KR102034421B1 - Continuous processing system - Google Patents

Abstract

The present invention provides a continuous processing system capable of preventing damage to a metal ribbon and reducing failure generation of a product and operation error due to vibration, by including a vibration proof guide unit which absorbs and relieves vibration and impact while supporting the metal ribbon when supplying the metal ribbon wound on a bobbin in a roll shape to a processing device. According to the present invention, the continuous processing system includes: an unwinding device (100) drawing out and supplying the metal ribbon (12) wound on the bobbin (11) in the roll shape; a supply device (200) moving the metal ribbon (12) by unwinding the metal ribbon (12) supplied from the unwinding device (100), to be flat; the processing device (300) processing the metal ribbon (12) supplied from the supply device (200); and the vibration proof guide unit (800) installed between the supply device (200) and the processing device (300) and supporting the metal ribbon (12) to be flat, wherein the vibration proof guide unit (800) reduces friction and the vibration generated when moving.

Description

Continuous processing system

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a continuous processing system, and more particularly, to a continuous processing system in which a coil wound in a rolled state is constantly drawn out, fed to a press, and pressed to form a product.

Generally, various apparatuses are provided as a means for supplying a material to a press in a product forming operation through a press.

For example, various means are provided such that the steel sheet cut to a certain size is supplied to the press machine one by one, or the steel sheet is fed to the press while releasing the coil wound in a roll state sequentially. It can be used depending on the type of product.

The present invention is to be supplied to the press while the iron plate coil wound in a roll state is sequentially released.

Therefore, the material transfer supply apparatus 200 for supplying a press machine in a state in which a coil composed of a steel sheet is wound in a roll state may undergo a multi-step process.

In other words, the iron sheet material supplied to the press mold for the press operation should be supplied in a flat and fully flat state.

Therefore, the uncoiler part for releasing at a constant speed while supporting the steel coil wound in a rolled state, and the leveler part for smoothly correcting the curved steel coil released from the unwinding device 100 part. And a feeder portion for intermittently feeding the steel coil calibrated from the leveler portion to the press at a constant speed.

However, such a continuous processing system has a problem that the coil is damaged due to the vibration generated when the coil is loosened, thereby causing a defect of the product.

On the other hand, the background art described above is technical information possessed by the inventors for the derivation of the present invention or acquired in the derivation process of the present invention, and is not necessarily a publicly known technique disclosed to the general public before the application of the present invention. .

Republic of Korea Patent No. 10-1554683

The present invention is to solve the above problems, by providing a dust-binding guide unit for absorbing and mitigating vibration and shock while supporting the metal ribbon when supplying the metal ribbon wound in the form of a roll in the bobbin to the processing apparatus, Its purpose is to provide a continuous machining system that can prevent damage and reduce operational errors and product defects caused by vibration.

In addition, the present invention is one end is rotatably mounted to the support member, the other end is provided with a locking member that is elastically supported by the elastic body, continuous that can prevent the bobbin coupled to the bobbin connecting unit slipping off Its purpose is to provide a machining system.

The purpose of the present invention is to provide a continuous processing system capable of improving stability by preventing the longitudinal movement of the metal ribbon by providing guide rods having one end movable along the guide screw and the other end provided on both sides of the metal ribbon. .

An elastic member is provided between the guide rod and the stopper to provide a continuous machining system capable of preventing the guide screw from being rotated by external vibration and moving the guide rod.

The main guide, the first sub guide and the second sub guide is configured to rotate the mutually adjustable angle, thereby providing a continuous machining system that can be stably guided in close contact with the metal ribbon in a balanced manner. have.

The guide roller is disposed to protrude in the direction of the metal ribbon, the rotation is in contact with the metal ribbon when the metal ribbon is released to provide a continuous processing system that can reduce the friction when loosening and moving the metal ribbon. The purpose is.

The technical problem of the present invention is not limited to the technical problem mentioned above, and other technical problems not mentioned will be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the continuous processing system of the present invention, the bobbin device (11) for pulling out the supply of the metal ribbon (12) wound in a roll state; A supply device 200 for unfolding and moving the metal ribbon 12 supplied from the release device 100 in a flat manner; A processing device 300 for processing the metal ribbon 12 supplied from the supply device 200; A dustproof guide unit 800 disposed between the supply device 200 and the processing device 300 to support the metal ribbon 12 flatly and reduce vibration and friction generated during movement; It includes.

