CN218315589U - Colorful composite type spliced plush fabric - Google Patents

Abstract

A color composite type spliced plush fabric comprises a fabric body, wherein the fabric body is formed by splicing a plurality of mutually independent fabric blocks; the fabric block is formed by superposing a plurality of layers of fabric layers with different functions, and the fabric layer positioned at the top is a plush base layer with plush planted on the upper side; the fabric layer at the bottom of the fabric block is a positioning layer, a plurality of positioning grooves and a plurality of positioning teeth are convexly arranged on the edge of the positioning layer, and the positioning teeth on the positioning layer can be matched with the corresponding positioning grooves on the adjacent positioning layer in a buckling manner; the utility model discloses constitute by a plurality of surface material pieces to be provided with the location layer at surface fabric piece bottom, rely on location tooth and the constant head tank that sets up on the location layer, rely on pairing and the lock between location tooth and the constant head tank when the surface material piece is splicing, can accomplish location and connection between the surface material piece fast, shortened the concatenation time between the surface material piece greatly, effectively improved whole production efficiency.

Description

Colorful composite type spliced plush fabric

Technical Field

The utility model relates to a plush fabric field, concretely relates to compound concatenation plush fabric of colored.

Background

With the progress of various textile technologies, various novel plush fabrics continuously appear on the existing market, wherein the novel plush fabrics comprise colorful plush fabrics, and the existing plush fabrics are generally divided into two types; one of the pile fabrics is an integral pile fabric, and multiple colors are distributed on the fabric through step dyeing; the other method is that fabric blocks with independent colors are manufactured in advance according to required patterns and colors, and then the fabric blocks are spliced and sewn into a whole piece of color spliced plush fabric;

however, in the prior art, after the patterns are set and the fabric blocks of each color are made, due to the numerous fabric blocks and irregular shapes, a long time is required in the process of combining and splicing the fabrics, which greatly affects the production efficiency, and a long time is required to finish the preliminary sewing between the fabric blocks after the splicing is finished, so that the spliced fabric is not loosened in the subsequent complete sewing process, but the production efficiency is further hindered by increasing the preliminary sewing.

Disclosure of Invention

In order to overcome the defect that the splicing of the color spliced plush fabric in the prior art is hard and leads to the low overall production efficiency, the utility model provides a compound spliced plush fabric of colors.

The technical proposal of the utility model for solving the technical problem is that: a color composite type spliced plush fabric comprises a fabric body, wherein the fabric body is formed by splicing a plurality of mutually independent fabric blocks;

the fabric block is formed by laminating a plurality of fabric layers with different functions, and the fabric layer positioned at the top is a plush base layer with plush planted at the upper side;

the fabric block is characterized in that the woven fabric layer at the bottom of the fabric block is a positioning layer, a plurality of positioning grooves and a plurality of positioning teeth are convexly arranged on the edge of the positioning layer, and the positioning teeth on the positioning layer can be in lock joint with the corresponding positioning grooves on the adjacent positioning layer.

And furthermore, when the fabric blocks are spliced, the positioning teeth of the fabric blocks are buckled and matched in the positioning grooves on the adjacent fabric blocks, so that the positioning and the primary connection between the two adjacent fabric blocks are completed.

Furthermore, the positioning teeth and the positioning grooves are in various sizes and shapes, and the positioning teeth and the positioning grooves in various sizes and shapes are irregularly arranged on the edge of the positioning layer.

Furthermore, still seted up a plurality of and led to the line hole on the location tooth near the edge, a plurality of is led to the line hole equally seted up near the edge to the location tooth inboard.

And furthermore, after the positioning teeth are buckled in the positioning grooves in a matching manner, rubber bands or binding ropes can be used for sequentially penetrating through the positioning teeth and the through line holes in the positioning grooves and binding tightly, so that the positioning teeth and the positioning grooves are relatively fixed.

