CN211775330U - Glazed foamed ceramic heat-insulation integrated plate for protecting external wall - Google Patents

Abstract

The utility model discloses a glazed foamed ceramic heat-insulation integrated plate for exterior wall protection, which belongs to the technical field of exterior wall heat-insulation protection, and comprises a heat-insulation integrated plate, wherein the heat-insulation integrated plate comprises a decoration surface layer and a reinforcing layer, and the decoration surface layer and the reinforcing layer are respectively positioned on the front side and the rear side of the heat-insulation integrated plate; the decorative surface layer is positioned on the front side of the heat-insulation integrated plate and is formed by one-time sintering with the heat-insulation layer of the heat-insulation integrated plate; the reinforcing layer is provided with a groove along the horizontal direction of the installation mode of the heat-insulation integrated plate, and two ends of the groove extend to the outer side of the reinforcing layer. The groove is close to the bottom of the heat-preservation integrated plate. The net cover is paved on the reinforcing layer and fully attached to the reinforcing layer through reinforcing glue. Fundamentally has stopped current ceramic foam insulation intergral template that has the glaze and has cracked easily, breakable problem that leads to producing and drop can effectively reduce outer wall fracture and drop.

Description

Glazed foamed ceramic heat-insulation integrated plate for protecting external wall

Technical Field

The utility model relates to an outer thermal insulation protection technical field of outer wall, in particular to outer wall protection is with ceramic foam insulation intergral template that has glaze.

Background

The foamed ceramic heat-insulating integrated plate is suitable for heat insulation of building external walls, fireproof isolation belts, self-heat-insulation cold and hot bridge treatment of buildings and the like. The foamed ceramic heat-insulation integrated board has the advantages of good heat insulation, fire resistance, flame retardance, small deformation coefficient, inorganic material, ageing resistance, stable performance, good ecological environmental protection, light dead weight, low water absorption, zero water storage property, good freeze-thaw resistance, good compatibility with a wall base layer and a plastering layer, good safety and stability and capability of having the same service life with a building. More importantly, the fireproof grade of the material is grade A, the fatal defects that organic materials are afraid of naked fire and are easy to age are overcome, and the domestic blank of inorganic heat-insulating materials for buildings is filled.

Chinese patent with publication number CN201546401U and publication date 2010, 08 and 11 discloses a foamed ceramic insulation board building exterior wall external insulation system, which overcomes the defects of fire resistance, durability and the like of the conventional exterior wall insulation system, but has the following disadvantages:

1. the bonding surface and the facing of the foamed ceramic insulation board are two independent planes, so that the phenomena of infirm bonding, falling off and great potential safety hazard are easy to occur;

2. the foamed ceramic insulation board has low strength (brittleness) and high water absorption, and cannot be compared with wall insulation materials such as foamed glass, foamed ceramic, phenolic foam boards, polyphenyl particles, polyphenyl boards, extruded sheets and the like, so that the foamed ceramic insulation board is easy to crack due to low overall strength without special treatment;

3. the foamed ceramic insulation board adopts the single fixed mode of bonding, causes foamed ceramic insulation board and outer wall cooperation intensity not high, and the foamed ceramic insulation board easily drops.

In order to overcome the defects, the utility model provides a novel outer wall protection is with having ceramic foam insulation intergral template of glaze can be with ceramic foam insulation intergral template stable laminating on the outer wall surface.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an outer wall protection is with foamed ceramic heat preservation intergral template that has the glaze, it has solved current foamed ceramic heat preservation intergral template that has the glaze and has easily appeared pasting insecure, produces the problem that drops.

The above technical purpose of the present invention can be achieved by the following technical solutions:

the heat-insulation integrated plate comprises a decoration surface layer and a reinforcing layer, wherein the decoration surface layer and the reinforcing layer are respectively positioned on the front side and the rear side of the heat-insulation integrated plate;

the reinforcing layer is provided with a groove along the horizontal direction of the heat-insulation integrated plate, two ends of the groove extend to the outer side of the reinforcing layer, and bonding mortar is arranged in the groove so that the heat-insulation integrated plate can be attached to an outer wall.

