CN108505677A - A kind of production method of prefabricated disconnected heat bridge construction wall - Google Patents

Abstract

A kind of production method of prefabricated disconnected heat bridge construction wall of the present invention carries out plate-laying splicing to thermal insulation board, forms the insulating layer of whole face wall, the installation site of anchor bolt is positioned on thermal insulation board；Anchor bolt is installed between adjacent two pieces of thermal insulation boards, the disk of anchor bolt is embedded in thermal insulation board in advance, and the screw rod of anchor bolt extends on the outside of thermal insulation board；It is laid flat the thermal insulation board spliced, in thermal insulation board upper base course wall, screw rod is poured in base course wall, thermal insulation board and base course wall are linked as entirety；The base course wall being poured in will be poured and conserve molding, form construction wall.This method break " wall of first constructing; after do insulating layer " intrinsic theory, be put forward for the first time " first manufacture insulating layer; after do base course wall " construction method, prefabrication on-site consolidation, convenient for batch production and in-site installation, increase substantially construction efficiency, the heat loss problem generated by seam is reduced, has the characteristics that low energy consumption, without heat bridge, good integrity, meets the requirement of green construction.

Description

A kind of production method of prefabricated disconnected heat bridge construction wall

Technical field：

The present invention relates to building heat preservation technical fields, and in particular to a kind of production method of prefabricated disconnected heat bridge construction wall.

Background technology：

As expressway around city develops, China's building energy-saving standard is constantly promoted, and the emphasis as national sustainable development produces Industry, building energy conservation industry are to realize the important channel of national energy security.

Since the construction method of heat-preserving wall directly affects construction efficiency, project cost and using effect, thus cause The attention of more and more people.And the traditional building heat preservation construction method in China is being built after the completion of building main body is built Glue anchor external thermal insulation on exterior wall, but this form of construction work there are pieces more, easy to fall off, anchor bolt and edge joint position heat bridge greatly, globality The shortcomings of poor.

Therefore, it is badly in need of proposing a kind of production method of prefabricated disconnected heat bridge construction wall, to solve to ask existing for existing method Topic.

Invention content：

For the above technical problems, the present invention provides a kind of production method of prefabricated disconnected heat bridge construction wall, Easy for construction, simple structure solves the phenomenon that generation heat bridge of the problems such as because of seam, that is, strengthens the heat-insulating property of wall, again Assembled industrial production efficiency is improved, the energy consumption of building is effectively reduced, realizes green construction.

To achieve the above object, the present invention uses following technical scheme：

The present invention provides a kind of production method of prefabricated disconnected heat bridge construction wall, and the prefabricated disconnected heat bridge construction wall includes Thermal insulation board, anchor bolt and base course wall, the thermal insulation board and the base course wall are fixed as one by anchor bolt, and the anchor bolt includes Screw rod is connected with disk in one end of the screw rod, and the disk is embedded in advance in the thermal insulation board, and the screw rod is poured in described In base course wall, the base course wall includes steel skeleton, and lightweight concrete, the production method are cast in the steel skeleton Include the following steps：

Step 1：Plate-laying is carried out to thermal insulation board, polylith thermal insulation board mutually splices, and forms the insulating layer of whole face wall, is protecting The installation site of anchor bolt is positioned on warm plate；

Step 2：Anchor bolt is installed between adjacent two pieces of thermal insulation boards, the disk of anchor bolt is embedded in advance in the thermal insulation board, is made Adjacent two pieces of thermal insulation boards closely splice, and the screw rod of anchor bolt extends on the outside of thermal insulation board；

Step 3：It is laid flat the thermal insulation board spliced, and in the thermal insulation board upper base course wall spliced, while by anchor bolt Screw rod pour in the base course wall so that the thermal insulation board and the base course wall are whole by anchor bolts；

Step 4：The base course wall being poured in will be poured and conserve molding, form prefabricated disconnected heat bridge construction wall.

