CN209837554U - Unit module for mosaic veneer of special-shaped base material - Google Patents
Unit module for mosaic veneer of special-shaped base material Download PDFInfo
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- CN209837554U CN209837554U CN201822140345.3U CN201822140345U CN209837554U CN 209837554 U CN209837554 U CN 209837554U CN 201822140345 U CN201822140345 U CN 201822140345U CN 209837554 U CN209837554 U CN 209837554U
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Abstract
The utility model belongs to the technical field of indoor outer decoration and finishing, a unit module that is used for the mosaic veneer of special-shaped substrate is related to. The unit module comprises an auxiliary cushion layer, a flexible hollow plate and a plurality of mosaic sheets; the mosaic sheet is embedded into the hollow unit grids of the flexible hollow plate, and the front surface of the mosaic sheet protrudes out of the flexible hollow plate; the auxiliary cushion layer is bonded with the flexible hollowed-out plate and the mosaic sheet into a whole through adhesive materials, and the auxiliary cushion layer is made of flexible materials. The unit module is flexible structure, and is applicable in special-shaped substrate, and the gap is even, smooth-going between the mosaic sheet after paving the subsides, and the surface of unit module is level and smooth, has fine shop and pastes the effect, reduces the construction degree of difficulty moreover, improves the efficiency of construction greatly.
Description
Technical Field
The utility model belongs to the technical field of indoor outer decoration and finishing, a unit module that is used for the mosaic veneer of special-shaped substrate is related to.
Background
The mosaic facing is a facing layer in which small sheets of mosaic (also called mosaic tiles or mosaic tiles) are adhered to a base layer by using a cementing agent such as cement. The decorative plate is suitable for interior decoration of houses, such as wall surfaces, floors and ceilings; it is also suitable for external decoration, such as external wall surface, column, garden structure, etc.
The mosaic facing is a relative facing structure formed by splicing mosaic sheets with various colors and different shapes, the side length of which is usually not more than 40mm, according to certain specifications and patterns. The existing mosaic facing process mainly comprises two types: one is to inlay the mosaic sheet directly on the leveling layer by cementing agent; the other method is to attach the mosaic sheets on the paper or the fabric reversely and inlay the mosaic sheets one by one. Because the single mosaic veneer has smaller size and is more complicated to construct, the situations of unevenness, unsmooth gap, uneven gap width and the like of the mosaic sheet exist, the paving position and the embedding depth of the mosaic sheet need to be adjusted singly, the construction workload is large, the quality and artistic and attractive effects after the pointing are finished are difficult to meet the requirements, especially for the special-shaped base layer with a complex structure, the construction of the mosaic veneer at the positions of a curved surface, a negative and positive corner and the like is more difficult, the problems are more prominent, and more serious, the special-shaped base layer is also provided with complex artistic patterns, the pattern composition is complex, the paving quality is difficult to control, the construction efficiency is low, and the construction effect is poor.
SUMMERY OF THE UTILITY MODEL
For solving the technical problem, the utility model provides a unit module for mosaic veneer of dysmorphism substrate, including following technical scheme:
a unit module for a mosaic veneer of a special-shaped substrate comprises an auxiliary cushion layer, a flexible hollowed-out plate and a plurality of mosaic sheets;
the flexible hollowed-out plate is provided with hollowed-out unit lattices divided by latticed side frame strips, the sizes of the hollowed-out unit lattices are matched with the size of the mosaic sheet, the widths of the side frame strips are matched with the width of a splicing seam of the mosaic sheet, and the thickness of the flexible hollowed-out plate is smaller than that of the mosaic sheet; the mosaic sheet is embedded into the hollow unit grids of the flexible hollow plate, and the front surface of the mosaic sheet protrudes out of the flexible hollow plate;
one side of the auxiliary cushion layer is paved on the flexible hollowed-out plate and is bonded with the back surfaces of the flexible hollowed-out plate and the mosaic sheet into a whole through an adhesive material, and the auxiliary cushion layer is made of a flexible material.
