vacuum insulation panel is glass wool core material or ultra-fine glass fiber, which is packaged with high-barrier packaging material in its vacuum state.

Further, the inner panel uses calcium silicate board as the surface material; the first filling material layer is fiber cement and polystyrene mixed particles; the mesh cloth is alkali-resistant glass fiber mesh cloth; the outer board is the protective layer , its thickness is 5-10mm, and the material of the outer plate is anti-crack mortar, which has anti-corrosion effect.

Furthermore, a decorative layer is provided on the outer side of the outer panel for decoration and beautification.

Further, the wallboard is used according to the actual needs using type A or a combination of types A and B.

Further, the wallboards are connected in steps to increase the contact area.

Compared with the prior art, the beneficial effects of the present invention are: the building wall board involved in the present invention has good thermal insulation effect, and obvious sound insulation and sound absorption effects. Small self-weight, low requirements for construction technology, green and environmental protection during construction, will not cause environmental pollution. Moreover, it has a fireproof effect, and is quick to install, and has strong decorative properties, which is beneficial to construction.

Description of drawings

Fig. 1 is a schematic diagram of the connection mode of the vacuum inner core non-load-bearing building wallboard of the present invention.

Fig. 2 is the A-A sectional view of Fig. 1 of the non-load-bearing building wallboard with vacuum inner core of the present invention.

Fig. 3 is a structural diagram of part A of the non-load-bearing building wallboard with a vacuum inner core of the present invention.

Figure 4 is a front view of part A of the vacuum core non-load bearing building wall panel of the present invention.

Figure 5 is a side view of part A of the vacuum core non-load bearing building wall panel of the present invention.

Fig. 6 is a top view of part A of the non-load-bearing building wallboard with vacuum inner core of the present invention.

Fig. 7 is a schematic structural view of part B of the non-load-bearing building wallboard with a vacuum inner core of the present invention.

Figure 8 is a front view of part B of the vacuum core non-load bearing building wall panel of the present invention.

Fig. 9 is a top view of part B of the non-load-bearing building wall panel with vacuum inner core of the present invention.

Figure 10 is a front view of the vacuum insulation layer of the vacuum core non-load bearing building wall panel of the present invention.

Figure 11 is a side view of the ribs of the vacuum core non-load bearing building wall panel of the present invention.

In the figure: 1. Inner panel; 2. First filling material layer; 3. Interface agent; 4. Vacuum insulation layer; 5. Second filling material layer; 6. Mesh cloth; 7. Outer panel; 8. Bolts; 9. Steel bars; 10. Vacuum insulation panels; 11. Benzene panels; 12. Ribs.

detailed description

The present invention will be described in detail below in conjunction with the accompanying drawings and specific embodiments.

Example

As shown in Figures 1 to 11, the non-load-bearing building wallboard with a vacuum inner core includes an inner panel 1, a first filling material layer 2, an interface agent 3, a vacuum insulation layer 4, a second filling material layer 5, a grid cloth 6, The outer panel 7; the inner panel 1 is made of calcium silicate board; the first filling material layer 2 is mixed particles of fiber cement and polystyrene; the inner panel 1 and the first filling material layer 2 are connected by pasting; the vacuum insulation layer 4 is made of Vacuum insulation panel 10 and benzene panel 11 are composed of vacuum insulation panel 10, which is composed of filling core material and vacuum protection surface layer. Ribs 12 with holes are arranged inside vacuum insulation panel 10; benzene panels 11 are arranged around vacuum insulation panel 10; outer panels 7 is the protective layer, and the material of the protective layer is anti-crack mortar, which has anti-corrosion effect; the wall panels are divided into two types, A and B, and the connecting parts of the adjacent two models are set as stepped interfaces to prevent thermal bridges; the main frame is pre-embedded Bolts 8, wall panels and wall panels, wall panels and the main frame are connected by bolts 8; the second filling material city 5, grid cloth 6, and outer panel 7 are connected by universal glue. A threaded steel bar 9 is pre-embedded on the top of the wallboard to fix the wallboard; the vacuum insulation panel 4 is composed of a filling core material and a vacuum protective layer, and the filling core material is glass wool core material or ultra-fine glass fiber , encapsulated with a high-barrier packaging material in its vacuum state; a stepped connection is adopted between the wall panels to increase the contact area; the inner panel 1 uses a calcium silicate board as the surface material, and appropriately adds A new type of wallboard material formed by admixture; the thickness of the outer panel 7 is 5-10mm; the outer wall insulation structure of the building can also be provided with a decorative layer for decoration and beautification, and the decorative layer is located outside the outer panel 7 . The decorative layer can be personalized according to individual preferences; the grid cloth 6 is an alkali-resistant glass fiber mesh cloth; the wallboard can be used in combination with part A or A and B according to actual needs; the vacuum insulation panel 10 is set The horizontal and vertical ribs 12 with holes can relieve the pressure generated by the vacuum, and can reduce the air suction holes and reduce the cost.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention in any form. Any simple modifications made to the above embodiments according to the technical essence of the present invention, equivalent changes and modifications, all belong to this invention. within the scope of the technical solution of the invention.

