CN215907251U - Heat-insulation and heat-preservation assembled external wall brick - Google Patents

Abstract

The utility model relates to the technical field of building decoration, and provides a heat insulation and preservation assembled external wall brick which is reasonable in structural design, easy to operate and capable of insulating heat and preserving heat.

Description

Heat-insulation and heat-preservation assembled external wall brick

Technical Field

The utility model relates to the technical field of building decoration, in particular to a heat-insulating assembled external wall brick.

Background

The ceramic tiles are attached to the wall surface through cement in general exterior wall decoration, the temperature of the exterior wall directly attached to the wall surface and decorated by the ceramic tiles is fast, the interior of the exterior wall is very hot when sunlight irradiates the wall surface in summer, and the interior of the exterior wall is extremely cold in winter, so that the temperature of the exterior wall is greatly different from that of an ideal living environment.

The present invention has been made in order to improve the above problems.

SUMMERY OF THE UTILITY MODEL

Therefore, aiming at the problems, the utility model provides the heat insulation and preservation assembled external wall tile which is reasonable in structural design, simple and easy to operate and capable of insulating heat and preserving heat.

In order to solve the technical problems, the utility model adopts the technical scheme that the heat insulation and preservation assembled external wall brick comprises a ceramic tile body, wherein a foam layer for heat preservation and heat insulation is arranged in the ceramic tile body, more than two fixing lugs for fixing the foam layer are arranged on the inner surface of the ceramic tile body, fixing grooves matched with the fixing lugs are formed in the foam layer, two groups of opposite sides of the foam layer are respectively provided with a connecting assembly for connecting and mounting, the upper end surface of the middle part of the foam layer is provided with a heat resistance and conduction structure for reducing the contact area with the inner surface of the ceramic tile body so as to reduce the heat conduction effect, and the lower end surface of the middle part of the foam layer is provided with a supporting structure for strengthening the middle support of the ceramic tile body.

The further improvement is that: coupling assembling including set up respectively in first connecting strip, the second connecting strip on the opposite side of foam layer, first connecting strip is followed the spread groove has been seted up to ceramic tile body surface to internal surface direction, the second connecting strip is followed ceramic tile body internal surface to external surface direction be provided with spread groove matched with connects the cutting, connect the cutting chucking in the spread groove, connect the cutting with be provided with the reinforced connection structure who is used for the reinforced connection cutting to be connected with the spread groove between the spread groove.

The further improvement is that: the reinforced connection structure comprises grooves evenly arranged on the two inner side walls of the connecting groove in the length direction of the first connecting strip, bulges matched with the grooves are arranged on the connecting inserting strip, and the grooves are tightly attached to the bulges.

The further improvement is that: the heat resistance and conduction structure is heat resistance holes which are uniformly formed downwards along the upper end face of the foam layer.

The further improvement is that: the supporting structure is along the downward even support bar that sets up of foam layer lower surface, form the # -shaped check between the support bar.

The further improvement is that: the four sides of the ceramic tile body are uniformly retracted by 1-1.5 mm relative to the four sides of the foam layer.

The further improvement is that: the first connecting strip and the second connecting strip are integrally manufactured with the foam layer.

The further improvement is that: the number of the fixing lugs is four, and the fixing lugs are distributed on the middle of the four sides of the tile body.

The further improvement is that: the fixing lug is integrally formed with the tile body.

By adopting the technical scheme, the utility model has the beneficial effects that: the utility model has the following advantages:

1. according to the utility model, the foam layer is added in the tile body to insulate heat, so that the indoor hot conditions in summer and the indoor cold conditions in winter can be effectively improved.

2. In the using process, only part of the utility model is needed to be bonded with the wall body by using cement, and the rest is needed to be brushed by only one layer of adhesive, so that the using amount of the cement can be greatly reduced, the time for coating the cement is saved, and the laying efficiency is improved.