Further, the flexible hollow-out plate is a flexible metal plate.
Further, the flexible hollow-out plate is a flexible plastic plate.
Further, the front surface of the mosaic sheet is higher than the surface of the flexible hollowed-out plate by not less than 1 mm.
Furthermore, the thickness of the latticed side frame strip of the flexible hollow-out plate is 1-2mm
Further, the auxiliary cushion layer is waterproof paper, fabric or mesh cloth.
Furthermore, flexible fretwork board includes middle frame strip and concatenation frame strip, the width of middle frame strip is d, the width of concatenation frame strip is d/2.
Furthermore, flexible fretwork board includes sharp shape frame strip and curvilinear figure frame strip.
Furthermore, the cross section of the special-shaped base material is a round or oval special-shaped column body, the special-shaped column body is divided into n sections in the height direction, and the n sections are respectively matched with the n veneer paving units.
Further, the perimeter of the upper end face of the ith section of the special-shaped column is equal to the width of the top edge of the ith veneer paving unit; the perimeter of the lower end face of the ith section of the special-shaped column body is equal to the width of the bottom edge of the ith veneer paving unit; wherein i is 1,2, … n.
The utility model discloses owing to adopt above technical scheme, make it compare with prior art, have following advantage and positive effect: the unit modules comprise auxiliary cushion layers, flexible hollowed-out plates and a plurality of mosaic sheets, the flexible hollowed-out plates are used for embedding the mosaic sheets, so that the mosaic sheets keep a specific typesetting sequence, and the splicing seams between the mosaic sheets are controlled by side frame strips, so that the width and smoothness of the splicing seams can be kept consistent, a perfect paving effect is achieved, the auxiliary cushion layers, the flexible hollowed-out plates and the backs of the mosaic sheets are bonded into a whole, the mosaic sheets can be prevented from falling off in transportation, storage and construction, and the unit modules can always keep specific mosaic typesetting; the unitized, modularized and integrated unit module can transfer a complex mosaic sheet paving procedure to a factory workshop to be completed, and the unit module is directly fixed on a facing base material through paving a bonding material on a construction site, so that the construction difficulty on the site is greatly reduced, and the construction speed and the construction quality are obviously improved.
Drawings
FIG. 1 is a schematic structural diagram of a mosaic facing in the prior art;
FIG. 2 is a schematic structural diagram of a unit module according to an embodiment of the present invention;
FIG. 3 is a schematic structural view of a flexible stencil according to an embodiment of the invention;
FIG. 4 is a schematic view of another structure of the flexible stencil in an embodiment of the invention;
FIG. 5 is a schematic view of another structure of the flexible stencil in an embodiment of the invention;
FIG. 6 is a schematic illustration of the flexible stencil assembly according to an embodiment of the invention;
fig. 7 is a schematic structural view of the flexible hollow plate of the irregular cylinder according to an embodiment of the present invention.
The numbers in the figures are as follows:
10-a veneer substrate; 11-a shaped cylinder; 20-auxiliary cushion layer; 30-flexible hollowed-out plate; 31-a frame strip; 311-straight-line shaped frame strip; 312-curved shaped frame strips; 313-middle frame strips; 314-splicing the side frame strips; 32-hollowing out the unit grids; 40-mosaic sheets; 50-pointing material.
Detailed Description
The following describes a unit module of a mosaic facing for a special-shaped substrate according to the present invention with reference to the accompanying drawings and specific embodiments. The advantages and features of the present invention will become more apparent in conjunction with the following description. It should be noted that the drawings are in simplified form and are not to precise scale, and are provided for convenience and clarity in order to facilitate the description of the embodiments of the present invention.
