KR101678629B1 - apparatus for adhesion texture and texture apparatus of blind manufactured using the same - Google Patents

Abstract

The present invention relates to a fabric adhesion apparatus for improving the productivity of a fabric adhesion process. The present invention includes: a base portion having a central portion provided with a heating and bonding unit, an alignment groove portion being provided on one outer side of the heating and bonding unit; an upper continuous heating unit extending continuously and along the width direction of the base portion such that a superposition portion of an attachment target fabric forms fusion-type adhesion, provided with a direct heating-type heating element therein, and provided to perform a vertical movement on the heating and bonding unit; an auxiliary receiving portion provided on the other side of the base portion and having an upper surface where the attachment target fabric is aligned and received; and a main receiving portion provided on one side of the base portion with the other side portion being moved vertically, forward, and backward by elevation movement means.

Description

[0001] The present invention relates to a fabric adhering apparatus and a blind fabric apparatus using the same,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a far-end bonding apparatus and a blind raw fabric apparatus manufactured using the same, and more particularly, to a far-end bonding apparatus and a blind raw fabric apparatus using the same.

Generally, a cloth used as a material for making a product such as a cloth, a tent, or a shade is called a fabric, and the fabric is manufactured by weaving a yarn horizontally and vertically using a loom. The fabric thus manufactured is used for dyeing or stapling according to need, and used to produce finished products for various purposes.

The blind is installed on the upper part of the window to selectively block the sunlight. The wind-up roll is fixed to the upper end of the fabric and rotates. The blind is fixed to the lower end of the fabric to reduce the shaking of the fabric, .

At this time, the weight portion may be provided with a thin aluminum or plastic material coupling member adhered to a lower end portion of the fabric, and a cover portion surrounding the coupling member.

In this case, an engaging groove is formed in the cover portion so as to slide in the width direction so that the engaging hole is slidably inserted into the engaging groove, and a slit is formed at one side of the engaging groove so as to communicate with the outside.

At this time, when the coupling hole is slid into the coupling groove, a raw end is disposed inside the slit, and the coupling hole is engaged with the slit, so that the cover and the fabric can be coupled.

However, in the related art, since the engaging hole is fixed to the fabric through the stapler, the fabric between the portions fixed by the staple is often extended by the weight of the weight, and wrinkles are formed on the upper fabric of the weight, There was a problem.

Of course, the weight portion may be provided with pockets formed by folding one end of the fabric and pockets made of metal or synthetic resin inserted into the pockets, but it is difficult to uniformly fold the ends of the fabric manually by hand due to the long width of the fabric And the formation direction of the pocket is distorted.

Korean Registration Practice No. 20-0444675

SUMMARY OF THE INVENTION In order to solve the above problems, the present invention provides a far-end bonding apparatus with improved productivity in adhering a fabric, and a fabric apparatus for blinds manufactured using the same.

According to an aspect of the present invention, there is provided a semiconductor device comprising: a base portion having a heat-bonding portion at a central portion thereof and having an alignment groove portion at an outer side of the heat- An upper continuous heating unit extending continuously along the width direction of the base unit so that the overlapping part of the workpiece is made to adhere to the base unit with the heating type heating element being directly provided therein and being vertically moved above the heating joint; An auxiliary seating part provided on the other side of the base part, the auxiliary seating part having the upper surface to be aligned and seated; And a main seating part provided at one side of the base part, wherein the other side part is moved up and down and back and forth by the lifting and moving means.

Here, the alignment groove portion may have a coupling portion to be coupled to the attached end, the coupling portion may include a body portion fixed by the main seating portion which is moved up and down and back and forth, and a joint portion protruding from one side of the outer surface of the body portion And the back and forth movement width of the main seating part is set to correspond to an interval from one end of the base part to the alignment groove part.

The alignment groove may have a depth corresponding to the thickness of the body in the vertical direction, And the width of the main seating portion is set so as to exceed a distance from one end of the base portion to the other end edge of the alignment groove portion. .

In addition, a pocket groove part is formed along a width direction of the base part at an outer side of the alignment groove part, and an elevating blade part is vertically movably provided at an upper part of the pocket groove part so as to be inserted into the pocket groove part, The front and rear moving widths of the main seating portions are set so that one end of the to-be-bonded end arranged in the up-and-down direction is pressed and bent to the upper side of the heat- Is preferably set so as to exceed an interval of up to < RTI ID = 0.0 >

According to another aspect of the present invention, there is provided a spinning reel comprising: a fabric having one end coupled to the winding roll and the other end seated on the auxiliary seating portion and aligned with the edge of the heat- A body portion formed to be thicker than the fabric so as to be temporarily fixed by the main seating portion which is inserted into the alignment groove portion provided at the outer periphery of the heating joint portion and moved up and down and back and forth; And a joining elongated portion joined to the other end portion of the raw material by heat and pressure applied continuously by a pressure and heat continuously applied along the width direction of the overlapping portion by an upper continuous heating portion disposed on the upper portion of the heating portion, A bond including a moiety; And a slit which is opened to penetrate the far end and the joining extension part is formed on one side of the coupling groove, and the body part is formed on the edge of the slit And a cover unit coupled to the fabric as it is restrained. The present invention also provides a fabricating apparatus for a blind produced by using a fabric adhering apparatus.