Furthermore, a ventilating layer, a reinforcing layer and a bacteriostatic layer are sequentially arranged between the plush base layer and the woven fabric layer.

Furthermore, the breathable layer is formed by interweaving breathable fibers, the breathable fibers are arranged in a warp direction and a weft direction, a warp group is formed by compactly laminating a plurality of pieces of breathable fibers arranged in the warp direction, and a weft group is formed by compactly laminating a plurality of pieces of breathable fibers arranged in the weft direction; gaps are reserved between two adjacent groups of warp yarns and between two adjacent groups of weft yarns, and air holes for air to pass through are formed at the staggered positions of the gaps between the warp yarns and the gaps between the weft yarns.

Still further, the warp groups and the weft groups are distributed at equal intervals.

Furthermore, the reinforcing layer is formed by closely weaving a plurality of reinforcing fibers, the reinforcing fibers are formed by thick main fibers and thin auxiliary fibers, and the auxiliary fibers are coiled and attached to the main fibers.

Further, the bacteriostasis layer is formed by interweaving a plurality of bacteriostasis fibers, and the surfaces of the bacteriostasis fibers are adhered with bacteriostat.

Still further, the bacteriostatic fiber is spandex fiber with a bacteriostatic agent attached to the surface.

The utility model discloses a production concatenation process: firstly, cutting a positioning layer which is originally a whole piece of fabric into a plurality of pieces according to a designed pattern, randomly cutting the edges of the positioning layers to form positioning blocks and positioning teeth in the cutting process, then completing the cutting and forming of a breathable layer, a reinforcing layer and a bacteriostatic layer according to the pattern, cutting pile base layer pieces with required shapes from pile base layer fabrics with various colors and materials, finally superposing and fixing all the cut textile layers, then rapidly completing the splicing of all the pieces of fabric according to the pattern and the positioning relation of all the positioning teeth and positioning grooves, buckling and matching the positioning teeth on the pieces of fabric into the positioning grooves on the adjacent pieces of fabric in the splicing process, threading and tightly fastening leather tendons or binding ropes through the buckled positioning teeth and the through holes on the positioning grooves, and finally sewing all the positioning blocks which are spliced and fixed together to form a whole piece of primarily color spliced wool pile fabric.

The beneficial effects of the utility model reside in that:

1. the fabric splicing device is composed of a plurality of fabric blocks, a positioning layer is arranged at the bottom layer of each fabric block, and positioning teeth and positioning grooves are arranged on the positioning layer, so that when the fabric blocks are spliced, the positioning and connection among the fabric blocks can be quickly completed by matching and buckling the positioning teeth and the positioning grooves, the splicing time among the fabric blocks is greatly shortened, and the overall production efficiency is effectively improved;

2. the positioning teeth and the positioning grooves have various sizes and shapes, so that mismatching of the positioning teeth and the positioning grooves in the matching process can be prevented, a fool-proof effect is achieved, and the splicing efficiency of the fabric blocks is further ensured;

3. through-line holes are formed in the positioning teeth and the inner sides of the positioning grooves, the fabric pieces can penetrate through the through-line holes by means of rubber bands after being spliced, and the positioning teeth and the positioning grooves are fixed together, so that preliminary connection among the fabric pieces is realized, and subsequent sewing is facilitated;

4. the breathable fabric is provided with the breathable layer, and air can better penetrate through the fabric by virtue of the breathable holes formed in the breathable layer, so that the breathability of the fabric is effectively improved;

5. the reinforced fabric comprises a reinforced layer, wherein the reinforced layer is formed by weaving reinforced fibers formed by winding a main wire and an auxiliary wire, and the integral strength of the fabric can be effectively improved by means of the better toughness of the reinforced fibers.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an explosion diagram of the fabric piece of the present invention.

Fig. 3 is a schematic diagram of the splicing state between the positioning layers of the present invention.

Fig. 4 is a schematic view of the woven structure of the air permeable layer of the present invention.

