KR101701132B1 - Apparatus and Method for Processing the Fabric material of Beauty Treatment Pack - Google Patents

Abstract

A fabric pressing machine for beauty packs is provided.
The present invention relates to a spinning reel which is rotated by a first driving source and wound with a fabric, A cutter wheel which is provided on the reciprocating unit and which is rotated by the second driving source and cuts from the innermost layer to the outermost layer of the fabric wound body with the fabric wound therearound, A cutting section for cutting the circular cylinder body so as to obtain a fabric laminate in which a plurality of fabric layers having a predetermined length are laminated; And a mold operation portion having a mold having an enemy tooth to which the fabric stacked body is stacked and disposed and disposed directly above the fabric stacked body horizontally conveyed in the final stage, and a mold operation portion for reciprocating the mold vertically, And a punching unit for manufacturing a plurality of pack materials.

Description

TECHNICAL FIELD [0001] The present invention relates to an apparatus and a method for processing a fabric for facial pack,

The present invention relates to an apparatus and a method for pressing a raw fabric for a cosmetic pack, and more particularly, to an apparatus and a method for pressing a raw fabric for a cosmetic pack by cutting and laminating a raw fabric for a beauty pack to a predetermined length, Which is capable of increasing work productivity by automating the punching operation, and capable of mass-producing pack materials for cosmetic packs in a short period of time.

In general, cosmetic packs such as mask packs and nose packs are prepared by absorbing functional cosmetics for skin cosmetics into a fabric such as a non-woven fabric or a beauty film for the purpose of facial massage, moisturizing, etc., .

These beauty packs have been widely used since various kinds of packs according to skin beauty functions are sold on the market due to the increasing interest in skin beauty and the use of men and women as well.

Basically, a cosmetic pack is prepared by coating a substrate sheet obtained by laminating a fabric such as a nonwoven fabric on a film so that the cosmetic solution as a functional cosmetic is absorbed, laminating a film on the coating layer coated with a certain thickness of the cosmetic solution, Cutting and separating the cosmetic packs, and sealing the cosmetic packs separated and sealed in the package.

(Patent Document 1) KR10-1522006 B1

Patent Document 1 discloses a mask pack discharging unit for separating and discharging a mask pack from a mask pack material transferred from a punching unit for cutting the transferred mask pack material into a mask pack shape, A first separating bar connected to the rear of the elevating rod for separating and dropping the opening portion of the mask pack, and a second separating bar connected to the front of the elevating rod to remove the opening portion, And a second separation bar for separating and dropping the gel-type mask pack.

However, in such a manufacturing apparatus, since a fabric such as a nonwoven fabric, which is a mask pack material, is continuously punched in a mold of a punching unit while being loosened continuously in a release roll, it takes a lot of time to punch a fabric, There was a problem.

Further, in the case of punching a far-end stacked body obtained by cutting a predetermined length unit while loosening a rolled-up fabric in a roll form and stacking the cut ends in a multilayer, the work of laminating the fabric to a predetermined length is manually performed So that the operation time is excessively long, and the risk of safety accidents due to the carelessness of the operator during the punching process has always been inherent.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above problems, and it is an object of the present invention to provide a method of manufacturing a cosmetic pack, comprising the steps of preparing a cosmetic pack for a cosmetic pack, The present invention is to provide an apparatus and method for fabricating a cosmetic pack that can automate punching operations to increase work productivity and mass-produce cosmetic pack pack materials in a short time.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, unless further departing from the spirit and scope of the invention as defined by the appended claims. It will be possible.

As a specific means for achieving the above object, a preferred embodiment of the present invention is a yarn winding device comprising: a fabric winding portion rotated by a first driving source to wind a fabric; A cutter wheel which is provided on the reciprocating unit and which is rotated by the second driving source and cuts from the innermost layer to the outermost layer of the fabric wound body with the fabric wound therearound, A cutting section for cutting the circular cylinder body so as to obtain a fabric laminate in which a plurality of fabric layers having a predetermined length are laminated; And a mold operation portion having a mold having an enemy tooth to which the fabric stacked body is stacked and disposed and disposed directly above the fabric stacked body horizontally conveyed in the final stage, and a mold operation portion for reciprocating the mold vertically, And a punching unit for producing a plurality of pack materials.

