CN106836702B - Inorganic light aggregate heat-insulation veneer system combining bonding and anchoring parts thereof - Google Patents

Abstract

The invention relates to an inorganic light aggregate heat-insulation veneer system combined with bonding and anchoring parts and an anchoring part thereof, wherein the inorganic light aggregate heat-insulation veneer system comprises a plurality of integrated plates and anchoring parts arranged between the adjacent integrated plates, each integrated plate comprises a veneer layer, an adhesive layer and a heat-insulation layer, a frame is arranged around the upper end surface of each heat-insulation layer, the upper end surface of each frame is connected with the veneer layer through the adhesive layer, one end of each anchoring part is connected with a base layer wall through a bolt, and two sides of the other end of each anchoring part are inserted into the adjacent heat-insulation layers. The invention adopts an integrated system combined by bonding and anchoring, has low total cost, stable and reliable performance, no aging and deformation and lasting and stable heat-insulating performance.

Description

Inorganic light aggregate heat-insulation veneer system combining bonding and anchoring parts thereof

Technical Field

The invention relates to the field of building heat preservation, in particular to an inorganic light aggregate heat preservation veneer system combined with bonding and anchoring parts thereof.

Background

With the promotion of building industrialization and the improvement of the requirements on the assembly rate and the prefabrication rate of a newly-built building, the heat preservation and decoration integrated system of the building enclosure is more and more emphasized. Most of the existing heat preservation and decoration integrated systems go through a dry hanging technical route with higher cost, which is determined by the characteristics of the products. In the overall low-cost bonding and anchoring technical route, the heat-preservation and facing integrated system can be roughly divided into two types: one is a box-shaped structure veneer layer which is mostly made of metal single plates or metal/plastic composite plates and is filled with inorganic fiber materials such as organic foaming materials or rock wool and the like; the other is thick stone as a finish coat, and a foaming polyurethane, foaming polyphenyl particle composite board and other heat insulation boards with small deformation are adhered. Both have a common feature: when the anchoring process is designed, the anchoring parts are all designed on the veneer layer, and because the strength of the materials is low, the materials cannot provide enough supporting force for the anchoring parts; and most employ "L" anchors. Due to the design, in actual construction, a construction method of sticking the anchor at the edge is required, the construction process is complicated, and the construction efficiency is seriously reduced.

Disclosure of Invention

The invention aims to solve the technical problem of providing an inorganic light aggregate heat-insulation veneer system combined with bonding and anchoring and an anchoring part thereof, so as to solve the problems of complicated construction and low construction efficiency of the bonding and anchoring system.

The technical scheme adopted by the invention for solving the technical problem is as follows: the utility model provides an inorganic light aggregate heat preservation decorative board system that glues anchor combination, includes a plurality of integration board and arranges the anchor assembly between adjacent integration board, the integration board include finish coat, tie coat and heat preservation, the up end of heat preservation arranged the frame all around, the up end of frame be connected with the finish coat through the tie coat, anchor assembly's one end pass through on bolt and the basic unit's wall body, during the adjacent heat preservation is inserted to this anchor assembly's other end both sides.

Preferably, the veneer layer is composed of a metal aluminum veneer or a ceramic plate or an ultrathin stone.

Furthermore, the bonding layer is composed of organic glue or bonding mortar.

Furthermore, the heat-insulating layer is composed of inorganic lightweight aggregate fireproof heat-insulating boards.

As a structure of the anchoring piece, the anchoring piece is a flat anchoring piece and comprises a rectangular metal sheet and a fixing bolt, the rectangular metal sheet is positioned at one end of the fixing bolt and is vertical to the fixing bolt, and two ends of the rectangular metal sheet are cut into the heat-insulating layer.

The anchoring piece is an airplane-shaped anchoring piece and comprises upper metal blades, lower metal blades and fixing bolts, the lower metal blades are symmetrically arranged obliquely upwards by the aid of the fixing bolts, the upper metal blades are connected with the corresponding lower metal blades and the upper ends of the fixing bolts, and the heat-insulating layer is clamped by the lower metal blades.