The release device 100, the body 110; A first rotating shaft 120 mounted to protrude on one side of the body 110 and controlled to be rotated by a predetermined angle by a motor; A bobbin connecting unit 130 mounted on an outer side of the first rotary shaft 120 and closely attached to an inner surface of the bobbin 11 to fix the bobbin 11 to the first rotary shaft 120; A first guide unit 140 mounted to the body 110 to guide left and right sides of the metal ribbon 12 wound around the bobbin 11; A second guide unit 150 disposed on the bobbin 11 to support an upper side of the metal ribbon; A third guide unit 160 disposed below the bobbin 11 to support a lower side of the metal ribbon; Including,

The bobbin connection unit 130, the fixing member 131 is fixed to the outside of the first rotary shaft 120; A support member 132 disposed at an angular interval along an inner circumferential surface of the bobbin 11; One end is rotatably mounted to the fixing member 131, the other end is rotatably mounted to the support member 132, and one end of the support member 132 is rotated in the direction of the body 110. A connecting member 133 to be folded in one rotation shaft 120 and to allow the support member 132 to be deployed in the bobbin 11 direction when one end is rotated in the opposite direction of the body 110; A locking member 134 mounted on an outer side of the support member 132 to prevent the bobbin 11 from moving in the opposite direction of the body 110; Including,

The first guide unit 140, the guide bar 141 is spaced apart in front of the first rotation shaft 120, fixed to the body 110; A guide screw 142 formed to extend in the longitudinal direction of the first rotation shaft 120 and rotatably mounted to the guide bar 141; A guide rod 143 having one end coupled to the guide screw 142 so as to be movable in the longitudinal direction of the guide screw 142, and the other end disposed at the side of the metal ribbon 12; A stopper 144 mounted on the guide bar 141 to block movement of the guide rod 143; An elastic member 145 disposed between the stopper 144 and one end of the guide rod 143; Including;

The second guide unit 150, the second rotating shaft 151, one end of which is rotatably mounted to the body 110 at a predetermined angle; A main guide 152 mounted on the second rotation shaft 151 to rotate together and surrounding the metal ribbon 12; A first sub guide 153 having one end rotatably mounted on the other end of the main guide 152 and surrounding the metal ribbon 12; A second sub guide 154 having one end rotatably mounted at the other end of the first sub guide 153 and surrounding the metal ribbon 12; A guide roller 155 rotatably mounted to the first sub guide 153 and the second sub guide 154 and rotating in contact with the metal ribbon 12; Including,

The anti-vibration guide unit 800 is disposed between the supply device 200 and the processing device 300, and the lower supporter is disposed below the metal ribbon 12 supplied from the supply device 200. 810); An upper pedestal 820 mounted on the lower pedestal 810 to form a passage through which the metal ribbon 12 passes; A dust cover 830 attached to the lower support 810 and the upper support 820 by an adhesive; Dustproof means (500) mounted on the lower portion of the lower support 810 to absorb vibration; A shock absorbing means (400) mounted to the lower part of the dustproof means (500) to support the dustproof means (500) from a bottom surface; Including;

The adhesive is 40 to 80 parts by weight of thermoplastic resin, 5 to 40 parts by weight of tackifying resin, 1 to 5 parts by weight of rosin, 1 to 10 parts by weight of plasticizer, 1 to 10 parts by weight of filler and 0.1 to 1 parts by weight of antioxidant, Contains 0.1 to 5 parts by weight of nanosilica,

The dustproof means 500, the body portion is formed in a cylindrical shape; Spaced apart from the other first stand at a predetermined interval is installed so that a plurality of rotatably connected along the upper portion of the body portion, and installed to be inclined in a direction closer to the other first stand from the upper side to the lower side the lower support 810 A first stand for supporting; And spaced apart from the other second stand at a predetermined interval is connected to be installed so that a plurality of rotatable along the lower portion of the body portion, is installed to be inclined in a direction closer to the other second stand from the lower side to the upper side to support the body portion A body including a second stand, wherein the body portion is formed in a cylindrical shape; An upper installation is formed along the upper portion of the body corresponding to the number of the first stand so that the lower portion of the first stand can be installed to be rotatable, and inclined in the outward direction of the body toward the upper side from the lower side home; Lower installation is formed along the lower portion of the body corresponding to the number of the second stand so that the upper portion of the second stand can be installed to be rotatable, and inclined in the outward direction of the body toward the lower side from the upper side home; The first side facing the upper side and the upper side of the first stand, and the upper side of the first stand installed in the upper mounting groove or the second stand installed in the lower mounting groove; An elastic support installed between one side of the second stand and the lower mounting groove to support the first stand and the second stand using an elastic force; And an impact absorbing pad installed along the inlet of the upper installation groove and the inlet of the lower installation groove to absorb the impact caused by the collision with the first stand or the second stand.

