KR20170031512A - Stamping machines for textiles - Google Patents

Abstract

The present invention relates to a stamping machine for textiles, comprising: a transfer unit (10) installed in a transverse direction in an upper portion of a body (B), automatically transferring a textile (A) in which a stamp is carved for the textile to be supplied and discharged; and a carving unit (20) carving a stamp in the textile which is transferred by the transfer unit (10). As such, the textile inputted from the carving unit and a long distance is able to automatically be transferred, carved, and discharged to prevent negligent accidents while carving a stamp; and at the same time, achieve productivity through excellent working efficiency.

Description

[0001] Stamping machines for textiles [0001]

More particularly, the present invention relates to a stamping machine for marking text or pattern on the surface of a fabric, and more particularly, to a stamping machine for marking a fabric, And at the same time to achieve high productivity and efficiency.

In the case of products made of microfiber cloth such as sports towel or eyeglass cloth, since it is important to design the product's functionality rather than the design of the product, it is common to produce it without adding any special design. Therefore, It is very popular as a product.

However, in order to produce sports towels or spectacles for publicity or promotional purposes, it is necessary to print promotional or promotional texts or patterns on the surface of the fabric, which is the material of the product. Conventionally, printing on the surface of the fabric .

However, in the case of screen printing of textiles, there is a disadvantage that the printing cost is expensive due to the labor cost of skilled workers by skilled technicians performing the operation of pushing and printing the ink with a pusher called squeegee.

Therefore, in recent years, an automatic screen printing dedicated printer is also used. In such a screen printing process, it is difficult to print a large number of images because of small resistance to printing and difficulty in expressing delicate lines and halftone dots. , There is also a disadvantage in that printing accuracy is lowered as the amount of printing work is increased.

In addition, in the case of screen printing, since the printing of the stationery or the pattern with the ink on the surface of the fabric is performed, if the product made of the screen printed fabric is used for a long time, the printed phrase or the pattern is blurred or erased, There was also a problem of loss.

Recently, instead of screen printing with the ink on the surface of the fabric, a stamping machine engraving a phrase or pattern on the surface of the fabric, such as a leather flake, may be used. When a phrase or pattern is stamped on the surface of the fabric In case of a product such as sports towel or eyeglass which is widely used for publicity and promotion because the stationery and the pattern are prevented from being blurred or erased even when the product is used for a long period of time, The number of cases in which the product is stamped is increasing.

Published Patent Application No. 10-2004-0068446 (Jul. 31, 2004) Patent Registration No. 10-0971115 (Jul. 20, 2010)

Conventionally, a stamping machine has been used in order to stamp a stationery or a pattern on a fabric. The stamping machine is provided with a stamping machine in which an engraved mold having a stationery or a pattern is formed on the upper part of the main body, When the handle on one side of the main body is manually rotated, it is stamped by the strength of the force that rotates the handle by the rack and pinion installed on the main body. As the die descends vertically, the surface of the fabric is pressurized, And is imprinted on the surface.

However, the above-mentioned stamping machine is not only very low in productivity because the worker carries out the work of engraving on the fabric by hand, and the quality of engraving is uneven according to the skill of the worker, There was an inadequate problem.

In recent years, the promotional means for engraving is made mechanically by a lifting means such as a lifting motor or a cylinder of an engraved mold in which a pattern is formed, and at the same time, the control of the lifting means is controlled by a foot switch, An automatic stamping machine has been developed which improves the productivity and quality uniformity by engraving on the fabric after the engraved mold is lowered into operation by pressing the footswitch after footing.

However, in the case of such an automatic stamping machine, not only is it necessary for a worker to manually insert and unload a fabric in a workbench, but it is difficult to expect a high productivity because a single piece of fabric is put into a workbench at a time, There is a problem that safety accidents involving the hand or part of the body of the worker frequently occur between the workbench and the engraved die.

Therefore, in stamping stationery or pattern on the surface of fabric, it is possible to achieve high productivity and to reduce the risk of safety accidents significantly, and to develop a stamping machine for textile materials that can guarantee uniformity of stamp quality This is an urgent situation.