Offered respectively on the joint face of two adjacent thermal insulation boards with matched first groove of the disk of anchor bolt, The disk of the anchor bolt is inlaid in first groove, and one end that the anchor bolt is provided with to disk is embedded in the thermal insulation board in advance In, the screw rod of anchor bolt is placed in the base course wall.

The length minimum value that the screw rod stretches out on the outside of thermal insulation board is more than or equal to 30mm, and its maximum value is equal to base course wall Thickness, to ensure the anti-pulling and shear resistance of anchor bolt.

First groove at a distance from the contact surface of the thermal insulation board and base course wall be more than or equal to thermal insulation board perpendicular to The 1/3 of thickness on the direction of the base course wall.

First groove is semi-circular recesses.

The direction that surface upper edge of the thermal insulation board close to the base course wall side is parallel to the base course wall opens up Have the second groove and or dovetail groove, and one end of second groove or dovetail groove self-heat conserving plate extends to the other end, covering The length or width of entire thermal insulation board.

Be also respectively provided on the joint face of two adjacent thermal insulation boards mismatch and or tongue and groove, the mismatch or The end face of tongue and groove matches, to ensure that closely connection blocks the heat bridge at splicing seams to two pieces of thermal insulation boards without straight joint.

The lightweight concrete is less than 1000Kg/m using unit weight³。

The lightweight concrete is granular polystyrene foam concrete or air entrained concrete.

A kind of advantageous effect of the production method of prefabricated disconnected heat bridge construction wall of the present invention：

1, easy for construction, simple structure of the invention breaks the intrinsic theory of " wall of first constructing, then do insulating layer ", for the first time It is proposed the construction method of " first manufacture insulating layer, then do base course wall ", prefabrication on-site consolidation, this way is convenient for batch production And in-site installation, construction efficiency is increased substantially, the heat loss problem generated by seam is reduced, there is low energy consumption, without heat The characteristics of bridge, good integrity, meets the requirement of green construction；

2, the tongue and groove and/or mismatch that the present invention is opened up in thermal insulation board joint face can effectively solve to generate because of the problems such as seam The phenomenon that heat bridge, increases substantially wall insulation performance, increases structural integrity；

3, the present invention uses lightgage steel joist frame and lightweight concrete, wall dead weight is greatly reduced on material, to subtract Shaoshi work, the cost of transport and later stage seismic design of structures.

Description of the drawings：

Fig. 1 is the structural schematic diagram of prefabricated disconnected heat bridge construction wall in the present invention；

Fig. 2 is the tongue and groove connection diagram of section；

Fig. 3 is the dovetail groove connection diagram of section；

Fig. 4 is the groove connection diagram of section；

Fig. 5 is the mismatch connection diagram of section；

Fig. 6 is anchor bolt schematic diagram；

In figure：1- thermal insulation boards, 2- anchor bolts, 21- disks, 22- screw rods, 3- base course walls, 31- steel skeletons, 32- lightweight coagulations Soil, the first grooves of 4-, the second grooves of 5-, 6- dovetail grooves, 7- tongue and grooves, 8- mismatch.

Specific implementation mode：

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation describes, it is clear that described embodiment is only a part of the embodiment of the present invention, instead of all the embodiments.Base Embodiment in the present invention, those of ordinary skill in the art obtained without creative efforts it is all its His embodiment, shall fall within the protection scope of the present invention.

It is to be appreciated that the directional instruction (such as up, down, left, right, before and after ...) of institute is only used in the embodiment of the present invention In explaining relative position relation, motion conditions etc. under a certain particular pose (as shown in the picture) between each component, if should When particular pose changes, then directionality instruction also correspondingly changes correspondingly.

In addition, the description for being related to " first ", " second " etc. in the present invention is used for description purposes only, and should not be understood as referring to Show or imply its relative importance or implicitly indicates the quantity of indicated technical characteristic." first ", " are defined as a result, Two " feature can explicitly or implicitly include at least one of the features.In addition, the technical solution between each embodiment can To be combined with each other, but must can be implemented as basis with those of ordinary skill in the art, when the combination of technical solution occurs Conflicting or cannot achieve when, will be understood that the combination of this technical solution is not present, also not the present invention claims protection model Within enclosing.