Through the above-mentioned solution, the far-end bonding apparatus of the present invention and the fabric apparatus for a blind manufactured using the same provide the following effects.

First, the coupling member has a body portion forming a step at an end of the blind fabric so that the cover portion is slidably engaged, and a joint extension portion projecting in the width direction on the outer surface of the body portion and adhered to the fabric, The load of the cover portion can be uniformly dispersed along the joint extension portion, so that the elongation of the fabric due to the concentration of the load and the occurrence of wrinkles can be prevented, and the durability of the product can be improved.

Secondly, the body of the coupling is inserted into the alignment groove formed along the width direction of the base portion, and is fixed by the main seating portion which is elevated, advanced or lowered by the elevating and moving means. Therefore, In addition, since the flow is prevented during pressurization / heating through the upper continuous heating unit, the accuracy of the bonding process can be improved, and the defective rate can be minimized and the productivity of the product can be improved.

Third, since the elevating blade portion and the pocket groove portion are added, the one end portion of the far end arranged in the up-and-down direction is pressed by the main seating portion according to the folding, so that the overlapping portion can be automatically formed in the heat- It is possible to perform the joining hole joining process and the pocket forming process with the apparatus of the present invention, thereby improving the compatibility of the apparatus and reducing the cost of the apparatus, thereby remarkably improving the economical efficiency of the apparatus.

1 is a side view of a far-end bonding apparatus according to an embodiment of the present invention;
FIG. 2, FIG. 3, and FIG. 4 are views illustrating a manufacturing process of a fabricating apparatus for a blind using a material adhering apparatus according to an embodiment of the present invention.
FIGS. 5, 6, and 7 are views illustrating a process of forming pockets using a far-end bonding apparatus according to an embodiment of the present invention.
8 is an exemplary view showing a main seating portion of a far-end bonding apparatus according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Hereinafter, a far-end bonding apparatus and a bonding method thereof according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a side view showing a far-end bonding apparatus according to an embodiment of the present invention, and FIGS. 2, 3, and 4 are views showing a manufacturing process of a blind fabric apparatus using a material bonding apparatus according to an embodiment of the present invention And FIGS. 5, 6, and 7 are views illustrating a process of forming pockets using a far-end bonding apparatus according to an embodiment of the present invention.

As shown in FIGS. 1 to 7, the far-end bonding apparatus 200 includes a base 210, an upper continuous heating unit 220, an auxiliary seating unit 240, and a main seating unit 230.

Here, the far-end bonding apparatus 200 includes a process of connecting the two fabrics by heating / pressing the overlapping portions between the two fabrics, a process of connecting one fabric and the coupling, a process of folding the ends of the fabric, And the like.

In this case, the coupling means S refers to an attachment member which is adhered to the end of the fabric in the blind fabric 300, and is thicker than the fabric but may be caught in the inside of the "C" And a zipper having a thick block-shaped body portion and a junction extension portion projecting from the body to a thin thickness, and having a similar shape corresponding to the body portion and the junction extension portion.

The base 210 has a central heating part 211 and an alignment groove 212 at one side of the heating part 211.

Here, the base 210 is a frame-shaped structure that is supported on a lower surface of the ground, and has an upper portion spaced apart from the ground and arranged at a predetermined height.

Of course, when a separate lower frame is provided on the ground, the base part 210 may be fixed to the lower frame, and a frame protruding upwardly from the center of the lower frame may be referred to as a base part.

At this time, the base portion 210 may be formed by bonding a cloth to a cloth, joining a cloth to a cloth, or folding the end of the cloth to adhere to the inner side of the cloth, As shown in Fig.

Here, the width direction is preferably understood to mean a direction perpendicular to the unwinding direction of the fabric wound on the winding roll.

The heating joint part 211 is formed on the upper surface of the central part of the base part 210 in correspondence with the width of the base part 210 and supports the lower part of the overlapping part 221 of the to-

In this case, when the heating unit such as the lower continuous heating unit 214 is provided at the lower part of the heating joint part 211, it is preferable that the heating joint part 211 is made of a material having high thermal conductivity for smooth heat transfer.