Preferably, the circular arc fastening portion includes a pair of rotary circular plates provided at both ends of a rotary shaft connected to the first driving source, and a pair of rotary circular plates facing each other to form a circular circular fastener body And a plurality of connecting rods provided at regular intervals in the circumferential direction along the outer rim.

Preferably, the reciprocating unit is coupled via a slider that is slidably assembled to a rail of a pair of right and left guiders, and a second driving source for driving the cutting wheel at a high speed in one direction is fixedly installed. And is connected via a threaded portion screwed to a screw shaft which is rotationally driven in a forward or reverse direction.

More preferably, the left and right pair of guiders are mounted on first and second guider supports provided at the upper ends of a pair of left and right screw jacks, and the lower ends of the pair of left and right screw jacks are connected to a plurality of And is connected to the fourth drive source via an axis.

Preferably, the cutting wheel and the second driving source are fixedly installed in a box body, and the box body is rotatably provided via a hinge shaft provided in the reciprocating unit.

And a reciprocating cylinder having a pair of left and right clampers for clamping both ends of the end of the fabric laminate and horizontally moving the clamper so that the distal end of the distal end laminate is positioned directly beneath the mold, And a clamping cylinder for vertically actuating the upper movable plate with respect to the lower fixed plate so as to clamp both ends of the far-end stacked body placed at the enemy teeth, and reciprocating cylinders reciprocatingly moving the clamper forward and backward.

Preferably, the mold operating portion includes: an upper movable base opposed to a lower fixed base provided at an end of the stand; a cylinder base fixedly mounted on the upper and lower working cylinders connected to the upper movable base; And a plurality of guide bars assembled in the ball so as to be movable up and down and connected to the upper movable base.

The horizontal moving part includes first and second sliders at a lower end connected to the cylinder base, and the upper and lower sliders are connected to the upper and lower ends of the upper and lower sliders, respectively. The first and second guide rails are rotatably provided at the upper end of the first and second wheel supports. The first and second guide rails are mounted on the first and second guide rails. And a fifth drive source fixedly installed on either one of a pair of left and right coupling plates connecting between the first and second wheel supports, and a fifth drive source fixed to the drive shaft of the fifth drive source And a pinion gear arranged to be in line with either one of the first and second guide rails so as to engage with the pinion gear.

More preferably. The first and second upper guide rails are respectively provided with a sensor member for generating a signal when the first and second upper guide rails contact the first and second wheel supports or the first and second guide wheels, respectively.

According to a preferred embodiment of the present invention, there is provided a method of fabricating a webbing, comprising the steps of: preparing a fabric wound body in which a fabric is wound several times in the form of a roll in a round wound portion rotated by a first driving source; And a reciprocating belt having a cutting wheel rotated by a second driving source is moved in a width direction intersecting with the longitudinal direction of the fabric so as to obtain a fabric laminate having a plurality of fabric layers stacked in a predetermined length, Cutting from the inner layer to the outermost layer; A step of horizontally feeding the fabric stacked body up to an appropriate value and horizontally transporting the fabric stacked body so as to be disposed directly below the mold, and then punching the fabric stacked body by operating the mold up and down by a mold operating unit. Thereby providing a fabric pressing processing method.

Preferably, the cutting step includes a step of rotating the cutting wheel at a high speed in one direction by the second driving source, and a pair of left and right reciprocating members connected to each other via a male screw portion screwed into a screw shaft rotated by a third driving source And sliding along the width direction of the fabric along the guider.

More preferably, the upper and lower positions of the cutting wheel are engaged with the first and second screw jacks, which are vertically operated by being rotated in the normal direction or the reverse direction by the fourth driving source, and the first and second screw jacks, Can be performed by changing the position.

Preferably, the method further comprises a step of clamping both end portions of the end stacked body as a clamper after the cutting step and horizontally moving the clamper by the reciprocating cylinder so that the tip end portion of the far end stacked body is located directly below the metal mold .

Preferably, the punching step further comprises the step of horizontally moving the mold actuating part in the width direction of the fabric laminate by a horizontal moving part,

In the step of horizontally moving the mold operating part, the first and second guide wheels mounted on the first and second upper guide rails are rotated by the rotational force of the pinion gear, , The first and second wheel supports are horizontally moved along the first, second, and third guide rails to move the mold actuating part in the horizontal direction by a predetermined distance along with the cylinder base connected to the lower ends of the first and second wheel supports .

