CN101042002A - High-strength energy-saving light building componentd material and components thereof - Google Patents

Abstract

A high-strength energy-saving light building element is formed by cement, paste ash, cold slag powder, expanded pearl powder, active resin adhesive, and sand, in the rations as 5-15%, 10-20%, 22-38%, 7-17%, and 17-33%. The inventive building element can be irrigated in mould to form beehive skeleton to be integrated in the box made same building element to obtain T-shaped beam, used as wall, floor, or the like, with high safety, strength, flexibility, thermal insulation, sound adsorption, radiation resistance or the like.

Description

High-strength energy-saving light building componentd material and member thereof

Technical field

The present invention relates to a kind of constructional materials, especially high-strength energy-saving light building componentd material and member thereof.

Background technology

Extensively adopt the precast plate material in the existing building, modal is the precast reinforced concrete plate, this material has enough intensity, shortcoming is comparatively not sound insulation of heaviness, mainly be used as flooring element, some light-weight precast slabs that occurred, adopt the cellular structure of hollow, but because the material prescription of structure division is bad, most intensity are not high, are difficult to accomplish that thin-walled has high strength again, only are suitable for doing indoor partition wall, and the good sound isolating and heat insulating performance of the common shortage of these materials, be difficult to satisfy the requirement of modern finishing.

Summary of the invention

The object of the present invention is to provide a kind of high safety, high strength, good springiness, in light weight, insulation, heat insulation, sound-absorbing, radiation proof, can shorten high-strength energy-saving light building componentd material and the member thereof of building process cycle and environmental protection and energy saving.

The technical solution adopted for the present invention to solve the technical problems is: a kind of high-strength energy-saving light building componentd material, it is characterized in that: it is to be mixed by cement, cream ash, cinder powder, expanded pearlite powder, bonding agent, sand, its each weight percentages of components is: cement 5%-15%, cream ash 10%-20%, cinder powder 22%-38%, expanded pearlite powder 6%-10%, sand 17%-33%, reactive resin bonding agent 7%-17%.

A kind of high-strength energy-saving light building componentd, it is characterized in that: it is cast into the netted skeleton of honeycomb that the muscle rib is formed by high-strength energy-saving light building componentd material in mould, box-like body with the high-strength energy-saving light building componentd material casting, skeleton places in the box-like body and becomes one with it, form i-shaped roof beam association, at the synthetic frothing foam plastics of the empty indoor filling of the netted skeleton of honeycomb.

Aforesaid high-strength energy-saving light building componentd, it is characterized in that: box-like body has the median septum that becomes one with it, the median septum of box-like body is divided into two parts with box-like body, netted skeleton and the frothing foam plastics of honeycomb, and the netted skeleton of median septum and honeycomb also is an one.

Aforesaid high-strength energy-saving light building componentd is characterized in that: the skeleton wall of honeycomb mesh skeleton is vertical with all wallboards of box-like body.

Aforesaid high-strength energy-saving light building componentd, it is characterized in that: the panel of box-like body is a sandwich construction, and the skeleton netted from honeycomb outwards is followed successively by: high-strength energy-saving light building componentd material, glass fiber woven roving, steel wire buphthalmos net, glass fiber woven roving and high-strength energy-saving light building componentd material.

Aforesaid high-strength energy-saving light building componentd, it is characterized in that: the panel of box-like body is a sandwich construction, and the skeleton netted from honeycomb outwards is followed successively by: high-strength energy-saving light building componentd material, glass fiber woven roving and high-strength energy-saving light building componentd material.

Aforesaid high-strength energy-saving light building componentd is characterized in that: the panel of box-like body is a sandwich construction, and the skeleton netted from honeycomb outwards is followed successively by: high-strength energy-saving light building componentd material, steel wire buphthalmos net and high-strength energy-saving light building componentd material.

Aforesaid a kind of high-strength energy-saving light building componentd is characterized in that: resurrection glass fibre woven roving δ=0.25mm.