Fig. 1 shows a conventional paving method of a mosaic facing, in which a facing substrate 10 is leveled, an adhesive material is applied, a mosaic sheet 40 is paved, and then a jointing material 50 is used for jointing. However, when the facing substrate 10 is a special-shaped substrate, such as a cylinder with a gradually-changed cross-sectional size, the conventional paving and attaching manner of the mosaic facing has the situations of uneven mosaic sheets, uneven gaps, uneven gap width, and the like, the paving and attaching position and the embedding depth of the mosaic sheets need to be individually adjusted, the construction workload is large, the quality and artistic effects after the pointing are difficult to meet the requirements, and particularly, under the conditions that the patterns of the mosaic facing on the special-shaped substrate are complex and the colors are various, the construction efficiency is lower, the construction effect is worse, and the problems are more prominent.
The utility model discloses a main innovation part lies in, integrates, the modularization with a plurality of mosaic sheets through flexible fretwork board, forms the unit module of mosaic veneer, and the unit module is flexible structure, and is applicable in special-shaped substrate, and the gap is even, smooth-going between the mosaic sheet after paving the subsides, and the surface smoothness of unit module has fine shop's effect of pasting, reduces the construction degree of difficulty moreover, improves the efficiency of construction greatly.
Example one
The present embodiment provides a unit module for mosaic finishing of a profiled substrate, which comprises an auxiliary cushion layer 20, a flexible stencil 30 and a plurality of mosaic sheets 40, as shown in fig. 2. The unit module can be used for objects with internal corners and external corners, and can also be cylinders, cones, special-shaped cylinders and the like.
Fig. 3 provides a schematic structural diagram of a flexible hollow-out plate 30, which is shown in fig. 2 and fig. 3, wherein the size of the flexible hollow-out plate 30 is matched with the size of a unit module, hollow-out unit cells 32 divided by grid-shaped edge strips 31 are arranged on the flexible hollow-out plate 30, the size of the hollow-out unit cells 32 is matched with the size of a mosaic sheet 40, the width of the edge strips 31 is matched with the width of a splicing seam of the mosaic sheet 40, and the thickness of the flexible hollow-out plate 30 is smaller than the thickness of the mosaic sheet 40; the mosaic sheet 40 is embedded into the hollow cells 32 of the flexible hollow board 30 and protrudes from the front of the flexible hollow board 30. As examples, the mosaic sheet may be a glass mosaic sheet, a natural stone mosaic sheet, and a metal mosaic sheet, a mosaic sheet.
One side of the auxiliary cushion layer 20 is laid on the bottom surface of the flexible hollowed-out plate 30 and is bonded with the flexible hollowed-out plate 30 and the back surface of the mosaic sheet 40 into a whole through an adhesive material. During the field construction, the auxiliary cushion 20 is only fixed on the special-shaped facing substrate 10 by the paving and bonding material. The mosaic sheet 40 has a color, pattern, or luster effect on one side, called the front side, for decoration, and another side, called the back side, for adhesion to other objects.
The unit module for the mosaic facing of the special-shaped substrate provided by the embodiment has the following beneficial effects: (1) the unit module comprises an auxiliary cushion layer 20, a flexible hollowed-out plate 30 and a plurality of mosaic sheets 40, wherein the flexible hollowed-out plate 30 is used for inlaying the mosaic sheets 40, so that the mosaic sheets 40 keep a specific typesetting sequence, and a side frame strip 31 is used for controlling splicing seams among the mosaic sheets 40, so that the width and smoothness of the splicing seams can be kept consistent, a perfect paving effect is achieved, the auxiliary cushion layer 20, the flexible hollowed-out plate 30 and the back surfaces of the mosaic sheets 40 are bonded into a whole, the mosaic sheets 40 can be prevented from falling off in transportation, storage and construction, and the unit module can always keep the specific mosaic typesetting; (2) the unitized, modularized and integrated unit module can transfer the complicated mosaic sheet 40 paving procedure to a factory workshop to be completed, and the unit module is directly fixed on the facing base material 10 through paving and adhering bonding materials on a construction site, so that the construction difficulty on the site is greatly reduced, and the construction speed and the construction quality are obviously improved.
The flexible hollowed-out board 30 is surrounded by grid-shaped frame strips 31 to form hollowed-out unit lattices 32 for embedding the mosaic sheets 40. By way of example, the flexible stencil 30 is a flexible metal sheet or a flexible plastic sheet, and the use of flexible material allows the unit module to be applied to a profiled veneer substrate 10.
