CN202324463U

CN202324463U - Cold-bridge-free insulation board for four-step energy-saving house

Info

Publication number: CN202324463U
Application number: CN2011204070452U
Authority: CN
Inventors: 程松林; 姜寅卿; 龙悦
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-10-24
Filing date: 2011-10-24
Publication date: 2012-07-11
Anticipated expiration: 2021-10-24

Abstract

The utility model relates to a cold-bridge-free insulation board for a four-step energy-saving house, which comprises high-strength gypsum, cement, coal ash, a waterproofing agent, fiber bars, connecting bars A, connecting bars B and a light thermal insulation material. An outer high-strength gypsum board layer, a light thermal insulation material layer and an inner high-strength gypsum board layer are respectively arranged in the cold-bridge-free insulation board from outer side to inner side and are connected by the connecting bars A and B which are uniformly distributed and alternatively arranged; the fiber bars are arranged in the high-strength gypsum board layers; umbrella heads of two ends of the connecting bars A extend into the high-strength gypsum board layers; and umbrella heads of one ends of the connecting bars B extend into the outer high-strength gypsum board layer, and umbrella heads of the other ends of the connecting bars B penetrate through the inner high-strength gypsum board layer to be connected with a concrete wall. The cold-bridge-free insulation board for the four-step energy-saving house is used in a concrete exposed part of a building outer eave wall, integrates multiple functions of decoration, sound insulation, thermal insulation, water prevention, waste utilization, environment protection and energy saving, low consumption, light weight and high strength into a whole, is used as the building outer eave wall or an outside template of a pillar, and is suitable for industrialization of house production modes.

Description

Four step energy-saving residences are with no cold bridge warming plate

Technical field

The utility model relates to a kind of gypsum composite insulation boards, particularly relates to a kind of energy-conservation, low consumption, environmental protection, and the multi-functional four step energy-saving residences that are integrated in one are with no cold bridge warming plate.

Background technology

The exterior wall of existing housing construction exists following deficiency: traditional construction material from great, energy consumption is high, function singleness, material, operation superpose repeatedly, on-the-spot manual wet trade amount is big, operation is many, cost is high, long in time limit, product quality is low.Especially stack insulation layer after, heat insulating material is asynchronous with the building body life-span, needs to change repeatedly, and cost is high, and is inflammable dangerous, and construction process is backward.

Summary of the invention

The main purpose of the utility model is to overcome above deficiency and provides a kind of batch production to produce, and energy-conservation, the low consumption of integrated installation, the multi-functional four step energy-saving residences that are integrated in one of environmental protection are with no cold bridge warming plate.

The utility model solves the technical scheme that its technical problem adopted: it comprises inside and outside high strength gypsum flaggy in both sides and light-weight thermal insulation material layer, it is characterized in that: four step energy-saving residences comprise outside high strength gypsum flaggy, light-weight thermal insulation material layer, inboard high strength gypsum flaggy, fiber muscle, A dowel, B dowel and waterproof agent with no cold bridge warming plate; Be respectively outside high strength gypsum flaggy, light-weight thermal insulation material layer, inboard high strength gypsum flaggy from outside to inside; Each layer is by being uniformly distributed with and staggered A dowel, B dowel connect; Have the fiber muscle in the inside and outside high strength gypsum flaggy; The umbrella head at A dowel two ends stretches in the high strength gypsum flaggy of inside and outside both sides, and an end umbrella head of B dowel stretches in the high strength gypsum flaggy of the outside, and the other end passes inboard high strength gypsum flaggy.

The utility model also adopts following technical measures:

One end of described A dowel vertically is split into the 8-12 lobe, and heating is sealed off the back and formed A umbrella head, and the A dowel passes the preformed hole on the light heat insulation material, and bonding is fixing with it, and the same heating of the A dowel other end is sealed off the back and formed B umbrella head; Described B dowel one end vertically is split into the 8-12 lobe; Heating is sealed off the back and is formed C umbrella head; The B dowel passes the preformed hole on the light-weight thermal insulation material layer; The fixing B dowel of bonding, the other end heating of B dowel are sealed off back formation D umbrella head, and the other end D umbrella head of B dowel passes inboard high strength gypsum flaggy and stretches into fixedly in the concrete wall;

Described high strength gypsum flaggy is high strength gypsum, cement, flyash, waterproof agent, fiber muscle; Or high strength gypsum, waterproof agent, fiber muscle or high strength gypsum, cement, waterproof agent, fiber muscle or cement mortar, fiber muscle;

Light heat insulation material in the described light-weight thermal insulation material layer is polyphenyl plate or extruded sheet or rock wool or vegetable fibre board;

The place be connected to each other between described light heat insulation material with the tongue and groove connection, and the inside and outside both sides of light heat insulation material are stained with the fiber muscle, and light heat insulation material is evenly equipped with along the length and width direction and wears A, B dowel preformed hole;

Described A dowel, B dowel adopt PVC material or PC or ABS or PA or PE or the prefabricated band circular hole tubing of PP, the wooden chamber core of configuration in the pore, A dowel, B dowel pass the reservation circular hole on the light-weight thermal insulation material layer, and stick with glue connect fixing;

Described four step energy-saving residences can thicken or the thickness of attenuate light-weight thermal insulation material layer with no cold bridge warming plate.