Fig. 5 is a schematic view of reinforcing fibers of the reinforcing layer of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

It will be understood that, although the terms upper, middle, lower, top, end, etc. may be used herein to describe various elements, these elements should not be limited by these terms. These terms are only used to distinguish one element from another for ease of understanding, and are not used to define any direction or order of limitation.

Examples

The color composite spliced plush fabric shown in the figures 1 to 5 comprises a fabric body 1, wherein the fabric body 1 is formed by splicing a plurality of mutually independent fabric blocks 2; the fabric block 2 is formed by superposing a plurality of layers of fabric layers with different functions, and the fabric layer positioned at the top is a plush base layer 3 with plush planted at the upper side; the fabric layer position that is located 2 bottoms of fabric piece is location layer 4, seted up a plurality of constant head tank 5 and protruding a plurality of location tooth 6 that is equipped with on the border of location layer 4, just location tooth 6 on the location layer 4 can be with the adjacent location layer 4 on the corresponding constant head tank 5 looks lock joint cooperation.

In this case, the positioning layer 4 is made of leather, and is used for positioning and splicing and also has a waterproof function.

In this embodiment, when the fabric pieces 2 are spliced, the positioning teeth 6 of the fabric pieces 2 are buckled and matched with the positioning grooves 5 on the adjacent fabric pieces 2, so as to complete the positioning and the primary connection between the two adjacent fabric pieces 2.

In this embodiment, the positioning teeth 6 and the positioning grooves 5 have various sizes and shapes, and the positioning teeth 6 and the positioning grooves 5 with various sizes and shapes are irregularly arranged on the edge of the positioning layer 4.

In this embodiment, a plurality of through hole 7 is further formed in the positioning tooth 6 near the edge, and a plurality of through hole 7 is also formed in the positioning tooth 6 near the edge.

In this embodiment, after the positioning teeth 6 are buckled in the positioning groove 5 in a matching manner, a rubber band or a binding rope can be used to sequentially pass through the positioning teeth 6 and the through hole 7 on the positioning groove 5 and be bound tightly, so that the positioning teeth 6 and the positioning groove 5 are relatively fixed.

In this embodiment, a breathable layer 8, a reinforcing layer 9 and a bacteriostatic layer 10 are sequentially arranged between the plush base layer 3 and the woven fabric layer.

In this embodiment, the air-permeable layer 8 is formed by interweaving air-permeable fibers 11, the air-permeable fibers 11 are arranged in a warp direction and a weft direction, a warp group 12 is formed by compactly laminating a plurality of air-permeable fibers 11 arranged in the warp direction, and a weft group 13 is formed by compactly laminating a plurality of air-permeable fibers 11 arranged in the weft direction; gaps are reserved between two adjacent groups of warp yarns 12 and between two adjacent groups of weft yarns 13, and air holes 14 for air to pass through are formed at the staggered positions of the gaps between the warp yarns 12 and the gaps between the weft yarns 13.

In the present embodiment, the warp yarn groups 12 and the weft yarn groups 13 are distributed at equal intervals.

In this embodiment, the air-permeable fibers 11 form the warp thread groups 12 or the weft thread groups 13 in four groups, and the intervals between the warp thread groups 12 are equal to the intervals between the weft thread groups 13.

In the present embodiment, the reinforcing layer 9 is formed by closely weaving a plurality of reinforcing fibers 15, and the reinforcing fibers 15 are formed by thicker main fibers 16 and thinner auxiliary fibers 17, and the auxiliary fibers 17 are wound and attached on the main fibers 16.

In this embodiment, the bacteriostatic layer 10 is formed by interweaving a plurality of bacteriostatic fibers, and the bacteriostatic fibers are attached with bacteriostatic agents.

In this embodiment, the bacteriostatic fiber is a spandex fiber with a bacteriostatic agent attached to the surface.