By adopting the structure, when the heat-insulation integrated plate is adhered, the bonding mortar is firstly coated in the groove, then the heat-insulation integrated plate is adhered to the surface of the outer wall, and after the bonding mortar is solidified, the heat-insulation integrated plate is stably adhered to the outer wall. The heat-insulating integrated plate has good compatibility with bonding mortar, concrete and the like, reliable bonding and similar expansion coefficient. Therefore, the bonding mortar is used as the bonding agent, so that the connection strength between the heat-insulation integrated plate and the outer wall can be effectively improved, and the safety is higher. The bulge and the groove formed after the bonding mortar is hardened form a compact and fit anchor bolt structure, so that the heat-insulation integrated plate is tightly adhered to the wall surface.

The method is further optimized as follows: the groove is close to the bottom of the heat-preservation integrated plate.

By adopting the structure, the stress point of the heat-insulation integrated plate is positioned at the lower part of the heat-insulation integrated plate, so that the hanging buckle effect is improved.

The method is further optimized as follows: and a mesh enclosure is paved on the reinforcing layer and is fully adhered to the reinforcing layer on the rear side of the heat-insulation integrated plate through reinforcing glue.

By adopting the structure, the mesh enclosure mainly acts as reinforcement, the fragile glazed heat-insulation integrated board forms a whole, so that the heat-insulation integrated board is not easy to crack and fall off more safely, the cracking problem of the heat-insulation integrated board is also solved through reinforcement, the problem that the conventional heat-insulation integrated board with the glaze is fragile and easy to crack is fundamentally avoided, and the outer wall cracking and the falling off caused by breakage can be effectively reduced. In addition, even if the net cover is broken, the net cover is not dropped like toughened glass under the traction of the net cover, and the use is safer and more reliable. Can effectively prevent fissured emergence, have stable in structure, intensity is high, and alkali resistance is good, and is anticorrosive, characteristics such as anti-crack can effectively strengthen the bulk strength of heat preservation intergral template with its laminating on heat preservation intergral template, improve the longitude and latitude tensile strength of heat preservation intergral template, make the stress homodisperse that heat preservation intergral template receives, can effectively stop heat preservation intergral template fracture.

The method is further optimized as follows: the anchoring piece comprises a supporting plate and a connecting plate;

the supporting plate is supported between the upper heat-preservation integrated plate and the lower heat-preservation integrated plate which are adjacent to each other, and the connecting plate is used for anchoring the supporting plate on the outer wall.

By adopting the structure, the heat-insulation integrated plate is anchored on the outer wall through the anchoring piece and is attached to the outer wall through the bonding mortar, and the mode of bonding and anchoring is adopted, so that the heat-insulation integrated plate has a good adhesion effect.

The method is further optimized as follows: the supporting plate comprises a supporting plate body, a front baffle and a rear baffle;

the front baffle is vertically fixed on the front side of the supporting plate body and is closely wrapped on the decorative layer on the surface of the heat-insulation integrated plate, and the rear baffle is vertically fixed on the supporting plate body and is contacted with the reinforcing layer on the back of the heat-insulation integrated plate, so that the rear baffle is closely wrapped on the reinforcing layer on the surface of the heat-insulation integrated plate;

a first mounting hole is formed in one side, far away from the front baffle, of the support plate body, and the first mounting hole is located between the rear baffle and the rear edge of the support plate body.

Adopt above-mentioned structure, the backup pad body supports between adjacent heat preservation intergral template about, and between the baffle around the heat preservation intergral template adopts the embedding mode to inlay, and the intergral template side is not destroyed, can guarantee the integrality of intergral template, holds down the power of grabbing to adjacent heat preservation intergral template formation about, and whole atress is even to the improvement intensity of mating formation between adjacent heat preservation intergral template.