As a third structure of the anchoring piece, the anchoring piece is an oblique insertion type anchoring piece and comprises a metal base, sliding pieces and fixing bolts, wherein the metal base is in an inverted door shape, the sliding pieces are symmetrically and obliquely arranged downwards around the fixing bolts on the upper side of the metal base, and the sliding pieces penetrate through the side wall of the metal base and cut into the heat insulation layer.

The anchoring piece is a corner-angle anchoring piece and comprises symmetrically bent metal blades and a fixing bolt, the two metal blades are symmetrically arranged around the fixing bolt, and the bent part of each metal blade forms an acute angle and is cut into the heat-insulating layer.

Additionally, a disc-shaped top end part is arranged at the upper end of the fixing bolt.

Has the advantages that: the invention relates to an inorganic light aggregate heat-insulation veneer system combined with bonding anchors and an anchoring part thereof. Because the inorganic lightweight aggregate insulation board has enough rigidity, the contact area of the anchoring piece and the system is greatly increased, the anchoring strength is improved, and the integrated system which is adjacent to the upper part, the lower part, the left part and the right part can be synchronously fixed, so that the safety is high; and moreover, large-scale cross operation and continuous synchronous construction can be realized, the integrated system is installed in place at one time, the anchoring parts can be installed uniformly and continuously, the construction period can be saved by 1/3, and the labor cost can be saved by 1/3.

Drawings

FIG. 1 is a drawing of the present invention the integration mounting side structure diagram of the board;

FIG. 2 is a perspective exploded view of the integration plate according to the present invention;

FIG. 3 is an anchor according to the present invention the first structure primary view structure chart of (1);

FIG. 4 is a side view of a first configuration of the anchor of the present invention;

FIG. 5 is a front view block diagram of a second configuration of the anchor of the present invention;

FIG. 6 is an anchor according to the present invention a side view structural drawing of the second structure;

FIG. 7 is an anchor according to the present invention a plan view structural diagram of a second structure;

FIG. 8 is a drawing of the present invention of said anchoring member a primary view structure diagram of a third structure;

FIG. 9 is an anchor according to the present invention a side view structural drawing of a third configuration;

FIG. 10 is a top structural view of a third configuration of the anchor of the present invention;

FIG. 11 is a front view block diagram of a fourth configuration of the anchor of the present invention;

FIG. 12 is a side elevational view of a fourth configuration of the anchor of the present invention;

fig. 13 is a top view of a fourth configuration of the anchor of the present invention.

The figure is as follows: 1. a finishing layer; 2. a bonding layer; 3. a frame; 4. a heat-insulating layer; 5. an anchoring member; 6. a base layer wall body; 7. a rectangular metal sheet; 8. fixing the bolt; 9. a metal upper blade; 10. a metal lower blade; 12. A metal base; 13. sliding a sheet; 15. a metal blade.

Detailed Description

The invention will be further illustrated with reference to the following specific examples. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

As shown in fig. 1-2, the embodiment of the invention relates to an inorganic light aggregate heat-insulation veneer system combined by bonding and anchoring, which comprises a plurality of integrated plates and anchoring pieces 5 arranged between the adjacent integrated plates, and is characterized in that the integrated plates comprise a veneer layer 1, an adhesive layer 2 and a heat-insulation layer 4, a frame 3 is arranged around the upper end surface of the heat-insulation layer 4, the upper end surface of the frame 3 is connected with the veneer layer 1 through the adhesive layer 2, one end of each anchoring piece 5 is connected with a base layer wall 6 through bolts, and two sides of the other end of each anchoring piece 5 are inserted into the adjacent heat-insulation layer 4.

The veneer layer 1 is composed of a metal aluminum veneer or a ceramic plate or an ultrathin stone.

The bonding layer 2 is composed of organic glue or bonding mortar.

The heat-insulating layer 4 is composed of inorganic lightweight aggregate fireproof heat-insulating boards.