The first stand is connected to the upper installation groove so that the lower portion is rotatable, the lower inclined surface is supported by the elastic support bar; A pedestal which is formed in a triangular shape in which an upper surface is flat and the gap becomes narrower toward the lower side, and a lower portion is connected to the upper portion of the support bar to be rotatable; And a washing plate-shaped unevenness formed of a material having elasticity to improve adhesion to the lower support 810 along the upper surface, and the lower support 810 moves up or down by vibration, It includes a sliding pad that is slidingly moved on the upper side,

The pedestal, the sliding groove is formed in the longitudinal direction along the upper surface,

The sliding pad is connected to the sliding groove is provided with a sliding synchronization on the lower side to allow the sliding movement,

The shock absorbing means 400, the top plate disposed to support the lower portion of the dustproof means 500; A case spaced apart from the upper plate and formed to form an inner space; And an upper plate support part installed in an inner space of the case and having an upper portion exposed to an upper side of the case to support the upper plate using an elastic force, wherein the upper plate support part supports a center of the upper plate, and the upper plate is A first support portion for supplying a filling liquid to the inner space as the lowering; And installed at each lower side of each corner of the upper plate, and move upwards and downwards to support the edges of the upper plate by using an elastic force, and the upper plate is lowered in the vertical direction by the filling liquid supplied from the first support part as the upper plate descends. A first support fastening part including a second support part on which movement is braked, the first support part being installed at a center of a lower side of the upper plate and forming a spherical inner space; A first connection ball formed in a spherical shape corresponding to the shape of the inner space of the first pivot fastening part and installed to be rotatable in the inner space of the first pivot fastening part; A first support bar extending downward from the bottom of the first connection ball to support the first connection ball; It is formed in a cylindrical shape is installed in the inner space of the case, the filling liquid is received in the sealed inner space, the lower portion of the first support bar is inserted into the inner space, the first support bar when the upper plate is lowered A filling liquid tank in which a filling liquid is compressed and supplied to the second support part as a lower portion of the lower portion falls from an upper side of the inner space; And a connecting tube extending from a lower portion of the filling liquid tank to the second supporting portion to form a passage through which the filling liquid flows, wherein the second supporting portion is installed at a corner of a lower side of the upper plate and has a spherical shape. A second pivot fastening portion forming a space; A second connection ball formed in a spherical shape corresponding to the shape of the inner space of the second pivotal fastening part and rotatably installed in the inner space of the second pivotal fastening part; A second support bar extending downward from the bottom of the second connection ball to support the second connection ball; An elastic support installed at a lower side of the second support bar to support the second support bar using an elastic force; And a second support bar is inserted into the through hole to form a through hole in a vertical direction. When the upper plate descends, the filling liquid is supplied to the internal space through the connecting pipe and expands. As a result, the size of the through hole is reduced to include a lift adjusting part for fastening the second support bar so that the second support bar is not moved. The lifting control part is expanded in an inward direction in which the through hole is located as the filling liquid is supplied into the inner space. The outer wall may be formed of a hard material so that the inner wall facing the second support bar may be made of a material that can expand or contract.

The continuous machining system of the present invention as described above has the following effects.

When the metal ribbon wound in the form of a roll in the bobbin is supplied to the processing device, the dustproof guide unit absorbs and alleviates vibration and shock while supporting the metal ribbon, thereby preventing damage to the metal ribbon, and operating errors and product defects caused by vibration. It has the effect of reducing the occurrence.

The locking member 134 is in contact with the bobbin 11 and has an effect of preventing the bobbin 11 from moving away along the support member 132 in the longitudinal direction of the first rotation shaft 120.

The elastic member 145 has the effect of preventing the position of the guide rod 143 by moving the guide screw 142 by the external vibration by pressing the guide rod 143.

The second guide unit 150 may rotate the main guide 152, the first sub guide 153 and the second sub guide 154 to adjust the angle, so that the bobbin 11 The curvature may be adjusted along the outer side of the wound metal ribbon 12, and thus, the metal ribbon 12 may be closely adhered to the metal ribbon 12 in a balanced manner and stably guided.

The guide roller 155 is disposed to protrude in the direction of the metal ribbon 12 and rotates in contact with the metal ribbon 12 when the metal ribbon 12 is released, thereby releasing the metal ribbon 12 and Friction is reduced during the movement to reduce the vibration generated during the movement and has the effect of smoothing the loosening.

The effects of the present invention are not limited to the above-mentioned effects, and various effects may be included within the scope apparent to those skilled in the art from the following description.

1 is a front structural diagram of a continuous machining apparatus according to an embodiment of the present invention,
2 is a plan view of a continuous processing apparatus according to an embodiment of the present invention,
3 is a cross-sectional structural view as seen from AA of FIG.
4 is an enlarged cross-sectional view of 'B' of FIG. 3;
5 is a perspective view of a second guide device according to an embodiment of the present invention;
6 is a cross-sectional structural view as seen from CC of FIG.
7 is a perspective view of the dustproof means according to the embodiment of the present invention,
8 and 9 is a view showing the body portion of the dustproof means according to an embodiment of the present invention,
10 is a view showing a first stand of the dustproof means according to the embodiment of the present invention;
11 and 12 are views showing a sliding pad of the dustproof means according to an embodiment of the present invention,
13 is a view showing a shock absorbing means according to an embodiment of the present invention,
14 to 18 are diagrams showing the connection relationship between the components of the shock absorbing means according to the embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION The following detailed description of the invention refers to the accompanying drawings that show, by way of illustration, specific embodiments in which the invention may be practiced. These embodiments are described in sufficient detail to enable those skilled in the art to practice the invention. It should be understood that the various embodiments of the present invention are different but need not be mutually exclusive. For example, certain shapes, structures, and characteristics described herein may be embodied in other embodiments without departing from the spirit and scope of the invention in connection with one embodiment. In addition, it is to be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the invention. Accordingly, the following detailed description is not to be taken in a limiting sense, and the scope of the present invention, if properly described, is defined only by the appended claims, along with the full range of equivalents to which such claims are entitled. Like reference numerals in the drawings refer to the same or similar functions throughout the several aspects.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the drawings.

