CN112523434B - Tile-imitated back of house with environment-friendly materials and manufacturing process thereof - Google Patents

Abstract

The invention relates to the field of tile processing, in particular to a tile-imitated back bag which is environment-friendly in material and a manufacturing process thereof. The back strip is connected to the outer surface of the single tile, the radian and the thickness of the back strip are consistent with those of the single tile, and the back strip is matched with the clamping groove on one side of the single tile. A plurality of single tiles are arranged in parallel in sequence and overlapped to form a back group, the single tiles adjacent to each other from top to bottom are arranged, the bottoms of the single tiles on the upper layer are attached to the back strips of the single tiles on the lower layer, the single tiles adjacent to each other from left to right are arranged, and the back strips of the single tiles on one side are embedded in the clamping grooves of the single tiles on the other side. By adopting the structure of the ridge strip on the single tile, the contact area between the single tiles with the up-and-down adjacent overlapped can be increased, the connection stability of the single tiles can be improved so as to reduce the risk of stress separation in the manufacturing process, the strength of the junction of the single tiles with the up-and-down adjacent overlapped on the back group after the manufacturing and forming can be improved, and the back group is prevented from being broken.

Description

Tile-imitated back of house with environment-friendly materials and manufacturing process thereof

Technical Field

The invention relates to the field of tile processing, in particular to a tile-imitated back of a house which is environment-friendly in material and a manufacturing process thereof.

Background

Along with the continuous development of national economy and society, the design style of the antique building is well applied, particularly, in a district adjacent to a plurality of city central parks, the roof of the district is designed into an antique pantile roof for the reflection park building, the manufacture of imitation tiles in the pantile roof is particularly important, the traditional imitation tiles are made of clay, the manufacture process is complex, the finished product is fragile, and the service life is short.

Disclosure of Invention

The invention provides an environment-friendly tile-imitated back of a house and a manufacturing process thereof, which aim to solve the problems that the traditional tile-imitated back of the prior art is made of clay, the manufacturing process is complex, a finished product is fragile, and the service life is short.

The invention adopts the following technical scheme: a tile-like back of a house of materials environmental protection includes:

the single tile is provided with a clamping groove at one side;

the back strip is connected to the outer surface, close to the top, of the single tile, the curvature radian of the back strip is consistent with that of the single tile, the thickness of the back strip is the same as that of the single tile, and the back strip is matched with the clamping groove;

the single tiles are sequentially arranged in parallel to form a back group, the bottom of the single tile on the upper layer is attached to the side face of the back strip of the single tile on the lower layer when the single tiles adjacent to each other from top to bottom are arranged, the back strip of the single tile on one side is embedded in the clamping groove of the single tile on the other side when the single tiles adjacent to each other from left to right are arranged.

As a further improvement, a plurality of mounting holes are arranged on the back group in a penetrating manner.

The manufacturing process of the tile-imitated back of the house with environment-friendly materials is characterized by comprising the following steps of:

the manufacturing method of the single tile with the back strip and the clamping groove comprises the following steps:

firstly, carving back ridge stripes by using a hard material; secondly, bonding and fixing the carved ridge strips on the complete single tile; thirdly, cutting a clamping groove at one side of the upper layer of the other single tile, wherein the single tiles are overlapped in a left-right overlapping arrangement; fourthly, repeating the steps to manufacture a plurality of single tiles with ridge strips and clamping grooves;

the manufacturing method of the assembled back group comprises the following steps:

firstly, sequentially carrying out up-and-down overlapping parallel arrangement on a plurality of single tiles with ridge bars and clamping grooves obtained in the above step to ensure that the bottom of the single tile positioned at the upper layer is attached to the side surface of the ridge bar of the single tile positioned at the lower layer; secondly, bonding the bottom of the upper layer of single tile with the ridge strip of the lower layer of single tile to obtain an assembled back group;

the manufacturing method of the silica gel mold comprises the following steps:

firstly, taking out a flat bottom plate; secondly, the assembled back of the house is assembled on a flat bottom plate; thirdly, fixing a frame on the outer side of the assembled back group by using a plate, wherein the height of the frame is higher than the assembled back group by a few centimeters, and a seamless box-shaped die is formed between the frame and the flat bottom plate; fourthly, after uniformly stirring the liquid silicon rubber and the silicon rubber curing agent, slowly pouring the liquid silicon rubber and the silicon rubber curing agent into the mold until the back group is submerged for a certain distance, and then stopping pouring the liquid silicon rubber and the silicon rubber curing agent; fifthly, standing to solidify the liquid silicone rubber in the box-shaped mold to form a silicone block with a back group inside, wherein an unsealed opening is formed in the bottom surface of the cured and molded silicone block because no liquid silicone rubber exists on the contact surface between the back group and the flat bottom plate; sixthly, taking the back group out of the silica gel block through the opening to obtain a silica gel mold with a cavity of the back group structure;

the manufacture of the concrete back group comprises the following steps

Firstly, adding 1 part of cement and 3 parts of sand and stone materials into an iron oxide pigment, adding water and stirring to form concrete slurry with tile color; step two, pouring the concrete slurry uniformly into the cavity in the silica gel mold obtained in the step; thirdly, standing until the concrete is cured; fourthly, after the concrete is cured and formed, taking out the roof group made of the concrete in the silica gel mould through the unsealed opening; fifthly, drilling a back group made of concrete to form a mounting hole; and sixthly, curing the back group made of the taken concrete for a plurality of days, and spraying a special protective agent for the concrete on the back group of the concrete to finish the production of the product.

From the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages: the tile-imitated house bag comprises a single tile and a back strip. The back strip is connected to the outer surface of the single tile close to the top, the curve radian and the thickness of the back strip are consistent with those of the single tile, and the back strip is matched with the clamping groove on one side of the single tile. A plurality of single tiles are arranged in parallel in sequence and overlapped to form a back group, the single tiles adjacent to each other from top to bottom are arranged, the bottoms of the single tiles on the upper layer are attached to the back strips of the single tiles on the lower layer, the single tiles adjacent to each other from left to right are arranged, and the back strips of the single tiles on one side are embedded in the clamping grooves of the single tiles on the other side. By adopting the structure of the ridge strip on the single tile, the contact area between the single tiles with the up-and-down adjacent overlapped can be increased, the connection stability of the single tiles can be improved so as to reduce the risk of stress separation in the manufacturing process, the strength of the junction of the single tiles with the up-and-down adjacent overlapped on the back group after the manufacturing and forming can be improved, and the back group is prevented from being broken.

Drawings

Fig. 1 is a schematic perspective view of a single tile.

Fig. 2 is a schematic structural diagram of a in fig. 1.

Fig. 3 is a schematic perspective view of a back group.

Fig. 4 is a schematic view of the overlapped structure of the back groups.

Fig. 5 is a schematic structural diagram of B in fig. 4.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

As shown in the attached figure 1, the environment-friendly tile-imitated back comprises a single tile 1 and a ridge strip 11.

As shown in fig. 1, the ridge stripe 11 is connected to the outer surface of the single tile 1 near the top, the curvature radian of the ridge strip 11 is consistent with that of the single tile 1, the thickness of the ridge strip 11 is the same as that of the single tile 1, the ridge strip 11 is matched with the clamping groove 12, so that in the upper and lower adjacent single tiles 1 which are arranged and overlapped in parallel, the bottom surface of the single tile 1 on the upper layer is completely superposed with the side surface of the ridge strip 11 on the lower layer, and simultaneously, the outer surface of the single tile 1 on the upper layer is leveled with the upper surface of the ridge strip 11, when the back group 2 consisting of the single tiles 1 which are overlapped up and down adjacently is manufactured, the bulges are reduced, the subsequent demoulding is convenient, when the back of a house is built, after the bottom surface of the back of a house group 2 and the ridge strips 11 which are adjacent and overlapped up and down are connected through adhesives such as waterproof glass cement and the like, water flow can be guaranteed to flow downwards smoothly, and water accumulation and water seepage at the ridge strips 11 are avoided.