The production splicing process of the embodiment: firstly, cutting a positioning layer 4 which is originally a whole piece of fabric into a plurality of pieces according to a designed pattern, randomly cutting the edges of the positioning layers 4 to form positioning blocks and positioning teeth 6 in the cutting process, then completing cutting and forming of a breathable layer 8, a reinforcing layer 9 and a bacteriostatic layer 10 according to the pattern, cutting down plush base layer 3 pieces with required shapes from plush base layer 3 fabrics with various colors and materials, finally superposing and fixing all the cut textile layers, rapidly completing splicing of all pieces of fabric 2 according to the pattern and the positioning relation of all the positioning teeth 6 and positioning grooves 5, buckling and matching the positioning teeth 6 on the pieces of fabric 2 into the positioning grooves 5 on adjacent pieces of fabric 2 in the splicing process, penetrating and binding a leather band or a rope through the positioning teeth 6 buckled together and the whole piece of through hole 7 on the positioning grooves 5, and finally sewing up all the positioning blocks which are spliced and preliminarily fixed together to form the color spliced plush fabric.

The advantages of this embodiment are: rely on the location layer and set up location tooth and the constant head tank on the location layer and can realize the location concatenation between the material piece fast, effectively improved holistic production efficiency.

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 (7)

1. The color composite spliced plush fabric comprises a fabric body (1), wherein the fabric body (1) is formed by splicing a plurality of mutually independent fabric blocks (2);

the fabric block (2) is formed by superposing a plurality of layers of fabric layers with different functions, and the fabric layer positioned at the top is a plush base layer (3) with plush planted at the upper side;

the method is characterized in that: the fabric layer position that is located fabric piece (2) bottom is location layer (4), a plurality of constant head tank (5) have been seted up on the border of location layer (4) and the protruding a plurality of location tooth (6) that is equipped with, just location tooth (6) on location layer (4) can be with adjacent location layer (4) on corresponding constant head tank (5) looks lock joint cooperation.

2. The color composite type spliced plush fabric as claimed in claim 1, wherein: the positioning teeth (6) and the positioning grooves (5) are all in various sizes and shapes, and the positioning teeth (6) and the positioning grooves (5) in various sizes and shapes are arranged on the edge of the positioning layer (4) in an irregular mode.

3. The color composite type spliced plush fabric as claimed in claim 1, wherein: the positioning tooth (6) is provided with a plurality of through wire holes (7) close to the edge, and the inner side of the positioning tooth (6) is also provided with a plurality of through wire holes (7) close to the edge.

4. The color composite type spliced plush fabric as claimed in claim 1, wherein: and a ventilating layer (8), a reinforcing layer (9) and an antibacterial layer (10) are sequentially arranged between the plush base layer (3) and the woven fabric layer.

5. The color composite type spliced plush fabric as claimed in claim 4, wherein: the breathable layer (8) is formed by interweaving breathable fibers (11), the breathable fibers (11) are arranged in a warp direction and a weft direction, a warp group (12) is formed by compactly laminating a plurality of breathable fibers (11) arranged in the warp direction, and a weft group (13) is formed by compactly laminating a plurality of breathable fibers (11) arranged in the weft direction; gaps are reserved between two adjacent groups of warp yarns (12) and between two adjacent groups of weft yarns (13), and air holes (14) for air to pass through are formed at the staggered positions of the gaps between the warp yarns (12) and the gaps between the weft yarns (13).

6. The color composite type spliced plush fabric as claimed in claim 4, wherein: the reinforcing layer (9) is formed by densely weaving a plurality of reinforcing fibers (15), the reinforcing fibers (15) are formed by thicker main fibers (16) and thinner auxiliary fibers (17), and the auxiliary fibers (17) are coiled and attached on the main fibers (16).

7. The color composite type spliced plush fabric as claimed in claim 4, wherein: the antibacterial layer (10) is formed by interweaving a plurality of antibacterial fibers, and the surfaces of the antibacterial fibers are adhered with antibacterial agents.

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