According to Fig. 1~Fig. 6, the present invention provides a kind of production method of prefabricated disconnected heat bridge construction wall, described prefabricated Disconnected heat bridge construction wall includes thermal insulation board 1, anchor bolt 2 and base course wall 3, and the thermal insulation board 1 and the base course wall 3 pass through anchor bolt 2 fix as one, and the anchor bolt 2 includes screw rod 22, is connected with disk 21 in one end of the screw rod 22, the disk 21 is pre-buried In the thermal insulation board 1, the screw rod 22 pours in the base course wall 3, is used for heat-insulation plate connecting 1 and base course wall 3, institute It includes steel skeleton 31 to state base course wall 3, and lightweight concrete 32 is cast in the steel skeleton 31, is greatly reduced on material Wall is conducted oneself with dignity, and to reduce the cost of construction, transport and later stage seismic design of structures, the production method includes the following steps：

Step 1：Plate-laying is carried out to thermal insulation board 1, polylith thermal insulation board 1 mutually splices, and forms the insulating layer of whole face wall, The installation site of anchor bolt 2 is positioned on thermal insulation board 1；

Step 2：Anchor bolt 2 is installed between adjacent two pieces of thermal insulation boards 1, the disk 21 of anchor bolt 2 is embedded in the thermal insulation board in advance In 1, adjacent two pieces of thermal insulation boards 1 is made closely to splice, and the screw rod 22 of anchor bolt 2 extends to 1 outside of thermal insulation board；

Step 3：It is laid flat the thermal insulation board 1 spliced, and in the 1 upper base course wall 3 of thermal insulation board spliced, simultaneously will The screw rod 22 of anchor bolt 2 pours in the base course wall 3 so that the thermal insulation board 1 and the base course wall 3 are connected by anchor bolt 2 It is connected in entirety；

Step 4：The base course wall 3 being poured in will be poured and conserve molding, form prefabricated disconnected heat bridge construction wall.

Further, it offers on the joint face of two adjacent thermal insulation boards 1 and matches with the disk of anchor bolt 2 21 respectively The first groove 4 closed, the disk 21 of the anchor bolt 2 are inlaid in first groove 4, and the anchor bolt 2 is provided with disk 21 One end be embedded in advance in the thermal insulation board 1, the screw rod 22 of anchor bolt 2 is placed in the base course wall 3, and specifically, the screw rod The 22 length minimum values for stretching out 1 outside of thermal insulation board are more than or equal to 30mm, and its maximum value is equal to the thickness of base course wall 3, to protect Demonstrate,prove the anti-pulling and shear resistance of anchor bolt 2.

Further, it is more than or equal at a distance from first groove 4 and the contact surface of the thermal insulation board 1 and base course wall 3 Thermal insulation board 1 on the direction of the base course wall 3 thickness 1/3, in the present embodiment, first groove 4 be semicircle Connected in star, in other embodiments, first groove 4 or other shapes.

Further, as shown in Figure 2 and Figure 4, surface upper edge of the thermal insulation board 1 close to 3 side of the base course wall is flat Row in the direction of the base course wall 3 offer the second groove 5 and or dovetail groove 6, and second groove 5 or dovetail groove 6 One end of self-heat conserving plate 1 extends to the other end, the length or width of entire thermal insulation board 1 is covered, as shown in Figure 2 to 4, two Be also respectively provided on the joint face of a adjacent thermal insulation board 1 mismatch 8 and or tongue and groove 7, the end of the mismatch 8 or tongue and groove 7 Face matches, to ensure that closely connection blocks the heat bridge at splicing seams, effectively solve because of seam etc. two pieces of thermal insulation boards 1 without straight joint Problem generates the phenomenon that heat bridge, increases substantially wall insulation performance, increases structural integrity.

Further, the lightweight concrete 32 is less than 1000Kg/m using unit weight³Granular polystyrene foam concrete or Person's air entrained concrete.