The present invention as described above has the following effects.

(1) The fabric material is rolled in the form of a roll in the form of a rolled fabric, and the fabric material is cut by a horizontally moving cutting wheel while being rotated at a high speed to deposit a multi-layered fabric laminate having a certain length It is possible to increase the productivity of the work as compared with a case where the worker manually loads the multi-layered fabric to be cut individually.

(2) The punching process is performed on the far-end stacked body in which the fabric layers are stacked in multiple layers by punching the single-ply stacked body with a metal mold by operating the metal mold by vertically moving the metal- Can be carried out while moving in the horizontal direction d, so that the yield of pack material to be punched can be increased and mass production can be achieved.

(3) Since it is possible to automate the work of punching a multi-layered fabric laminate by stacking multi-layers of fabrics, by automating a series of automation operations, it is possible to reduce the risk of safety accidents, An effect of significantly increasing the productivity can be obtained.

1 is an overall perspective view showing a far-end press working apparatus for a cosmetic pack according to a preferred embodiment of the present invention.
FIG. 2 is a block diagram showing a textile press processing apparatus for a cosmetic pack according to a preferred embodiment of the present invention.
FIG. 3 is a perspective view illustrating a fabric winding unit provided in a fabric press processing apparatus for a cosmetic pack according to a preferred embodiment of the present invention.
FIGS. 4A and 4B are perspective views illustrating a cutting portion included in a far-end press working apparatus for a cosmetic pack according to a preferred embodiment of the present invention.
5A to 5E are perspective views illustrating a punching unit included in a far-end press working apparatus for a cosmetic pack according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may obscure the subject matter of the present invention.

The same reference numerals are used for portions having similar functions and functions throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to include an element does not exclude other elements unless specifically stated otherwise, but may also include other elements.

1 to 5E, the apparatus for fabricating a cosmetic pack 100 for a beauty pack according to a preferred embodiment of the present invention includes a circular opening sensing part 110, a cutting part 120, and a punching part 130.

As shown in FIGS. 1 to 3, the circular disk-shaped portion 110 is rotated in one direction by a first driving source 111 such as a driving motor, The roll wound body 2 in the form of a rolled roll is produced.

As shown in FIG. 3, the circular disk-like member 110 includes a pair of rotary disks 113 provided at both ends of a rotary shaft 112 connected to a driving shaft of the first driving source 111, And a plurality of connecting rods 114 which are arranged at predetermined intervals in the circumferential direction along the outer rim while connecting between a pair of rotating circular plates 113 facing each other to form a circular cylinder body.

The rotation shaft 112 is rotatably assembled to a first frame structure 101 composed of a plurality of horizontal frames and a vertical frame. The first frame structure 101 is wound around the connecting rod 114 in contact with the connecting rod 114, And a contact bar 115 contacting the outer surface of the fabric winding body 2 which gradually expands.

The first frame structure 101 is provided with a work roll support shaft 116 on which a raw material roll 1 placed on the factory is placed and is disposed on the work roll support shaft 116, The loosened fabric is gradually wound to form a roll-shaped fabric winding body 2 in the circular-arc-tightening portion 110 rotated by the rotational driving force of the first driving source 111. [

That is, in the primary processing for winding the fabric at the circular saw-toothed portion to form the circular saw-clad body, a tip end of the fabric unwound from the fabric roll 1 disposed on the work roll support shaft 116 is first cut And is connected to any one of a plurality of connection bars provided on the spool part (110).

In this state, when the fabric winding unit 110 is rotated in one direction (clockwise direction) by the first driving source, the fabric wound around the fabric roll of the fabric roll supporting shaft is pulled toward the fabric winding unit 110 Since the fabric is rolled several times in the form of a roll in contact with a plurality of connecting rods provided on the outermost side of the fabric winding unit 110 while loosening, the fabric winding unit 2, in which the outer diameter gradually increases in proportion to the number of revolutions, .

The rotation of the fabric winding unit 110 causes the outer surface of the fabric winding member 2 to gradually increase in outer diameter gradually increasing the amount of the fabric to be wound around the contact bar 115 provided in the first frame structure 101, Until the contact is established.