3. The ceramic tile body is retracted by 1-1.5 mm relative to the foam layer, gaps are formed by the retracted distances after the ceramic tile body is laid on the wall surface, seam beautifying materials can be used for filling and increasing the attractiveness of the wall surface, and water can be prevented from entering the wall body after the seam beautifying materials are used. Due to the arrangement of the indentation distance, certain errors can be allowed in the production of the ceramic tile body, the production requirement of the ceramic tile body is reduced, the qualification rate of the ceramic tile body is improved, the resource waste is avoided, meanwhile, the boxing, packaging and transportation are facilitated, the abrasion of four corners of the ceramic tile body is effectively prevented, and the fracture rate is reduced.

4. The first connecting strip and the second connecting strip are arranged in the wall body, so that the wall body can be conveniently and tightly spliced, and the groove arranged on the first connecting strip is tightly matched with the protrusion arranged on the second connecting strip, so that the connection tightness between the wall body and the wall body is improved.

5. The heat-resistant holes arranged in the ceramic tile can reduce the contact area of the foam layer and the ceramic tile body and reduce heat transfer.

6. The supporting strips arranged in the utility model can reduce the foam usage amount of the foam layer, and simultaneously give a certain support to the tile body, thereby avoiding the paved tile from being cracked under the impact of a heavy object.

Drawings

Fig. 1 is a schematic structural view of the assembled heat-insulating exterior wall tile according to the embodiment of the present invention.

Fig. 2 is a schematic view of the internal structure of the assembled heat-insulating exterior wall tile according to the embodiment of the present invention.

Fig. 3 is a schematic structural view of an assembled heat-insulating exterior wall tile sticker according to an embodiment of the utility model.

Detailed Description

The utility model will now be further described with reference to the accompanying drawings and specific embodiments.

Referring to fig. 1 to 3, disclosed in an embodiment of the present invention is an assembled thermal insulation exterior wall tile, including a tile body 10, a foam layer 11 for thermal insulation is disposed inside the tile body 10, four sides of the tile body 10 are uniformly retracted by 1-1.5 mm relative to the four sides of the foam layer 11, four fixing lugs 12 for fixing the foam layer 11 are disposed on an inner surface of the tile body 10, the fixing lugs are distributed on a middle portion of the four sides of the tile body 10, the fixing lugs 12 are integrally formed with the tile body 10, and fixing grooves 13 matched with the fixing lugs 12 are disposed on the foam layer 11. Before the fixing lugs 12 and the fixing grooves 13 are connected, a layer of adhesive needs to be coated on the fixing lugs 12 or in the fixing grooves 13 and on the contact part of the foam layer 11 and the tile body 10, so as to ensure the firm connection between the tile body 10 and the foam layer 11. Be provided with the coupling assembling that is used for connecting the installation on two sets of opposite sides of foam layer 11 respectively, coupling assembling including set up respectively in foam layer 11 is first connecting strip 14, second connecting strip 15 on the opposite side, first connecting strip 14, second connecting strip 15 with foam layer 11 an organic whole is made, first connecting strip 14 is followed spread groove 16 has been seted up to tile body 10 surface to internal surface direction, second connecting strip 15 is followed tile body 10 internal surface to external surface direction be provided with spread groove 16 matched with connects cutting 17, connect cutting 17 can the chucking in spread groove 16, connect cutting 17 with be provided with between the spread groove 16 and be used for strengthening the enhancement connection structure who connects cutting 17 and spread groove 16 and be connected. Strengthen connection structure includes along 14 length directions of first connecting strip evenly set up in recess 18 on the two inside walls of connecting groove 16, be provided with on the connecting cutting 17 with recess 18 matched with protruding 19, recess 18 with protruding 19 closely laminates. Foam layer 11 middle part up end is provided with and is used for reducing with ceramic tile body 10 internal surface area of contact in order to reduce the thermal conduction effect hinder the heat conduction structure, hinder the heat conduction structure for following foam layer 11 up end is even seting up hinders hot hole 20 downwards. The terminal surface is provided with the bearing structure who is used for strengthening the support to ceramic tile body 10 middle part under the 11 middle parts of foam layer, bearing structure is for following the support bar 21 that 11 lower surfaces of foam layer evenly set up downwards, form the well word check between the support bar 21.

