CN105672533A - Assembled composite insulating wall, composite insulating wall structure and construction method - Google Patents

Abstract

The invention discloses an assembled composite insulating wall which comprises an internal vane concrete body, an external vane concrete body and an insulating layer between the internal vane concrete body and the external vane concrete body, wherein vertical ribs are coated in the internal vane concrete body and the external vane concrete body, the upper parts of the vertical ribs extend out of the concrete bodies, sleeves are also arranged in the concrete bodies, the bottoms of the sleeves run through the bottoms of the concrete bodies, the lower parts of the vertical ribs penetrate in the sleeves, and distances are reserved between the lower parts of the vertical ribs and the bottoms of the concrete bodies. The assembled composite insulating wall realizes insulating structure integration and has the characteristics of good insulating property, high quality precision, resource saving, simple and convenient construction, convenient factory fabrication production and the like. The invention also provides a corresponding composite insulating wall structure and a construction method.

Description

Assembled composite thermal-insulating wall, composite thermal-insulating wall structure and constructional method

Technical field

The present invention relates to building engineering field, particularly a kind of assembled composite thermal-insulating wall, composite thermal-insulating wall structure and constructional method.

Background technology

At present, precast wall body is widely used in the middle of building operation. Conventional precast wall body comprises transverse direction and erects to many reinforcing bars interweaved, concrete body it is enclosed with outside reinforcing bar, erect and all stretch out from concrete body edge to reinforcing bar and transverse reinforcement, form free end, by the free end stirrup colligation of adjacent two pieces of precast wall bodies in construction process, then carry out cast in situs. This kind of constructional method not only wastes time and energy, and sometimes also precast wall body connection can be caused infirm because of the precision problem of stirrup colligation.

Summary of the invention

It is an object of the invention to provide a kind of assembled composite thermal-insulating wall, composite thermal-insulating wall structure and constructional method, this assembled composite thermal-insulating wall achieves insulation construction integration, Mass accuracy height, easy construction.

In order to realize above-mentioned purpose, a kind of assembled composite thermal-insulating wall provided by the invention, comprise interior leaf concrete body, siphonal lobe concrete body and the thermal insulation layer between interior leaf concrete body and siphonal lobe concrete body, being enclosed with in interior leaf concrete body and siphonal lobe concrete body erects to muscle, erect the top to muscle to stretch out from concrete body, also being provided with sleeve in concrete body, sleeve bottom is through to concrete body, erect the bottom to muscle be set in sleeve and with concrete body bottom leave distance.

Preferably, described the upper part being set in sleeve to muscle bottom is erected.

Preferably, described sleeve is fixedly connected with the bottom to muscle with erecting.

Preferably, the described length stretching out part to the top of muscle from concrete body of erecting is greater than the length erected and be set in sleeve inner and divide to muscle bottom.

Preferably, also comprising the horizontal bar being arranged in concrete body, described horizontal bar at least stretches out from concrete body side.

A kind of composite thermal-insulating wall structure, comprise body of wall and lower body of wall, described upper body of wall comprises first and erects and first erect the first concrete body to muscle to muscle and parcel, first erects and stretches out from the first concrete body to the top of muscle, the first sleeve also it is provided with in first concrete body, first sleeve bottom is through to the first concrete body, first erect the bottom to muscle be set in the first sleeve and with the first concrete body bottom leave distance; Lower body of wall comprises the 2nd and erects and the 2nd erect the 2nd concrete body to muscle to muscle and parcel, and the 2nd erects in the part stretched out from the 2nd concrete body to the top of muscle, and lower part is wrapped in articulamentum, and upper part is set in the first sleeve. First concrete body comprises the first inner concrete body and the first outer concrete body, is provided with thermal insulation layer between the first inner concrete body and the first outer concrete body; 2nd concrete body comprises the 2nd inner concrete body and the 2nd outer concrete body, is provided with thermal insulation layer between the 2nd inner concrete body and the 2nd outer concrete body.

Preferably, described articulamentum comprises the one in cast-in-place beam and top board.

Preferably, described articulamentum also comprises the feed pulp layer being arranged on cast-in-place beam or top board.

