CN201649430U

CN201649430U - Multi-cavity gypsum composite bearing enclosure heat insulating plate and connecting structure of the same and building integral

Info

Publication number: CN201649430U
Application number: CN2009202976906U
Authority: CN
Inventors: 程松林; 姜寅卿; 张金勇; 龙跃; 栾晓辉; 刘景明; 孙悦
Original assignee: Tianjin Development Area Fulin Development Co Ltd
Current assignee: Tianjin Development Area Fulin Development Co Ltd
Priority date: 2009-11-24
Filing date: 2009-12-16
Publication date: 2010-11-24
Anticipated expiration: 2019-12-16

Abstract

The utility model relates to a multi-cavity gypsum composite bearing enclosure heat insulating plate and a connecting structure of the same and building integral. The heat insulating plate is mainly used for high-rise, multi-story and small high-rise buildings, the bearing part of a plate made by mixing high-strength building gypsum with a waterproof agent is used as a plate wall, the number of hollow cavities is 3-4 rows, the hollow cavities of each row are arranged in a staggering way, light heat insulating material is filled into the hollow cavity to form a cavity, the middle of the two adjacent cavities in each row forms a rib, and the ribs are staggered, thereby decreasing heat conductivity and enhancing the heat insulating effect. A grid cloth or glass fiber reinforced rib is arranged between the plate walls or ribs. The utility model has the advantages of integration of bearing, enclosure and heat insulation, long service life of buildings, one-time wall forming, high integral strength of plate, good reliability, water prevention, heat insulation, fire protection, sufficient utilization of industrial waste material, energy saving, environment protection, high installation speed in construction, high working efficiency, heat transfer coefficient smaller than 0.6W/m<2>.k, and wide application range.

Description

Multi-cavity gypsum composite lead-bearing go along with sb. to guard him warming plate and with the syndeton of building integral

Technical field

The utility model relates to a kind of heat preservation structural component for building, particularly relates to a kind of intensity height, good reliability, energy-saving and environmental protection and collection load-bearing go along with sb. to guard him insulation for the multi-cavity gypsum composite lead-bearing of one go along with sb. to guard him warming plate and with the syndeton of building integral.

Background technology

The way of building exterior wall heat preserving system is mainly taked is that to paste polyphenyl plate or extruded sheet and exterior wall internal insulation system at the exterior wall of building be two individual system, therefore, exist following deficiency in actual applications: building body adopts building materials such as cement, the manufacture of materials energy consumption is big, the destruction Of resources is big, and environment pollution is big; Existing external wall heat insulation system durability and reliability are poor, and heat insulating material and building main body are asynchronous application life.Subject matter is: the layer construction location easily easy generation insulation of dislocation finish coat is unreasonable; Positive and negative blast is bigger to the influence of thermal insulation wall surface cavity; Heat insulating material application life is short, and maintain and replace very expensive again, and waste of material is serious; The working procedure complexity, wet trade float work amount is big, fully manual operations, industrialization, standardization level are low; Fireproof performance is poor; Not environmental protection of material, energy consumption is big, can not the cycling and reutilization waste material.

Summary of the invention:

Main purpose of the present utility model is to overcome above deficiency and a kind of intensity height is provided, good reliability, energy-saving and environmental protection and collection load-bearing go along with sb. to guard him insulation for the multi-cavity gypsum composite lead-bearing of one go along with sb. to guard him warming plate and with the syndeton of building integral.

The technical scheme that its technical problem that solves the utility model adopts is:

A kind of multi-cavity gypsum composite lead-bearing is gone along with sb. to guard him warming plate, it is the desulfurization gypsum hollow plate, comprise wooden partition, rib and cavity, it is characterized in that: the both sides of desulfurization gypsum hollow plate are wooden partition 1, cavity is that 3-4 arranges every row and is crisscross arranged, filling light thermal insulation material 2 constitutes cavity 4 in the cavity, constitutes rib 3 in the middle of adjacent two cavitys 4 of every row, and 3 in wooden partition 1 and rib have grid cloth or glass fiber reinforcing rib.