As shown in FIGS. 1, 2, 4A, and 4B, the cut portion 120 is formed in a shape of a rectangular parallelepipedic shape so as to obtain a far-end stacked body 3 in which a plurality of short- The circular knitted fabric formed by winding the fabric is cut.

The cut portion 120 includes a reciprocating belt 121 reciprocating in a width direction crossing at right angles to the unwinding direction which is the longitudinal direction of the fabric. The reciprocating belt 121 is provided with a second driving source And a cutting wheel 123 that cuts the fabric from the innermost layer to the outermost layer of the wound fabric wound body 2 in the form of a roll in the form of a roll in the roundness detection part 110 while rotating at a high speed in one direction.

Accordingly, when the circular saw fin body 2 is cut in the width direction by using the cutting wheel 123 disposed adjacent to the circular saw fin body 2 and moved in the width direction, The laminated fabric laminate 3 can be obtained.

4A and 4B, the reciprocating unit 121 is assembled to be capable of reciprocating movement through a slider 124a which is slidably assembled to a rail of a pair of right and left guiders 124, A second driving source 122 for driving the wheel 123 to rotate at a high speed in one direction is fixedly installed and a screw shaft 125a, which is rotationally driven in a forward direction or a reverse direction by a third driving source 125 such as a driving motor, Which is connected via the male thread portion.

The left and right pair of guiders 124 are mounted on first and second guider support bases 126c and 126d provided at the upper ends of a pair of left and right screw jacks 126a and 126b, The lower end of the first and second screw jacks receives the rotational driving force of the fourth driving source 127 such as a geared motor and rotates in a forward direction or a reverse direction to be vertically operated by a plurality of connecting shafts 127a, And is connected to the driving source 127.

The left and right pair of first and second screw jacks 126a and 126b are mounted on respective corner portions of a rectangular frame shaped support frame 128 provided on the floor, And two supporting rods, and both ends of the screw shaft 125a may be rotatably supported by a bearing block installed on the first and second supporting rods.

The box body 123a to which the cutting wheel 123 and the second driving source 122 are fixed is rotatable via a hinge shaft 121a of a hinge bracket provided on the upper surface of the reciprocating unit 121 The cutting position of the cutting wheel for cutting the circular saw 2 in the width direction can be appropriately changed by the box body 123a rotated about the hinge axis.

Thus, the step of secondary-working the far-end laminated body 3 in which the circular cut-off saw-shaped body 2 is cut in the width direction by the cutting wheel 123 and the fabrics having a predetermined length are stacked in multiple layers, The cutting wheel 123 is disposed so as to be in proximity to the circular cylinder 2 of the circular cylinder in a state in which rotation of the circular cylinder 1 around which the circular cylinder is wound is formed so as to form the circular cylinder 2.

When the cutting shaft 123 is rotated at a high speed in one direction by the second driving source 122 and the screw shaft 125a is rotated in the forward direction by the third driving source 125, The circular cutter body 2 is cut by the cutter wheel 123 rotating at a high speed because the cutter wheel 123 is moved in the width direction of the original along the cutter wheel 124.

At this time, the cutting wheel 123 rotates about the innermost layer and the innermost layer of the circular knitted fabric wound around the round knocking portion 110 without contacting the rotation disc 113 and the connecting rod 114 of the round knocking portion 110 So that the outer layer can be cut at the same time in the width direction of the fabric.

The position at which the cutting wheel 123 cuts the circular saw 2 is rotated by a hinge shaft 121a provided on the upper surface of the shuttle, Lt; / RTI >

The upper and lower positions of the cutting wheel 123 with respect to the circular cylinder body 2 are first and second screw jacks 126a and 126b which are vertically rotated while being rotated in the forward or reverse direction by the fourth driving source 127 Can be performed by changing the vertical position of the first and second guider supports 126c and 126d.

When the cut circular saw body 2 is cut in the width direction by the cutting wheel 123, the far-end cut body 2 is cut into a plurality of layers, ) Can be obtained by a single cutting operation.

The cutting wheel which has been horizontally moved to cut the circular saw cylinder body is returned to the home position by the return operation of the reciprocating unit and is waiting for the next cutting operation.

