CN109797875A - A kind of low energy consumption energy saving building system - Google Patents

Abstract

The invention belongs to energy saving building field, in particular to a kind of low energy consumption energy saving building system.The present invention provides a kind of new low energy consumption energy saving building system, lateral branch support body and medial support body are arranged in ground beam, in ground beam side, back fill course is set, and heat insulating mattress is set between collateral support body and ground beam inside, porous silicate thermal insulation material is poured between supporter and Nei Zhi side stay body, on back fill course and outside ground beam on the outside, basic cold-heat bridge can be greatly reduced in this way, improve the thermal and insulating performance of building；And porous silicate thermal insulation material is equipped on basis and exterior wall junction and exterior wall and Roof system junction, not only intensity is high, weather-proof, freeze-thawing resistant good cycle, while there is excellent fire-proof function, thoroughly eradicate the fire hazard in construction and lifelong use process, nonhygroscopic dusting, foundation split, Environmental Safety, free from extraneous odour will not be generated, thermal and insulating performance is good, and effectively eliminates cold-heat bridge.

Description

A kind of low energy consumption energy saving building system

The invention belongs to energy saving building field, in particular to a kind of low energy consumption energy saving building system.

Background technique

The external wall protection body, roofing and ground of novel energy-conserving house, especially super low energy consumption passive house require into The stringent isothermal holding of row.Commonly used currently on the market is not fireproof B grades of organic foam materials, such as styrofoam or rock Cotton etc..Organic foam bed course is flammable, there is fire hazard, and low bearing capacity, long durability can be unstable, be easy to cause under ground Heavy, insulating layer falls off and roofing infiltration, icing condense etc..Rock wool class product strength is low, is easy moisture absorption and deformation dusting, long-term durable Property is unstable.

Existing building system includes basis, maintenance wall and roofing etc., and the otherness for building the heat transfer coefficient in each portion is held Easily cause cold-heat bridge, though existing building structure can reach the problem of alleviating cold-heat bridge, can not thoroughly solve the problems, such as this.

Summary of the invention

In view of the above-mentioned problems, the present invention provides a kind of new low energy consumption energy saving building system.

Specific technical solution of the present invention is as follows:

The present invention provides a kind of low energy consumption energy saving building system, including basis, maintenance wall and Roof system, the base Plinth includes ground beam, and the inner side end of the ground beam is equipped with back fill course, the end face outside and backfill of the ground beam The top of layer has poured porous silicate thermal insulation material；

The maintenance wall includes the exterior wall in the ground beam, and the exterior wall includes being connected by insulating connector Lateral branch support body and medial support body, poured porous silicate guarantor between the lateral branch support body and the medial support body The lower end of adiabator, the lower end of the lateral branch support body and the medial support body is set in the ground beam, and described interior Heat insulating mattress is equipped between collateral support body and the ground beam；

The Roof system includes roofing truss, roof truss and is respectively arranged on the roofing truss and the roof purlin Substrate on frame, the roofing truss are set on the medial support body, and the roof truss is parallel with the roofing truss And it is set on the lateral branch support body, and porous silicate thermal insulating material has been poured between the roof truss and the roofing truss Material；

Porous silicate thermal insulation material has been poured at the end face outside of the exterior wall and the ring connection on basis.

Further to improve, the part that the ground beam is located above is separated into outer support collar tie beam and inner support by groove Collar tie beam has poured porous silicate thermal insulation material in the groove, and the lower end of the lateral branch support body is set to the outer support On collar tie beam, the lower end of the medial support body is set on the inner support collar tie beam.

Further to improve, the both ends of the roofing truss extend to two sides respectively and are set to the lateral branch support body and interior Between collateral support body.

Further to improve, the both ends of the roofing truss extend to two sides respectively and connect respectively with lateral branch support body, And heat insulating mattress is equipped between the roofing truss and the lateral branch support body.

Further to improve, the roofing truss is set to four of the part between the lateral branch support body and medial support body It is equipped in week and pours baffle.

Further to improve, the height of the lateral branch support body is greater than the height of medial support body, and the roof truss It is connect above the roofing truss and with the roofing truss, supporting point of the roof truss on the roofing truss Place is equipped with heat insulating mattress.