Advantage and the good effect that the utlity model has are: four step energy-saving residences with no cold bridge warming plate profit give up, environmental protection, low energy and high-strength light is multi-functional is integrated in one, insulation layer and building body life-span are synchronous, need not change repeatedly; The manual wet trade of plastering of subduction; Economical and practical, four step energy-saving residences satisfy from the high and cold different insulation requirements to the hot area with the thickness of no cold bridge warming plate adjustment insulation layer; Widely apply at external wall; Help improving standardization, seriation, batch production production, the dwelling house of integrated application is built mode, promotes the whole modernization level of housing industry.

Description of drawings

Fig. 1 is that four step energy-saving residences are with no cold bridge warming plate cross-sectional configuration sketch map;

Fig. 2 is A dowel, B dowel structural representation;

Fig. 3 is the plan structure sketch map of Fig. 2;

Among Fig. 1-3: 1. outside high strength gypsum flaggy, 2. light-weight thermal insulation material layer,

3. inboard high strength gypsum flaggy, 4. fiber muscle, 5. A dowel, 6. B dowel,

7. A umbrella head, 8. B umbrella head, 9. C umbrella head, 10. D umbrella head, 11. tongue and grooves,

12. chamber core.

The specific embodiment

For summary of the invention characteristics and the effect that can further understand the utility model are lifted following examples now, and the conjunction with figs. detailed description as follows, sees also Fig. 1-Fig. 3.

As shown in Figure 1: four step energy-saving residences comprise outside high strength gypsum flaggy 1, light-weight thermal insulation material layer 2, inboard high strength gypsum flaggy 3, fiber muscle 4, A dowel 5, B dowel 6 and waterproof agent with no cold bridge warming plate; Be respectively outside high strength gypsum flaggy 1, light-weight thermal insulation material layer 2, inboard high strength gypsum flaggy 3 from outside to inside; Each layer is by being uniformly distributed with and staggered A dowel 5, B dowel 6 connects; Light heat insulation material in the described light-weight thermal insulation material layer 2 is polyphenyl plate (or extruded sheet or rock wool or vegetable fibre board); 2 of described light-weight thermal insulation material layers are connected to each other the place with tongue and groove 11 connections, and light-weight thermal insulation material layer 2 both sides are stained with the fiber muscle, and light-weight thermal insulation material layer 2 is evenly equipped with along the length and width direction and wears A,

B dowel

5 and 6 preformed holes;

Like Fig. 2, shown in Figure 3: an end of described A dowel 5 vertically is split into the 8-12 lobe; Heating is sealed off and is formed A umbrella head 7; A dowel 5 passes the preformed hole on the light heat insulation material 2, and bonding is fixing with it, in addition; The same heating of A dowel 5 other ends is sealed off the back and is formed B umbrella head 8, and the umbrella head at A dowel 5 two ends stretches in inside and outside both sides high

strength gypsum flaggy

3 and 1; Described B dowel 6 one ends vertically are split into the 8-12 lobe; Heating is sealed off the back and is formed C umbrella head 9; B dowel 6 passes the preformed hole on the light-weight thermal insulation material layer 2; And the fixing B dowel 6 of bonding, the heating other end of sealing off B dowel 6 forms D umbrella head 10 again, and an end D umbrella head 10 of B dowel 6 passes the direct and concrete wall of inboard high strength gypsum flaggy 3 and fixes; Have fiber muscle 4 in the described inside and outside high

strength gypsum flaggy

3 and 1; Described inside and outside high

strength gypsum flaggy

3 and 1 adopts high strength gypsum, cement, flyash, waterproof agent, fiber muscle (or high strength gypsum, waterproof agent, fiber muscle or high strength gypsum, cement, waterproof agent, fiber muscle or cement mortar, fiber muscle);

Described A dowel 5, B dowel 6 adopt PVC material or PC or ABS or PA or PE or the prefabricated band square hole tubing of PP; The square wooden chamber core 12 of configuration in the pore; A dowel 5, B dowel 6 pass the reservation square hole on the light-weight thermal insulation material layer 2, and stick with glue connect fixing;

Described four step energy-saving residences can thicken or the thickness of attenuate light-weight thermal insulation material layer with no cold bridge warming plate;

During architecture construction, the template that four step energy-saving residences are poured into a mould as building concrete exsertion part concrete with no cold bridge warming plate, one cast location, B dowel 6 one ends connect four step energy-saving residences and use no cold bridge warming plate, and the other end stretches into the building concrete and forms dowel within the walls;

Polyphenyl plate (or extruded sheet or rock wool or vegetable fibre board) light heat insulation material of filling in the described light-weight thermal insulation material layer 2 is brought up again high heat preservation performance with lightened plate floor; Adopt the inside and outside high

strength gypsum flaggy

3 and 1 of high strength gypsum, cement, flyash, fiber muscle and waterproof agent (or by high strength gypsum, cement, fiber muscle and waterproof agent or high strength gypsum, fiber muscle and waterproof agent or cement mortar, fiber muscle) configuration, strengthened timber intensity;