Here, the attached fabric Q means a fabric which is seated on the auxiliary seating part 240 and to which an attachment member such as another fabric or a coupling part S is attached. The overlapping portion 221 refers to a portion where the other end or the engagement portion contacts the other end of the to-be-bonded fabric Q. In the pocket forming process, the overlapping portion 221 is in an overlapped contact with the folded end portion of the to- It is preferable to understand that it means the inner part.

It should be understood that one side of the outer side of the heating joint 211 is a portion adjacent to the main seating part 230 on the opposite side of the part connected to the auxiliary seating part 240 in the base part 210 .

The upper continuous heating part 220 continuously extends along the width direction of the base part 210 so that the overlapping part 221 of the to-be-bonded end Q is fusion-bonded, And is vertically movable on the upper portion of the heating joint 211.

In this case, the upper continuous heating unit 220 may be installed in the upper frame 201 provided at the upper part of the base unit 210. The upper frame 201 may be installed on the ceiling of the work shop where the base 210 is installed. The upper frame 201 may be supported on and connected to both ends of the base 210 in the width direction, As shown in FIG.

More specifically, the upper frame 201 and the base 210 are spaced apart from each other by a predetermined distance, and a workpiece Q is attached to a work space formed between the upper frame 201 and the base 210, And a process unit such as a coupling unit S, an upper continuous heating unit 220, a raw material fixing unit 222, a lifting blade unit 223, and the like.

Here, the upper continuous heating unit 220 may be connected to a lower portion of a plurality of cylinder devices connected to the upper frame 201, and may be moved up and down according to the expansion and contraction of the cylinder device.

At this time, when the upper continuous heating unit 220 is lowered and generated heat, the overlapping part 221 of the attached end Q is pressed between the heating joint part 211 and the lower end of the upper continuous heating part 220 And heated and fused and bonded.

Here, the direct heating type heating element may be a nichrome heating plate or the like which generates heat by electric resistance or the like.

An adhesive tape that is plasticized by heat may be disposed on the overlapping portion 221. The adhesive tape may be melted so that the inner side portion and the end portion of the attached fabric Q and the attached fabric Q, (Q) and the coupling means (S) can be adhered to each other, and the bonding extensions of the bonded fabric / other fabric / coupling port can be directly melted by heat to form a fusion bond without a separate adhesive tape It is possible.

It is also possible to further include a lower continuous heating unit 214 disposed at the lower portion of the heating joint 211 so as to be opposed to the upper continuous heating unit 220 and having a heating- Can be fused and bonded more quickly by the heat applied to both the upper and lower sides.

On the other hand, the auxiliary seating part 240 is provided on the other side of the base part 210, and the attached end Q is aligned and seated on the upper surface.

The auxiliary seating part 240 is supported on the upper part of the 'A' shaped support which is connected to the other side of the base part 210, and the height of the upper surface is coincident with the height of the upper surface of the heated joint part 211 .

At this time, it is preferable that the width of the auxiliary seating part 240 is formed corresponding to the width of the base part 210.

In detail, the attached fabric Q is disposed in a state of being wound around a far-end feeding part (not shown) provided at the other end of the auxiliary seating part 240, and the end part is pulled toward the heating joint part 211, And can be seated on the upper surface of the seat portion 240.

At this time, it is preferable that one end of the bonded object Q is drawn out so as to coincide with one edge of the heated joint 211. Here, it is preferable to understand that one side of the bonded attachment end Q and the heated bonding portion 211 means the right side in the drawing.

The auxiliary seating part 240 may be fixed to the other side of the base part 210. In the same manner as the main seating part 230, Or the like.

In addition, it is preferable that a far end fixing part 222 is provided on the auxiliary seating part 240. In detail, the far end fixing part 222 can be moved up and down by being connected to a cylinder device provided under the upper frame 201.

At this time, the far end fixing part 222 is disposed on the other side of the upper continuous heating part 220, and when the lower end fixing part 222 is pressed and fixed to the attached supporting part Q which is seated and aligned in the auxiliary seating part 240, It is possible to prevent the flow of the adhered fabric Q when heating / pressing through the lowering of the heating part 220.

1 to 3, the main seating part 230 is provided on one side of the base part 210, and the other side part 231a is moved up and down and back and forth by the elevating and moving means 260 .