The method is further optimized as follows: the connecting plate comprises a back rest plate and a bottom plate which are integrally connected, and the back rest plate is perpendicular to the bottom plate;

the back board is connected with the outer wall through back-screwing screws, and the bottom board is connected with the supporting board body through screws.

By adopting the structure, the screw connection and the dismounting are convenient, and the matching according to the outer wall condition is convenient.

The method is further optimized as follows: a third mounting hole is formed in the back board, and the back board is mounted on the outer wall through the third mounting hole;

and a second mounting hole is formed in the bottom plate, and corresponds to the first mounting hole in position, so that the bottom plate is in screwed connection with the support plate body.

By adopting the structure, the back board can be connected on the outer wall by screws during installation, and then the bottom board is connected on the supporting board body by screws, so that the installation is very simple.

The method is further optimized as follows: the second mounting hole is a circular threaded hole, and the first mounting hole is a waist-shaped hole and is arranged in the vertical direction of the front baffle and the rear baffle along the length direction.

By adopting the structure, the front and back adjusting space is larger, the flatness of the heat-insulation integrated plate can be adjusted, and the installation is convenient.

The method is further optimized as follows: the front baffle comprises an upper front baffle and a lower front baffle which are integrally connected, the upper front baffle is used for being tightly wrapped with the finish coat of the heat-insulating integrated plate above the supporting plate body, and the lower front baffle is used for being tightly wrapped with the finish coat of the heat-insulating integrated plate below the supporting plate body;

the rear baffle comprises an upper rear baffle and a lower rear baffle which are integrally connected, the upper rear baffle is used for being matched with the reinforcing layer of the heat-preservation integrated plate above the supporting plate body to form an outer package, and the lower rear baffle is used for being matched with the reinforcing layer of the heat-preservation integrated plate below the supporting plate body to form an outer package;

the lower rear baffle is provided with a notch matched with the bottom plate, one side of the bottom plate is connected with the backrest plate, and the other side of the bottom plate penetrates through the notch, so that the bottom plate is supported at the bottom of the supporting plate body.

Adopt above-mentioned structure, preceding baffle and backplate set up mainly in order to play the fixed effect in foamed ceramic heat preservation intergral template location, prevent foamed ceramic heat preservation intergral template back-and-forth movement, have better support fixed action. The setting of breach for the bottom plate passes after the backplate down again with this body coupling of backup pad, so alright reduce the gap between heat preservation intergral template and the outer wall, reduce and paste thickness, increase adhesion strength.

The method is further optimized as follows: and a mortar bonding point is arranged on the reinforcing layer of the heat-insulation integrated plate and is positioned above the groove.

Adopt above-mentioned structure, the integrative board of heat preservation itself quality is just lighter, consequently only two anchor assembly that support in heat preservation integrative board below just can hold in the palm the jail, or only the bonding mortar through the recess also can glue the jail, and the mortar bonding point of recess top mainly is in order to play the auxiliary stay effect, satisfies the standard requirement that "glue the anchor and combine" simultaneously.

To sum up, the utility model discloses following beneficial effect has: during the installation, install lower floor's heat preservation intergral template earlier, install upper heat preservation intergral template again, and pass through the screw fixation at the outer wall earlier with the connecting plate, then rethread screw fixes the connecting plate in the backup pad to make lower floor's heat preservation intergral template buckle in the backup pad below, so that the anchor is glued on the outer wall to the heat preservation intergral template. In order to improve the bonding strength of heat preservation intergral template, reduce the heat preservation intergral template risk of droing, the utility model discloses set up the recess that the level set up at the heat preservation intergral template back to bond through the bonding mortar. And a mode of bonding and anchoring is adopted, so that a better fixing effect is achieved. In addition, the setting of breach for the bottom plate passes after the backplate down again with this body coupling of backup pad, so alright reduce the gap between heat preservation intergral template and the outer wall, reduce and paste thickness, increase adhesion strength. The heat-preservation integrated plate is densely embedded between the front baffle and the rear baffle, and is stressed on the supporting plate, so that the holding power and the supporting power are formed for the heat-preservation integrated plate.