After the unit modules are paved on the special-shaped veneer base material, jointing materials need to be filled in the splicing seams between the adjacent mosaic sheets 40, so that the front surface of the mosaic sheets 40 is higher than the surface of the flexible hollowed-out plate 30 by no less than 1 mm. For example, the thickness of the mosaic sheet 40 is 3-4mm, the thickness of the grid-shaped side frame strips 31 of the flexible hollow-out board 30 is 1-2mm, a part of the mosaic sheet 40 is embedded into the hollow-out unit cells 32 of the flexible hollow-out board 30 and fixed by the surrounding side frame strips 31, the mosaic sheet 40 is 2mm higher than the side frame strips 31, a splicing seam is formed between adjacent mosaic sheets 40, and a jointing material is filled in the splicing seam.
The auxiliary cushion layer 20 is, by way of example, waterproof paper, fabric, mesh cloth, or glass fiber mesh. The mosaic sheets 40 are embedded into the hollow cells 32, that is, the mosaic sheets are embedded into the hollow cells 32 through a reverse beating process, the back surfaces of the mosaic sheets 40 are coated with adhesive materials and paved with the auxiliary cushion 20, so that the mosaic sheets 40, the flexible hollow plates 30 and the auxiliary cushion 40 are fixed into an integral structure to form a unit module of the mosaic facing. Preferably, before the adhesive material is solidified, the mosaic sheets 40 of the unit modules are flattened, so that the front surfaces of all the mosaic sheets 40 of the unit modules are positioned on the same plane, thereby ensuring that the unit modules are paved on the special-shaped facing substrate and still have smooth surfaces. The integrated unit module can avoid the mosaic sheet 40 from falling off in construction or transportation, and is convenient for transportation, storage and construction. During construction, the special-shaped facing base material 10 is painted with the paving adhesive material, which can be glue or cement mortar, and then the unit modules are laid according to typesetting.
The more complicated the construction difficulty that traditional mosaic veneer typesets is, the lower the construction speed, the mosaic veneer that this embodiment provided, because the mosaic sheet 40 on each unit module has become an organic whole with flexible fretwork board 30, auxiliary cushion 20, can not increase the construction difficulty because of the complexity of mosaic veneer typesetting, also can not influence the construction speed, consequently, the unit module of mosaic veneer that this embodiment provided is applicable to special-shaped veneer substrate, especially is applicable to special-shaped veneer substrate and the complicated situation of mosaic veneer pattern and typesetting. As shown in fig. 4, the flexible hollow-out board 30 includes a straight-line-shaped frame strip 311 and a curved-line-shaped frame strip 312, and the mosaic sheets 40 on the unit modules also have two types of typesetting, which are directly prefabricated in a factory and spliced on site. Fig. 5 shows a flexible hollow-out board 30 with a complex composition mosaic surface, in fig. 5, the effect of splicing 4 same flexible hollow-out boards 30 is shown, the flexible hollow-out board 30 includes a straight-line-shaped frame strip 311 and a circular-arc-shaped frame strip, and the mosaic sheets 40 on the unit modules have 4 different composition forms.
It should be noted that, in order to ensure that the width of the seam at the joint of the two flexible hollow-out plates 30 is the same as the width of the seam in the middle of the flexible hollow-out plate 30, as shown in fig. 6, preferably, the width of the middle frame strip 313 of the flexible hollow-out plate 30 is d, and the width of the joint frame strip 314 is d/2.