A stamping machine for a woven fabric according to the present invention has been developed to solve the problems of the prior art as described above. The stamping machine for a woven fabric according to the present invention comprises a conveying chain (11) horizontally installed on a main body (B) A conveying unit 10 having a material aligning unit 121 formed on an upper surface thereof and a conveying plate 12 pivotally connected to the pins constituting the conveying chain 11 at predetermined intervals;

At least one pressing body 21 provided on the transfer chain 11 by means of an upper cylinder 215 so as to be able to move up and down, a stamp plate 22 detachably attached to the pressing body 21, (20) provided with at least one support plate (23) which is installed on the lower part of the conveying chain (11) by means of a conveying chain (11) and which is in contact with the bottom surface of the conveying plate (12) This enables automatic transfer of stamped fabrics from engraved and distant places, thereby preventing safety accidents during engraving and greatly improving productivity through excellent work efficiency. can do.

The stamping machine according to the present invention as described above is capable of automatically transferring, stamping, and discharging the fabric by inserting the fabric at the engraved portion and the remote portion at a distance, thereby efficiently performing the stamping operation of the fabric, Since the supply, imprinting, and discharging of the fabric of the field, the productivity of the product is very high.

Further, since the supply of the fabric is performed at the engraved part and the remote part, there is an advantage that the risk of occurrence of the safety accident of the operator in the process of elevating the engraved metal mold is greatly reduced.

In addition, since the engraving is automatically performed by the engraving portion in which the temperature control and the pressure control are automatically performed, the quality of engraving formed on the fabric can be uniformly maintained.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front elevation view showing a configuration according to an embodiment of a stamping machine for a woven fabric according to the present invention; FIG.
2 is a perspective view of a transfer plate according to an embodiment of a stamping machine for woven fabrics of the present invention.
3 is an exploded perspective view showing a pressing body and a stamping plate according to an embodiment of the stamping machine for a woven fabric according to the present invention.
4 is a side cross-sectional view showing a configuration of a recess according to an embodiment of a stamping machine for a woven fabric according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the structure and operation of a stamping machine for a woven fabric according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

A stamping machine for a woven fabric according to the present invention includes a transfer unit 10 installed on a main body B in a lateral direction to automatically transfer a fabric A to be stamped, And an engraving part 20 forming an engraving on the fabric to be conveyed by the conveying part 10.

The conveying unit 10 includes a conveying chain 11 installed horizontally on a main body B having a frame structure and driven by the driving unit 111 in an intermittently circulating manner and a material aligning unit 121 formed on an upper surface thereof, And a transfer plate 12 pivotally connected to the pins of the transfer chain 11 so as to be rotatable.

The conveying chain 11 uses a roller chain in which a plurality of roller links and pin links are connected by pins. In view of the side, the conveying chain 11 is provided with a pair of conveying chains 11 It is preferable that the transfer plate 12 is provided.

The conveying chain 11 is intermittently driven by a driving unit 111 for driving a chain sprocket 11a connecting the conveying chains 11 and the driving time during intermittent driving of the conveying chain 11, The time for which the driving unit 11 is fed and the time for which the driving unit 11 is stopped can be freely changed and set through the operation of the control unit for controlling the driving unit 111. [

The conveying plate 12 is provided with a material aligning part 121 on its upper part, and when viewed in plan so as to facilitate the introduction and discharge of the material, the conveying plate 12 has upper and side edge parts, It is preferable that the material is easily injected into the front face so that the upper both side edges of the material are brought into close contact with the guide so that the alignment of the material can be achieved.

The brackets 122 are integrally formed on the bottom surfaces of both sides of the conveyance plate 12 and the brackets 122 are pivotally connected to the pins of the conveyance chain 11 so that the conveyance plate 12 has a bottom surface, The material transferred onto the conveying plate 12 is conveyed by the conveying chain 11 in a state of being seated on the conveying plate 12, thereby enabling stable conveyance of the material.

It should be noted that the size of the transfer plate 12 and the position of the material alignment unit 121 formed on the transfer plate 12 may vary depending on the material to be stamped, .

