CN214759241U - Flexible material splicing unit and splicing body composed of same - Google Patents

Abstract

The utility model discloses a flexible material concatenation unit, including the flexible rectangular body, the flexible rectangular body has relative first side and the second side that sets up along its length direction, the length direction shaping of the flexible rectangular body is followed to first side, the length direction shaping of the flexible rectangular body of edge has a plurality of embedding bodies, the length direction shaping of the flexible rectangular body of edge has a plurality of joint grooves to the second side, the maximum length that the embedding body has along the length direction of the flexible rectangular body is first embedding width, the minimum length that the embedding body has along the length direction of the flexible rectangular body is second embedding width, the maximum width that the length direction of the flexible rectangular body of edge in joint groove has is the joint groove width, first embedding width is greater than the joint groove width, second embedding width is less than the joint groove width. The process does not need sewing or gluing, and obviously overcomes the defects of the prior art in the mode.

Description

Flexible material splicing unit and splicing body composed of same

Technical Field

The utility model relates to a flexible material technical field, concretely relates to flexible material concatenation unit and concatenation body of constituteing thereof.

Background

There are many types of flexible materials, such as fabrics for making clothes or bags, or leather. China is a large three billion population country, the largest consumer and producer of garments worldwide. In recent years, the garment industry in China has great development, the development of the garment industry greatly promotes the development of the national economy in China, and the garment industry makes great contribution to earning foreign exchange for export in China. Meanwhile, China has become the biggest garment production and processing base all over the world, and every three garments all over the world are produced in China.

At present, for the processing and manufacturing of clothes, when materials or material sheets are connected, sewing or gluing is mostly adopted for manufacturing, and the connecting mode has the following defects:

the demand of the clothes is large, and a large amount of waste threads and waste materials are generated by adopting sewing for connection, so that the serious waste of resources is caused; the connection is carried out by adopting a viscose mode, a large amount of viscose needs to be provided, the cost is high, and meanwhile, the ecological environment can be seriously damaged by waste water generated in the process.

Therefore, how to provide a connection mode that can avoid the above disadvantages becomes a technical problem that needs to be solved by those skilled in the art.

Disclosure of Invention

In order to achieve the above object, the utility model provides a flexible material concatenation unit.

The utility model provides a flexible material concatenation unit, includes the flexible rectangular body, the flexible rectangular body has relative first side and the second side that sets up along its length direction, first side is followed the length direction shaping of the flexible rectangular body has a plurality of embeddings body, the second side is followed the length direction shaping of the flexible rectangular body has a plurality of joint grooves, the embeddings body is followed the maximum length that the length direction of the flexible rectangular body had is first embedding width, the embedding body is followed the minimum length that the length direction of the flexible rectangular body had is second embedding width, the joint groove is followed the maximum width that the length direction of the flexible rectangular body had is joint groove width, first embedding width is greater than joint groove width, second embedding width is less than joint groove width.

Preferably, the plurality of embedded bodies are uniformly arranged on the first side, and the plurality of clamping grooves are uniformly arranged on the second side corresponding to the embedded bodies.

Preferably, the first side is formed with a plurality of three-quarter round bodies arranged at intervals to form a plurality of embedded bodies, the second side is formed with a plurality of ruyi striation bodies arranged at intervals, two adjacent ruyi striation bodies are connected with each other through an arc-shaped surface at the second side, the arc-shaped surface is concave, the concave direction is the direction of the second side pointing to the first side, each ruyi striation body is provided with a middle body and clamping bodies which are positioned at two sides of the middle body and respectively connected with the middle body, and one clamping body on one ruyi striation body and one clamping body and the arc-shaped surface which are close to each other on the other ruyi striation body form the clamping groove in a surrounding manner.

Preferably, the embedded body and the clamping groove are arranged in an overlapping and corresponding mode in the length direction perpendicular to the flexible strip body.

Preferably, an accommodating space is formed between two adjacent three-quarter round bodies, the maximum size of the accommodating space in the length direction of the flexible long strip body is smaller than the first embedding width and larger than the second embedding width, the maximum size of the desirable striation body in the length direction of the flexible long strip body is larger than the clamping groove width, and the minimum size of the desirable striation body in the length direction of the flexible long strip body is smaller than the clamping groove width.