Further to improve, the lateral branch support body and the medial support body are light section steel structure keel.

Further to improve, the lateral branch support body and the medial support body are timber structure keel.

Further to improve, the timber structure keel are equipped with waterproof layer, and the waterproof layer and the porous silicate The intersection that thermal insulation material is in contact coats plugging material, and the plugging material includes water-repellent paint or sealant.

Further to improve, the exterior wall is equipped with the outer door and window cover for installing interior door and window cover, and the outer door and window cover is by 4 A heat-insulating shield being fixed on porous silicate thermal insulation material, which encloses, to be set, each heat-insulating shield end face opposite with outer door and window cover On be equipped with two for fixing the waterproof adhesive tape layers of the outer door and window cover, the two waterproof adhesive tape layers, the outer door and window cover and Form cavity between the interior door and window cover, be equipped with the circular hole being connected to the cavity on each heat-insulating shield, the cavity with And porous silicate thermal insulation material is filled in the circular hole.

Beneficial effects of the present invention are as follows:

The present invention provides a kind of new low energy consumption energy saving building system, and lateral branch support body and medial support body are arranged at ground On collar tie beam, back fill course is set in ground beam side, and heat insulating mattress is set between collateral support body and ground beam inside, on the outside Between supporter and Nei Zhi side stay body, on back fill course and ground beam outside pour porous silicate thermal insulation material, in this way may be used To greatly reduce basic cold-heat bridge, the thermal and insulating performance of building is improved；And on basis and exterior wall junction and exterior wall and room Plane system junction is equipped with porous silicate thermal insulation material, and not only intensity is high, and weather-proof, freeze-thawing resistant good cycle has simultaneously There is excellent fire-proof function, thoroughly eradicate the fire hazard in construction and lifelong use process, nonhygroscopic dusting will not generate ground Base settlement crack, Environmental Safety, free from extraneous odour, thermal and insulating performance is good, and effectively eliminates cold-heat bridge.

Detailed description of the invention

Fig. 1 is the cross-sectional view of 1 low energy consumption energy saving building system of embodiment；

Fig. 2 is the cross-sectional view of 2 low energy consumption energy saving building system of embodiment；

Fig. 3 is the cross-sectional view of 2 low energy consumption energy saving building system of embodiment；

Fig. 4 is the partial sectional view of 3 low energy consumption energy saving building system of embodiment；

Fig. 5 is the partial sectional view of 4 low energy consumption energy saving building system of embodiment；

Fig. 6 is the partial sectional view of 5 low energy consumption energy saving building system of embodiment；

Fig. 7 is the partial sectional view of 6 exterior wall of embodiment；

Fig. 8 is the partial sectional view of 7 exterior wall of embodiment；

Fig. 9 is the structural schematic diagram of 8 door and window cover of embodiment；

Figure 10 is the partial sectional view of 8 door and window cover of embodiment.

Specific embodiment

Invention is further described in detail with following embodiment with reference to the accompanying drawing.

Embodiment 1

The embodiment of the present invention 1 provides a kind of low energy consumption energy saving building system, as shown in Figure 1, including basis 1, maintenance wall And Roof system 2, described basic 1 includes ground beam 101, and the inner side end of the ground beam 101 is equipped with back fill course 102, The end face outside of the ground beam 101 and the top of back fill course 102 have poured porous silicate thermal insulation material 3；

The maintenance wall includes the exterior wall 4 in the ground beam 101, and the exterior wall 4 includes by insulation connection The lateral branch support body 402 and medial support body 403 that part 401 connects, the lateral branch support body 402 and the medial support body 403 Between poured porous silicate thermal insulation material 3, the lower end of the lower end of the lateral branch support body and the medial support body 403 is equal In the ground beam 101, and heat insulating mattress 5 is equipped between the medial support body 403 and the ground beam 101；

The Roof system 2 is including roofing truss 201, roof truss 202 and is respectively arranged on 201 and of roofing truss Substrate on the roof truss 202, the roofing truss 201 are set on the medial support body 403, the roof truss 202 is parallel with the roofing truss 201 and be set on the lateral branch support body 402, and the roof truss 202 and the room Porous silicate thermal insulation material 3 has been poured between face truss 201；

Porous silicate thermal insulation material 3 has been poured at the end face outside of the exterior wall 4 and the ring connection on basis 1.