Utilize a constructional method for above-mentioned assembled composite thermal-insulating wall, comprising:

Step one: casting beams body or top board above lower body of wall, makes lower erecting of body of wall top stretch out to muscle from articulamentum; Described upper body of wall and lower body of wall are the assembled body of wall described in claim 1;

Step 2: build slurry above beam body or top board and tamp so that pulp layer and beam body or top board form articulamentum jointly;

Step 3: lower body of wall top is erected in the sleeve that the part stretched out to muscle from articulamentum places upper body of wall, or

The jacket casing of upper body of wall is connected on lower body of wall top and erects the part stretched out to muscle from articulamentum.

A kind of assembled composite thermal-insulating wall provided by the invention and composite thermal-insulating wall construction method, comprise interior leaf concrete body, siphonal lobe concrete body and the thermal insulation layer between interior leaf concrete body and siphonal lobe concrete body, being enclosed with in interior leaf concrete body and siphonal lobe concrete body erects to muscle, erect the top to muscle to stretch out from concrete body, sleeve also it is provided with in concrete body, sleeve bottom is through to concrete body, erect the bottom to muscle be set in sleeve and with concrete body bottom leave distance, like this when two identical bodies of wall longitudinally assemble, what lower body of wall top was stretched out erect can be set in upper body of wall sleeve to muscle, fast, accurately, stirrup colligation process need not be carried out, save operation and assembled more solid and reliable. this assembled composite thermal-insulating wall and wall body structure achieve insulation construction integration, have good heat insulating, Mass accuracy height, economize on resources, easy construction, be convenient to the features such as prefabrication production.

Accompanying drawing explanation

The structural representation of the assembled composite thermal-insulating wall that Fig. 1 provides for the embodiment of the present invention one;

The structural representation of the composite thermal-insulating wall structure that Fig. 2 provides for the embodiment of the present invention two;

Fig. 3 is the plan structure schematic diagram of Fig. 1;

Fig. 4 is a kind of assembling situation figure of wall body structure in embodiment two;

Fig. 5 is a kind of assembling sight figure of body of wall in Fig. 3.

In figure:

1. erect to erect to muscle 2. horizontal bar 3. concrete body 4. sleeve 11. first and erect leaf concrete body 32. siphonal lobe concrete body 33. thermal insulation layer 34. colligation point 35. cast-in-situ wall in muscle 23. the 2nd concrete body 24. articulamentum 25. pulp layer 31. to muscle 13. first concrete body 14. first sleeve 21. the 2nd

Embodiment

In order to make those skilled in the art understand the present invention program better, below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.

Embodiment one

Please refer to Fig. 1 and 3; the assembled composite thermal-insulating wall that the present embodiment provides; comprise interior leaf concrete body 31, siphonal lobe concrete body 32 and the thermal insulation layer 33 between interior leaf concrete body 31 and siphonal lobe concrete body 32; thermal insulation layer 33 adopts insulation or lagging material to make, if main raw material is the sheet material that glass bead, granular polystyrene, phenolic aldehyde, polystyrene foam etc. are made or the heat preservation plate material adopting multiple Material cladding to become. " interior ", " outward " of interior leaf concrete body 31 and siphonal lobe concrete body 32 refers to its inner side and outer side being positioned at body of wall, as broad as long on its structural nature, understands in order to convenient, is referred to as concrete body 3 below and is described. Assembled composite thermal-insulating wall comprises and erects to muscle 1 and horizontal bar 2, and many roads erect and are woven into a mesh structure to muscle 1 and horizontal bar 2, then wraps erecting to muscle 1 and horizontal bar 2 with concrete by building, forms parcel and erect the concrete body 3 to muscle 1 and horizontal bar 2.Wherein, after having built, horizontal bar 2 can stretch out from the both sides of concrete body 3. Erect and stretch out from concrete body 3 upper end to the top of muscle 1. Also be previously provided with sleeve 4 in concrete body 3, through to concrete body 3 bottom sleeve 4, erect the bottom to muscle 1 be set in sleeve 4 and with concrete body 3 bottom leave distance. Like this, from profile, erect the bottom to muscle 1 and can not stretch out concrete body 3. Described sleeve 4 can adopt the mode of welding to be welded in erect on muscle 1 bottom, be more convenient for when building making like this position of sleeve 4 in concrete body 3 and with erect the relative position to muscle 1 and fix. Other mode can certainly be adopted to be fixed up to muscle 1 with erecting by sleeve 4. Here sleeve 4 is divided into upper and lower two portions, erects upper part that the bottom to muscle 1 is positioned at sleeve 4. Erecting the length stretching out part to the top of muscle 1 from concrete body 3 and be greater than the length erected and be set in sleeve 4 interior portion to muscle 1 bottom, this can reserve distance for the articulamentum between layer. Like this, it is possible to the body of wall provided in the present embodiment is assembled as upper body of wall and lower body of wall. In assembling process, cast in situs can be carried out at lower body of wall top, form the top board of cast-in-place beam or roof, then assembling can be completed in the sleeve erecting body of wall on muscle stretched out on lower body of wall top, without the need to erecting of upper and lower body of wall is carried out stirrup colligation to muscle, save operation, in addition, owing to the combination of upper and lower body of wall is without the need to cast in situs, avoids mould material in cast in situs process and be combined problem solid not with upper and lower body of wall. In the assembling process of transverse direction, horizontal bar as existing precast wall body, can be carried out stirrup colligation and cast in situs by the assembled composite thermal-insulating wall that the present embodiment provides. Wall body structure in the present embodiment Lou Jiaochu assembled condition as shown in Figure 5, two sandwich wall body structures are 90 ° of splicings, in stitching portion, it is necessary to horizontal bar is carried out stirrup colligation, cast in situs is carried out, to form the cast-in-situ wall 35 in corner in the inner side and outer side of colligation point 34.