As shown in FIG. 1, the continuous processing system according to the embodiment of the present invention includes an unwinding apparatus 100, a supply apparatus 200, a processing apparatus 300, and a dustproof guide unit 800.

The unwinding device 100 is to be supplied to the bobbin 11, the metal ribbon 12 wound in a rolled state with a predetermined length, the body 110, the first rotary shaft 120, the bobbin connecting unit 130 , The first guide unit 140, the second guide unit 150, and the third guide unit 160.

The body 110 is a housing having a space for accommodating a motor and a reducer for rotating the first rotation shaft 120 therein and is fixedly installed on a bottom surface.

The first rotating shaft 120 is provided on one side of the body 110.

The first rotating shaft 120 is disposed to protrude on one side of the body 110, it is controlled to rotate by a predetermined angle by the motor.

The bobbin connecting unit 130 is provided on the outer side of the first rotation shaft 120.

The bobbin connection unit 130 is inserted into the inside of the bobbin 11 having a hollow and in close contact with the inner side, and fixed to the bobbin 11 to the first rotation shaft 120, specifically, a fixing member 131, the support member 132, the connection member 133, the locking member 134, and the elastic body 135.

The fixing member 131 is formed in a long rod shape in the longitudinal direction of the first rotating shaft 120, it is composed of four spaced apart at intervals of 90 degrees along the outer circumference of the first rotating shaft 120 is fixed mounting do.

The support member 132 is a plate having an arc-shaped cross section, disposed on the outer side of the first rotating shaft 120 concentrically with the first rotating shaft 120, and consists of four of the first rotating shaft 120 It is arranged at regular intervals along the outer periphery.

The connecting member 133 is formed in a streamlined bar shape, one end of which is rotatably mounted to the fixing member 131, and the other end of which is rotatably mounted to the support member 132.

In addition, the connecting member 133 is formed of a plurality of spaced apart a predetermined interval in the longitudinal direction of the first rotary shaft 120.

The connecting member 133 has one end to the support member 132 when the end rotates in the direction of the body 110, the first rotation shaft 120 in the direction, one end in the opposite direction of the body 110 The support member 132 is rotated in the direction of the bobbin 11 during rotation.

That is, the interval between the support members 132 is adjusted according to the rotation of the connection member 133.

Therefore, when the bobbin 11 is inserted into or removed from the first rotary shaft 120, the interval between the support members 132 is reduced, and when the bobbin 11 is fixed to the first rotary shaft 120. The space between the support members 132 is widened to allow the support members 132 to be tightly coupled to the inside of the bobbin 11.

On the other hand, the locking member 134 is mounted to the outside of the support member 132 to prevent the bobbin 11 from moving in the opposite direction of the body 110.

Specifically, the locking member 134 is formed in a rod shape, one end of which is inserted to the outside of the support member 132 to be rotatably mounted, and the other end of the first rotating shaft 120 by the elastic body 135. Is elastically supported in the opposite direction is disposed to protrude on the surface of the support member 132.

The locking member 134 is pressurized while the bobbin 11 moves along the supporting member 132 when the bobbin 11 is fitted to the first rotation shaft 120, thereby compressing the elastic body. After the bobbin 11 is inserted into the support member 132 and the bobbin 11 passes, the other end is disposed to protrude to the surface by the elastic restoring force of the elastic body 135.

The locking member 134 is in contact with the bobbin 11 to prevent the bobbin 11 from moving along the support member 132 in the longitudinal direction of the first rotating shaft 120 to be separated.

On the other hand, the first guide unit 140 is mounted to the body 110 to guide the left and right sides of the metal ribbon 12 wound on the bobbin 11, specifically, a guide bar 141, a guide screw ( 142, the guide rod 143, the stopper 144, and the elastic member 145.

The guide bar 141 is fixedly mounted on one side of the upper portion of the body 110, and is spaced apart in front of the first rotation shaft 120.

Here, the front is a direction in which the metal ribbon 12 moves, that is, a direction in which the processing apparatus 300 is located.

The guide screw 142 has a circular rod shape having a screw thread formed on an outer circumferential surface thereof, and is formed to extend in the longitudinal direction of the first rotation shaft 120, and is rotatably mounted on an upper portion of the guide bar 141.

In addition, the guide screw 142 is made of two, it is arranged to be spaced apart in the front-rear direction.