The fabric laminates cut at the circular saw blades are pulled by the operator and the fabric is put on the stacking target of the feeder so that the punching can be performed in the punching unit.

1, 2 and 5A to 5E, the punching unit 130 cuts the far-end stacked body 3 cut by the cutting wheel 123 into a punching unit 130 as a post-process, , And a mold (134) including a substantially quadrilateral plate-like end tooth (131) on which the fabric layered product (3) is placed so as to be able to be guided to the front end stacked body (3) And an operating portion 135.

The end stack 131 is arranged on the upper surface so as to facilitate entry for punching by the die of the punching unit, and extends from the first frame structure 101, And a substantially rectangular plate shaped horizontally arranged on the upper part of the second frame structure 102 made up of the vertical frame and the horizontal frame.

A pair of right and left clamper (132) clamps both side ends of the end stack (3) and fixes or unclamps and releases the end of the end stack (3) And a reciprocating cylinder 133 for horizontally moving the clamper in the longitudinal direction of the original so as to be positioned between the lower portion of the mold 134 and the lower fixing base 134a.

The clamper 132 includes a clamping cylinder 132b for vertically moving the upper movable plate 132a relative to the lower fixed plate 132c so as to clamp both end portions of the far-end stacked body 3 loaded on the upper teeth 131 And the reciprocating cylinder 133 is connected to the rod end of the bracket on which the clamping cylinder and the lower fixing plate are installed so that the distal end of the distal end stacking body is positioned between the mold 134 and the lower fixing base 134a. And a pair of left and right cylinder members for horizontally moving the bracket 132. The bracket may be slidably mounted on a pair of left and right rails.

Thus, the operation of moving the far-end stacked body forward by a predetermined distance such that the distal end portion of the far-end stacked body 3 raised on the enemy tooth 131 is located directly below the metal mold, The both ends of the distal end portion of the far-end stacked body are simultaneously clamped by the clamping cylinder 132b that vertically moves the distal end stack 132a, will be.

At this time, the operation of horizontally transporting the far-end stacked body 3 is performed by the operation of the clamping cylinder and the reciprocating cylinder, but the present invention is not limited thereto and may be performed manually by an operator.

The mold 134 is detachably mounted on a lower surface of an upper movable base 134b facing a lower fixed base 134a provided at an end portion of the stand, A cylinder base 135b fixedly mounted on the upper surface of the upper movable base 134b to which a rod end is connected and an upper and lower operation cylinder 135a fixedly mounted on the upper surface of the upper movable base 134b, And a plurality of guide bars 135c to which a lower end is connected to the upper surface of the movable base 134b.

The upper movable base 134b is connected to the upper movable base 134b via a plurality of elastic members 134d so as to face the upper layer stack 3 and is provided with a cut- The guide plate 134c is brought into contact with the uppermost surface of the far-end stacked body before the upper surface of the upper movable base comes into contact with the mold and punches the lower surface of the upper movable base, Can be relieved from being transmitted to the lower fixing base 134a.

The mold operation part 135 is formed so as to be capable of punching the pack material a plurality of times while moving the punching position of the mold 134 at a predetermined interval in the width direction of the far-end stacked body 3, And a horizontal movement portion 136 for horizontally moving it in the width direction.

The horizontal moving part 136 includes first and second sliders 137e and 137f at a lower end connected to the upper surface of the cylinder base 135b and first and second guide wheels 137c and 137d The first and second wheel supports 137a and 137b are rotatably mounted on the upper ends of the first and second wheel supports 137a and 137b. The first and second upper guide rails 138a and 138b are mounted on the first and second lower guide rails 137a and 137b, 138c and 138d and a fifth driving source 139 fixed to either one of a pair of left and right connecting plate bodies 137g and 137h connecting between the first and second wheel supports 137a and 137b, A rack gear 139b having a predetermined length arranged in parallel with a guide rail of one of the first and second upper guide rails so as to be engaged with a pinion gear 139a provided on a drive shaft of the fifth drive source 139, And a pair of left and right first and second guide wheels 137c and 137d facing each other are connected to each other by a plurality of shaft members 137. [

And a sensor member 139c for generating a signal for temporarily suspending rotation of the fifth drive source when the first and second wheel support members or the first and second guide wheels are in contact with the first and second upper guide rails, Respectively.

