CN204876161U - Inorganic heat preservation mortar external wall insulation system - Google Patents

Abstract

The utility model provides an inorganic heat preservation mortar external wall insulation system, the heat preservation system includes that it has coated multiple coating concrete wall or brickwork wall, multiple coating is by interior interface mortar layer, inorganic light -weight aggregate heat preservation mortar layer, wipe one's face anti -crack mortar layer and the finish coat of including in proper order outside to, the heat preservation system still includes a photocuring layer, the photocuring layer scribble in wipe one's face the anti -crack mortar layer with between the veneer, make interface mortar layer inorganic light -weight aggregate heat preservation mortar layer with the anti -crack mortar layer ability pick up speed of wiping one's face parches. The heat preservation system, simple structure, it is effectual to keep warm, moreover anchor assembly in the heat preservation system makes galvanized steel wire netting or glass fiber net check cloth with connection between concrete wall or the brickwork wall more closely with firm, prevent the excoriation phenomenon.

Description

A kind of inorganic heat-insulating mortar exterior wall heat insulation system

Technical field

The utility model relates to a kind of exterior wall heat-preserving system field, particularly relates to a kind of inorganic heat-insulating mortar exterior wall heat insulation system.

Background technology

Wall body heat preservation mortar has a variety of.All there is the problem of poor thermal insulation property in traditional material.For addressing this problem, market there is the wall heat insulation material that a kind of polystyrol foam material is filled.But the easy fireproof performance of this kind of material is poor.Therefore, the two fold problem that solve fire prevention and insulation is the task of top priority of this area.

On market, also once occurred that a kind of was that framework is aided with magnesium series refractory material and is cast into hollow shell with batten, and at a kind of insulated fire component made of inner filling with insulation material.But this component is applicable to making door, doorframe and window frame usually, does not possess general applicability for alternative body of wall, market is also difficult to accept.Because its quality is partially light, soundproof effect is poor, insufficient strength is high even also very poor with the switching performance of other accessories, is such as difficult to nailing, punching on such wall, can only be pre-buried when casting.

In view of above-mentioned defect, the utility model creator obtains the utility model finally through long research and practice.

Utility model content

The purpose of this utility model is, provides a kind of inorganic heat-insulating mortar exterior wall heat insulation system, in order to overcome above-mentioned technological deficiency.

For achieving the above object, the technical solution adopted in the utility model is, a kind of inorganic heat-insulating mortar exterior wall heat insulation system is provided, described heat-insulation system comprises on it and is covered with multiple coating concrete wall or masonry wall, described multiple coating comprises boundary mortar layer from inside to outside successively, inorganic light-weight aggregate thermal insulation mortar layer, Crack-resistance Front Mortar layer and finish coat, described heat-insulation system also comprises a photocurable layers, described photocurable layers is applied between described Crack-resistance Front Mortar layer and described facing, make described boundary mortar layer, described inorganic light-weight aggregate thermal insulation mortar layer and described Crack-resistance Front Mortar layer energy pick up speed parch.

Heat-insulation system described in the utility model, structure is simple, high insulating effect, and the anchoring piece in described heat-insulation system makes connection between described galvanized steel wire netting or glass fiber reticular cloth and described concrete wall or masonry wall more closely with firm, prevents excoriation phenomenon.

Preferably, described heat-insulation system comprises an anchoring piece, described anchoring piece penetrates described concrete wall or masonry wall, described boundary mortar layer and described inorganic light-weight aggregate thermal insulation mortar layer, described concrete wall or masonry wall, described boundary mortar layer and described inorganic light-weight aggregate thermal insulation mortar layer are coupled together, in order to reinforce described concrete wall or masonry wall.

Preferably, described anchoring piece comprises the expand tube be made up of engineering plastics and acts on described expand tube inner thus make the tapping screw that described expand tube expands, the rear of the stage casing that described expand tube comprises the cuspidated solid leading portion of tool, inside has slot-shaped blind hole and formation sleeve pipe; Described tapping screw comprises the leading portion with tapping screw thread, the stage casing with expansible wings and has protruding edge and end face has the rear of the cross line of rabbet joint.

Preferably, described anchoring piece also comprises a pad, and described pad is nested on described tapping screw.

Preferably, the tail end cross section of described expand tube is an inverted trapezoidal, and the described expand tube of inverted trapezoidal is connected with described tapping screw, adopts wedge-like engagement, and uses screwed tight.