As shown in fig. 3-4, as a structure of the anchoring member, the anchoring member 5 is a flat plate-shaped anchoring member, and comprises a rectangular metal sheet 7 and a fixing bolt 8, wherein the rectangular metal sheet 7 is positioned at one end of the fixing bolt 8 and is perpendicular to the fixing bolt 8, and two ends of the rectangular metal sheet 7 are cut into the insulating layer 4.

As a first embodiment of the invention, the frame 3 and the aluminum veneer are glued together by glue, put into a forming die, spread with a spreader and mixed with the loose materials, pressed into an integrated board by up-and-down floating of a hydraulic press, and then sent into a curing chamber for curing for 8 hours at the high temperature of 95 ℃.

During construction, after leveling the base wall 6, the back of the inorganic lightweight aggregate heat-preservation veneer integrated board is coated with bonding mortar, fully paved by using a trowel, and then attached to the base wall. After one layer is adhered in the horizontal direction, holes are punched between the integrated plates by an electric drill, expansion screws are inserted, the flat plate type anchoring parts are inserted into the expansion screws, the plates are screwed and fixed until the elongated metal sheet is cut into the two adjacent integrated plates, the rest can be done in the same way, the second layer of integrated plates and the first layer of flat plate type anchoring parts are connected, and finally pointing is carried out.

As shown in fig. 5-7, as a second structure of the anchoring member, the anchoring member 5 is an airplane-shaped anchoring member, and includes upper metal blades 9, lower metal blades 10 and fixing bolts 8, the lower metal blades 10 are arranged obliquely upward and symmetrically with the fixing bolts 8, the upper metal blades 9 are connected to the corresponding lower metal blades 10 and the upper ends of the fixing bolts 8, and the insulating layer 4 is clamped by the lower metal blades 10.

As a second embodiment of the invention, the frame and the ceramic plate are bonded together by using bonding mortar, and are placed into a forming die, and the mixed loose materials are fully paved by using a spreader, and are pressed into an integrated plate by using a hydraulic press to float up and down, and then the integrated plate is sent into a curing chamber to be cured for 8 hours by using high-temperature steam at 95 ℃.

During construction, after leveling the base wall, coating adhesive mortar on the back of the inorganic lightweight aggregate heat-insulating veneer integrated board, fully paving the board by using a trowel, and then pasting the board on the base wall. After one layer is attached in the horizontal direction, holes are drilled between the integrated plates through an electric drill, expansion screws are inserted, the inclined insertion type anchoring parts are inserted into the expansion screws, the integrated plates are screwed and fixed until the metal sheet is obliquely and completely cut into the two adjacent integrated plates along the rail way opening on the metal base, and the like, the inclined insertion type anchoring parts between the second integrated plate and the first layer are connected in the same way, and finally, the inclined insertion type anchoring parts are sewn.

As shown in fig. 8-10, as a third structure of the anchor, the anchor 5 is a slanted insertion type anchor, and includes a metal base 12, a sliding piece 13 and a fixing bolt 8, the metal base 12 is in an inverted door shape, the sliding piece 13 is symmetrically arranged obliquely downward around the fixing bolt 8 on the upper side of the metal base 12, and the sliding piece 13 penetrates through the side wall of the metal base 12 and cuts into the insulating layer 4.

As a third embodiment of the invention, the frame 3 and the ultra-thin stone are adhered together by glue, put into a forming die, spread with a spreader and mixed with the loose materials, pressed into an integrated board by up-and-down floating pressing of a hydraulic press, and then sent into a curing room for curing for 8 hours at the high temperature of 95 ℃.

During construction, after leveling the base wall 6, coating adhesive mortar on the back of the inorganic lightweight aggregate thermal insulation veneer integrated board, fully paving the board by using a trowel, and then pasting the board on the base wall 6. After the layer is attached in the horizontal direction, holes are drilled between the integrated plates by an electric drill, expansion screws are inserted, the corner-shaped anchoring pieces are inserted into the expansion screws, the integrated plates are screwed and fixed until the upper and lower blades are folded into approximate overlaps and completely cut into the two adjacent integrated plates, the rest is done in the same way, the corner-shaped anchoring pieces between the second integrated plate and the first layer are connected, and finally, the seam is closed.