The present invention provides a kind of new low energy consumption energy saving building system, and lateral branch support body and medial support body are arranged at ground On collar tie beam, back fill course is set in ground beam side, and heat insulating mattress is set between collateral support body and ground beam inside, on the outside Between supporter and Nei Zhi side stay body, on back fill course and ground beam outside pour porous silicate thermal insulation material, in this way may be used To greatly reduce basic cold-heat bridge, the thermal and insulating performance of building is improved；And on basis and exterior wall junction and exterior wall and room Plane system junction is equipped with porous silicate thermal insulation material, and not only intensity is high, and weather-proof, freeze-thawing resistant good cycle has simultaneously There is excellent fire-proof function, thoroughly eradicate the fire hazard in construction and lifelong use process, nonhygroscopic dusting will not generate ground Base settlement crack, Environmental Safety, free from extraneous odour, thermal and insulating performance is good, and effectively eliminates cold-heat bridge.

Due to roof truss be set to lateral branch support body on, roofing truss be set to medial support body on, and roof truss with Porous silicate thermal insulation material is poured between roofing truss, it can will be between the insulating layer and lateral branch support body and medial support body Insulating layer be connected, merged to form roof heat insulation with the seamless of exterior-wall heat insulation, reach good roofing and wall is continuous Without interval heat insulation effect；Roof truss and roofing truss are after ordering upper substrate, then pour porous silicate thermal insulation material therebetween, When the system is more floors, need to be arranged multiple parallel roofing truss, at this point, be both needed to order upper substrate on each roofing truss, But only porous silicate thermal insulation material need to be poured between the roofing truss and roof truss for being set to top layer；Substrate can be All kinds of decoration panels, such as OSB (Europe deals), plasterboard, enhancing pressure cement plate, all kinds of cellular boards；It needs to be arranged on roofing Pipeline and spool need before porous silicate slurry pours wall such as solar panels route, in advance the cloth on roofing substrate It sets, seals and fix after pouring.After insulating layer is carried out, routinely way is laid with mortar protective layer, waterproof layer and roof tiles thereon Deng.Pitched roof can be completed fully according to above-mentioned way, can also first make flat roof deck, then do pitched roof effect on it.

There is a certain distance between the outer most edge of the outer most edge and medial support body of insulating connector and lateral branch support body, Between 1-2 centimeters.

In construction foundation working, the thermal insulation material of a circle suitable thickness is done on the outside of ground collar tie beam.When the backfill of basis, Indoor section is only backfilling on collar tie beam along the position 0~300mm.After backfill hardening, 10~500mm thickness is poured thereon Porous silicate thermal insulation material.This layer of thermal insulation material is connected with the seamless perforation of the insulating layer of side wall.Above ground insulating layer according to Conventional method makes all kinds of hardened grounds, and such as mattess, hardening range is the inner trim panels to internal layer keel, such as steel mesh mould With multilayer glass fiber net anticracking grout non-dismantling formwork, plasterboard, pressure cement plate, calcium silicate board etc..

In addition, being poured between lateral branch support body and medial support body since exterior wall includes lateral branch support body and medial support body Porous silicate thermal insulation material has been built, self heat insulation wall is formd, has not needed still further to do external thermal insulation, so that it is big to build totle drilling cost It is big to reduce.

After exterior wall completion, then a circle porous silicate thermal insulation material is arranged, in this way in the outside of exterior wall and basic interface point It thoroughly eliminates ground collar tie beam and suspension column upper surface and directly contacts generated cold bridge with open air.It can be preparatory on the outside of ground insulating layer It is laid with waterproof vapour-binding film or does water-proofing treatment.Escalator, staircase and catch pit will also do corresponding heat preservation and bridge cut-off processing.

Separated when having with main structure, independently support cornice or when balcony, by exterior wall lateral branch support body directly with cornice Or balcony is fixed, and is disconnected with medial support body, it is not direct to be contacted with medial support body.The pipelines such as water power, spool are needed porous It before silicate slurry pours wall, is embedded in the cavity of wall in advance, seals and fix after pouring.