The guide rod 143 has a cylindrical rod shape, one end of which is fastened to the guide screw 142 so as to be movable in the longitudinal direction of the guide screw 142, and the other end of the guide rod 143 is provided on the side of the metal ribbon 12. Is placed on.

The guide rod 143 is composed of two, one each mounted on the guide screw 142, are disposed on both sides of the metal ribbon 12, the metal ribbon 12 is the first rotary shaft 120 This is to prevent the movement in the longitudinal direction of.

The stopper 144 is formed in a rectangular plate shape, is fixedly mounted in the upper center of the guide bar 141, the guide screw 142 is inserted into the center.

In addition, the elastic member 145 is made of a compression coil spring, disposed between the stopper 144 and one end of the guide rod 143, the guide rod 143 in the opposite direction of the stopper 144 Will be supported.

The elastic member 145 presses the guide rod 143 to prevent the guide screw 142 from being rotated by external vibration to prevent the position of the guide rod 143 from being moved.

On the other hand, the second guide unit 150 is disposed on the bobbin 11 to support the upper side of the metal ribbon 12.

Specifically, the second guide unit 150, as shown in Figure 5, the second rotary shaft 151, the main guide 152, the first sub guide 153, the second sub guide 154, guide It consists of a roller 155.

The second rotating shaft 151 has a cylindrical shape, one end of which is mounted to the body 110 and configured to be rotated by a motor to adjust an angle.

The main guide 152 is a shape in which two plates having a streamlined shape are spaced apart to face each other in the longitudinal direction of the second rotation shaft 151, and one end is fixedly mounted to the second rotation shaft 151 to be rotated together. It is disposed above the metal ribbon 12 mounted on the first rotary shaft 120.

The first sub guide 153 is formed in the same shape as the main guide 152, one end of which is rotatably mounted on the other end of the main guide 152, and is disposed above the metal ribbon 12. .

The second sub guide 154 is formed in the same shape as the first sub guide 153, is rotatably mounted on the other end of the first sub guide 153, and is disposed on the upper portion of the metal ribbon 12. Is placed.

Here, the main guide 152, the first sub guide 153 and the second sub guide 154 are connected in an arc shape to surround and support the upper portion of the metal ribbon 12.

In particular, the main guide 152, the first sub guide 153 and the second sub guide 154 may be rotated with each other to adjust the angle, so that the metal ribbon 12 wound around the bobbin 11 The curvature can be adjusted along the outside, thereby allowing the metal ribbon 12 to be balanced and tightly guided in a stable manner.

The guide roller 155 is formed in a cylindrical shape and rotatably mounted to the main guide 152, the first sub guide 153, and the second sub guide 154, respectively.

Here, the guide roller 155 is disposed to protrude in the direction of the metal ribbon 12, and rotates in contact with the metal ribbon 12 when the metal ribbon 12 is released.

As the guide roller 155 rotates, friction during loosening and movement of the metal ribbon 12 is reduced, thereby reducing vibration generated during movement and smoothing the loosening.

On the other hand, the third guide unit 160 is disposed below the bobbin 11 to support the lower side of the metal ribbon, two plates formed in an arc shape are arranged spaced apart in the longitudinal direction and connected by a support rod. .

One end of the third guide unit 160 is rotatably mounted to the body 110 so as to support a lower portion of the metal ribbon 12 that is released from the bobbin 11 and moves to the supply device 200. The metal ribbon 12 is prevented from sagging.

In some cases, the third guide unit 160 may be configured such that a plurality of the third guide units 160 are rotatably connected to each other, such as the second guide unit 150, and the guide roller 155 may be provided.

The supply device 200 flatly spreads the metal ribbon 12 supplied from the unwinding device 100 and moves it to the processing device 300 to be described later.

In general, the supply device 200 is installed so that a plurality of calibration rollers are alternately disposed on the upper and lower portions of the metal ribbon 12, the calibration roller is rotated to straighten the metal ribbon 12 to the flat Move to the processing apparatus 300.

The processing apparatus 300 is composed of a press to press the metal ribbon 12 to cut and bend to make a product, the lower mold is mounted on the lower portion of the press, the upper mold is mounted on the upper, the upper of the lower mold The metal ribbon 12 supplied from the supply device 200 is disposed, the upper mold is lowered to the lower mold to process the metal ribbon 12 in the form of a product.

On the other hand, the dustproof guide unit 800 is disposed between the supply device 200 and the processing device 300 to support the metal ribbon 12 flat, to reduce the vibration and friction generated during movement, The lower support 810, the upper support 820, the dust cover 830, dustproof means 500 and the shock absorbing means (400).

The lower support 810 is formed in a flat rectangular plate shape, both ends are mounted to be moved up and down by the guide shaft 840.

Here, the guide shaft 840 is fixedly mounted on the upper plate of the shock absorbing means 400 to be described later.