Multi-cavity gypsum composite lead-bearing is gone along with sb. to guard him the syndeton of warming plate and building integral, it comprises external and internal wall, constructional column, collar tie beam, floor and reinforcing bar, it is characterized in that: the desulfurization gypsum hollow plate is divided into following several form of structure with the syndeton of building integral with different nodes:

1.. multi-cavity gypsum composite lead-bearing is gone along with sb. to guard him warming plate when making the exterior wall bearing wall, outer body of wall is that two outer bodies of wall 5 are connected with A constructional column 6 respectively with the syndeton of outer body of wall, adopts cast-in-situ concrete to be connected between two outer bodies of wall 5 and the A constructional column 6 that has A reinforcing bar 7;

2.. multi-cavity gypsum composite lead-bearing is gone along with sb. to guard him warming plate when making the inner, external wall bearing wall, outer body of wall 5 is that outer body of wall 5 is connected with B constructional column 9 respectively with interior body of wall 8 with the syndeton of interior body of wall 8, adopts cast-in-situ concrete to be connected between desulfurization gypsum hollow plate and the B constructional column 9 that has B reinforcing bar 10;

3.. multi-cavity gypsum composite lead-bearing is gone along with sb. to guard him warming plate when making the outer body of wall 5 of exterior wall load-bearing and being connected with floor 11, and outer body of wall 5 and floor 11 link into an integrated entity by collar tie beam 12, and employing cast-in-situ concrete is connected between desulfurization gypsum hollow plate and the collar tie beam 12 that has C reinforcing bar 13.

The utility model can also adopt following technical measures:

Described building is high level or multilayer or little high level;

It is identical with the syndeton of building integral that the multi-cavity gypsum composite lead-bearing of described high level or multilayer or small sized multiple story building is gone along with sb. to guard him warming plate.

Advantage and the good effect that the utlity model has are: integrate load-bearing, go along with sb. to guard him, be incubated, can disposable one-tenth wall during operation, the productivity ratio height, slab integral intensity height does not have and shrinks, good reliability, waterproof, insulation, fire prevention make full use of the power plant desulfurization gypsum waste, sharp useless and environmental protection, quick construction is convenient, but the one man operation; Energy-saving effect is obvious, and thermal transmittance is less than 0.6W/m ².K, homogenous material reaches three energy-conservation requirements of step.

Description of drawings

Fig. 1 is the structural representation of the utility model plate;

Fig. 2 is the syndeton schematic diagram of outer body of wall and outer body of wall;

Fig. 3 is the syndeton schematic diagram of outer body of wall and interior body of wall;

Fig. 4 is the syndeton schematic diagram of outer body of wall and floor.

Among Fig. 1-Fig. 4: 1. wooden partition, 2. heat insulating material, 3. rib, 4. cavity, 5. outer body of wall, the 6.A constructional column, the 7.A reinforcing bar, 8. in body of wall, 9.B constructional column, 10.B reinforcing bar, 11. floors, 12. collar tie beams, 13.C reinforcing bar.

The specific embodiment

For further understanding summary of the invention characteristics of the present utility model and effect following examples for example now, and conjunction with figs. is described in detail as follows, and sees also Fig. 1-Fig. 4.

The utility model makes full use of the high strength gypsum characteristic, is made into serial multi-cavity composite lead-bearing and goes along with sb. to guard him warming plate, and this sheet material is 4 chambeies, 5 walls, and wooden partition 1 and rib 3 play the load-bearing effect, and the heat insulating material 2 in the cavity has insulation and lightened plate floor weight function.

Embodiment 1 is that example is illustrated with the syndeton between the small sized multiple story building China and foreign countries body of wall

As shown in Figure 1: the utility model multi-cavity gypsum composite lead-bearing is gone along with sb. to guard him warming plate, it is the desulfurization gypsum hollow plate, comprise wooden partition, rib and cavity, the desulfurization gypsum hollow plate of load-bearing is a wooden partition 1, cavity is that 3-4 arranges every row and is crisscross arranged, filling light thermal insulation material 2 constitutes cavity 4 in the cavity, constitutes rib 3 in the middle of adjacent two cavitys 4 of every row, and 3 in wooden partition 1 and rib have grid cloth or glass fiber reinforcing rib;

Multi-cavity gypsum composite lead-bearing is gone along with sb. to guard him the syndeton of warming plate and building integral, it comprises outer body of wall, constructional column and reinforcing bar, the syndeton of desulfurization gypsum hollow plate and building integral, with node shown in Figure 2 is that example is illustrated: when the desulfurization gypsum hollow plate is made the exterior wall bearing wall, two outer bodies of wall 5 are connected with A constructional column 6 respectively, its A constructional column 6 is an abnormity, and employing cast-in-situ concrete is connected between two outer bodies of wall 5 and the A constructional column 6 that has A reinforcing bar 7.

Its advantage is: integrates load-bearing, goes along with sb. to guard him, is incubated, can disposable one-tenth wall during operation, and productivity ratio height, slab integral intensity height, do not have to shrink, good reliability, waterproof, insulation, fire prevention make full use of the power plant desulfurization gypsum waste, sharp useless and environmental protection, quick construction is convenient, but the one man operation; Energy-saving effect is obvious, and thermal transmittance is less than 0.6W/m ².K, homogenous material reaches three energy-conservation requirements of step.