The upper end of the far end stacked body is punched once using the mold 134 and then the upwardly returned mold 134 is moved together with the mold operating part 135 by the horizontal moving part 136, The operation of continuously punching the far-end stacked body while horizontally moving the stacked body 3 at a predetermined interval in the width direction of the stacked body 3 is carried out by firstly fixing the uppermost stacked body to the upper surface of the cylinder base When the upper and lower working cylinders are lowered, the upper movable base is lowered to the lower portion with respect to the lower fixed base together with the mold, and the lower mold presses the upper surface of the far-end stack body to punch the pack material, .

Then, when the mold is lifted up and the fifth drive source 139 of the horizontal movement unit 136 is driven to rotate at a predetermined rotation speed and then stopped, the rotational force of the pinion gear engaged with the raceway gear As the first and second guide wheels mounted on the first and second upper guide rails 138a and 138b are rotated and rotated, the first and second wheel supports 137a and 137b are moved horizontally Therefore, the mold operation part 135 moves in the horizontal direction by a certain distance and then stops with the cylinder base connected to the lower ends of the first and second wheel supports 137a and 137b.

The movement of the mold operating part is stopped and the mold is lowered by the operation of the upper and lower operation cylinders in the same manner as described above, and the packed material is cut twice while punching the far end stacked body again. The pack material is punched out a plurality of times, and the punched pack material is separated and drawn out from the cloth laminate by the operator.

Here, the horizontal movement distance of the mold operating part 135, which is sequentially moved in the width direction of the far-end stacked body 3, is determined by using the rotation number of the fifth driving source in accordance with the size of the pack material punched by the mold Can be set or changed.

The first, second, and third upper and lower guide rails 138a, 138b, 138c, and 138d of the horizontal moving unit 136 may include a plurality of vertical frames extending vertically from the bottom surface, and a horizontal frame And the lower fixed base 134a may be installed in the third frame structure 103. In order to easily discharge the scrap of the far-end stacked body in which the pack material is punched, It is preferable to provide the discharge unit 131a having the same height.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the inventions. It will be apparent to those of ordinary skill in the art.

110: Korean persimmon
111: first driving source
112:
113: rotating disk
114: connecting rod
115: contact bar
120:
121: Shuttlecock
122: second driving source
123: Cutting wheel
123a: box body
124: Guider
124a: Slider
125: Third driving source
125a: screw shaft
126a, 126b: first and second screw jacks
126c, 126d: first and second guider supports
127: fourth driving source
128: Support frame
130: Punching section
131: The enemy
131a:
132: clamper
132a: Upper fixing plate
132b: Clamping cylinder
132c: Lower fixed plate
133: reciprocating cylinder
134: mold
134a: lower fixing base
134b: upper movable base
135: mold operating part
135a: Up and down cylinder
135b: cylinder base
136:
137a, 137b: first and second wheel supports
137c, 137d: first and second guide wheels
137e, 137f: first and second sliders
138a, 138b: first and second upper guide rails
138c, 138d: first and second lower guide rails
139: fifth driving source
139a: Pinion gear
139b:
139c: absence of sensor

Claims (14)