Four step energy-saving residences have decoration, sound insulation, insulation, fire-proof function with no cold bridge warming plate; Four step energy-saving residences can be adjusted insulation layer thickness with no cold bridge warming plate, and outer eaves wall of the concrete that is used to build and the outer peripheral column limb position insulation of concrete usefulness adapt to from the high and cold requirement of different heat-insulating properties to the hot area, adapt to national about four go on foot energy saving buildings requirement;

Described four step energy-saving residences use the middle light-weight thermal insulation material layer 2 as thermal insulation of no cold bridge warming plate, and A dowel 5, B dowel 6 all adopt thermal insulation material to process, and effectively intercept the hot pipeline in the inside and outside both sides of sheet material, form no cold bridge structure.

Its advantage is: four step energy-saving residences use no cold bridge warming plate to be primary raw material with the power plant desulfurization gypsum, and profit is given up, environmental protection, low consumption, energy-conservation and high-strength light is multi-functional is integrated in one, and insulation layer and building body life-span are synchronous; Need not change repeatedly, the manual wet trade of plastering of subduction, economical and practical; Four step energy-saving residences can adapt to from the high and cold different insulation requirements to the hot area with no cold bridge warming plate adjustment insulation layer thickness, and the external wall plate is widely applied; Help improving standardization, seriation, batch production production; Integrated application dwelling house is built mode, promotes the whole modernization level of housing industry, has universality.

Above-described embodiment describes the preferred implementation of the utility model; Be not that scope to the utility model limits; Under the prerequisite that does not break away from the utility model design spirit; Various distortion and improvement that those of ordinary skills make the technical scheme of the utility model all should fall in the definite protection domain of the utility model claims.

Claims

1. a step energy-saving residence is with no cold bridge warming plate; It comprises inside and outside high strength gypsum flaggy in both sides and light-weight thermal insulation material layer, it is characterized in that: four step energy-saving residences comprise outside high strength gypsum flaggy (1), light-weight thermal insulation material layer (2), inboard high strength gypsum flaggy (3), fiber muscle (4), A dowel (5), B dowel (6) and waterproof agent with no cold bridge warming plate; Be respectively outside high strength gypsum flaggy (1), light-weight thermal insulation material layer (2), inboard high strength gypsum flaggy (3) from outside to inside; Each layer is by being uniformly distributed with and staggered A dowel (5), B dowel (6) connect; Inside and outside high strength gypsum flaggy has fiber muscle (4) in (3,1); The umbrella head at A dowel (5) two ends stretches in the inside and outside both sides high strength gypsum flaggies (3,1), and an end umbrella head of B dowel (6) stretches in the outside high strength gypsum flaggy (1), and the other end passes inboard high strength gypsum flaggy (3).

2. four step energy-saving residences according to claim 1 are with no cold bridge warming plate; It is characterized in that: an end of described A dowel (5) vertically is split into the 8-12 lobe; Heating is sealed off and is formed A umbrella head (7), and A dowel (5) passes the preformed hole on the light heat insulation material (2), and bonding is fixing with it; In addition, the same heating of A dowel (5) other end is sealed off the back and is formed B umbrella head (8); Described B dowel (6) one ends vertically are split into the 8-12 lobe; Heating is sealed off the back and is formed C umbrella head (9); B dowel (6) passes the preformed hole on the light-weight thermal insulation material layer (2); And the fixing B dowel (6) of bonding, the other end formation D umbrella head (10) of B dowel (6) is sealed off in heating again, and an end D umbrella head (10) of B dowel (6) passes inboard high strength gypsum flaggy (3) and stretches into fixedly in the concrete wall.

3. four step energy-saving residences according to claim 1 are with no cold bridge warming plate, and it is characterized in that: the light heat insulation material in the described light-weight thermal insulation material layer (2) is polyphenyl plate or extruded sheet or rock wool or vegetable fibre board.

4. four step energy-saving residences according to claim 1 are with no cold bridge warming plate; It is characterized in that: the place that is connected to each other between described light-weight thermal insulation material layer (2) connects with tongue and groove (11); Light-weight thermal insulation material layer (2) both sides are stained with the fiber muscle, and light-weight thermal insulation material layer (2) is evenly equipped with along the length and width direction and wears A, B dowel (5,6) preformed hole.

5. use no cold bridge warming plate according to four step energy-saving residences according to claim 1; It is characterized in that: described A dowel (5), B dowel (6) adopt PVC material or PC or ABS or PA or PE or the prefabricated band circular hole tubing of PP; The wooden chamber core (12) of configuration in the pore; A dowel (5), B dowel (6) pass the reservation circular hole on the light-weight thermal insulation material layer (2), and stick with glue connect fixing.

6. four step energy-saving residences according to claim 1 is characterized in that with no cold bridge warming plate: the no cold bridge warming plate of described four step energy-saving residences usefulness can thicken or the thickness of attenuate light-weight thermal insulation material layer.