Example two
Fig. 7 shows a facing substrate of a special-shaped column 11 with a thick middle and thin two ends, the cross section of the special-shaped column 11 is circular or elliptical, and the special-shaped column 11 is divided into n sections along the height direction and is respectively matched with n unit modules. Further, the perimeter of the upper end surface of the ith section of the special-shaped cylinder 11 is equal to the width of the top edge of the ith unit module; the perimeter of the lower end surface of the ith section of the special-shaped cylinder 11 is equal to the width of the bottom edge of the ith unit module; wherein i is 1,2, … n. As shown in fig. 7, the shaped cylinder 11 is divided into 4 sections, each labeled A, B, C, D, each corresponding to a unit module, and 4 unit modules are labeled a, b, c, and d, for example, the unit module labeled a has a top width equal to the perimeter of the top end surface of the section a of the shaped cylinder 11 and a bottom width equal to the perimeter of the bottom end surface of the section a of the shaped cylinder 11.
EXAMPLE III
The embodiment provides a preparation method of a mosaic facing unit module for a special-shaped substrate, which is further described with reference to fig. 1 to 7 and comprises the following steps:
the method comprises the following steps: cleaning the surface of the special-shaped veneer base material 10, measuring the size of the veneer base material 10, converting the measured size into a digital three-dimensional model, digitally typesetting the mosaic veneer, optimizing the width of a splicing seam of the mosaic sheet 40, and dividing the digitally typeset mosaic veneer into a plurality of veneer units;
preferably, the step of "measuring the size of the facing substrate 10 and converting the measured size into the digital three-dimensional model" is to scan the facing substrate 10 by using a three-dimensional scanner, create a point cloud on the surface of the facing substrate 10 and construct a three-dimensional model of the facing substrate 10;
step two: according to the size of the veneer unit and the width of the splicing seam of the mosaic sheet 40, a flexible hollowed-out plate 30 used for assisting in paving and pasting the mosaic sheet 40 is manufactured, the size of the flexible hollowed-out plate 30 is matched with that of the veneer unit, hollowed-out unit lattices 32 divided by grid-shaped side frame strips 31 are arranged on the flexible hollowed-out plate 30, the size of the hollowed-out unit lattices 32 is matched with that of the mosaic sheet 40, the width of the side frame strips 31 is matched with the width of the splicing seam of the mosaic sheet 40, and the thickness of the flexible hollowed-out plate 30 is smaller than that of the mosaic sheet 40;
step three: the mosaic sheets 40 corresponding to the digitally typeset veneer units are embedded into the corresponding hollow-out unit lattices 32 of the flexible hollow-out board 30, and the mosaic sheets 40, the flexible hollow-out board 30 and the auxiliary cushion layer 20 are consolidated into a whole through adhesive materials to form a unit module.
After the prepared unit modules are transported to a construction site, only the facing base material 10 or the back of the unit modules needs to be coated and paved with bonding materials, then the unit modules are paved and adhered on the facing base material 10 by taking the digital typesetting of the mosaic facing as a reference, and then the jointing materials 50 are used for jointing, thus completing the construction of the mosaic sheet of the special-shaped base material.
It should be noted that, when the mosaic facing is digitally typeset, the digital three-dimensional model of the facing substrate 10 already includes the thickness of the applied adhesive material. By way of example, when the paving binder is cement mortar, the paving thickness of the cement mortar is predetermined, for example, 1cm, a cement mortar layer of 1cm is disposed on the digitized three-dimensional model of the facing substrate 10, and then the mosaic facing is digitally typeset. The mosaic facing is digitally typeset, that is, according to the design typesetting mode, the model of the mosaic facing sheet is laid on the digital three-dimensional model of the facing substrate 10 by a digital means.
In a preferred embodiment, the flexible hollow-out plate 30 is a flexible metal plate or a flexible plastic plate.
Preferably, the front surface of the mosaic sheet 40 is not less than 1mm higher than the surface of the flexible hollow board 30.
In a preferred embodiment, the auxiliary pad layer 20 is waterproof paper, fabric or mesh cloth.
In a preferred embodiment, the flexible hollow-out board 30 includes a middle frame strip 313 and a splicing frame strip 314, the width of the middle frame strip 313 is d, and the width of the splicing frame strip 314 is d/2, so as to ensure that the splicing seams of the mosaic sheets have the same size.