Herein, the main seating part 230 refers to a portion where an attachment fabric (not shown) to be connected to the to-be-bonded end Q is seated when the ends are joined to each other. In this embodiment, The engagement groove S inserted in the alignment groove 212 may be temporarily fixed in the step of contacting the contacted end Q and the step of forming the pocket by winding the object Q to be attached, To move the one end of the bonded object Q upwards to the other side and to move the upper end of the bonded object Q to the upper side of the heated joint 211. [

At this time, the main seating part 230 is arranged to be parallel to the upper surface of the heat-joining part 211 of the base part 210 so that the upper surface 231 of the main seating part 230 can be vertically moved, May move to the upper portion of the alignment trench 212 and may be lowered.

The width of the main seating part 230 is preferably set to correspond to the width of the base part 210 to the auxiliary seating part 240.

At this time, the main seating part 230 is moved upward, downward, and downward by the lifting and moving means 260 and is disposed on the upper part of the alignment groove part 212. The main seating part 230 and the alignment groove part 212, A space in which the coupling opening S can be temporarily fixed can be formed.

Accordingly, the engaging hole S inserted into the alignment groove 212 can be temporarily fixed by the main seating portion 230 and the engaging hole S can be fixed in the fixed state Q can be pressurized / heated through the upper continuous heating unit 220, so that the accurate position can be adhered without flow, so that the accuracy and quality of the bonding process can be improved.

As a result, adhesion failure such as twisting due to flow of the object to be bonded Q and the coupling port S can be remarkably reduced, and productivity of the product can be improved.

The coupling hole S may be inserted along the side of the alignment groove 212 while the main seating portion 230 is moved to be disposed on the alignment groove 212, The main seating part 230 may be moved to the upper part of the alignment groove part 212 in a state where the main seating part S is disposed in the alignment groove part 212.

The main seating part 230 is formed by vertically aligning one end of the fabric positioned at the upper and lower ends with the heating joint part (upper and lower ends) when the part of the attached fabric Q is folded through the lifting blade part 223 and the pocket groove part 213 211 to the upper surface side.

Accordingly, since the overlapping part 221 can be automatically formed on the heat bonding part 211, the manual work can be minimized and the efficiency of the bonding process can be improved.

In addition, since the long-width bonded end Q can be uniformly pressed along the other end of the main seating part 230, the overlapping part 221 can be accurately formed, so that the accuracy of the bonding process can be improved .

Further, since the bonding process (S) bonding process and the pocket forming process can be simultaneously performed by one device, compatibility of the product can be improved and no separate equipment for various processes is required. Therefore, The economic efficiency can be improved.

2 to 4, the alignment groove 212 is formed with a coupling hole S which is fixed by the main seating portion 230 moved up and down and back and forth, .

The back-and-forth moving width of the main seating part 230 may be set corresponding to the distance from one end of the base part 210 to the alignment groove part 212. Here, one end portion of the base portion 210 means a portion where the other side portion of the main seating portion 230 is seated while the lifting and moving means 260 is not driven.

The other side of the main seating part 230 can be moved to cover the upper part of the alignment groove part 212 at one side end of the base part 210 and the upper side of the main seating part 230 can be moved And the engagement slot S inserted in the alignment groove 212 may be fixed according to the forward and downward movement.

Here, the coupling means S refers to a member connected to an end of a fabric at the time of manufacturing the fabricating device 300 for blinds to form a step, Quot; C "-shaped cover portion c can be locked.

At this time, the coupling hole S has a block-shaped body portion S2 fixed by the main seat portion 230 and a joint extension portion S1 protruding from one side of the outer surface of the body portion S2 .

In detail, the alignment groove 212 is formed along the width direction of the base 210 so that the body S2 is inserted therein, and is recessed downward from a height range corresponding to the upper surface of the heat- .

Accordingly, when the main body S2 is pressed downward by the main seating portion 230 in a state where the main body S2 is disposed on the upper portion of the alignment groove 212, And aligned in a straight line along the forming direction of the alignment groove 212 so as to be precisely disposed at the end of the bonded object Q without warpage.

The alignment groove 212 is formed to have a depth corresponding to the thickness of the body S2 in the vertical direction and the edge face 212a of the alignment groove 212 corresponds to the upper face of the heat- And the width of the main seating part 230 is set to be greater than the distance from one end of the base part 210 to the other side edge of the alignment groove part 212.

That is, the alignment groove 212 is formed to have a depth similar to the thickness of the body S2 in the vertical direction, and is formed to have a greater width than the width of the body S2 in the fore and aft direction, S2 may be inserted so as not to be exposed to the outside of the alignment trench 212.

The height of the edge surface 212a of the alignment groove 212 is set to a height similar to that of the heat bonding portion 211 and is formed considering the thickness of the attached fabric Q that is seated on the auxiliary seating portion 240 .