Preferably, have an elastic component inside the leading portion of described inverted trapezoidal, described elastic component is connected with wing base in the leading portion of described inverted trapezoidal.

Preferably, the tail end of described expand tube also comprises a fastener, and described fastener is arranged on the rear inside of described inverted trapezoidal, is blocked by described tapping screw.

Preferably, the leading portion of described tapping screw and the tail end interference fit of described expand tube.

Preferably, the length of the tail end of the length >=described expand tube of the leading portion of described tapping screw.

Preferably, described boundary mortar layer is for being coated with brush-type boundary mortar layer or batch scratch-type boundary mortar layer, the built-in galvanized steel wire netting of described Crack-resistance Front Mortar layer or glass fiber reticular cloth.

The beneficial effects of the utility model are compared with the prior art: heat-insulation system described in the utility model, structure is simple, high insulating effect, and the anchoring piece in described heat-insulation system makes connection between described galvanized steel wire netting or glass fiber reticular cloth and described concrete wall or masonry wall more closely with firm, prevents excoriation phenomenon.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model inorganic heat-insulating mortar exterior wall heat insulation system;

Fig. 2 is anchor arrangement schematic diagram in the utility model inorganic heat-insulating mortar exterior wall heat insulation system.

Detailed description of the invention

Below in conjunction with accompanying drawing, to above-mentioned being described in more detail with other technical characteristic and advantage of the utility model.

Refer to as shown in Figure 1, it is the structural representation of the utility model inorganic heat-insulating mortar exterior wall heat insulation system; Shown in composition graphs 2, it is anchor arrangement schematic diagram in the utility model inorganic heat-insulating mortar exterior wall heat insulation system; Inorganic heat-insulating mortar exterior wall heat insulation system, comprise on it and be covered with multiple coating concrete wall or masonry wall 1, described multiple coating comprises boundary mortar layer 2, inorganic light-weight aggregate thermal insulation mortar layer 3, Crack-resistance Front Mortar layer 4 and finish coat 5 from inside to outside successively.Described boundary mortar layer 2 is for being coated with brush-type boundary mortar layer 2 or batch scratch-type boundary mortar layer 2.The built-in galvanized steel wire netting of described Crack-resistance Front Mortar layer 4 or glass fiber reticular cloth, described heat-insulation system also comprises a photocurable layers 6, described photocurable layers 6 is applied between described Crack-resistance Front Mortar layer 4 and described finish coat 5, make described boundary mortar layer 2, described inorganic light-weight aggregate thermal insulation mortar layer 3 and described Crack-resistance Front Mortar layer 4 can pick up speed parch, save the working time, increase work efficiency, described photocurable layers 6 also can respectively after described boundary mortar layer 2 and described inorganic light-weight aggregate thermal insulation mortar layer 3, all be coated with the photocurable layers 6 described in last layer, make described boundary mortar layer 2 like this, laminating between described inorganic light-weight aggregate thermal insulation mortar layer 3 and described Crack-resistance Front Mortar layer 4 is more tight, prevent obscission.

Described galvanized steel wire netting or glass fiber reticular cloth are added by anchoring piece 7 and are fixed in described concrete wall or masonry wall 1; Described anchoring piece 7 comprises the expand tube 71 be made up of engineering plastics and acts on described expand tube 71 inner thus make the tapping screw 72 that described expand tube 71 expands, the stage casing that described expand tube 71 comprises the cuspidated solid leading portion of tool, inside has slot-shaped blind hole and form the rear of sleeve pipe; Described tapping screw 72 comprises the leading portion with tapping screw thread, the stage casing with expansible wings 721 and has protruding edge 722 and end face has the rear of the cross line of rabbet joint.Described anchoring piece 7 also comprises a pad 73, and described pad 73 is nested on described tapping screw 72.The leading portion of described tapping screw 72 and the tail end interference fit of described expand tube 71.The length of the tail end of the length >=described expand tube 71 of the leading portion of described tapping screw 72.