Drawings

FIG. 1 is a schematic partial structure diagram of an embodiment, which is mainly used for embodying the specific structure of a foamed ceramic heat-insulating integrated plate;

FIG. 2 is a schematic structural view of an embodiment, which is mainly used for embodying the structure of the back surface of the heat-insulating integrated plate;

FIG. 3 is a schematic structural view of an embodiment, which is mainly used for embodying the structure of the anchor;

FIG. 4 is a schematic structural view of an embodiment, primarily for embodying the structure of the anchor;

fig. 5 is a schematic top view of an embodiment, primarily for embodying the structure of the anchor.

In the figure, 1, an insulation integrated plate; 21. a support plate; 211. a support plate body; 212. a first mounting hole; 213. a front baffle; 2131. an upper front baffle plate; 2132. a lower front baffle plate; 214. a tailgate; 2141. an upper rear baffle plate; 2142. a lower tailgate; 215. a notch; 22. a connecting plate; 221. a back board; 222. a third mounting hole; 223. a base plate; 224. a second mounting hole; 3. a mesh enclosure; 4. a groove; 5. bonding mortar; 6. and (5) bonding points by mortar.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Example (b): a glazed foamed ceramic heat-insulating integrated plate for protecting an external wall is shown in figures 1-5 and comprises a heat-insulating integrated plate 1 and anchoring parts. The heat-preservation integrated plate 1 comprises a decoration surface layer and a reinforcing layer, wherein the middle parts of the decoration surface layer and the reinforcing layer are heat-preservation layers, and the decoration surface layer and the reinforcing layer are respectively positioned on the front side and the rear side of the heat-preservation integrated plate 1. The finishing coat is positioned in front of the heat-insulation integrated plate 1 and is formed by one-time sintering with the heat-insulation layer of the heat-insulation integrated plate. The heat-insulating integrated plate 1 may be a square plate or a plate of other geometric shapes. The reinforcing layer has been seted up recess 4 along the horizontal direction of 1 mounting means of heat preservation intergral template, and recess 4 both ends all extend to the outside of the reinforcing layer left and right sides. Preferably, the groove 4 is close to the bottom surface of the heat-insulating integrated plate 1 and is about 2cm away from the bottom surface of the heat-insulating integrated plate 1, the width of the groove 4 is 8cm, and the depth of the groove is 3-5 mm.

It should be noted that one or more grooves 4 may be formed, but several grooves are formed, and regardless of whether the heat-insulating integrated plate 1 is installed horizontally or vertically, the grooves 4 should be close to the bottom of the heat-insulating integrated plate 1 made of foamed ceramic, and the grooves 4 should be arranged along the horizontal direction of the installation mode of the heat-insulating integrated plate 1. In addition, if the grooves 4 are opened in multiple rows, the distance between the grooves 4 should be as small as possible. Preferably, the number of the grooves 4 is not more than three.

In addition, in order to strengthen the adhesion effect and play a role of double insurance, the reinforcing layer of the heat-insulating integrated plate 1 is provided with a mortar adhesion point 6, and the mortar adhesion point 6 is positioned above the groove 4.

Referring to fig. 1 to 5, a mesh enclosure 3 is laid on the reinforcement layer on the back surface of the heat-insulating integrated plate 1, the mesh enclosure 3 is mesh fabric, and the mesh enclosure 3 is fully laid on the back surface of the heat-insulating integrated plate 1 and is bonded to the reinforcement layer by reinforcement glue. And the bonding mortar 5 is coated in the groove 4, so that the heat-insulating integrated plate 1 is adhered to the surface of the outer wall through the bonding mortar 5. The anchor comprises a support plate 21 and a connecting plate 22, wherein the connecting plate 22 is an L-shaped plate. The supporting plate 21 is supported between the upper and lower adjacent heat-insulating integrated plates 1, and the connecting plate 22 is used for anchoring the supporting plate 21 on the outer wall.