At this time, when the main seating part 230 is lowered in a state where the main seating part 230 is raised and advanced to cover the upper part of the alignment groove part 212, Is pressed by the lower surface of the main seating portion 230 and is seated on the upper surface of the heat bonding portion 211 in a direction parallel to the to-be-bonded end Q in a state of being supported by the rim surface 212a of the heat- .

Accordingly, the bonded object Q and the bonding extension S1 can be stably brought into surface contact with each other, and the respective portions of the overlapping portion 221 can be uniformly bonded at the time of heat sealing.

It is preferable that the body S2 is formed thicker than the attached fabric Q so as to be connected to the end of the attached fabric Q in a stepped manner.

Accordingly, when the coupling hole S is coupled to the end of the blind fabric, the "C" -shaped cover portion c can be easily coupled through the step between the fabric and the body S2.

At this time, the junction extension S1 is preferably formed of thermoplastic synthetic resin. It is preferable to understand that the bonding extension S1 means a portion forming the overlapping portion 221 by superimposing on the bonding target Q in the bonding opening S and the body S2 As shown in FIG.

The joining extension S1 is narrowed to a thickness smaller than the body S2 and is stepped on the outer surface of the body S2 so that the joining extension S1 overlaps the engagement groove Q 212 and the heating joints 211. In this case,

In this case, the length of the bonding extension S1 is preferably similar to the length between the other edge of the alignment groove 212 and the other edge of the heating joint 211.

When the body portion S2 is inserted into the alignment groove portion 212, the overlapping portion 221 between the bonding extension S1 and the bonded ends Q is formed on the upper surface of the heat bonding portion 211, Can be accurately formed.

That is, when the body portion S2 is inserted into the alignment groove portion 212 after one end of the bonded object Q is aligned with one edge of the heat bonding portion 211, Since the fabric Q and the joining extension S 1 are accurately aligned, the repetitive sorting operation for aligning the joining member S with the long-width bonded fabric Q is eliminated, and the productivity of the product is remarkably improved .

Further, when an adhesive tape is provided between the above-mentioned attached base end Q and the above-mentioned bonding extension S1, it is possible to prevent the adhesion target Q and the bonding extension Q, which may be generated by the adhesive property of the adhesive tape, The occurrence of twisting and wrinkling of the portion S1 is prevented, so that the defect occurrence rate is minimized and the productivity of the product can be improved.

Since the joint extension S 1 is protruded to cover the entire width direction of the body S2, the joint S is connected at regular intervals through the stapler, Continuous bonds can be formed in the entire width direction.

That is, since a large and continuous connection area can be formed between the distal end Q and the coupling opening S, an external force such as a load of the body S2 or the cover portion c is applied to the junction extension S1, So that it is possible to securely and stably bond.

In addition, when the engaging holes S are connected at regular intervals through a stapler or the like, a portion of the attached fabric Q, which may be generated due to a concentrated load at a portion where the staples are connected, The durability of the product can be improved.

The joining opening S may be formed by pressing and heating through the upper continuous heating portion 220 as the joining extension S1 provided with the thermoplastic synthetic resin forms the attached end Q and the overlapping portion 221, It is possible to bond the bonded extension Q with the bonded object Q through melting of the bonded extension S1 itself without any additional adhesive tape, thereby improving the productivity of the product by simplifying the process.

At this time, the elevating and moving means 260 preferably includes a lifting cylinder 261 that provides lifting force and a forward and backward cylinder 262 that provides a forward and backward moving force. Accordingly, the position of the main seating part 230 can be accurately controlled by two parameters: the elevation height and the forward / backward movement interval.

Of course, the lifting and moving means 260 may be provided as one cylinder. The lifting and moving means 260 may include a forward and backward cylinder hinged to one end of the main seating portion 230, And a guide rail for guiding the other side of the main seating part 230 so that the main seating part 230 is moved up and down.

The lifting and lowering cylinder 260 may further include a cylinder frame 263 having one end hinged to the main seating part 230. The lifting cylinder 261 may be disposed between the main seating part 230 and the cylinder frame 263. [ The forward and backward cylinders are connected to the lower portion of the cylinder frame and extend and retracted in the forward and backward directions.

The upper end of the lifting cylinder 261 is connected to the lower end of the other end of the main seating part 230 and the lower end of the lifting cylinder 261 is connected to the upper end of the other end of the cylinder frame 263, The main seating part 230 can be rotated up and down with reference to the hinge connection part.

At this time, the forward and backward cylinders 262 may be connected to a lower portion of the cylinder frame 263 in a state where the forward and backward cylinders 262 are fixed to a ground or a lower frame (not shown).