Beneficial effect: the present invention is a kind of have high safety, high strength, good springiness, in light weight, insulation, heat insulation, sound-absorbing, radiation proof, shorten high-strength energy-saving light building componentd material and the member thereof of building process cycle and environmental protection and energy saving, shorten construction period, improve operating environment, improve safety factor, reduce the surrounding enviroment of construction area and pollute.

Description of drawings

The present invention is further described below in conjunction with drawings and Examples.

Fig. 1: the embodiment of the invention 1---high-strength energy-saving light construction body of wall front view.

The side sectional view of Fig. 2: Fig. 1.

Fig. 3: the partial sectional view at A place among Fig. 1.

Fig. 4: the embodiment of the invention 2---high-strength energy-saving light construction floor front view.

The side sectional view of Fig. 5: Fig. 4.

Fig. 6: the partial sectional view at B place among Fig. 4.

Fig. 7: the embodiment of the invention 3---high-strength energy-saving light construction floor front view.

The side sectional view of Fig. 8: Fig. 7.

Fig. 9: the partial sectional view at C place among Fig. 7.

Figure 10: the embodiment of the invention 4---high-strength energy-saving light construction membrane front face figure.

The side sectional view of Figure 11: Figure 10.

Figure 12: the partial sectional view at D place among Figure 10.

Wherein: 1-high-strength energy-saving light building componentd material, 2-frothing foam plastics, 3-buphthalmos net, 4-woven roving, 5-i-shaped roof beam association, 6-skeleton, 6.1-skeleton wall, 7-panel, 8-week wallboard, 9-median septum.A-high-strength energy-saving light construction body of wall partial sectional view, B-high-strength energy-saving light construction floor partial sectional view, C-high-strength energy-saving light construction floor partial sectional view, D-high-strength energy-saving light construction dividing plate partial sectional view.

The specific embodiment

Construction material embodiment 1:136 gram cement, 204 gram cream ashes, 408 gram cinder powder, 108.8 gram expanded pearlite powder, 340 gram sand, 163.2 gram bonding agents;

Construction material embodiment 2:68 gram cement, 272 gram cream ashes, 340 gram cinder powder, 108.8 gram expanded pearlite powder, 408 gram sand, 163.2 gram bonding agents;

Construction material embodiment 3:; 204 gram cement, 136 gram cream ashes, 476 gram cinder powder, 108.8 gram expanded pearlite powder, 272 gram sand, 163.2 gram bonding agents;

The all components that the reactive resin bonding agent is outer is put in the mixer, the reactive resin bonding agent is added 2.5-4 water dilution doubly again, pours into to mix in the mixer to obtain high-strength energy-saving light building componentd material.Can construct the thick thin-walled honeycomb hole central layer of 8mm with this combination material, and intensity can satisfy the requirement of strength on floor.

(1) body of wall: referring to Fig. 1, Fig. 2, Fig. 3.

In mould, be cast into the thick muscle rib of 8mm with high-strength energy-saving light building componentd material and form the netted skeleton 6 of honeycomb, the i-shaped roof beam muscle rib that the 8mm that casts in mould with high-strength energy-saving light building componentd material is thick then, all wallboards 8 constitute i-shaped roof beam muscle rib with median septum 9; It is tightr by air in the ultrasonic vibration processing eliminating high-strength energy-saving light building componentd material and unnecessary water carrier inside to be organized in the casting, then at the synthetic frothing foam plastics 2 of the empty indoor filling of the netted skeleton of honeycomb; Panel 7 is a sandwich construction, processing mode is cast high-strength energy-saving light building componentd material 1 on the netted skeleton of honeycomb earlier, shop δ=0.25mm resurrection glass fibre woven roving 4 is two-layer above the high-strength energy-saving light building componentd material 1, accompany steel wire buphthalmos net 3 in the two-layer resurrection glass fibre woven roving 4, vibrate the body of wall that is pressed into 100cm*100cm, about 2 kilograms of weight by the supersonic mould bed at surface casting high-strength energy-saving light building componentd material 1 at last.(ultrasonic vibration handle can deaeration and unnecessary water that carrier inside is organized is just tight, improve internal soundness, increase the service life.)