As shown in fig. 3, a plurality of the single tiles 1 are sequentially arranged in parallel and overlapped to form a back group 2, and when the single tiles 1 adjacent to each other at the upper layer are arranged, the bottom of the single tile 1 at the upper layer is attached to the side surface of the ridge strip 11 of the single tile 1 at the lower layer, so that the contact area between the single tiles 1 adjacent to each other at the upper layer and the lower layer can be increased, the connection stability of the single tiles 1 adjacent to each other at the upper layer and the lower layer can be improved, the risk of force separation of the single tiles 1 adjacent to each other at the upper layer and the lower layer during the manufacturing process can be reduced, the strength of the junction of the single tiles 1 adjacent to each other at the upper layer and the lower layer after the manufacturing and molding can be improved, the back group 2 can be prevented from being broken, when the back is built, the ridge strip 11 on the back group 2 at the lower layer can be enabled to support the bottom of the back group 2 at the upper layer, the back group 2 at the upper layer can be prevented from sliding down or deflecting during the mounting process to affect the quality and the neatness and the appearance of the back group 2, and the back ridge strip 11 can play a certain role of wind shielding in daily life, so that strong wind is prevented from blowing into the upward lifting back group 2 from the bottom of the back group 2.

As shown in the accompanying drawings 2, 4 and 5, the cross section of the single tile 1 is provided with a clamping groove 12 on one side, the single tile 1 with the left and right adjacent overlapped is arranged, the ridge strip 11 of the single tile 1 positioned on the lower layer is embedded into the clamping groove 12 of the single tile 1 positioned on the upper layer, when the back of the house is built, the ridge strip 11 of the back group 2 positioned on the lower layer can be embedded into the clamping groove 12 of the back group 2 positioned on the upper layer, the inner wall of the clamping groove 12 is utilized to limit the ridge strip 11, the back group 2 with the left and right adjacent overlapped is positioned on the same straight line, the neatness and the attractiveness of the back of the house to be built are improved, the back group 2 is aligned without manual adjustment, the labor amount of workers is reduced, and meanwhile, the situation that the error existing in the manual adjustment alignment process causes uneven back of the house to be built is avoided.

As shown in fig. 3, a plurality of mounting holes 13 are formed through the back group 2, and the mounting holes 13 are arranged to facilitate the subsequent screws to penetrate through the mounting holes 13 and then fix the back group 2 on the wood frame on the roof.

When in manufacturing, firstly, wood is used for carving out the ridge stripe 11, the wood ridge stripe 11 is bonded on the complete single tile 1 by adhesives such as glass cement, then, one side of the single tile 1 which is overlapped on the upper layer of the other single tile 1 in the left-right overlapping arrangement is cut into the clamping groove 12 corresponding to the ridge stripe 11, a plurality of single tiles 1 with the ridge stripe 11 and the clamping groove 12 are manufactured according to the steps for standby, a wood flat bottom plate is taken out, the manufactured single tiles 1 with the ridge stripe 11 and the clamping groove 12 are sequentially arranged in an up-down overlapping parallel way, the bottom of the single tile 1 on the upper layer is made to be attached on the side surface of the ridge stripe 11 of the single tile 1 on the lower layer, then, the bonding is carried out by adhesives such as glass cement, and the like to form an assembled back group 2, the arrangement of the ridge stripe 11 can increase the contact area between the single tiles 1 which are adjacent up and down, and improve the connection stability of the single tiles 1 which are adjacent up and down, reducing the risk of stress separation of the vertically adjacent and overlapped single tiles 1 in the manufacturing process, improving the strength of the junction of the vertically adjacent and overlapped single tiles 1 on the back group 2 after manufacturing and forming, avoiding the breakage of the back group 2, fixing a frame outside the assembled back group 2 by using a plate, wherein the height of the frame is about five centimeters higher than the back group 2, forming a seamless box-shaped mould between the frame and the flat bottom plate, placing the bonded back group 2 in the mould, slowly pouring liquid silicon rubber and a silicon rubber curing agent into the mould after uniformly stirring until the back group 2 is submerged for about three centimeters, standing, curing the liquid silicon rubber in the box-shaped mould to form a silicon rubber block with the back group 2 inside, wherein no liquid silicon rubber exists on the contact surface between the back group 2 and the flat bottom plate, therefore, an unsealed opening is arranged on the bottom surface of the cured and formed silica gel block, the back group 2 can be taken out of the silica gel block through the opening to form a silica gel mold with a cavity of the back group 2, then 1 part of cement and 3 parts of sand and stone materials are added with iron oxide pigment, water is added for stirring to form concrete with tile color, the concrete is uniformly poured into the cavity filled with the silica gel mold, then the silica gel mold is kept still for 48 hours, after the concrete is cured and formed, the back group 2 made of the concrete in the silica gel mold is taken out through the unsealed opening after the concrete is cured and formed, then the back group 2 made of the concrete is drilled to form a mounting hole 13, finally the back group 2 made of the drilled concrete is cured for 7 days, the special concrete protective agent is sprayed on the back group 2 of the concrete to finish the production of the product, the back group 2 made of concrete does not use clay in the whole process, protects the soil clay, and has a good environment-friendly effect, the back group 2 made of concrete does not lose the original shape of tiles, so that the appearance of a building is not changed, the concrete has high hardness, and is not easy to damage, and the service life can be prolonged.