Embodiment 2

The low energy consumption energy saving building system that the embodiment of the present invention 2 provides is substantially the same manner as Example 1, unlike, such as scheme Fig. 2, shown in 3, the part that the ground beam 101 is located above is separated into outer support collar tie beam 112 and inner support circle by groove 111 Beam 113, has poured porous silicate thermal insulation material 3 in the groove 111, and the lower end of the lateral branch support body be set to it is described outer In supporting ring beam 112, the lower end of the medial support body 403 is set on the inner support collar tie beam 113.

Building foundation collar tie beam is segmented into inside and outside independent two circles production, inner support collar tie beam and outer support collar tie beam, props up respectively Support inner side of outer wall supporter and exterior wall lateral branch support body, centre can fill porous silicate thermal insulation material of the same race, and depth is about Local frozen soil layer depth, avoids and greatly reduces basic cold-heat bridge.Same isothermal holding can also be done on the outside of cycle beam.This When, heat insulating mattress (as shown in Figure 2) can be set between medial support body and inner support collar tie beam, heat insulating mattress can also be not provided with (as shown in Figure 3), it is within the scope of the present invention, according to the actual situation depending on.

Embodiment 3

The low energy consumption energy saving building system that the embodiment of the present invention 3 provides is substantially the same manner as Example 1, unlike, such as Fig. 4 Shown, the both ends of the roofing truss 201 extend to two sides respectively and are set to the lateral branch support body 402 and medial support body Between 403.

Roofing truss 201 described in the present embodiment is set to the part between the lateral branch support body and medial support body 403 Surrounding be equipped with and pour baffle 6.If in the space that the thickness of the floor plates or roof boarding that are made of multiple truss is surrounded Portion does not have to surround material filling, is cavity structure, it is necessary in the surrounding of floor plates or roof boarding that truss is constituted, it is corresponding in The one circle thermal insulation material of position installation of anti-rolling chock pours baffle, and when in order to avoid exterior wall pouring, slurry enters in truss cavity.

Roofing truss extends only to position between the collateral support body of Outer Wall in the present invention, does not contact with lateral branch support body, Or it is fixed on medial support body crossbeam with medial support in vitro along being aligned.

Embodiment 4

The low energy consumption energy saving building system that the embodiment of the present invention 4 provides is substantially the same manner as Example 1, unlike, such as Fig. 5 Shown, the both ends of the roofing truss 201 extend to two sides respectively and connect respectively with lateral branch support body 402, and the roofing Heat insulating mattress 5 is equipped between truss 201 and the lateral branch support body.If encountering building structure entirety force request roofing truss The case where must being fixed together with exterior wall lateral branch support body, adds insulating pad layer or cushion block between truss and lateral branch support body, The cold-heat bridge of truss is led directly to separate exterior wall.

Roofing truss 201 described in the present embodiment is set to the part between the lateral branch support body and medial support body 403 Surrounding be equipped with and pour baffle 6.If in the space that the thickness of the floor plates or roof boarding that are made of multiple truss is surrounded Portion does not have to surround material filling, is cavity structure, it is necessary in the surrounding of floor plates or roof boarding that truss is constituted, it is corresponding in The one circle thermal insulation material of position installation of anti-rolling chock pours baffle, and when in order to avoid exterior wall pouring, slurry enters in truss cavity.

Embodiment 5

The low energy consumption energy saving building system that the embodiment of the present invention 5 provides is substantially the same manner as Example 1, unlike, such as Fig. 6 Shown, the height of the lateral branch support body is greater than the height of medial support body 403, and the roof truss 202 is set to the room Truss 201 top in face is simultaneously connect, support of the roof truss 202 on the roofing truss 201 with the roofing truss 201 Heat insulating mattress 5 is equipped at point.Exterior wall outside-supporting body necessarily is greater than inner side of outer wall supporter in the present invention.Roof truss is fixed on It on exterior wall supporter, is not contacted with inner side of outer wall supporter, partition roof and indoor cold-heat bridge, roof truss is on roofing truss Supporting point at, heat insulating mattress or cushion block are installed, the cold-heat bridge of indoor truss and roof is reduced.

Embodiment 6

The low energy consumption energy saving building system that the embodiment of the present invention 6 provides is substantially the same manner as Example 1, unlike, it is described Lateral branch support body and the medial support body 403 are light section steel structure keel.