When the rod of the forward / backward cylinder 262 is expanded or retracted, the cylinder frame 263 is moved back and forth, and the main seat 230 connected to the cylinder frame 263 can be moved back and forth.

Here, the term " back and forth " means that the cylinder frame 263 is reciprocated in a direction away from the direction in which the cylinder frame 263 approaches the base 210. [

Since the main seating part 230 can be moved up and down and forward and backward by a combination of the cylinders 261 and 262 stretched and contracted in two directions, the main seating part 230 can be easily manufactured, Can be moved accurately.

Hereinafter, a description will be given of a fabricating apparatus 300 for a blind using the fabric adhering apparatus 200 and a manufacturing method thereof.

Here, the blind fabric apparatus 300 includes a fabric Q, a fitting S, and a cover unit c, and the fabric Q is attached to the auxiliary seating unit 200 of the far- (Q) to be adhered to the base material (240).

At this time, one end of the far end Q is coupled to the take-up roll r. Here, the take-up roll (r) is provided with a key groove (r2) for connection with a winding device (not shown) at the center of both end faces, The fixing groove portion r1 may be formed.

Here, the one end of the far end Q may be coupled with a coupling hole S as the other end, and the coupling hole r1 may have a shape corresponding to the body S2 of the coupling hole S And the body S2 can be slidably inserted into the side surface of the take-up roll r.

Of course, the fabric Q can be bonded to the outer circumferential surface of the winding roll r or the inside of the confining groove r1 by an adhesive material or the like, but it is possible to more easily and accurately combine with the use of the coupling tool S Do.

The coupling unit S includes a body S2 having a block shape formed to be thicker than the fabric Q and a body portion S2 overlapping the other end of the fabric Q to form the overlap portion 221. [ And a bonding extension S1 projecting from one side of the outer surface of the lapping part 221 and thermally fused by heat and pressure applied continuously along the width direction of the lapping part 221 to be coupled to the other end of the fabric Q, desirable.

At this time, since the engaging opening S can form a wide and continuous engagement area with the to-be-bonded end Q through the joint extension S1 protruding from the outer surface of the body S2, (Q), and it is possible to prevent the occurrence of elongation and wrinkling that may occur due to the concentration of the load of the cover portion (c) on a part of the attached fabric (Q).

The cover portion c is formed with a coupling groove c2 which is inserted in the width direction so that the body S2 is slidably inserted into the cover portion c, A slit c1 is formed so that the junction extension S1 can pass therethrough and can be coupled to the fabric Q as the body S2 is constrained to the rim of the slit c1.

At this time, the cover portion (c) properly stretches the lower end portion of the blind fabric (Q) together with the coupling portion (S), thereby reducing swinging.

Here, the cover portion (c) has a C-shaped cross section, and the body portion (S2) can be slidably inserted into a coupling groove (c2) formed in the width direction along the center portion.

At this time, the far end Q and the joining extension S1 are disposed on the slit c1, and the body S2 is hooked on the inner side of the slit c1, And the fabric Q can be easily combined.

A manufacturing method of the blind fabrication apparatus 300 manufactured using the far-end bonding apparatus 200 may be performed as follows.

3, the other side of the main seating part 230 provided at one side of the base part 210 is moved to the upper part of the alignment groove part 212 by the elevating and moving means and is lowered.

At this time, the other side of the main seating part 230 may be lowered to correspond to the height of the body part S2.

The main body S2 of the coupling opening S is inserted into the alignment groove 212 of the base 210 and fixed to the auxiliary seating portion 212. The auxiliary seating portion 212 provided on the other side of the base 210 240 are positioned along the upper surface of the base material.

In this case, it is preferable that the engaging member S is inserted into the alignment groove 21 after the attached base Q is disposed on the auxiliary seating unit 240, It is preferable that a rim is aligned along one edge of the heating joint 211.

2 to 3, after the main body S2 of the coupling opening S is disposed in the alignment groove 212, the main seating portion 230 is aligned with the alignment groove 212, It is also possible to move and lower the upper portion of the engaging hole S so that the engaging hole S is temporarily fixed.

At this time, when the engaging opening S is inserted into the alignment groove 212 and the attached fabric Q is seated on the auxiliary seating portion 240, Q and a joining extension S1 protruding from the outer surface of the body S2 of the coupling opening S are formed.

The upper continuous heating unit 220 disposed on the upper portion of the heating joint 211 and having a heating heating element directly provided therein is moved downward to heat and press the lapping unit 221, And the to-be-bonded end Q are bonded to each other by heat fusion.