The tail end cross section of described expand tube 71 is an inverted trapezoidal, and when the described expand tube 71 of inverted trapezoidal is connected with described tapping screw 72, adopt wedge shape to connect, contact area is large, connects more firm, an elastic component 711 is had inside the leading portion of described inverted trapezoidal, described elastic component 711 is connected with wing base in the leading portion of described inverted trapezoidal, when described tapping screw 72 is screwed in the inverted trapezoidal of described expand tube 71, described elastic component 711 1 aspect plays the effect of clamping, make the connection between described expand tube 71 and described self-tapping screw more tight, the effect of buffering can be played on the other hand, reduce the infringement to it when described tapping screw 72 is screwed into described expand tube 71, the tail end of described expand tube 71 also comprises a fastener 712, described fastener 712 is arranged on the rear inside of described inverted trapezoidal, when described tapping screw 72 is screwed into described expand tube 71, described elastic component 711 can produce an outside thrust to described tapping screw 72, and described tapping screw 72 blocks by described fastener 712, and owing to adopting wedge shape to be connected between described expand tube 71 with described tapping screw 72, the thrust that described like this elastic component 711 produces makes the connection between described expand tube 71 and described tapping screw 72 more tight, firmly.

Heat-insulation system described in the utility model, structure is simple, high insulating effect, and the anchoring piece 7 in described heat-insulation system makes connection between described galvanized steel wire netting or glass fiber reticular cloth and described concrete wall or masonry wall 1 more closely with firm, prevents excoriation phenomenon.

The foregoing is only preferred embodiment of the present utility model, is only illustrative for the utility model, and nonrestrictive.Those skilled in the art is understood, and can carry out many changes in the spirit and scope that the utility model claim limits to it, amendment, even equivalence, but all will fall in protection domain of the present utility model.

Claims (10)

1. an inorganic heat-insulating mortar exterior wall heat insulation system, it is characterized in that, described heat-insulation system comprises on it and is covered with multiple coating concrete wall or masonry wall, described multiple coating comprises boundary mortar layer, inorganic light-weight aggregate thermal insulation mortar layer, Crack-resistance Front Mortar layer and finish coat from inside to outside successively, described heat-insulation system also comprises a photocurable layers, described photocurable layers is applied between described Crack-resistance Front Mortar layer and described facing, and described boundary mortar layer, described inorganic light-weight aggregate thermal insulation mortar layer and described Crack-resistance Front Mortar layer energy pick up speed are parched.

2. heat-insulation system according to claim 1, it is characterized in that, described heat-insulation system comprises an anchoring piece, described anchoring piece penetrates described concrete wall or masonry wall, described boundary mortar layer and described inorganic light-weight aggregate thermal insulation mortar layer, described concrete wall or masonry wall, described boundary mortar layer and described inorganic light-weight aggregate thermal insulation mortar layer are coupled together, in order to reinforce described concrete wall or masonry wall.

3. heat-insulation system according to claim 2, it is characterized in that, described anchoring piece comprises the expand tube be made up of engineering plastics and acts on described expand tube inner thus make the tapping screw that described expand tube expands, the rear of the stage casing that described expand tube comprises the cuspidated solid leading portion of tool, inside has slot-shaped blind hole and formation sleeve pipe; Described tapping screw comprises the leading portion with tapping screw thread, the stage casing with expansible wings and has protruding edge and end face has the rear of the cross line of rabbet joint.

4. heat-insulation system according to claim 3, is characterized in that, described anchoring piece also comprises a pad, and described pad is nested on described tapping screw.

5. heat-insulation system according to claim 4, is characterized in that, the tail end cross section of described expand tube is an inverted trapezoidal, and the described expand tube of inverted trapezoidal is connected with described tapping screw, adopts wedge-like engagement, and uses screwed tight.

6. heat-insulation system according to claim 5, is characterized in that, has an elastic component inside the leading portion of described inverted trapezoidal, and described elastic component is connected with wing base in the leading portion of described inverted trapezoidal.

7. heat-insulation system according to claim 6, is characterized in that, the tail end of described expand tube also comprises a fastener, and described fastener is arranged on the rear inside of described inverted trapezoidal, is blocked by described tapping screw.

8. heat-insulation system according to claim 7, is characterized in that, the leading portion of described tapping screw and the tail end interference fit of described expand tube.

9. heat-insulation system according to claim 8, is characterized in that, the length of the tail end of the length >=described expand tube of the leading portion of described tapping screw.

10. heat-insulation system according to claim 9, is characterized in that, described boundary mortar layer is for being coated with brush-type boundary mortar layer or batch scratch-type boundary mortar layer, the built-in galvanized steel wire netting of described Crack-resistance Front Mortar layer or glass fiber reticular cloth.