Lateral branch support body described in the present embodiment and the medial support body 403 are timber structure keel.

As shown in fig. 7, timber structure keel described in the present embodiment is equipped with waterproof layer 7, and the waterproof layer and described more The intersection that hole silicate heat-protective coatings 3 are in contact coats plugging material 8, and the plugging material 8 includes water-repellent paint or close Sealing.

Lateral branch support body and medial support body can be light section steel structure keel or timber structure keel in the present invention, not only weigh Amount is light, self-heat conserving performance is good, and has excellent fire-proof function, when using timber structure keel, connects with thermal insulation material slurry The timber structure keel of touching can carry out water-proofing treatment before heat insulation mortar pours, and brush or spray water-repellent paint；It can also adopt With waterproof coating or the timber of plastic foil (layer) package, after the completion of the timber structure keel installation with waterproof layer, connect with heat insulation mortar Water-repellent paint or sealant is used to block again in the keel crosspoint of touching.

Embodiment 7

The low energy consumption energy saving building system that the embodiment of the present invention 7 provides is substantially the same manner as Example 1, unlike, such as Fig. 8 Shown, on a side end face of the lateral branch support body far from the medial support body 403 and the medial support body 403 is separate It is equipped with steel wire mould 9 on one side end face of the lateral branch support body, is equipped with multilayer anticracking grout on each steel wire mould 9 Layer 10 is equipped with grid cloth 11 between adjacent two anticracking grout layer 10.

Safeguard that wall is supported by medial and lateral bilayer lightgage steel joist or rough ground, the installation of wall inner and outer surfaces exempts to tear 3D steel wire open Net mould, then anticracking grout and grid cloth are coated, it is connected between double-layer keel by insulating connector, prevents cold-heat bridge.Porous silicic acid Salt thermal insulation material is cast between double-layer keel in the form of the slurry flowed, effectively the week of package filling keel and reserved spool The space and gap enclosed, after the solidification of material slurry, being formed not only has excellent thermal insulation property, physical mechanical property strong but also has good The closed pore structure of good fire resistance property, reaches good ground heat insulation effect, thermal-insulating sealing is good, effectively eliminates cold-heat bridge. Energy storage materials of phase change can also be added in thermal insulation material formula, become the multi-use architecture maintenance wall with energy-efficient effect Thermal insulation material.To maintaining, room temperature is constant to play important booster action.

Embodiment 8

The low energy consumption energy saving building system that the embodiment of the present invention 8 provides is substantially the same manner as Example 1, unlike, such as scheme 9, shown in Figure 10, the exterior wall 4 is equipped with the outer door and window cover 13 for installing interior door and window cover 12, and the outer door and window cover 13 is by 4 The heat-insulating shield 131 being fixed on porous silicate thermal insulation material 3, which encloses, to be set, each heat-insulating shield 131 and outer 13 phase of door and window cover Pair end face on be equipped with two for fixing the waterproof adhesive tape layers 132 of the outer door and window cover 13, the two waterproof adhesive tape layers 132, Cavity 133 is formed between the outer door and window cover 13 and the interior door and window cover 12, be equipped on each heat-insulating shield 131 with it is described The circular hole 134 that cavity 133 is connected to is filled with porous silicate thermal insulation material 3 in the cavity 133 and the circular hole 134.

The heat-insulating shield that China and foreign countries' door and window cover of the present invention is fixed on porous silicate thermal insulation material by 4, which encloses, to be set, prominent Be partially installed on to outdoor side, inside is porous silicate thermal insulation material, is provided with circular hole on heat-insulating shield, can be with when pouring Sealing is filled between outer door and window cover and interior door and window cover, and door and window cover integral heat insulation and waterproofness are significantly improved.

If the supporter of support door and window is closely connect with outer door and window cover in the present invention, and outer door and window cover punching is blocked Position, it is necessary to open through hole in the corresponding outer door and window cover position of supporter, can smoothly be filled to pour heat insulation mortar Cavity between inside and outside door and window cover.

Embodiment described above is only that the preferred embodiment of the present invention is described, not to the scope of the present invention into Row limits, and without departing from the spirit of the design of the present invention, those of ordinary skill in the art make technical solution of the present invention Various changes and improvements out, should fall within the scope of protection determined by the claims of the present invention.