At this time, it is preferable that the far end fixing portion 222 is lowered before the lower portion of the upper continuous heating portion 220 is lowered, and the lower end fixing portion 222 is fixed to the auxiliary seating portion 240, The bonded object Q and the engagement opening S can be thermally fused to each other at precise positions.

4, as the body S2 is slidably inserted along the coupling groove c2 formed in the cover portion c in the width direction, the engaging groove c2 is formed on one side of the rim of the coupling groove c2. The body Q and the cover extension S1 are penetrated through the formed slit c1 and the body S2 is constrained within the rim of the slit c1, (c).

Accordingly, the cover portion c can be easily fixed, and a large and continuous bonding area can be formed between the attached end Q and the bonding extension S2, so that the load due to the cover portion c And the load of the cover portion (c) is concentrated on a part of the attached fabric (Q), so that the occurrence of elongation and wrinkling that can occur and can be prevented from occurring can be fundamentally prevented.

5, 6 and 7, the to-be-adhered bonding apparatus 200 can be used to form a pocket at the end of the attached fabric Q.

At this time, a pocket groove 213 is formed at one side of the outer side of the alignment groove 212 along the width direction of the base 210, and the attached fabric Q is formed on the upper side of the pocket groove 213. It is preferable that the lifting / lowering blade portion 223 is moved up and down to be inserted into the pocket groove portion 213.

The front and rear moving widths of the main seating part 230 are set such that one end of the bonded end Q arranged in the up and down direction in accordance with the descent of the elevating blade part 223 is moved to the upper side of the heated joint part 211 It is preferable to set the distance from one end of the base part 210 to the edge of the other side edge of the pocket groove part 213 to be pressure-bending.

Here, the overlapping portion is formed by vertically arranging the inner side portion of the to-be-bonded end Q disposed in the heat-joining portion 211 by folding and pressing the one side by the other side portion of the main seating portion 230 And may be formed by overlapping one end of the bonded object Q with the other.

5, the attached fabric Q is drawn to the upper surface of the auxiliary seating part 240, and one end thereof is disposed on the upper surface of the main seating part 230 via the heating joint part 211 Respectively.

At this time, one end of the bonded object Q may be aligned with respect to the alignment member 233 coupled to the upper surface of the main seating part 230. Here, the aligning member 233 may be provided as a permanent magnet so that the aligning member 233 may be detachably attached to the main seating part 230 formed of a magnetic material.

When the to-be-bonded end Q is aligned, the far-end fixing portion 222 is lowered to fix the to-be-bonded end Q, and the up / down blade portion 223 is lowered, So that the attached fabric Q disposed at the upper portion is inserted into the pocket groove portion 213.

At this time, one end of the to-be-attached end Q is spaced apart from the main seating part 230 and disposed in the up-and-down direction according to the folded end Q inserted into the pocket groove 213.

The lifting and supporting part 215 is provided below the pocket groove part 213. The lifting and supporting part 215 is movable in the vertical direction to adjust the depth of the pocket groove part 213. [ Accordingly, the size of the pocket to be formed at the end portion of the attached fabric Q can be easily adjusted.

6, the lifting blade portion 233 is lifted and the main seating portion 230 is moved up and down to the upper portion of the pocket groove portion 213 by the lifting and moving means 260, An overlapping portion may be formed on the upper portion of the heat-

At this time, as the other side of the main seating part 230 moves forward and downward beyond the other side edge of the pocket groove part 213, May be bent so as to be in close contact with the upper surface of the heated joint part (211).

Finally, referring to FIG. 7, the upper continuous heating part 220 is lowered to thermally fuse the overlapping part.

One end of the fabric Q arranged in the up and down direction is folded by the main seating portion 230 by the lifting blade portion 233 and the pocket groove portion 213, And may be overlapped by forming an overlapping portion on the upper surface of the heated joint portion 211. [

Accordingly, the overlapping portion can be automatically formed on the upper portion of the heating joint portion 211 without any additional manual operation, so that the convenience of the bonding process can be improved. The inner end and the end of the bonded object Q can be accurately aligned and disposed at the top of the heated joint 211 so that the accuracy of the bonding process can be improved.

In this way, the addition of the simple device configuration can improve the compatibility of the device since the joining hole joining process and the pocket forming process can be performed simultaneously by a single device, and the cost of the device can be improved by reducing the equipment cost have.

8 is an exemplary view showing a main seating part of a far-end bonding apparatus according to another embodiment of the present invention. The basic configuration of the present embodiment is the same as that of the above-described embodiment except that an alignment magnet is provided below the main seating portion, and thus a detailed description of the same configuration will be omitted.