The upper support 820 is formed in the shape of a square plate bent in a concave upwards in the center, is disposed on the lower support 810 is coupled to the lower support 810 so as to be mutually removable.

Here, a passage in which the metal ribbon 12 is inserted and inserted is formed between the lower pedestal 810 and the upper pedestal 820.

The dust cover 830 is made of a fiber material, and is attached to the lower support 810 and the upper support 820 with an adhesive to reduce the friction generated when the metal ribbon 12 is in contact.

The adhesive composition according to an embodiment of the present invention is an adhesive composition for attaching the dustproof cover 830, which is a fiber material, to the lower support 810 and the upper support 820, which is a metal material, and a thermoplastic resin. 40 to 80 parts by weight, 5 to 40 parts by weight of the tackifier resin, 1 to 5 parts by weight of rosin, 1 to 10 parts by weight of plasticizer, 1 to 10 parts by weight of filler, and 0.1 to 1 parts by weight of antioxidant. Manufactured in a state of being bonded between the dust cover 830, when applied to the lower support 810 and the upper support 820 removes the release agent to perform a press operation the dust cover 830 is the lower support 810 and the upper pedestal 820 to be attached to serve. Hereinafter, each component will be described in detail.

The thermoplastic resin serves as a main component of the composition to control adhesion and cohesion. If the type includes a vinyl group or a hydroxyl group, the type thereof is not particularly limited, and examples thereof include ethylene vinyl acetate copolymer, polyvinylacetate, polyvinyl alcohol, ethylene-acrylic acid copolymer and ethylene-methacrylic acid copolymer, and polyurethane. It may be composed of any one or more selected from the group consisting of.

The content of the thermoplastic resin is preferably 40 to 80 parts by weight based on the total composition. If the content is less than 40 parts by weight, the melt viscosity is high and the melt flow index is low, the workability is very poor, if the content is more than 80 parts by weight it is difficult to exert sufficient adhesive force to be applied directly to the fabric.

The tackifier resin is a low molecular weight resin, lowers the melt viscosity to improve workability, improves the initial wettability of adhesion and adhesion of the adhesive on the surface of the adherend, and enables control of the solidification time.

The tackifying resin is not particularly limited in kind, but is preferably a petroleum resin. More specifically, the tackifier resin may be composed of one or more selected from the group consisting of aliphatic hydrocarbon resins, alicyclic hydrocarbon resins, aromatic hydrocarbon resins, aromatic hydrocarbon-modified aliphatic hydrocarbon resins, and hydrogenated hydrocarbon resins.

The aliphatic hydrocarbon resins are commercial products such as Hikorez A-1100, Hikorez A-1100S, Hikorez C-1100, Hikorez R-1100, Hikorez R-1100S, and the like. In addition, alicyclic hydrocarbon resins include hydrocarbon resins containing dicyclopentadiene (DCPD) as monomers, and aromatic hydrocarbon resins are commercially available from Kolon Oil Co., Ltd. of Hikotack P-110S, Hikotack P-120, Hikotack P-120HS, Hikotack P-120S, Hikotack P-140, Hikotack P-140M, Hikotack P-150, Hikotack P-160, Hikotack P-90, Hikotack P-90S, Hirenol PL-1000, Hirenol PL-400. In addition, aromatic hydrocarbon-modified aliphatic hydrocarbon resins include Hikorez T-1080, Hikorez T-1100, etc. of Kolon Oils. Hydrogenated hydrocarbon resins can also be subdivided into hydrogenated aliphatic hydrocarbon resins, hydrogenated aromatic hydrocarbon resins, and the like, and commercially available from Kolon Oil Co., Ltd. Sukorez SU-120, Sukorez SU-130 and Sukorez SU-90.

The tackifier resin is preferably a hydrocarbon resin having 4 to 10 carbon atoms in the monomer, and specifically, a C5 aliphatic resin, a C9 aromatic resin, a C5 / C9 aliphatic / aromatic copolymer resin, or the like may be used.

In addition, the tackifying resin of the present invention is more preferably characterized in that the hydrocarbon hydrocarbon resin containing dicyclopentadiene as a monomer, commercially available from Sukorez D-300, Sukorez D-390, Kolon Emulsifier (Korea), Sukorez SU-100, Sukorez SU-110, Sukorez SU-120, SukorezSU-130 and Sukorez SU-90.

On the other hand, the adhesive composition of the present invention, in order to minimize the irritation when directly in contact with the skin of the operator, it is preferable to use a mixture of biodegradable hypoallergenic resin in the various petroleum resin described above.

The biodegradable hypoallergenic resin may be prepared by melt-mixing a monomer of a polymer into a biodegradable polymer, and polylactic acid is preferably used as the biodegradable polymer.

The polylactic acid is a polyester synthesized by polycondensation of lactate or ring-opening polymerization of lactide, and has a medium physical property between polyamide and polyethylene terephthalate, and is mainly made of natural vegetable sugar components obtained from potatoes and corn. Biodegradability is high, but generally has high hardness, low elasticity, and poor durability.