Claims (10)

1. a kind of low energy consumption energy saving building system, which is characterized in that including basic (1), safeguard wall and Roof system (2), The basis (1) includes ground beam (101), and the inner side end of the ground beam (101) is equipped with back fill course (102), describedly The end face outside of collar tie beam (101) and the top of back fill course (102) have poured porous silicate thermal insulation material (3)；

The maintenance wall includes the exterior wall (4) on the ground beam (101), and the exterior wall (4) includes being connected by insulation The lateral branch support body (402) and medial support body (403) of fitting (401) connection, the lateral branch support body (402) and the inside It has been poured between supporter (403) porous silicate thermal insulation material (3), the lower end of the lateral branch support body and the medial support The lower end of body (403) is set on the ground beam (101), and the medial support body (403) and the ground beam (101) it Between be equipped with heat insulating mattress (5)；

The Roof system (2) includes roofing truss (201), roof truss (202) and is respectively arranged on the roofing truss (201) it is set on the medial support body (403) with the substrate on the roof truss (202), the roofing truss (201), The roof truss (202) is parallel with the roofing truss (201) and is set on the lateral branch support body (402), and described Porous silicate thermal insulation material (3) have been poured between roof truss (202) and the roofing truss (201)；

Porous silicate thermal insulation material (3) have been poured at the ring connection of the end face outside of the exterior wall (4) and basic (1).

2. low energy consumption energy saving building system according to claim 1, which is characterized in that the ground beam (101) is located at upper The part of side is separated into outer support collar tie beam (112) and inner support collar tie beam (113) by groove (111), pours in the groove (111) It has built porous silicate thermal insulation material (3), and the lower end of the lateral branch support body is set on the outer support collar tie beam (112), institute The lower end for stating medial support body (403) is set on the inner support collar tie beam (113).

3. low energy consumption energy saving building system according to claim 1, which is characterized in that the two of the roofing truss (201) End extends to two sides respectively and is set between the lateral branch support body (402) and medial support body (403).

4. low energy consumption energy saving building system according to claim 1, which is characterized in that the two of the roofing truss (201) End extends to two sides respectively and connect respectively with lateral branch support body (402), and the roofing truss (201) and the outside-supporting Heat insulating mattress (5) are equipped between body.

5. according to any low energy consumption energy saving building system of claim 3 or 4, which is characterized in that the roofing truss (201) surrounding for being set to the part between the lateral branch support body and medial support body (403), which is equipped with, pours baffle (6).

6. low energy consumption energy saving building system according to claim 1, which is characterized in that the height of the lateral branch support body is big Height in medial support body (403), and the roof truss (202) be set to the roofing truss (201) above and with it is described Roofing truss (201) connection, the roof truss (202) are equipped with heat insulating mattress at the supporting point on the roofing truss (201) Piece (5).

7. low energy consumption energy saving building system according to claim 1, which is characterized in that the lateral branch support body and described interior Collateral support body (403) is light section steel structure keel.

8. low energy consumption energy saving building system according to claim 1, which is characterized in that the lateral branch support body and described interior Collateral support body (403) is timber structure keel.

9. low energy consumption energy saving building system according to claim 7, which is characterized in that the timber structure keel are equipped with anti- Water layer (7), and the intersection coating that the waterproof layer (7) is in contact with the porous silicate thermal insulation material (3) blocks material Expect (8), the plugging material (8) includes water-repellent paint or sealant.

10. low energy consumption energy saving building system according to claim 1, which is characterized in that the exterior wall (4) is equipped with and is used for The outer door and window cover (13) of door and window cover (12), the outer door and window cover (13) are fixed on porous silicate thermal insulation material by 4 in installing (3) heat-insulating shield (131) on, which encloses, to be set, and each heat-insulating shield (131) is equipped on the end face opposite with outer door and window cover (13) Two for fixing the waterproof adhesive tape layer (132) of the outer door and window cover (13), the two waterproof adhesive tape layers (132), the outer door and window It covers and forms cavity (133) between (13) and the interior door and window cover (12), be equipped with and the sky on each heat-insulating shield (131) The circular hole (134) of chamber (133) connection, the cavity (133) and the circular hole (134) are interior filled with porous silicate heat preservation Material (3).