Preferably, the first side is formed with a plurality of three-quarter round bodies arranged at intervals to form a plurality of the embedding bodies, and the second side is formed with closed holes arranged at intervals to penetrate through the upper surface and the lower surface of the flexible strip body to form a plurality of the clamping grooves.

The utility model provides a flexible material concatenation unit has following technological effect:

flexible material concatenation unit one side is formed with a plurality of embeddings bodies, and the opposite side is formed with a plurality of joint grooves to inject "first embedding width is greater than the joint groove width, and second embedding width is less than the joint groove width", can make the embedding body joint of a flexible material concatenation unit in another flexible material concatenation unit's joint inslot, and the joint back, can make the embedding body be in smooth state, and then realize concatenation between them. The adopted flexible material splicing unit is a flexible strip body, such as common cloth or leather, and can be compressed or folded, so that the embedded body can be clamped in the clamping groove conveniently, and based on the characteristics of the flexible strip body, the flexible strip body is in an unfolding state after entering the clamping groove and in a natural state, and then the two units are spliced according to the limitation that the first embedding width is larger than the clamping groove width, and the limitation that the second embedding width is smaller than the clamping groove width is realized, so that the embedded body has no possibility of tilting after being embedded. The process does not need sewing or gluing, and obviously overcomes the defects of the prior art in the mode. The length of the flexible material splicing unit can be determined according to actual application, and unitized manufacturing can be realized. For the application of the flexible material splicing unit, the inventor can splice the flexible material splicing unit into clothes or curtains for use, for example.

Preferably, the embedding body and the clamping groove are uniformly arranged, so that splicing stability is facilitated.

Preferably, three-quarter round bodies are used as the embedded bodies, and the round bodies are arranged to facilitate transition clamping.

Preferably, an accommodating space is formed between two adjacent three-quarter round bodies, the size of the accommodating space in the length direction of the flexible long strip body is smaller than the embedding width, the size of the desirable striation body in the length direction of the flexible long strip body is larger than the width of the clamping groove, and the like, so that the three-quarter round bodies are embedded in the accommodating space, the desirable striation body is embedded in the clamping groove, and the head and the tail of the flexible material splicing unit can be spliced.

Preferably, another form of insert and snap groove is provided, in which the end-to-end connection of the flexible material splicing unit can be made by sewing or gluing, but this is obviously a less application than the prior art. Still has better technical effect.

Preferably, the flexible material is fabric or leather.

The utility model also provides a concatenation body, including the flexible material concatenation unit as mentioned above, it is a plurality of flexible material concatenation unit is along the perpendicular to the length direction of flexible rectangular body splices in proper order, one flexible material concatenation unit first side the embedding body inlays and locates adjacent another flexible material concatenation unit the second side the joint groove.

The splicing body comprises the flexible material splicing unit, splicing can be completed by means of the splicing unit, excessive use of sewing or viscose is avoided, and the technical effect is the same as that of the splicing unit.

The utility model also provides a splicing body, including a flexible material splicing unit as mentioned above, a plurality of flexible material splicing units are spliced in sequence along the length direction perpendicular to the flexible strip body, the embedding body of the first side of one flexible material splicing unit is embedded in the clamping groove of the second side of another adjacent flexible material splicing unit, the splicing is performed in sequence perpendicular to the length direction of the flexible strip body, or the embedding body of the first side of one flexible material splicing unit is embedded in the accommodating space of the first side of another adjacent flexible material splicing unit, the splicing is performed perpendicular to the length direction of the flexible strip body, or the Ruyi-shaped body of the second side of one flexible material splicing unit is embedded in the clamping groove of the second side of another adjacent flexible material splicing unit, splicing in the direction perpendicular to the length direction of the flexible strip body;

two ends of one flexible material splicing unit along the length direction of the flexible strip body are respectively provided with an initial end and a tail end, the three-quarter round body close to the initial end is embedded into the containing space close to the tail end, and the Ruyi striation body close to the initial end is embedded into the clamping groove close to the tail end, so that the initial end and the tail end of the flexible material splicing unit can be spliced.

The splicing body comprises the flexible material splicing unit, has the same technical effects, and provides multiple splicing modes.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of a flexible material splicing unit provided by the present invention;

FIG. 2 is a schematic view of a first embodiment of a splice;

FIG. 3 is a schematic view of a second embodiment of a splice;

FIG. 4 is a schematic structural diagram of a third embodiment of a splice.