The biodegradable polymer is melt-mixed with the same polymer monomer, wherein the biodegradable polymer is partially bonded with the monomer to cause chain breakage, thereby lowering the overall number average molecular weight. As the number average molecular weight falls, the physical properties that can be used as an adhesive are exhibited, and the workability is increased.

With respect to 100 parts by weight of the polylactic acid, the lactic acid monomer may be mixed 20 to 30 parts by weight. When the monomer is mixed in less than 20 parts by weight, the number average molecular weight is high and hard to be used as a pressure-sensitive adhesive, when the monomer exceeds 40 parts by weight migration may occur on the surface and may also be difficult to use as an adhesive.

It is preferable that the mixing ratio of the petroleum resin and the biodegradable hypoallergenic resin is 1 to 2: 1 (w / w). When the mixing ratio of the petroleum resin is too high, the biodegradable hypoallergenic effect is less likely to occur. If the mixing ratio is too high, economic efficiency may be lowered and the overall adhesive effect may be lowered.

In addition, the content of the tackifying resin is preferably 5 to 40 parts by weight relative to the total composition. If the content is less than 5 parts by weight, the effect of lowering the melt viscosity due to the addition of the tackifying resin is insufficient, and there is a fear that the increase in the melt flow index is not so large that the workability may not be satisfactorily reached, and the content is more than 30 parts by weight. If the melt flow index increase rate due to the excess of the tackifier resin is not large, the economical efficiency is lowered and the content of the thermoplastic polymer is relatively reduced, thereby reducing the overall physical properties of the composition.

The rosin acts to improve the overall adhesion of the adhesive composition and is harmless to the human body and acts as a natural preservative. The content of the rosin is preferably 1 to 5 parts by weight based on the total composition. If the content is less than 1 part by weight, it is difficult to obtain an effect of improving the adhesive strength, and if the content exceeds 5 parts by weight, there is a problem in that the adhesion is increased during processing, making it difficult to process the product.

The plasticizer is used to impart flexibility and adhesion to the polymer, and the type of plasticizer according to the present invention is not particularly limited, and for example, sorbitol, ethylene glycol, glycerin, glycerin diacetate, and pentaerythritol It may consist of one or more selected from the group consisting of.

The amount of the plasticizer is preferably 1 to 10 parts by weight based on the total composition. If the content is less than 1 part by weight, the effect of the addition of the plasticizer is insignificant. If the content is more than 10 parts by weight, the economical efficiency may be reduced by excessive use of the plasticizer, and there is a concern that the overall physical properties of the adhesive may be lowered.

The filler is used to control the reinforcement and flow of the composition. The type of filler is not particularly limited, and for example, calcium carbonate, clay, bentonite, calcium stearate or the like can be used.

On the other hand, the adhesive composition of the present invention is formed on the dustproof cover 830 in contact with the metal ribbon 12, odor and bacteria are likely to occur in the application environment. Therefore, in the present invention, it is preferable to use a mixture of stone powder and pulp powder as a filler in order to reduce odor and bacteria generation while controlling the reinforcement and flowability of the adhesive composition. Stone powder can achieve high strength without using additives due to the compactness of the particles, and the cracking of the adhesive hardly occurs even when the temperature change is large due to low volumetric strain according to the surrounding environment.

The stone powder may be used in the form of powder of various rocks such as loess, marble, ganban stone, granite, jadeite, preferably characterized in that the loess has various functions such as antibacterial, anti-fungal, UV emission.

The pulp powder serves to agglomerate the stone powders while sucking the liquid components, to improve the miscibility and improve the cohesion between the components. At this time, the stone powder and the pulp powder is preferably mixed in a ratio of about 7: 3 to 8: 2 (w / w).

The content of the filler is preferably 1 to 10 parts by weight based on the total composition. If the content is less than 1 part by weight, the effect of adding the filler is insignificant, and if the content is more than 10 parts by weight, there is a concern that the overall physical properties of the adhesive is lowered.

The antioxidant is intended to improve the change in viscosity, yellowing, deterioration of adhesion and degradation of durability due to oxidation and decomposition, and the type thereof is not particularly limited, and specifically, phenols, aromatic amines, citric acid, or ascorbic acid may be used. Can be.

The content of the antioxidant is preferably 0.1 to 1 parts by weight relative to the total composition. If the content is less than 0.1 parts by weight, the effect of the addition of the antioxidant is inadequate, and if the content is more than 1 part by weight, not only the economy of the adhesive is lowered but also the overall physical properties may be lowered.

On the other hand, the adhesive composition of the present invention is subjected to a press operation on the fabric of the dustproof cover, at this time there is a possibility that the poor adhesion due to the amount of the composition is removed due to the presence of the hole in the fabric.