In order to precisely control the conveying distance of the conveying plate 12 pivotally coupled to the conveying chain 11, a number of passes of the conveying plate 12 is counted at one side of the conveying chain 11, And a sensing unit for sensing the conveying plate 12 and providing the signal to a control unit for controlling the driving unit 111. [

The imprinting unit 20 includes at least one pressing body 21 provided at an upper portion of the conveying chain 11 by an upper cylinder 215 so as to be able to move up and down and a stamping plate 22 detachably attached to the pressing body 21, And at least one support plate 23 which is installed in the lower part of the conveying chain 11 by means of the lower cylinder 231 to be able to move up and down so as to be in close contact with the bottom surface of the conveying plate 12 at the time of ascending and descending to support the conveying plate 12 .

The pressing members 21 and the supporting plates 23 constitute a supporting plate 23 corresponding to each pressing member 21 so that the pressing members 21 and the supporting plates 23 are connected to the upper cylinder 215, And lower cylinder 231, respectively.

The stencil plate 22 has heat resistance to withstand high temperatures when heated by a heating means so that engraving is clearly formed when engraving on the surface of the fabric, excellent heat conductivity to enable rapid heat transfer, ) With high durability to withstand high pressure and friction.

In order to attach and detach the stencil plate 22 to the pressing body 21, a coupling wing 221 formed symmetrically on both surfaces of the stencil plate 22 is detachably attached to the bottom surface of the pressing body 21 A slot 211 is formed at one side of the slot 211 and an opening 211a through which the slot 22 is inserted and ejected is formed. And a fixing means for fixing the engaging wall 211b and the engraved plate 22 fitted in the slot portion 211. [

The fixing means is provided with a mounting hole 212 in the pressing member 21 and a coil spring 213 is inserted into the mounting hole 212 so that the coil spring 213 is prevented from being separated from the mounting hole 212 And a fixing protrusion 214 having a protruding portion 214a corresponding to the protruding protrusion 212a is formed in the lower portion of the mounting hole 212. [ And the staking plate 22 is provided with a fixing hole 222 in which the fixing protrusion 214 is inserted so as to be inserted into the slot 211 of the pressing body 21, The engraved plate 22 is fixed by the fixing protrusion 214. [

At this time, an inclined surface 214b toward the opening 211a of the slot 211 is formed at the lower end of the fixing protrusion 214 so that the plate 22 is pushed into the slot 211 through the opening 211a The fixed protrusion 214 is pushed upward by the pressure pushing the engraved plate 22 while the inclined surface 214b of the fixed protrusion 214 touches the inside surface of the plate 22, The fixing hole 222 of the engraved plate 22 is fixed to the lower portion of the fixing protrusion 214 when the inserting plate 22 is completely inserted into the engaging wall 211b on the inner side, The fixing protrusion 214 elastically inserted into the coil spring 213 is elastically inserted into the fixing hole 222 to fix the stamping plate 22.

In order to separate the engraved plate 22 coupled to the pressing body 21 from the pressing body 21, the fixing protrusion 214 exposed to the lower portion of the fixing hole 222 of the engraved plate 22 may be separated from the pressing body 21, The engraved plate 22 is pushed upward by releasing the engaging plate 22 through the opening 211a of the slot 211 by pushing up the fixing protrusion 214 from the fixing hole 222, Thereby facilitating the quick and easy discharge.

The support plate 23 is a flat plate and is elevated and lowered by a lower cylinder 231 which operates in cooperation with the upper cylinder 215 so that the presser body 21 is lowered by the upper cylinder 215, When the impression is formed on the upper surface of the material loaded on the conveyance plate 12, the support plate 23 is brought into close contact with the bottom surface of the conveyance plate 12 to support the conveyance, so that the pressure applied by the upper cylinder 215 is imprinted It is effectively transmitted to the material through the plate 22 to form a clear imprint on the surface of the material so that the imprint quality can be maintained uniform.

At this time, the support plate 23 is moved downward to the fabric by the engraved plate 22 which is detachably coupled to the slot portion 211 of the pressing body 21 in such a manner that the pressing body 21 descends to form engraving on the fabric, It is preferable to first make a close contact with the bottom surface of the conveying plate 12 before the pressure is applied.