The reference numerals in fig. 1-4 are as follows:

the flexible strip-shaped body comprises a flexible strip-shaped body 1, a first side 2, a second side 3, a three-quarter round body 4, a desirable striation-shaped body 5, a middle body 6, a clamping body 7, an arc-shaped surface 8, a clamping groove 9 and a containing space 10.

Detailed Description

As shown in fig. 1-4, fig. 1 is a schematic structural diagram of a specific embodiment of a flexible material splicing unit provided by the present invention;

FIG. 2 is a schematic view of a first embodiment of a splice;

FIG. 3 is a schematic view of a second embodiment of a splice;

FIG. 4 is a schematic structural diagram of a third embodiment of a splice.

With reference to fig. 1, the present invention provides a flexible material splicing unit, which comprises a flexible strip body 1, the flexible elongated body 1 has along its length a first side 2 and a second side 3 arranged opposite each other, the first side 2 is formed with a plurality of embedded bodies along the length direction of the flexible strip body 1, the second side 3 is formed with a plurality of clamping grooves 9 along the length direction of the flexible strip body 1, the insert has a maximum length in the length direction of the flexible elongated body 1 of a first insert width, the insert has a minimum length along the length of the flexible strip 1 of a second insert width, the maximum width of the clamping groove 9 along the length direction of the flexible strip body 1 is the width of the clamping groove, the first embedding width is larger than the clamping groove width, and the second embedding width is smaller than the clamping groove width.

Flexible material splice unit one side is formed with a plurality of embeddings bodies, and the opposite side is formed with a plurality of joint grooves 9 to inject "first embedding width is greater than the joint groove width, and second embedding width is less than the joint groove width", can make the embedding body joint of a flexible material splice unit in another flexible material splice unit's joint groove 9, and the joint back, can make the embedding body be in smooth state, and then realize concatenation between them. The adopted flexible material splicing unit is a flexible strip body 1, such as common cloth or leather, which can be compressed or folded, so that the embedded body can be clamped in the clamping groove 9 conveniently, and based on the characteristics of the flexible strip body 1, the embedded body is in an extended state after entering the clamping groove 9 and in a natural state, and then the two units are spliced according to the limitation that the first embedding width is larger than the clamping groove width, and the limitation that the second embedding width is smaller than the clamping groove width ensures that the embedded body does not have the possibility of tilting after being embedded. The process does not need sewing or gluing, and obviously overcomes the defects of the prior art in the mode. The length of the flexible material splicing unit can be determined according to actual application, and unitized manufacturing can be realized. For the application of the flexible material splicing unit, the inventor can splice the flexible material splicing unit into clothes or curtains for use, for example.

Further, as shown in fig. 1, a plurality of the embedding bodies are uniformly arranged on the first side 2, and a plurality of the clamping grooves 9 are corresponding to the embedding bodies and are uniformly arranged on the second side 3.

The embedding body and the clamping groove 9 are uniformly arranged, so that splicing is facilitated and stable.

In one specific embodiment, as shown in fig. 1, a plurality of three-quarter round bodies 4 arranged at intervals are formed on a first side 2 to form a plurality of the embedded bodies, a plurality of ruyi-shaped bodies 5 arranged at intervals are formed on a second side 3, two adjacent ruyi-shaped bodies 5 are connected with each other at the second side 3 through an arc surface 8, the arc surface 8 is concave inwards, the concave direction is the direction in which the second side 3 points to the first side 2, each ruyi-shaped body 5 is provided with a middle body 6 and clamping bodies 7 which are positioned at two sides of the middle body 6 and are respectively connected with the middle body 6, and one clamping body 7 on one ruyi-shaped body 5 and one clamping body 7 and the arc surface 8 which are close to each other on the other ruyi-yi-shaped body 5 enclose the clamping groove 9.

The three-quarter round body 4 is used as an embedded body, and the round body is convenient for transition clamping.

In this embodiment, the embedded body and the locking groove 9 are disposed in an overlapping manner in a direction perpendicular to the length direction of the flexible strip body 1.