Claims (10)

1. Vacuum inner core non-load-bearing building wallboard, characterized in that it includes an inner panel (1), a first filling material layer (2), an interface agent (3), a vacuum insulation layer (4), a second filling material layer ( 5), grid cloth (6), outer panel (7); the inner panel (1) and the outer first filling material layer (2) are pasted and connected by a universal adhesive; the first filling material layer (2) A vacuum heat insulation layer (4) is provided on the outside, and the surface of the vacuum heat insulation layer (4) is wrapped with an interface agent (3). The outside of the vacuum heat insulation layer (4) is provided with a second filling material layer (5), and the second filling material layer ( 5) The mesh cloth (6) is pasted and connected with the all-purpose adhesive, the mesh cloth (6) is connected with the outer panel (7) by the multi-purpose glue, and the upper part of the first filling material layer (2) of the wallboard is pre-embedded Threaded steel bar (9), the wall panel is fixed by inserting the steel bar (9) into the frame; the four corners of the wall panel are provided with bolts (8). 2. The non-load-bearing building wallboard with vacuum inner core according to claim 1, characterized in that: the wallboard is divided into two types, A and B, and the connecting parts of the adjacent two models are set as stepped interfaces to prevent thermal bridge. 3. The non-load-bearing building wall panel with vacuum inner core according to claim 2, characterized in that: for the wall panel of type A, the height of the inner panel (1) is smaller than the height of the outer panel (7), and the inner panel The width of (1) is smaller than that of the outer plate (7), and the inner plate (1) is arranged in the middle of the outer plate (7). 4. The non-load-bearing building wallboard with vacuum inner core according to claim 2, characterized in that: for the B-type wallboard, the height of the inner board (1) is smaller than the height of the outer board (7), and the inner board The width of (1) is equal to the width of the outer plate (7), and the second filling material layer (5) between the inner plate (1) and the outer plate (7) is staggered, and the second filling material layer (5) is stepped shape. 5. The vacuum core non-load-bearing building wallboard according to claim 1, characterized in that: the vacuum insulation layer (4) includes a vacuum insulation panel (10) and a benzene panel (11), and the vacuum insulation panel (10) is surrounded by benzene panels (11), and horizontal and vertical ribs (12) with holes are arranged in the vacuum insulation panel (10); the vacuum insulation panel (10) is composed of a filling core material and a vacuum protection surface layer. 6. The non-load-bearing building wallboard with vacuum inner core according to claim 5, characterized in that: the filling core material in the vacuum insulation panel (4) is glass wool core material or ultra-fine glass fiber, in its vacuum It is packaged with high-barrier packaging materials in the state. 7. The non-load-bearing building wallboard with vacuum inner core according to claim 1, characterized in that: said inner board (1) is made of calcium silicate board added with admixture as the surface material; the first filling material layer ( 2) It is a mixture of fiber cement and polystyrene particles; the mesh cloth (6) is an alkali-resistant glass fiber mesh cloth; the outer plate (7) is a protective layer with a thickness of 5-10mm, and the material It is an anti-crack mortar with anti-corrosion effect. 8. The non-load-bearing building wall panel with vacuum inner core according to claim 1, characterized in that: the outer side of the outer panel (7) is provided with a decorative layer for decoration and beautification. 9. The non-load-bearing building wallboard with vacuum inner core according to claim 2, characterized in that: said wallboard is used in A type or in combination of A and B types according to actual needs. 10. The non-load-bearing building wallboard with vacuum inner core according to claim 9, characterized in that: the wallboards are connected in steps to increase the contact area.