It should be noted that neither the grooves 4 nor the mortar bond points 6 are adhered with the reinforcing glue. The mesh enclosure 3 is full-covered, but the grooves 4 and the mesh cloth covered on the grooves 4 cannot be stained with reinforcing glue, the grooves 4 must be clean and cannot be polluted by glue, dust, oil stains and the like, and the space between the mesh enclosure 3 and the bottom of the groove is hollowed at the positions of the grooves 4.

In above-mentioned technical scheme, traditional foamed ceramic heated board intensity is low (brittle), in order to overcome this defect, the utility model discloses set up screen panel 3 at 1 backs of heat preservation intergral template to with screen panel 3 adhesion on heat preservation intergral template 1 through the reinforcement glue, thereby improve the bulk strength of heat preservation intergral template 1, in order to prevent the fracture. And adopt the mode that glues the anchor and combine to make heat preservation intergral template 1 firmly laminate on the outer wall, firm effectual and construction are simple.

Referring to fig. 1 to 5, the support plate 21 includes a support plate body 211, a front barrier 213, and a rear barrier 214, and the support plate body 211, the front barrier 213, and the rear barrier 214 are integrally connected. The front baffle 213 is vertically fixed on the front side of the supporting plate body 211 and tightly wrapped on the surface of the facing layer of the heat-insulating integrated plate 1. Preferably, the front barrier 213 includes an upper front barrier 2131 and a lower front barrier 2132 integrally connected, and the upper front barrier 2131 and the lower front barrier 2132 are vertically symmetrical. Last preceding baffle 2131 is used for with the closely knit outsourcing of the finish coat of the heat preservation intergral template 1 of backup pad body 211 top, lower preceding baffle 2132 be used for with the closely knit outsourcing of the finish coat of the heat preservation intergral template 1 of backup pad body 211 below. The backboard 214 is fixed on the support plate body 211 and contacts with the reinforcing layer on the back of the heat-insulating integrated plate 1, so that the backboard 214 is tightly wrapped on the reinforcing layer on the surface of the heat-insulating integrated plate 1. The back baffle 214 includes an upper back baffle 2141 and a lower back baffle 2142 that are integrally connected, and the upper back baffle 2141 and the lower back baffle 2142 are vertically symmetrical. The upper back baffle 2141 is configured to cooperate with the reinforcement layer of the heat-insulating integrated plate 1 above the support plate body 211 to form an outer covering, and the lower back baffle 2142 is configured to cooperate with the reinforcement layer of the heat-insulating integrated plate 1 below the support plate body 211 to form an outer covering. So that the upper layer heat-insulating integrated plate 1 is embedded between the upper front baffle 2131 and the upper back baffle 2141, and the lower layer heat-insulating integrated plate 1 is embedded between the lower front baffle 2132 and the lower back baffle 2142. The front baffle 213 is 12mm high and the rear baffle 214 is 20mm high. The lower back baffle 2142 has a notch 215 matching with the bottom plate 223, one side of the bottom plate 223 is connected to the back plate 221, and the other side passes through the notch 215, so that the bottom plate 223 is supported at the bottom of the supporting plate body 211. Specifically, the notch 215 is formed in the lower back baffle 2142, and the width of the notch 215 is adapted to the width of the bottom plate 223.

After the heat preservation integrated plate 1 is constructed, glue needs to be applied to the surface of the heat preservation integrated plate 1, the glue is applied to the connecting seam between the adjacent heat preservation integrated plates 1, the width of the glue needs to be larger than the height of the front baffle 213, and the front baffle 213 is completely hidden through the surface glue application.