Preferably, before the adhesive material is solidified, the mosaic sheets 40 of the unit modules are flattened, so that the front surfaces of all the mosaic sheets 40 of the unit modules are positioned on the same plane, thereby ensuring that the unit modules are paved on the special-shaped facing substrate and still have smooth surfaces.
In a preferred embodiment, the facing substrate 10 is a special-shaped column 11, the cross section of the special-shaped column 11 is circular or elliptical, the size of the cross section gradually changes along with the height, and the special-shaped column 11 is divided into n sections along the height direction and respectively matched with the n unit modules;
in a preferred embodiment, the perimeter of the upper end surface of the ith section of the special-shaped column 11 is equal to the width of the top edge of the ith unit module; the perimeter of the lower end surface of the ith section of the special-shaped cylinder 11 is equal to the width of the bottom edge of the ith unit module; wherein i is 1,2, … n.
In a preferred embodiment, the flexible hollow-out board 30 includes a straight-shaped frame strip 311 and a curved-shaped frame strip 312.
It should be noted that beneficial effects of the preferred embodiment in the third embodiment are the same as those of the first embodiment and the second embodiment, and are not described in detail in this embodiment.
Example four
This embodiment provides a construction method of a mosaic facing for a special-shaped substrate, which is further described with reference to fig. 1 to 7. The construction method comprises the following steps that the special-shaped decorative base material 10 is a special-shaped column body 11, the cross section of the special-shaped column body 11 is circular or oval, and the size of the cross section is gradually changed along with the height, and the construction method comprises the following steps:
step S1: the method comprises the steps of cleaning the surface of the special-shaped column body 11, measuring the size of the special-shaped column body 11, converting the measured size into a digital three-dimensional model, digitally composing the mosaic veneer, optimizing the width of a splicing seam of the mosaic sheet 40, dividing the digital three-dimensional model of the special-shaped column body 11 into n sections, and correspondingly dividing the digitally composed mosaic veneer into n veneer units. As shown in fig. 7, the irregular cylinder 11 is divided into 4 segments, which are respectively labeled A, B, C, D and respectively correspond to a unit module, and the 4 unit modules are respectively labeled a, b, c, and d.
Step S2: unit modules of the mosaic veneer are prepared to match the veneer units.
The unit module comprises an auxiliary cushion layer 20, a flexible hollowed-out plate 30 and a plurality of mosaic sheets 40; the flexible hollowed-out plate 30 is provided with hollowed-out cells 32 divided by grid-shaped side frame strips 31, the size of each hollowed-out cell 32 is matched with that of the mosaic sheet 40, the width of each side frame strip 31 is matched with that of a splicing seam of the mosaic sheet 40, and the thickness of the flexible hollowed-out plate 30 is smaller than that of the mosaic sheet 40; the mosaic sheet 40 is embedded into the hollow cells 32 of the flexible hollow board 30 and protrudes from the front of the flexible hollow board 30. One side of the auxiliary cushion layer 20 is paved on the flexible hollowed-out plate 30, the auxiliary cushion layer is bonded with the back surfaces of the flexible hollowed-out plate and the mosaic sheet into a whole through an adhesive material, and the auxiliary cushion layer is made of a flexible material.
The perimeter of the upper end surface of the ith section of the special-shaped cylinder 11 is equal to the width of the top edge of the ith unit module; the perimeter of the lower end surface of the ith section of the special-shaped cylinder 11 is equal to the width of the bottom edge of the ith unit module; wherein i is 1,2, … n. By way of example, the width of the top side of the unit module marked as a is equal to the perimeter of the top end surface of the section A of the shaped cylinder 11, and the width of the bottom side is equal to the perimeter of the bottom end surface of the section A of the shaped cylinder 11. The perimeter of the upper end surface of the ith section of the special-shaped cylinder 11 is equal to the width of the top edge of the ith unit module; the perimeter of the lower end surface of the ith section of the special-shaped cylinder 11 is equal to the width of the bottom edge of the ith unit module; wherein i is 1,2, … n.