The manufacturing process of the tile-imitated back of the house with environment-friendly materials is characterized by comprising the following steps of:

the manufacture of the single tile 1 with the back ridge strip 11 and the clamping groove 12 comprises the following steps:

firstly, carving back ridge strips 11 by wood;

secondly, bonding the wooden ridge strip 11 on the complete single tile 1 by using an adhesive such as glass cement;

thirdly, cutting a clamping groove 12 corresponding to the ridge stripe 11 on one side of the upper layer of the other single tile 1, wherein the single tiles 1 are overlapped in a left-right overlapping arrangement;

fourthly, repeating the steps to manufacture a plurality of single tiles 1 with the back stripes 11 and the clamping grooves 12;

the manufacturing method of the assembled back group 2 comprises the following steps:

firstly, sequentially carrying out up-and-down overlapping parallel arrangement on a plurality of single tiles 1 with ridge bars 11 and clamping grooves 12 obtained in the above steps, so that the bottom of the single tile 1 positioned on the upper layer is attached to the side surface of the ridge bar 11 of the single tile 1 positioned on the lower layer;

secondly, bonding the bottom of the upper layer of single tile 1 and the back strip 11 of the lower layer of single tile 1 by using a bonding agent such as glass cement to obtain an assembled back group 2, wherein the arrangement of the back strip 11 can increase the contact area between the upper and lower adjacent overlapped single tiles 1, improve the connection stability of the upper and lower adjacent overlapped single tiles 1, reduce the risk of stress separation of the upper and lower adjacent overlapped single tiles 1 in the manufacturing process, improve the strength of the junction of the upper and lower adjacent overlapped single tiles 1 on the back group 2 after manufacturing and molding, and avoid the back group 2 from being broken;

the manufacturing method of the silica gel mold comprises the following steps:

firstly, taking out a wooden flat bottom plate;

secondly, placing the assembled back group 2 on a wooden flat bottom plate;

thirdly, fixing a frame on the outer side of the assembled back group 2 by using a plate, wherein the height of the frame is about five centimeters higher than that of the assembled back group 2, and a seamless box-shaped mold is formed between the frame and the flat bottom plate;

fourthly, after the liquid silicon rubber and the silicon rubber curing agent are uniformly stirred, slowly pouring the liquid silicon rubber and the silicon rubber curing agent into the mold until the liquid silicon rubber and the silicon rubber curing agent submerge the back group for about 2 centimeters;

fifthly, standing to solidify the liquid silicone rubber in the box-shaped mold to form a silicone block with a back group 2 inside, wherein an unsealed opening is formed in the bottom surface of the cured and molded silicone block because no liquid silicone rubber exists on the contact surface between the back group 2 and the flat bottom plate;

sixthly, taking the back group 2 out of the silica gel block through the opening to obtain a silica gel mold with a cavity of the back group 2 structure;

the manufacture of the concrete back group 2, the manufacture of the concrete back group 2 comprises the following steps