A fabric winding portion rotated by the first driving source to wind the fabric;
A cutter wheel which is provided on the reciprocating unit and which is rotated by the second driving source and cuts from the innermost layer to the outermost layer of the fabric wound body with the fabric wound therearound, A cutting section for cutting the circular cylinder body so as to obtain a fabric laminate in which a plurality of fabric layers having a predetermined length are laminated;
And a mold operation portion having a mold having an enemy tooth to which the fabric stacked body is stacked and disposed and disposed directly above the fabric stacked body horizontally conveyed in the final stage, and a mold operation portion for reciprocating the mold vertically, And a punching unit for producing a plurality of pack materials. The method according to claim 1,
And a pair of rotary disks provided at both ends of a rotary shaft connected to the first driving source and a pair of rotary disks facing each other to form a circular cylinder by winding the fabric in a rolled shape, Wherein the plurality of connecting rods are provided at regular intervals in the circumferential direction. The method according to claim 1,
The reciprocating unit is coupled via a slider assembled to a rail of a pair of left and right guiders, and a second driving source for driving the cutting wheel to rotate at a high speed in one direction is fixedly mounted. And a threaded portion which is threadedly coupled to the screw shaft. The method of claim 3,
The left and right pair of guiders are mounted on first and second guider supports provided at the upper ends of a pair of left and right screw jacks, and the lower ends of the right and left pair of first and second screw jacks are connected via a plurality of connecting shafts And the fourth driving source is connected to the fourth driving source. The method according to claim 1,
And a box body to which the cutting wheel and the second driving source are fixedly installed,
Wherein the box body is rotatably provided through a hinge shaft provided on the reciprocating unit. The method according to claim 1,
And a reciprocating cylinder provided with a pair of left and right clampers for clamping both ends of the far-end stacked body and horizontally moving the clamper so that the distal end of the far-end stacked body is positioned directly below the metal mold,
The clamper includes a clamping cylinder for vertically actuating the upper movable plate with respect to the lower fixed plate so as to clamp both ends of the far-end stacked body mounted on the teeth, and a reciprocating cylinder reciprocating the clamper forward and backward Fabric pressing machine for beauty packs. The method according to claim 1,
Wherein the mold operating portion includes an upper movable base opposed to a lower fixed base provided at an end of the stand, a cylinder base fixedly mounted on the upper and lower operation cylinders connected to the upper movable base, And a plurality of guide bars movably assembled and connected to the upper movable base. 8. The method of claim 7,
And a horizontal movement unit for horizontally moving the mold operation unit in a width direction of the far-end stacked body,
A first and a second wheel support body having first and second sliders at a lower end connected to the cylinder base and having first and second guide wheels rotatably installed at an upper end thereof at an upper end thereof; The first and second upper guide rails are mounted on the first and second guide rails. The first and second guide rails are engaged with the first and second sliders, and a pair of right and left guide rails And a fifth drive source fixedly installed on one side of the connecting plate and arranged to be parallel to either one of the first and second guide rails so as to be engaged with a pinion gear provided on a drive shaft of the fifth drive source Wherein the presser foot is made of a synthetic resin. 9. The method of claim 8,
Wherein the first and second upper guide rails are provided with a sensor member for generating a signal when the first and second upper guide rails are in contact with the first and second wheel supports or the first and second guide wheels, Device. Preparing a fabric wound body in which a fabric is wound several times in the form of a roll in a circular wound portion rotated by a first driving source;
And a reciprocating belt having a cutting wheel rotated by a second driving source is moved in a width direction intersecting with the longitudinal direction of the fabric so as to obtain a fabric laminate having a plurality of fabric layers stacked in a predetermined length, Cutting from the inner layer to the outermost layer;
A step of horizontally feeding the fabric stacked body up to an appropriate value and horizontally transporting the fabric stacked body so as to be disposed directly below the mold, and then punching the fabric stacked body by operating the mold up and down by a mold operating unit. Fabric pressing processing method. 11. The method of claim 10,
Wherein the cutting is performed by rotating the cutting wheel at a high speed in one direction by the second driving source, and at the same time, the reciprocating member connected to the screw shaft through a screwed portion screwed to the screw shaft rotatively driven by the third driving source, Wherein the slider is slidably moved in the width direction of the fabric. 12. The method of claim 11,
The upper and lower positions of the cutting wheel are coupled with first and second screw jacks that are vertically operated by being rotated in a forward or reverse direction by a fourth driving source. By changing the vertical position of the first and second guider support members connected to the pair of right and left guiders Wherein the method comprises the steps of: 11. The method of claim 10,
After the cutting step
Further comprising a step of clamping both ends of the end layer laminate with a clamper and horizontally moving the clamper by a reciprocating cylinder so that the distal end portion of the distal end laminate is positioned directly beneath the metal mold, Way. 11. The method of claim 10,
Wherein said punching step further comprises the step of horizontally moving said mold actuating part in the width direction of the fabric laminated body by a horizontal moving part,
In the step of horizontally moving the mold operating part, the first and second guide wheels mounted on the first and second upper guide rails are rotated by the rotational force of the pinion gear, , The first and second wheel supports are horizontally moved along the first, second, and third guide rails to move the mold actuating part in the horizontal direction by a predetermined distance along with the cylinder base connected to the lower ends of the first and second wheel supports A method of pressing a fabric for a cosmetic pack.

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