Referring to fig. 1 to 5, a first mounting hole 212 is formed in the support plate body 211, the first mounting hole 212 is located between the rear baffle 214 and the front baffle 213, and the first mounting hole 212 is located in the middle of the rear side of the support plate body 211. The connecting plate 22 includes a back plate 221 and a bottom plate 223 integrally connected, and the back plate 221 is perpendicular to the bottom plate 223. Preferably, the back board 221 is screwed to the outer wall, and the bottom board 223 is screwed to the supporting board body 211. Specifically, the back board 221 is provided with a third mounting hole 222, and the third mounting hole 222 is a kidney-shaped hole and has a length direction the same as the vertical direction of the back board 221. The back plate 221 is mounted on the outer wall by back-screwing screws installed in the third mounting holes 222. The bottom plate 223 is provided with a second mounting hole 224, and the second mounting hole 224 corresponds to the first mounting hole 212, so that the bottom plate 223 is in flat-head screw connection with the support plate body 211. The second mounting holes 224 are round threaded holes, flat head screws are screwed in the second mounting holes 224, the first mounting holes 212 are waist-shaped holes, and the length direction of the first mounting holes is arranged along the vertical direction of the front baffle plate 213 and the rear baffle plate 214.

The installation method comprises the following steps: firstly, mounting a lower-layer foamed ceramic heat-insulation integrated plate 1, anchoring a connecting plate 22 on an outer wall, pressing the lower-layer foamed ceramic heat-insulation integrated plate 1 at the bottom of a connecting plate bottom plate 223, connecting an anchor supporting plate 21 and the connecting plate 22 in advance before mounting, but not fastening screws, so that a supporting plate body 211 can move back and forth on the connecting plate bottom plate 223, so that the lower-layer foamed ceramic heat-insulation integrated plate 1 is embedded between a lower front baffle 2132 and a lower rear baffle 2142, and fixing the position of the supporting plate 21 through the screws between a first mounting hole 212 and a second mounting hole 224, so that the anchor forms a holding force on the lower-layer foamed ceramic heat-insulation integrated plate 1; installing the upper layer of heat-insulating integrated plate 1, and inserting the upper layer of heat-insulating integrated plate 1 between the upper front baffle 2131 and the upper rear baffle 2141 so that the anchoring piece forms a grip on the upper layer of heat-insulating integrated plate 1; when the heat-insulating integrated plate 1 is adhered, the groove 4 must be fully coated with the adhesive mortar 5, and the mortar adhesive point 6 above the groove 4 is coated with the adhesive mortar 5, so that the adhesion and the anchoring are realized.

For traditional foamed ceramic heat preservation intergral template, the utility model discloses there are following characteristics:

1. the back of the foamed ceramic heat-insulation integrated plate 1 is provided with a groove 4, the groove 4 is fully coated with bonding mortar 5, and a mortar bonding point 6 above the groove 4 is coated with the bonding mortar 5, so that bonding and anchoring are realized.

2. The lower rear baffle 2142 is provided with a notch 215, and the bottom plate 223 can be inserted into the notch 215 during installation, so that the bottom plate 223 is supported at the bottom of the foam ceramic heat insulation integrated plate 1, which not only can improve the supporting effect on the foam ceramic heat insulation integrated plate 1, but also can reduce the adhesion thickness and increase the adhesive force;

3. the bottom plate 223 is formed with a second mounting hole 224 corresponding to the first mounting hole 212 to improve the connection between the connecting plate bottom plate 223 and the supporting plate body 211.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (9)

1. The utility model provides an outer wall protection is with ceramic foam insulation intergral template that has glaze, includes heat preservation intergral template (1), characterized by: the heat-insulation integrated plate (1) comprises a decoration surface layer and a reinforcing layer, wherein the decoration surface layer and the reinforcing layer are respectively positioned on the front side and the rear side of the heat-insulation integrated plate (1);

the reinforcing layer is provided with a groove (4) along the horizontal direction of the heat-insulation integrated plate (1), two ends of the groove (4) extend to the outer side of the reinforcing layer, and bonding mortar (5) is arranged in the groove (4) so that the heat-insulation integrated plate (1) is attached to an outer wall;

a mesh enclosure (3) is laid on the reinforcing layer, and the mesh enclosure (3) is fully attached to the reinforcing layer on the rear side of the heat-insulation integrated plate (1) through reinforcing glue.