Further, in this embodiment, an accommodating space 10 is formed between two adjacent three-quarter round bodies 4, a maximum dimension of the accommodating space 10 along the length direction of the flexible long strip body 1 is smaller than the first embedding width and larger than the second embedding width, a maximum dimension of the wishful striation body 5 along the length direction of the flexible long strip body 1 is larger than the clamping groove width, and a minimum dimension of the wishful striation body 5 along the length direction of the flexible long strip body 1 is smaller than the clamping groove width.

An accommodating space 10 is formed between two adjacent three-quarter round bodies 4, the size of the accommodating space 10 along the length direction of the flexible strip body 1 is smaller than the embedding width, the size of the desirable striation body 5 along the length direction of the flexible strip body 1 is larger than the clamping groove width, and the like, so that the three-quarter round bodies 4 are embedded in the accommodating space 10, the desirable striation body 5 is embedded in the clamping groove 9, and the head and tail splicing of a flexible material splicing unit (not shown in the figure) can be realized.

The above embodiment is not the only clamping manner, for example, in another embodiment, the first side 2 is formed with a plurality of spaced three-quarter round bodies 4 to form a plurality of the embedding bodies, and the second side 3 is formed with spaced closed holes penetrating the upper and lower surfaces of the flexible strip body 1 to form a plurality of the clamping grooves 9.

This is another form of insert and snap groove 9, in which the end-to-end connection of the flexible material splice unit can of course be done by sewing or gluing as is known in the art, but this is obviously a less preferred application of this form than in the prior art. Still has better technical effect.

For flexible materials, it may be a fabric or leather. As will be mentioned below, the flexible material splicing unit is used to splice various types of splices, such as clothing, bags, furniture articles or artistic devices, and the degree of flexibility can be selected according to the type of the spliced body, for example, if the splices are used for splicing some artistic devices, the splices can stand on a desktop or a display platform, and at this time, a slightly hard material may be used.

The utility model also provides a concatenation body combines fig. 2-4, including as above-mentioned flexible material concatenation unit, a plurality of flexible material concatenation unit is along the perpendicular to the length direction of flexible rectangular body 1 splices in proper order, one flexible material concatenation unit first side 2 the embedding body inlays locates adjacent another flexible material concatenation unit second side 3 joint groove 9.

The splicing body comprises the flexible material splicing unit, splicing can be completed by means of the splicing unit, excessive use of sewing or viscose is avoided, and the technical effect is the same as that of the splicing unit.

The utility model also provides a splice body, including a flexible material concatenation unit as mentioned above, it is a plurality of flexible material concatenation unit is along the perpendicular to flexible material concatenation unit 1's length direction splices in proper order, one flexible material concatenation unit first side 2 the embedding body inlays and locates adjacent another flexible material concatenation unit second side 3 the joint groove 9, in the perpendicular to flexible rectangular body 1's length direction splices in proper order, or, one flexible material concatenation unit first side 2 the embedding body inlays and locates adjacent another flexible material concatenation unit first side 2 the accommodation space, in the perpendicular to flexible rectangular body 1's length direction splices, or, one flexible material concatenation unit the second side 3 the line shape body 5 is inlayed and is located adjacent another flexible material concatenation unit the second side of flexible material concatenation unit The clamping grooves 9 on the two sides 3 are spliced in the length direction perpendicular to the flexible strip body 1;

two ends of one flexible material splicing unit along the length direction of the flexible strip body 1 are respectively provided with a starting end and a tail end, the three-quarter round body 4 close to the starting end is embedded into the containing space 10 close to the tail end, and the Ruyi-shaped striation body 5 close to the starting end is embedded into the clamping groove 9 close to the tail end, so that the starting end and the tail end of the flexible material splicing unit can be spliced.

The splice of the first embodiment shown in fig. 2 is a splice of a wishful striation body 5 abutting a three-quarter circle body 4.

The splicing body of the second embodiment shown in fig. 3 is a splicing body of the wishful striation body 5 and the wishful striation body 5.

The splice of the third embodiment shown in fig. 4 is a splice of three-quarters circular body 4 butt-jointed to three-quarters circular body 4.

The splicing shown in the figure is a splicing diagram of only two flexible material splicing units, but in a specific case, the splicing diagram is not limited to this, and may be a splicing body in which more than two units are spliced, and in the splicing, all the three splicing manners described above are included.