8, an alignment magnet unit 435 for aligning the alignment member 433 is provided at a lower portion of the main seating unit 430, and the alignment magnet unit 435 is fixed to the main seating unit 430 To be moved back and forth by being coupled to an alignment rail part 434 formed in the longitudinal direction along the lower part of the alignment rail 434.

Here, the main seating part 430 is preferably formed of a non-magnetic material, and the term non-magnetic material is understood to mean a material that is not magnetized by the permanent magnet but does not shield the magnetic force of the permanent magnet.

The alignment member 433 may be formed of a magnetic material or a permanent magnet and the alignment member 433 may be fixed to the upper surface of the main seating portion 430 by a magnetic force with the alignment magnet portion 435 Do.

The alignment member 433 and the aligned magnet unit 435 may be formed of permanent magnets having the same cross-sectional area as the opposite magnetic poles. In other words, it is preferable that the surface on which the S pole is magnetized in the alignment member 433 and the surface on which the N pole of the aligned magnet portion 435 is magnetized have the same cross-sectional area.

Accordingly, when the alignment magnet portion 435 is set, the alignment member 433 can be accurately aligned and fixed to a portion corresponding to the alignment magnet portion 435.

It is preferable that the alignment rail 434 is provided with a scale for positioning the alignment magnet unit 435 and fixing means for fixing the alignment magnet unit 435 at a predetermined position.

That is, when the alignment magnet unit 435 is aligned with the alignment position of the fabric by using the scale and the fixing unit, the alignment member 433 is positioned at a position corresponding to the arrangement position of the alignment magnet unit 435, And the alignment member 433 for alignment of the attached fabric Q with respect to the alignment magnet portion 435 can be disposed at an accurate position.

As described above, the present invention is not limited to the above-described embodiments, and variations and modifications may be made by those skilled in the art without departing from the scope of the present invention. And such modifications are within the scope of the present invention.

200: Fabric Adhesive Device 300: Fabric Device for Blind
210: base portion 211: heating joint
212: alignment groove portion 213: pocket groove portion
220: upper continuous heating section 230, 430: main seating section
240: auxiliary seating portion 260: elevating and moving means
Q: fabric c: cover part
S: Coupling Sphere S1:
S2:

Claims (5)

A base portion having a heat bonding portion at a central portion thereof and an alignment groove portion at an outer side of the heat bonding portion;
An upper continuous heating unit extending continuously along the width direction of the base unit so that the overlapping part of the workpiece is made to adhere to the base unit with the heating type heating element being directly provided therein and being vertically moved above the heating joint;
An auxiliary seating part provided on the other side of the base part, the auxiliary seating part having an upper surface to which the attached fabric is aligned and seated; And
And a main seating part provided at one side of the base part, wherein the other side part is moved up and down and back and forth by the elevating and moving means. The method according to claim 1,
Wherein the alignment groove portion is provided with a coupling hole to be coupled to the to-
Wherein the coupling member includes a body portion fixed by the main seating portion moved up and down and back and forth, and a bonding extension portion protruding from one side of the outer surface of the body portion,
Wherein the back-and-forth moving width of the main seating part is set corresponding to the distance from one end of the base part to the alignment groove part. 3. The method of claim 2,
Wherein the alignment groove portion has a depth corresponding to the thickness of the body portion in the vertical direction, Wherein the edge of the alignment groove has a height corresponding to the height of the upper surface of the heat-
Wherein the back-and-forth moving width of the main seating part is set so as to exceed a distance from one end of the base part to the other end edge of the alignment groove part. The method according to claim 1,
A pocket groove portion is formed on an outer side of the alignment groove portion along a width direction of the base portion and an up and down blade portion is provided on an upper portion of the pocket groove portion so as to be moved up and down so as to insert the member to be attached into the pocket groove portion,
The front and rear moving widths of the main seating portions are set so that one end of the to-be-bonded end arranged in the up-and-down direction is pressed and bent to the upper side of the heat- Is greater than an interval between the first and second ends. A fabric whose one end is coupled to the winding roll and is seated in the auxiliary seating portion and the other end is aligned with the edge of the heating joint provided at the central portion of the base portion;
A body portion formed to be thicker than the fabric so as to be temporarily fixed by the main seating portion which is inserted into the alignment groove portion provided at the outer periphery of the heating joint portion and moved up and down and back and forth; And a joining elongated portion joined to the other end portion of the raw material by heat and pressure applied continuously by a pressure and heat continuously applied along the width direction of the overlapping portion by an upper continuous heating portion disposed on the upper portion of the heating portion, A bond including a moiety; And
Wherein a slit is formed at one side of the coupling groove so as to penetrate the far end and the extension part, and the body part is constrained to the edge of the slit And a cover portion coupled to the fabric as the cover member is folded.

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