Embodiment two

Please also refer to Fig. 2, the present embodiment provide a kind of adopt assembled composite heat insulating wall walling in embodiment one prefabricated and to become upper body of wall and lower body of wall, and after its assembling formed wall body structure. owing to upper and lower wall body structure is not distinct in essence, for convenience of description, describe each parts in body of wall with " first ", describe each parts in lower body of wall with " the 2nd ", but this can not be considered as the restriction to it. specifically, described upper body of wall comprises first and erects and erect the first concrete body 13 (the first concrete body 13 is also divided into the first inner concrete body and the first outer concrete body) to muscle 11 to muscle 11 and parcel first, first erects and stretches out from the first concrete body 13 to the top of muscle 11, the first sleeve 14 also it is provided with in first concrete body 13, bottom first sleeve 14 through to the first concrete body 13, first erect the bottom to muscle 11 be set in the first sleeve 14 and with the first concrete body 13 bottom leave distance, first erect the upper part being specifically positioned at the first sleeve 14 to muscle 11 bottom and by welding fix with it, lower body of wall comprises the 2nd and erects and erect the 2nd concrete body 23 (the 2nd concrete body 23 is also divided into the 2nd inner concrete body and the 2nd outer concrete body) to muscle 21 to muscle 21 and parcel the 2nd, certainly lower built-in wall has the 2nd sleeve (not marking in figure), 2nd erects in the part stretched out from the 2nd concrete body 23 to the top of muscle 21 and can also be divided into upper and lower two portions, lower part is wrapped in articulamentum 24, upper part is set in the first sleeve 14, and the top of upper part and upper body of wall first erect the bottom to muscle 11 lower part and remain with distance.Described articulamentum 24 is cast in situs and becomes, and can be specifically cast-in-place beam or top board, to be separated by upper and lower both sides floor. One layer of pulp layer 25 can also be built above cast-in-place beam and top board tamp, jointly to form articulamentum 24. The thickness of pulp layer 25, much smaller than the thickness of cast-in-place beam or top board, tamps effect as long as can play. Like this, the wall body structure being made up of upper body of wall, lower body of wall and articulamentum is just defined. In this wall body structure, erecting between upper body of wall and lower body of wall does not need stirrup colligation to muscle, convenient and swift during construction, and erecting of upper and lower body of wall can be made to remain on same bar straight line to muscle by benchmark of sleeve 14, in the error laterally produced when reducing assembling. Concrete assembling sight is as shown in Figure 4.

Embodiment three

The present embodiment provides a kind of constructional method utilizing the assembled composite thermal-insulating wall in embodiment one to carry out wall body structure assembling, and the method specifically comprises following step:

Step one: casting beams body or top board above lower body of wall, makes lower erecting of body of wall top stretch out to muscle from articulamentum;

Step 2: build slurry above beam body or top board and tamp;

Pulp layer and beam body or top board form articulamentum jointly.