The splicing body can splice articles such as clothes or bags and the like by splicing the flexible material splicing units up and down or splicing the flexible material splicing units end to end; for example, a simple box body can be spliced to contain articles.

The splicing body comprises the flexible material splicing unit, has the same technical effects, and provides multiple splicing modes.

The above embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and the scope of the present invention is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the invention.

Claims (9)

1. The utility model provides a flexible material concatenation unit, its characterized in that, includes the flexible rectangular body, the flexible rectangular body has relative first side and the second side that sets up along its length direction, first side is followed the length direction shaping of the flexible rectangular body has a plurality of embeddings body, the second side is followed the length direction shaping of the flexible rectangular body has a plurality of joint grooves, the embedding body is followed the maximum length that the length direction of the flexible rectangular body had is first embedding width, the embedding body is followed the minimum length that the length direction of the flexible rectangular body had is second embedding width, the joint groove is followed the maximum width that the length direction of the flexible rectangular body had is joint groove width, first embedding width is greater than joint groove width, second embedding width is less than joint groove width.

2. The splicing unit of claim 1, wherein the plurality of inserts are uniformly disposed on the first side, and the plurality of snap grooves are uniformly disposed on the second side corresponding to the inserts.

3. The splicing unit of flexible materials according to claim 2, wherein the first side is formed with a plurality of three-quarter round bodies arranged at intervals to form a plurality of the embedding bodies, the second side is formed with a plurality of Ruyi striation bodies arranged at intervals, two adjacent Ruyi striation bodies are connected with each other at the second side through an arc surface, the arc surface is concave inwards, the concave direction is the direction of the second side pointing to the first side, each Ruyi striation body is provided with a middle body and clamping bodies which are arranged at two sides of the middle body and respectively connected with the middle body, and one clamping body on one Ruyi striation body and one clamping body and the arc surface which are adjacent to another Ruyi striation body enclose the clamping groove.

4. The splicing unit of claim 3, wherein the embedding body and the clamping groove are correspondingly overlapped in a direction perpendicular to the length direction of the flexible strip body.

5. The splicing unit of claim 3, wherein a receiving space is formed between two adjacent three-quarter round bodies, a maximum dimension of the receiving space along the length direction of the flexible strip body is smaller than the first insertion width and larger than the second insertion width, a maximum dimension of the Ruyi stripe-shaped body along the length direction of the flexible strip body is larger than the clamping groove width, and a minimum dimension of the Ruyi stripe-shaped body along the length direction of the flexible strip body is smaller than the clamping groove width.

6. The splicing unit of claim 1, wherein the first side is formed with a plurality of spaced three-quarters circular bodies forming a plurality of said inserts, and the second side is formed with spaced closed holes extending through the upper and lower surfaces of the flexible strips forming a plurality of said snap-fit grooves.

7. The flexible material splicing unit of claim 1, wherein the flexible material is a fabric or leather.

8. A splicing body, characterized by comprising a plurality of flexible material splicing units according to any one of claims 1 to 7, wherein the flexible material splicing units are sequentially spliced along the direction perpendicular to the length direction of the flexible strip body, and the embedding body on the first side of one flexible material splicing unit is embedded in the clamping groove on the second side of the other adjacent flexible material splicing unit.

9. A splicing body, characterized in that, includes a plurality of flexible material splicing units of claim 5, a plurality of flexible material splicing units splice in proper order along the perpendicular to the length direction of flexible rectangular body, one flexible material splicing unit the first side the embedding body inlays to locate adjacent another flexible material splicing unit the second side the joint groove, in perpendicular to the length direction of flexible rectangular body splices in proper order, or, one flexible material splicing unit the first side the embedding body inlays to locate adjacent another flexible material splicing unit the first side the accommodation space, in perpendicular to the length direction of flexible rectangular body splices, or, one flexible material splicing unit the second side the striation body inlays to locate adjacent another flexible material splicing unit the second side the joint groove of flexible material splicing unit Splicing in the direction perpendicular to the length direction of the flexible strip body;

two ends of one flexible material splicing unit along the length direction of the flexible strip body are respectively provided with an initial end and a tail end, the three-quarter round body close to the initial end is embedded into the containing space close to the tail end, and the Ruyi striation body close to the initial end is embedded into the clamping groove close to the tail end, so that the initial end and the tail end of the flexible material splicing unit can be spliced.

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