Embodiment 2 is that example is illustrated with the syndeton of inside and outside body of wall in the small sized multiple story building

Multi-cavity gypsum composite lead-bearing is gone along with sb. to guard him the syndeton of warming plate and building integral, it comprises external and internal wall, constructional column and reinforcing bar, the syndeton of desulfurization gypsum hollow plate and building integral, with node shown in Figure 3 is example, when the desulfurization gypsum hollow plate is made the inner, external wall bearing wall, outer body of wall 5 is that outer body of wall 5 is connected with B constructional column 9 respectively with interior body of wall 8 with the syndeton of interior body of wall 8, adopts cast-in-situ concrete to be connected between desulfurization gypsum hollow plate and the B constructional column 9 that has B reinforcing bar 10.

Its advantage and embodiment 1 are identical.

Embodiment 3 is that example is illustrated with the syndeton of small sized multiple story building China and foreign countries' body of wall and floor

Multi-cavity gypsum composite lead-bearing is gone along with sb. to guard him the syndeton of warming plate and building integral, it comprises outer body of wall, collar tie beam, floor and reinforcing bar, the syndeton of desulfurization gypsum hollow plate and building integral, with node shown in Figure 4 is example, when the desulfurization gypsum hollow plate is made the exterior wall bearing wall, outer body of wall 5 and floor 11 link into an integrated entity by collar tie beam 12, wooden partition 1 is determined collar tie beam 12 spaces, and in the space, reserve lock slots and floor 11, collar tie beam 12 and body of wall are watered build up an integral body, employing cast-in-situ concrete is connected between desulfurization gypsum hollow plate and the collar tie beam 12 that has C reinforcing bar 13.

Its advantage and embodiment 1 are identical.

Claims

1. a multi-cavity gypsum composite lead-bearing is gone along with sb. to guard him warming plate, this desulfurization gypsum hollow plate comprises wooden partition, rib and cavity, it is characterized in that: the bearing plate that is used for building is wooden partition (1), cavity is that 3-4 arranges every row and is crisscross arranged, filling light thermal insulation material (2) constitutes cavity (4) in the cavity, constitute rib (3) in the middle of adjacent two cavitys of every row (4), between wooden partition (1) and rib (3) grid cloth or glass fiber reinforcing rib are arranged.

2. multi-cavity gypsum composite lead-bearing according to claim 1 is gone along with sb. to guard him warming plate, it is characterized in that: described building is high level or multilayer or small sized multiple story building.

3. a multi-cavity gypsum composite lead-bearing that is used for building constructions is gone along with sb. to guard him the syndeton of warming plate and building integral, it comprises external and internal wall, constructional column, collar tie beam, floor and reinforcing bar, it is characterized in that: plate is divided into following several form of structure with the syndeton of building integral with different nodes:

1.. multi-cavity gypsum composite lead-bearing is gone along with sb. to guard him warming plate when making the exterior wall bearing wall, outer body of wall is that two outer bodies of wall (5) are connected with A constructional column (6) respectively with the syndeton of outer body of wall, adopts cast-in-situ concrete to be connected between two outer bodies of wall (5) and the A constructional column (6) that has A reinforcing bar (7);

2.. multi-cavity gypsum composite lead-bearing is gone along with sb. to guard him warming plate when making the inner, external wall bearing wall, outer body of wall (5) is that outer body of wall (5) is connected with B constructional column (9) respectively with interior body of wall (8) with the syndeton of interior body of wall (8), and multi-cavity gypsum composite lead-bearing is gone along with sb. to guard him and adopted cast-in-situ concrete to be connected between warming plate and the B constructional column (9) that has B reinforcing bar (10);

3.. multi-cavity gypsum composite lead-bearing is gone along with sb. to guard him warming plate and is made the outer body of wall (5) of exterior wall load-bearing and floor (11) when being connected, outer body of wall (5) and floor (11) link into an integrated entity by collar tie beam (12), and multi-cavity gypsum composite lead-bearing is gone along with sb. to guard him and adopted cast-in-situ concrete to be connected between warming plate and the collar tie beam that has C reinforcing bar (13) (12).

4. the multi-cavity gypsum composite lead-bearing that is used for building constructions according to claim 3 is gone along with sb. to guard him the syndeton of warming plate and building integral, it is characterized in that: it is identical with the syndeton of building integral that the multi-cavity gypsum composite lead-bearing of high level or multilayer or small sized multiple story building is gone along with sb. to guard him warming plate.