Skeleton 6 is formed i-shaped roof beam association 5 with the panel 7 of i-shaped roof beam muscle rib and box-like body, forms the anti-carrier of high strength.

Resurrection glass fibre woven roving 4 plays radiation-resistant effect; Steel wire buphthalmos net makes member more firm.

(2) floor: referring to Fig. 4, Fig. 5, Fig. 6.

In mould, be cast into the thick muscle rib of 8mm with high-strength energy-saving light building componentd material and form the netted skeleton 6 of honeycomb, it is tightr by ultrasonic vibration processing deaeration and unnecessary water carrier inside to be organized then, then at the synthetic frothing foam plastics 2 of the empty indoor filling of the netted skeleton of honeycomb.Panel 7 is a sandwich construction, processing mode is cast high-strength energy-saving light building componentd material 1 on the netted skeleton of honeycomb earlier, shop steel wire buphthalmos net 3 above the high-strength energy-saving light building componentd material 1, at last by the supersonic mould bed surface casting high-strength energy-saving light building componentd material vibrate compacting (the ultrasonic vibration processing can deaeration and unnecessary water that carrier inside is organized is just tight, improve internal soundness, increase the service life) become the floor of 100cm*100cm, about 2 kilograms of weight.

The skeleton wall 6.1 of skeleton 6 is vertical with all wallboards 8 of the panel 7 of box-like body.Vertical structure can make member that better compressive property is arranged.

Skeleton 6 is formed i-shaped roof beam association 5 with the panel 7 of box-like body, forms the anti-carrier of high strength.

(3) floor: referring to Fig. 7, Fig. 8, Fig. 9.

High-strength energy-saving light building componentd material is cast into the thick muscle rib of 8mm forms the netted skeleton 6 of honeycomb in mould, it is tightr by ultrasonic vibration processing eliminating high-strength energy-saving light building componentd material 1 air and unnecessary water carrier inside to be organized then, then at the synthetic frothing foam plastics 2 of the empty indoor filling of the netted skeleton of honeycomb; Panel 7 is a sandwich construction, processing mode is cast high-strength energy-saving light building componentd material 1 on the netted skeleton of honeycomb earlier, shop δ=0.25mm resurrection glass fibre woven roving 4 is two-layer above the high-strength energy-saving light building componentd material 1, accompany steel wire buphthalmos net 3 in the two-layer resurrection glass fibre woven roving 4, at last by the supersonic mould bed surface casting high-strength energy-saving light building componentd material vibrate compacting (the ultrasonic vibration processing can deaeration and unnecessary water that carrier inside is organized is just tight, improve internal soundness, increase the service life) become the floor of 100cm*100cm, about 2 kilograms of weight.

(4) partition board: referring to Figure 10, Figure 11, Figure 12.

In mould, be cast into the thick muscle rib of 8mm with high-strength energy-saving light building componentd material and form the netted skeleton 6 of honeycomb, the i-shaped roof beam muscle rib that the 8mm that casts in mould with high-strength energy-saving light building componentd material is thick then, all wallboards 8 constitute i-shaped roof beam muscle rib with median septum 9; It is tightr by air in the ultrasonic vibration processing eliminating high-strength energy-saving light building componentd material and unnecessary water carrier inside to be organized in the casting, then at the synthetic frothing foam plastics 2 of the empty indoor filling of the netted skeleton of honeycomb; Panel 7 is a sandwich construction, processing mode is cast high-strength energy-saving light building componentd material 1 on the netted skeleton of honeycomb earlier, shop δ=0.25mm resurrection glass fibre woven roving 4 is two-layer above the high-strength energy-saving light building componentd material 1, vibrate the partition board that is pressed into 100cm*100cm, about 2 kilograms of weight by the supersonic mould bed at surface casting high-strength energy-saving light building componentd material 1 at last.。(ultrasonic vibration handle can deaeration and unnecessary water that carrier inside is organized is just tight, improve internal soundness, increase the service life.)