Step S3: the special-shaped column 11 is coated with the paving bonding material, then the unit modules are sequentially paved on the special-shaped column 11 by taking the digital typesetting of the mosaic veneer as reference, and then the jointing material 50 is used for jointing.
Wherein, in step S2, preparing unit modules of the mosaic tile matching with the tile unit comprises,
step S2-1: manufacturing a flexible hollowed-out plate 30 for assisting in paving the mosaic sheet 40 according to the size of the facing unit and the width of the splicing seam of the mosaic sheet; the flexible hollowed-out plate is provided with hollowed-out cells divided by latticed side frame strips, the sizes of the hollowed-out cells are matched with the size of the mosaic sheet, the widths of the side frame strips are matched with the width of a splicing seam of the mosaic sheet, and the thickness of the flexible hollowed-out plate is smaller than that of the mosaic sheet;
step S2-2: and embedding the mosaic sheets corresponding to the digitally typeset decoration surface units into the hollow cell grids of the corresponding flexible hollow plates, and consolidating the mosaic sheets, the flexible hollow plates and the auxiliary cushion layer into a whole through adhesive materials to form a unit module of the mosaic decoration surface.
It should be noted that beneficial effects of the preferred implementation level in the fourth embodiment can refer to the first embodiment, the second embodiment, and the third embodiment, and are not described in detail in this embodiment.
The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.
The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.
Claims (10)
1. A unit module for a mosaic veneer of a special-shaped substrate is characterized by comprising an auxiliary cushion layer, a flexible hollowed-out plate and a plurality of mosaic sheets;
the flexible hollowed-out plate is provided with hollowed-out unit lattices divided by latticed side frame strips, the sizes of the hollowed-out unit lattices are matched with the size of the mosaic sheet, the widths of the side frame strips are matched with the width of a splicing seam of the mosaic sheet, and the thickness of the flexible hollowed-out plate is smaller than that of the mosaic sheet; the mosaic sheet is embedded into the hollow unit grids of the flexible hollow plate, and the front surface of the mosaic sheet protrudes out of the flexible hollow plate;
one side of the auxiliary cushion layer is paved on the flexible hollowed-out plate and is bonded with the back surfaces of the flexible hollowed-out plate and the mosaic sheet into a whole through an adhesive material, and the auxiliary cushion layer is made of a flexible material.
2. The cell module of claim 1, wherein the flexible stencil is a flexible metal sheet.
3. The cell module of claim 1, wherein the flexible stencil is a flexible plastic sheet.
4. The unit module of claim 1, wherein the front surface of the mosaic sheet is no less than 1mm above the surface of the flexible stencil.
5. The cell module of claim 1, wherein the thickness of the grid-shaped frame strips of the flexible stencil is 1-2 mm.
6. The cell module of claim 1, wherein the auxiliary cushion layer is waterproof paper, fabric, or mesh cloth.
7. The cell module of claim 1, wherein the flexible stencil comprises a middle frame strip and a split frame strip, the middle frame strip having a width d and the split frame strip having a width d/2.
8. The cell module of claim 1, wherein the flexible stencil comprises linear and curved side frame strips.
9. The unit module of claim 1, wherein the shaped substrate is a shaped cylinder with a circular or elliptical cross-section, and the shaped cylinder is divided into n sections in a height direction to match with the n facing paving units.
10. The unit module of claim 9, wherein the perimeter of the upper end surface of the i-th section of the profiled cylinder is equal to the width of the top edge of the i-th veneer overlaying unit; the perimeter of the lower end face of the ith section of the special-shaped column body is equal to the width of the bottom edge of the ith veneer paving unit; wherein i is 1,2, … n.
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CN109441043A (en) * | 2018-12-19 | 2019-03-08 | 上海市建筑装饰工程集团有限公司 | A kind of unit module of the mosaic surface for odd-shaped substrates |
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CN109441043A (en) * | 2018-12-19 | 2019-03-08 | 上海市建筑装饰工程集团有限公司 | A kind of unit module of the mosaic surface for odd-shaped substrates |
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