Step 3: lower body of wall top is erected the part stretched out to muscle from articulamentum place in the sleeve of upper body of wall or,

The jacket casing of upper body of wall is connected on lower body of wall top and erects the part stretched out to muscle from articulamentum.

Wherein, upper body of wall and lower body of wall all adopt the assembled composite thermal-insulating wall described in embodiment one.

Above assembled composite thermal-insulating wall provided by the present invention, composite thermal-insulating wall structure and constructional method are described in detail. Apply specific case herein the principle of the present invention and enforcement mode to have been set forth, illustrating just for helping the core concept understanding the present invention of above embodiment. , it is also possible to the present invention carries out some improvement and modification, it is noted that for those skilled in the art, under the premise without departing from the principles of the invention these improve and modify in the protection domain also falling into the claims in the present invention.

Claims (9)

1. assembled composite thermal-insulating wall, it is characterized in that, comprise interior leaf concrete body, siphonal lobe concrete body and the thermal insulation layer between interior leaf concrete body and siphonal lobe concrete body, being enclosed with in interior leaf concrete body and siphonal lobe concrete body erects to muscle, erect the top to muscle to stretch out from concrete body, also being provided with sleeve in concrete body, sleeve bottom is through to concrete body, erect the bottom to muscle be set in sleeve and with concrete body bottom leave distance.

2. assembled composite thermal-insulating wall according to claim 1, it is characterised in that, described erect the upper part being set in sleeve to muscle bottom.

3. assembled composite thermal-insulating wall according to claim 1, it is characterised in that, described sleeve is fixedly connected with the bottom to muscle with erecting.

4. assembled composite thermal-insulating wall according to claim 2, it is characterised in that, the described length stretching out part to the top of muscle from concrete body of erecting is greater than the length erected and be set in sleeve inner and divide to muscle bottom.

5. assembled composite thermal-insulating wall according to claim 1, it is characterised in that, also comprise the horizontal bar being arranged in concrete body, described horizontal bar at least stretches out from concrete body side.

6. a composite thermal-insulating wall structure, it is characterized in that, comprise body of wall and lower body of wall, described upper body of wall comprises first and erects and first erect the first concrete body to muscle to muscle and parcel, first erects and stretches out from the first concrete body to the top of muscle, also being provided with the first sleeve in first concrete body, the first sleeve bottom is through to the first concrete body, first erect the bottom to muscle be set in the first sleeve and with the first concrete body bottom leave distance;Lower body of wall comprises the 2nd and erects and the 2nd erect the 2nd concrete body to muscle to muscle and parcel, and the 2nd erects in the part stretched out from the 2nd concrete body to the top of muscle, and lower part is wrapped in articulamentum, and upper part is set in the first sleeve; First concrete body comprises the first inner concrete body and the first outer concrete body, is provided with thermal insulation layer between the first inner concrete body and the first outer concrete body; 2nd concrete body comprises the 2nd inner concrete body and the 2nd outer concrete body, is provided with thermal insulation layer between the 2nd inner concrete body and the 2nd outer concrete body.

7. composite thermal-insulating wall structure according to claim 6, it is characterised in that, described articulamentum comprises the one in cast-in-place beam and top board.

8. composite thermal-insulating wall structure according to claim 7, it is characterised in that, described articulamentum also comprises the feed pulp layer being arranged on cast-in-place beam or top board.

9. one kind utilizes the constructional method of assembled composite thermal-insulating wall described in claim 1, it is characterised in that, comprising:

Step one: casting beams body or top board above lower body of wall, makes lower erecting of body of wall top stretch out to muscle from articulamentum; Described upper body of wall and lower body of wall are the assembled body of wall described in claim 1;

Step 2: build slurry above beam body or top board and tamp so that pulp layer and beam body or top board form articulamentum jointly;

Step 3: lower body of wall top is erected in the sleeve that the part stretched out to muscle from articulamentum places upper body of wall, or

The jacket casing of upper body of wall is connected on lower body of wall top and erects the part stretched out to muscle from articulamentum.