2. The glazed foamed ceramic heat-insulating integrated board for exterior wall protection as claimed in claim 1, wherein: the groove (4) is close to the bottom of the heat-preservation integrated plate (1).

3. The glazed foamed ceramic heat-insulating integrated board for exterior wall protection as claimed in claim 1, wherein: further comprising an anchor comprising a support plate (21) and a connection plate (22);

the supporting plate (21) is supported between the upper and lower adjacent heat-insulating integrated plates (1), and the connecting plate (22) is used for anchoring the supporting plate (21) on the outer wall.

4. The glazed foamed ceramic heat-insulating integrated board for exterior wall protection as claimed in claim 3, wherein: the support plate (21) comprises a support plate body (211), a front baffle (213) and a rear baffle (214);

the front baffle (213) is vertically fixed on the front side of the support plate body (211) and tightly wrapped on the decorative layer on the surface of the heat-insulating integrated plate (1), and the rear baffle (214) is vertically fixed on the support plate body (211) and is in contact with the reinforcing layer on the back of the heat-insulating integrated plate (1), so that the rear baffle (214) is tightly wrapped on the reinforcing layer on the surface of the heat-insulating integrated plate (1);

a first mounting hole (212) is formed in the support plate body (211), and the first mounting hole (212) is located between the rear baffle (214) and the front baffle (213).

5. The glazed foamed ceramic heat-insulating integrated board for exterior wall protection as claimed in claim 4, wherein: the connecting plate (22) comprises a back plate (221) and a bottom plate (223) which are integrally connected, and the back plate (221) is perpendicular to the bottom plate (223);

the backrest plate (221) is connected with the outer wall through back-screwing screws, and the bottom plate (223) is connected with the supporting plate body (211) through screws.

6. The glazed foamed ceramic heat-insulating integrated board for external wall protection as claimed in claim 5, wherein: a third mounting hole (222) is formed in the back board (221), and the back board (221) is mounted on the outer wall through the third mounting hole (222);

the bottom plate (223) is provided with a second mounting hole (224), and the second mounting hole (224) corresponds to the first mounting hole (212) in position, so that the bottom plate (223) is in screw connection with the support plate body (211).

7. The glazed foamed ceramic heat-insulating integrated board for exterior wall protection as claimed in claim 6, wherein: the second mounting hole (224) is a circular threaded hole, the first mounting hole (212) is a waist-shaped hole, and the length direction of the first mounting hole is arranged along the vertical direction of the front baffle (213) and the rear baffle (214).

8. The glazed foamed ceramic heat-insulating integrated board for exterior wall protection as claimed in claim 6, wherein: the front baffle (213) comprises an upper front baffle (2131) and a lower front baffle (2132) which are integrally connected, the upper front baffle (2131) is used for tightly wrapping the decorative surface layer of the heat-insulating integrated plate (1) above the support plate body (211), and the lower front baffle (2132) is used for tightly wrapping the decorative surface layer of the heat-insulating integrated plate (1) below the support plate body (211);

the rear baffle (214) comprises an upper rear baffle (2141) and a lower rear baffle (2142) which are integrally connected, the upper rear baffle (2141) is used for being matched with the reinforcing layer of the heat-insulating integrated plate (1) above the supporting plate body (211) to form an outer package, and the lower rear baffle (2142) is used for being matched with the reinforcing layer of the heat-insulating integrated plate (1) below the supporting plate body (211) to form an outer package;

the lower rear baffle (2142) is provided with a notch (215) matched with the bottom plate (223), one side of the bottom plate (223) is connected with the backboard (221), and the other side of the bottom plate (223) penetrates through the notch (215) so that the bottom plate (223) is supported at the bottom of the support plate body (211).

9. The glazed foamed ceramic heat-insulating integrated board for exterior wall protection as claimed in claim 2, wherein: the heat-insulation integrated plate is characterized in that a mortar bonding point (6) is arranged on the reinforcing layer of the heat-insulation integrated plate (1), and the mortar bonding point (6) is located above the groove (4).

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