Firstly, adding 1 part of cement and 3 parts of sand and stone materials into an iron oxide pigment, adding water and stirring to form concrete slurry with tile color;

step two, pouring the concrete slurry uniformly into the cavity in the silica gel mold obtained in the step;

thirdly, standing for 48 hours until the concrete is cured;

fourthly, after the concrete is cured and molded, taking out the roof group 2 made of the concrete in the silica gel mold through the unsealed opening;

fifthly, drilling the concrete back group 2 to form a mounting hole 13, so that the concrete back group 2 can be conveniently fixed on a wood frame on a roof;

sixthly, after the back group 2 made of the taken concrete is maintained for 7 days, the back group 2 made of the concrete is sprayed with the special protective agent for the concrete, the production of products is completed, the back group 2 made of the concrete is manufactured without using clay in the whole process, the soil clay is protected, a good environment-friendly effect is achieved, the original shape of the tile is not lost, the appearance of a building is not changed, the concrete hardness is high, the building is not easy to damage, and the service life can be prolonged.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims (2)

1. The utility model provides an imitative tile back of a house of materials environmental protection which characterized in that includes:

the single tile is provided with a clamping groove at one side;

the back strip is connected to the outer surface, close to the top, of the single tile, the curvature radian of the back strip is consistent with that of the single tile, the thickness of the back strip is the same as that of the single tile, and the back strip is matched with the clamping groove;

the single tile is arranged in parallel in sequence to form a back group, the single tile adjacent to and overlapped from top to bottom is arranged, the bottom of the single tile on the upper layer is attached to the upper side face of the back strip of the single tile on the lower layer, the single tile adjacent to and overlapped from left to right is arranged, the back strip of the single tile on one side is embedded in the clamping groove of the single tile on the other side, and a plurality of mounting holes penetrate through the back group.

2. The process for making an environmentally friendly tile-like back as claimed in claim 1, wherein the process comprises:

the manufacturing method of the single tile with the back strip and the clamping groove comprises the following steps:

firstly, carving back ridge stripes by using a hard material;

secondly, bonding and fixing the carved ridge strip on the complete single tile;

thirdly, cutting a clamping groove at one side of the upper layer of the other single tile, wherein the single tiles are overlapped in a left-right overlapping arrangement;

fourthly, repeating the steps to manufacture a plurality of single tiles with ridge strips and clamping grooves;

the manufacturing method of the assembled back group comprises the following steps:

firstly, sequentially carrying out up-and-down overlapping parallel arrangement on a plurality of single tiles with ridge bars and clamping grooves obtained in the above step to ensure that the bottom of the single tile positioned at the upper layer is attached to the side surface of the ridge bar of the single tile positioned at the lower layer;

secondly, bonding the bottom of the upper layer of single tile with the ridge strip of the lower layer of single tile to obtain an assembled back group;

the manufacturing method of the silica gel mold comprises the following steps:

firstly, taking out a flat bottom plate;

secondly, the assembled back of the house is assembled on a flat bottom plate;

thirdly, fixing a frame on the outer side of the assembled back group by using a plate, wherein the height of the frame is higher than the assembled back group by a few centimeters, and a seamless box-shaped die is formed between the frame and the flat bottom plate;

fourthly, after uniformly stirring the liquid silicon rubber and the silicon rubber curing agent, slowly pouring the liquid silicon rubber and the silicon rubber curing agent into the mold until the back group is submerged for a certain distance, and then stopping pouring the liquid silicon rubber and the silicon rubber curing agent;

fifthly, standing to solidify the liquid silicone rubber in the box-shaped mold to form a silicone block with a back group inside, wherein an unsealed opening is formed in the bottom surface of the cured and molded silicone block because no liquid silicone rubber exists on the contact surface between the back group and the flat bottom plate;

sixthly, taking the back group out of the silica gel block through the opening to obtain a silica gel mold with a cavity of the back group structure;

the manufacture of the concrete back group comprises the following steps

Firstly, adding 1 part of cement and 3 parts of sand and stone materials into an iron oxide pigment, adding water and stirring to form concrete slurry with tile color;

step two, pouring the concrete slurry uniformly into the cavity in the silica gel mold obtained in the step;

thirdly, standing until the concrete is cured;

fourthly, after the concrete is cured and formed, taking out the roof group made of the concrete in the silica gel mould through the unsealed opening;

fifthly, drilling a back group made of concrete to form a mounting hole;

and sixthly, curing the back group made of the taken concrete for a plurality of days, and spraying a special protective agent for the concrete on the back group of the concrete to finish the production of the product.

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