Hereinafter, the operation of the stamping machine for a woven fabric to which the technique of the present invention is applied will be described.

In order to form engraving on the surface of the fabric using the stamping machine for fabric woven fabric according to the present invention, the operator first places the transfer unit 10 on one side of the transfer unit 10 formed in the main body B in the transverse direction, One sheet of fabric A is stacked on top of the transfer plate 12.

At this time, since the position of the worker carrying the fabric A and the position of the engraving portion 20 forming the engraving on the fabric are maintained at a constant distance, the engraving plate 22 ascending and descending from the engraving portion 20, It is possible to prevent a risk of a safety accident that a part of the body of the worker gets caught between the stamp plate 22 and the transfer plate 12 in the process of engraving.

On the other hand, the conveying plate 12 on which the fabric is placed by the operator is conveyed to the engraving section 20 by the conveying chain 11 that is intermittently circulated and driven by the driving section 111.

When the transfer plate 12 on which the fabric is loaded arrives at the engraving portion 20, the upper cylinder 215 and the lower cylinder 231 interlock with each other, The engaging plate 21 is lowered downward so that the engraved plate 22 presses the surface of the fabric and the supporting plate 23 supports the transfer plate 12 to which pressure is applied downward by the engraved plate 22, 22 are formed on the upper surface of the fabric.

The pressing body 21 and the support plate 23 are returned to their original positions by the upper cylinder 215 and the lower cylinder 231 interlocked with each other and the transfer chain 11 The cloth spools 11a are again intermittently driven so that the fabric spools 11a are stacked on the conveying plate 12 in the process of changing direction, and the fabric is automatically discharged while dropping downward, thereby automatically transferring, stamping, .

In the case where the stamping unit 21 of the stamping unit 20 is constituted of a plurality of stamps 20 in the process of forming engraving on the fabric, the transferring chain 11 And the plurality of pressure members 21 are moved up and down simultaneously to form engraving marks on a plurality of fabric sheets stacked on the plurality of conveyance plates 12 at the same time The productivity can be greatly improved.

In addition, it is of course possible to sequentially engrave the respective fabric materials by sequentially actuating the upper cylinders 215, which raise and lower the plurality of pressure bodies 21 as necessary.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be construed as limiting the scope of the invention as defined by the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

A: Fabric B: Body
10: Feeder 11: Feeder chain
111: driving part 12:
121: material arranging part 122: bracket
20: engraving part 21: pressing body
211: slot part 212: installation hole
213: coil spring 214:
215: upper cylinder 22: engraved plate
221: coupling wing part 222: fixing hole
23: support plate 231: lower cylinder

Claims (3)

A conveying chain 11 which is horizontally arranged on the upper portion of the main body B and which is intermittently circulatingly driven by a driving portion 111 and a material aligning portion 121 which is formed on the upper surface thereof, A conveying unit 10 including a conveying plate 12 pivotally connected to the conveying unit 12 so as to be rotatable;
At least one pressing body 21 provided on the transfer chain 11 by means of an upper cylinder 215 so as to be able to move up and down, a stamp plate 22 detachably attached to the pressing body 21, (20) provided with at least one support plate (23) which is installed on the lower part of the conveying chain (11) by means of a conveying chain (11) and which is in contact with the bottom surface of the conveying plate (12) Wherein the stapling machine comprises a stapling machine.
The method of claim 1, further comprising:
A slot 211 is formed on the bottom surface of the pressing body 21 so that the coupling wing 221 symmetrically formed on both sides of the engraving plate 22 is detachably fitted. Further comprising fixing means for fixing the engraved plate (22) sandwiched between the stamper (211).
3. The method of claim 2,
The fixing means includes a fixing protrusion 214 provided by a coil spring 213 provided inside the mounting hole 212 formed in the pressing member 21 and a fixing hole 222 formed in the inscribed plate 22, Wherein the plate (22) inserted into the slot portion (211) of the pressing body (21) is fixed.

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