Skeleton 6 is formed i-shaped roof beam association 5 with the panel 7 of i-shaped roof beam muscle rib and box-like body, forms the anti-carrier of high strength.

Make but the present invention's formulating colorful reactive resin lacquer is cast in the gallery mould, can provide the multi-form members of difformity such as triangle, quadrangle, pentagon, polygon, circle, prismatic according to the purposes and the structure of building.

Selection of the present invention is carried out scientific formula with common material, take advanced process equipment and processing technology, make inside configuration tissue tight, in light weight, its collection box beam structure and i-shaped beams structure organically are combined into the netted chain composite construction of honeycomb, have high strength, carry more stable, safety and reliability, combination being installed adjusting the simple and convenient time and labour saving, is a kind of insulation, the light-duty utility model technical products of strength energy-saving heat insulation, sound insulation.

The present invention can be specialized, normalization, standardized production, be engineering, the effective optimization effect has been played in the design of Architecture Design Institute, for the builder has saved great amount of manpower, material resources, financial resources, to reduce construction cost greatly and shorten construction period, for numerous owners (user) when carrying out interior, created good condition, exempted artificial repetition and waste, not only alleviate owner (user) energy and burden economically, and avoid many avoidable troubles and conflict, provide the goods and materials condition for creating harmonious society, directly give owner (user) obtained benefit, will bring great comprehensive benefit to society.

Claims (9)

1. high-strength energy-saving light building componentd material, it is characterized in that: it is to be mixed by cement, cream ash, cinder powder, expanded pearlite powder, bonding agent, sand, and its each weight percentages of components is: cement 5%-15%, cream ash 10%-20%, cinder powder 22%-38%, expanded pearlite powder 6%-10%, reactive resin bonding agent 7%-17%, sand 17%-33%.

2. high-strength energy-saving light building componentd, it is characterized in that: it is cast into the netted skeleton of honeycomb that the muscle rib is formed by high-strength energy-saving light building componentd material in mould, box-like body with the high-strength energy-saving light building componentd material casting, skeleton places in the box-like body and becomes one with it, form i-shaped roof beam association, at the synthetic frothing foam plastics of the empty indoor filling of the netted skeleton of honeycomb.

3. high-strength energy-saving light building componentd as claimed in claim 2, it is characterized in that: box-like body has the median septum that becomes one with it, the median septum of box-like body is divided into two parts with box-like body, netted skeleton and the frothing foam plastics of honeycomb, and the netted skeleton of median septum and honeycomb also is an one.

4. high-strength energy-saving light building componentd as claimed in claim 2 is characterized in that: the skeleton wall of honeycomb mesh skeleton is vertical with all wallboards of box-like body.

5. as claim 2 or 3 described high-strength energy-saving light building componentds, it is characterized in that: the panel of box-like body is a sandwich construction, and the skeleton netted from honeycomb outwards is followed successively by: high-strength energy-saving light building componentd material, glass fiber woven roving, steel wire buphthalmos net, glass fiber woven roving and high-strength energy-saving light building componentd material.

6. as claim 2 or 3 described high-strength energy-saving light building componentds, it is characterized in that: the panel of box-like body is a sandwich construction, and the skeleton netted from honeycomb outwards is followed successively by: high-strength energy-saving light building componentd material, glass fiber woven roving and high-strength energy-saving light building componentd material.

7. high-strength energy-saving light building componentd as claimed in claim 2, it is characterized in that: the panel of box-like body is a sandwich construction, and the skeleton netted from honeycomb outwards is followed successively by: high-strength energy-saving light building componentd material, steel wire buphthalmos net and high-strength energy-saving light building componentd material.

8. a kind of high-strength energy-saving light building componentd as claimed in claim 5 is characterized in that: resurrection glass fibre woven roving δ=0.25mm.

9. a kind of high-strength energy-saving light building componentd as claimed in claim 6 is characterized in that: resurrection glass fibre woven roving δ=0.25mm.

Images