The use method of the utility model comprises the steps of firstly bonding one external tile on a wall body, then connecting a second external tile with a second connecting strip 15 of a foam layer 11 on the second external tile through a first connecting strip 14 of the foam layer 11 on the first external tile and a soft hammer in a beating mode, firstly coating adhesive on the first connecting strip 14 and the second connecting strip 15 before connection, then sequentially connecting the external tiles until the whole wall surface is fully paved, retracting the tile body 10 relative to the foam layer 11 by a distance of 1-1.5 mm, and forming a gap 22 after the wall surface is paved by the retracting distances.

When the utility model is used for decorating the outer wall, the utility model arranged on the periphery needs to be firmly bonded on the wall after the cement is used for filling the gaps among the supporting bars 21 on the foam layer 11. When the area of the wall is large, cement is needed to be used for bonding the wall at intervals, and the bonding firmness of the wall and the wall is ensured.

While there have been shown and described what are at present considered to be the fundamental principles of the utility model and its essential features and advantages, it will be understood by those skilled in the art that the utility model is not limited by the embodiments described above, which are included to illustrate the principles of the utility model, but that various changes and modifications may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims and their equivalents.

Claims (9)

1. The utility model provides a thermal-insulated assembled wall brick that keeps warm, includes the ceramic tile body, its characterized in that: the ceramic tile comprises a ceramic tile body and is characterized in that a foam layer used for heat preservation and heat insulation is arranged inside the ceramic tile body, more than two fixing lugs used for fixing are arranged on the inner surface of the ceramic tile body, fixing grooves matched with the fixing lugs are formed in the foam layer, two groups of connecting assemblies used for connecting and installing are arranged on opposite sides of the foam layer respectively, a heat resisting and conducting structure used for reducing the contact area with the inner surface of the ceramic tile body so as to reduce the heat conducting effect is arranged on the upper end face of the middle of the foam layer, and a supporting structure used for reinforcing the middle of the ceramic tile body is arranged on the lower end face of the middle of the foam layer.

2. The heat insulation and preservation assembled exterior wall tile according to claim 1, wherein: coupling assembling including set up respectively in first connecting strip, the second connecting strip on the opposite side of foam layer, first connecting strip is followed the spread groove has been seted up to ceramic tile body surface to internal surface direction, the second connecting strip is followed ceramic tile body internal surface to external surface direction be provided with spread groove matched with connects the cutting, connect the cutting chucking in the spread groove, connect the cutting with be provided with the reinforced connection structure who is used for the reinforced connection cutting to be connected with the spread groove between the spread groove.

3. The heat insulation and preservation assembled exterior wall tile according to claim 2, wherein: the reinforced connection structure comprises grooves evenly arranged on the two inner side walls of the connecting groove in the length direction of the first connecting strip, bulges matched with the grooves are arranged on the connecting inserting strip, and the grooves are tightly attached to the bulges.

4. The heat insulation and preservation assembled exterior wall tile according to claim 1, wherein: the heat resistance and conduction structure is heat resistance holes which are uniformly formed downwards along the upper end face of the foam layer.

5. The heat insulation and preservation assembled exterior wall tile according to claim 1, wherein: the supporting structure is along the downward even support bar that sets up of foam layer lower surface, form the # -shaped check between the support bar.

6. The heat insulation and preservation assembled exterior wall tile according to claim 1, wherein: the four sides of the ceramic tile body are uniformly retracted by 1-1.5 mm relative to the four sides of the foam layer.

7. The heat insulation and preservation assembled exterior wall tile according to claim 2, wherein: the first connecting strip and the second connecting strip are integrally manufactured with the foam layer.

8. The heat insulation and preservation assembled exterior wall tile according to claim 1, wherein: the number of the fixing lugs is four, and the fixing lugs are distributed on the middle of the four sides of the tile body.

9. The heat insulation and preservation assembled exterior wall tile according to claim 1, wherein: the fixing lug is integrally formed with the tile body.

Images