Finally it should be noted that：The above embodiments are merely illustrative of the technical scheme of the present invention and are not intended to be limiting thereof, to the greatest extent Pipe is described the invention in detail with reference to above-described embodiment, those of ordinary skills in the art should understand that：Still may be used It is modified or replaced equivalently with the specific implementation mode to the present invention, and is repaiied without departing from any of spirit and scope of the invention Change or equivalent replacement, should all cover in present claims range.

Claims (9)

1. a kind of production method of prefabricated disconnected heat bridge construction wall, it is characterised in that：The prefabricated disconnected heat bridge construction wall includes Thermal insulation board, anchor bolt and base course wall, the thermal insulation board and the base course wall are fixed as one by anchor bolt, and the anchor bolt includes Screw rod is connected with disk in one end of the screw rod, and the disk is embedded in advance in the thermal insulation board, and the screw rod is poured in described In base course wall, the base course wall includes steel skeleton, and lightweight concrete, the production method are cast in the steel skeleton Include the following steps：

Step 1：Plate-laying is carried out to thermal insulation board, polylith thermal insulation board mutually splices, and the insulating layer of whole face wall is formed, in thermal insulation board The installation site of upper positioning anchor bolt；

Step 2：Anchor bolt is installed between adjacent two pieces of thermal insulation boards, the disk of anchor bolt is embedded in advance in the thermal insulation board, is made adjacent Two pieces of thermal insulation boards closely splice, and the screw rod of anchor bolt extends on the outside of thermal insulation board；

Step 3：It is laid flat the thermal insulation board spliced, and in the thermal insulation board upper base course wall spliced, while by the spiral shell of anchor bolt Bar pours in the base course wall so that the thermal insulation board and the base course wall are whole by anchor bolts；

Step 4：The base course wall being poured in will be poured and conserve molding, form prefabricated disconnected heat bridge construction wall.

2. a kind of production method of prefabricated disconnected heat bridge construction wall according to claim 1, it is characterised in that：In two phases Offered respectively on the joint face of the adjacent thermal insulation board with matched first groove of the disk of anchor bolt, the disk of the anchor bolt is embedding In first groove, one end that the anchor bolt is provided with to disk is embedded in advance in the thermal insulation board, and the screw rod of anchor bolt is set In the base course wall.

3. a kind of production method of prefabricated disconnected heat bridge construction wall according to claim 2, it is characterised in that：The screw rod The length minimum value stretched out on the outside of thermal insulation board is more than or equal to 30mm, and its maximum value is equal to the thickness of base course wall, to ensure anchor The anti-pulling and shear resistance of bolt.

4. a kind of production method of prefabricated disconnected heat bridge construction wall according to claim 2, it is characterised in that：Described first Groove is more than or equal to thermal insulation board perpendicular to the side of the base course wall at a distance from the contact surface of the thermal insulation board and base course wall The 1/3 of upward thickness.

5. a kind of production method of prefabricated disconnected heat bridge construction wall according to claim 2, it is characterised in that：Described first Groove is semi-circular recesses.

6. a kind of production method of prefabricated disconnected heat bridge construction wall according to claim 1, it is characterised in that：The heat preservation Surface upper edge of the plate close to the base course wall side be parallel to the base course wall direction offer the second groove and or swallow Stern notch, and one end of second groove or dovetail groove self-heat conserving plate extends to the other end, covers the length of entire thermal insulation board Or width.

7. a kind of production method of prefabricated disconnected heat bridge construction wall according to claim 1, it is characterised in that：In two phases Be also respectively provided on the joint face of the adjacent thermal insulation board mismatch and or tongue and groove, the end face of the mismatch or tongue and groove match, To ensure that closely connection blocks the heat bridge at splicing seams to two pieces of thermal insulation boards without straight joint.

8. a kind of production method of prefabricated disconnected heat bridge construction wall according to claim 1, it is characterised in that：The lightweight Concrete is less than 1000Kg/m using unit weight³。

9. a kind of production method of prefabricated disconnected heat bridge construction wall according to claim 8, it is characterised in that：The lightweight Concrete is granular polystyrene foam concrete or air entrained concrete.