As shown in fig. 11-13, as a fourth structure of the anchoring member, the anchoring member 5 is a corner-shaped anchoring member, and includes two symmetrically bent metal blades 15 and a fixing bolt 8, the two metal blades 15 are symmetrically arranged around the fixing bolt 8, and the bent portion of the metal blade 15 forms an acute angle and cuts into the insulating layer 4.

As a fourth embodiment of the invention, the frame 3 and the aluminum veneer are glued together by glue, put into a forming die, spread with a spreader and mixed with the loose materials, pressed into an integrated board by up-and-down floating of a hydraulic press, and then sent into a curing chamber for curing for 8 hours at the high temperature of 95 ℃.

During construction, after leveling the base wall 6, the back of the inorganic lightweight aggregate heat-preservation veneer integrated plate is coated with bonding mortar, fully paved by using a trowel, and then attached to the base wall 6. After the first layer of the integrated plates are attached in the horizontal direction, holes are drilled between the integrated plates through an electric drill, expansion screws are inserted, airplane-shaped anchoring parts are inserted into the expansion screws, the integrated plates are screwed and fixed until the upper blades push the lower blades open and completely clamp the outer edges of the two adjacent integrated plates, and the like, so that the airplane-shaped anchoring parts between the second layer of the integrated plates and the first layer are connected. And finally pointing.

Additionally, a disc-shaped tip portion is arranged at the upper end of the fixing bolt 8.

The invention adopts an integrated system combined by bonding and anchoring, has low total cost, stable and reliable performance, no aging and deformation and lasting and stable heat-insulating performance. Because the inorganic lightweight aggregate insulation board has enough rigidity, the contact area of the anchoring part and the system is greatly increased, the anchoring force is improved, and the integrated system which is adjacent to the upper part, the lower part, the left part and the right part can be synchronously fixed, so that the inorganic lightweight aggregate insulation board has high safety; and moreover, large-scale cross operation and continuous synchronous construction can be realized, the integrated system is installed in place at one time, the anchoring parts can be installed uniformly and continuously, the construction period can be saved by 1/3, and the labor cost can be saved by 1/3.

Claims (5)

1. The utility model provides an inorganic light aggregate heat preservation decorative board system that glues anchor and combine, includes a plurality of integration board and arranges anchor assembly (5) between adjacent integration board, its characterized in that, the integration board include finish coat (1), tie coat (2) and heat preservation (4), the up end of heat preservation (4) arranged frame (3) all around, the up end of frame (3) be connected with finish coat (1) through tie coat (2), the one end of anchor assembly (5) pass through the bolt and link to each other with basic unit's wall body (6), the other end both sides of this anchor assembly (5) are inserted in adjacent heat preservation (4), anchor assembly (5) be oblique type anchor assembly, including metal base (12), gleitbretter (13) and fixing bolt (8), metal base (12) be the font of falling the door, its upside has arranged gleitbretter (13) around fixing bolt (8) symmetry slant downwards, this gleitbretter (13) are cut into in heat preservation (4) from the lateral wall of metal base (12).

2. The adhesively-bonded inorganic lightweight aggregate thermal insulation veneer system according to claim 1, wherein: the veneer layer (1) is composed of a metal aluminum veneer or a ceramic plate or an ultrathin stone.

3. The adhesively-bonded inorganic lightweight aggregate thermal insulation veneer system of claim 1, the method is characterized in that: the bonding layer (2) is composed of organic glue or bonding mortar.

4. The adhesively-bonded inorganic lightweight aggregate thermal insulation veneer system according to claim 1, wherein: the heat-insulating layer (4) is composed of inorganic lightweight aggregate fireproof heat-insulating boards.

5. The adhesively-anchored inorganic lightweight aggregate thermal insulation veneer system as claimed in any one of claims 1 to 4, wherein: the upper end of the fixing bolt (8) is provided with a disc-shaped top end part.

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