Thus, the adhesive composition of the present invention may further include a nano silica value that can improve the adhesion by allowing the adhesive composition to be uniformly distributed on the fabric surface. At this time, the content of the nano silica is preferably 0.1 to 5 parts by weight, and the size of the nano silica (primary particles) is preferably 100 nm or less.

If the content of the nano-silica is less than 0.1 parts by weight, the effect of the addition of nano-silica is insignificant, and if the content exceeds 5 parts by weight, not only the adhesive force is lowered but also a bad phenomenon that blooming (blooming) occurs on the surface of the adhesive over time May occur.

Hereinafter, the configuration of the present invention and its effects through specific examples and comparative examples will be described in more detail. However, this embodiment is intended to illustrate the present invention in more detail, and the scope of the present invention is not limited to these examples.

Example 1

60 parts by weight of ethylene-vinylacetate copolymer, 25 parts by weight of Sukorez D-300, 3 parts by weight of rosin, 5 parts by weight of ethylene glycol, 4 parts by weight of ocherite, 2 parts by weight of pulp powder and 1 part by weight of ascorbic acid. Melt kneading at ° C to prepare an adhesive composition and then molded into pellets. At this time, the biodegradable hypoallergenic resin was prepared by melt-mixing 2.5 parts by weight of lactic acid monomer to 100 parts by weight of polylactic acid at 160 ° C. for 5 minutes.

 Example 2

60 parts by weight of ethylene-vinylacetate copolymer, 15 parts by weight of Sukorez D-300, 10 parts by weight of biodegradable hypoallergenic resin, 3 parts by weight of rosin, 5 parts by weight of ethylene glycol, 4 parts by weight of loess, 2 parts by weight of pulp powder and ascorb 1 part by weight of acid was mixed and melt kneaded at 170 to 180 ° C. to prepare an adhesive composition, and then molded into pellets. At this time, the biodegradable hypoallergenic resin was prepared by melt-mixing 2.5 parts by weight of lactic acid monomer to 100 parts by weight of polylactic acid at 160 ° C. for 5 minutes.

Example 3

Except for adding 1 part by weight of nanosilica, it was prepared in the same manner as in Example 1, and was made as Example 3.

 [Comparative Example]

It was used after removing the backing paper from the conventional TPU hot melt film.

Experimental Example

(1) Mesh adhesive strength

In order to evaluate the mesh adhesive strength of the hot melt adhesive, the adhesive pellets quantified between the two sheets of the dustproof cover were melt-coated at 170 ° C., and then pressed at 60 kgf / cm 2 for 30 seconds at 130 ° C. It progressed and measured the mesh adhesive strength (kgf / cm <2>).

 (2) Melt Flow Index

The heating cylinder of the melt flow rate meter was filled with a pellet type adhesive and melted at 160 ° C. for about 5 minutes. The weight (g) of the adhesive passed through the cylinder for 10 minutes was measured by putting a weight of 3 kg.

As can be seen from the table, it was confirmed that the adhesive composition of the present invention has improved adhesion and flow index than the existing product, even when using a biodegradable hypoallergenic resin it was confirmed that the adhesion and flow index does not fall significantly. Also, when the nano-silica is mixed, the flow index can be seen to increase significantly.

On the other hand, the dustproof means 500 is mounted to the lower portion of the lower support 810 to support the lower support 810, when the metal ribbon 12 in the lower support 810 is moved to the seated state Absorption of vibration and external shock generated to prevent the metal ribbon 12 from being damaged.

Specifically, the vibration isolator 500, as shown in Figure 7, the body portion 510, the first stand 520 and the second stand 530.

Body portion 510 is formed in a cylindrical shape, a plurality of stands (520a, 520b, 520c, 530a, 530b, 530c) is connected to be installed.

The first stand 520 is spaced apart from the other first stand 520 at a predetermined interval so that a plurality of the first stand 520 is rotatably connected along the upper portion of the body 510, and the first stand 520 is different from the upper side to the lower side. It is installed to be inclined in a direction close to the 520 to support the lower support 810.

The second stand 530 is spaced apart from the other second stand 530 at predetermined intervals so that a plurality of the second stand 530 is rotatably connected along the lower portion of the body 510, and the second stand 530 is different from the lower side to the upper side. 530 is installed to be inclined in a direction close to and supports the body portion 510.

Although the second stand 530 of FIG. 7 is illustrated in a rod shape, the second stand 530 of FIG. 7 is not limited to the shape thereof and may be formed in the same shape as the first stand 520 as illustrated in FIG. 9.

8 and 9 are views showing the body portion of FIG.

Referring to FIG. 8, the body portion 510 includes a body 511, an upper installation groove 512, a lower installation groove 513, an elastic support 514, and an impact absorbing pad 515.

The body 511 is formed in a cylindrical shape as shown in FIG. 9, and the first stand 520 and the second stand 530 in the upper and lower installation grooves 512 and the lower installation grooves 513 formed in the upper and lower portions. ) Is installed to be rotatable.

The upper installation groove 512 is formed along the upper portion of the body 511 corresponding to the number of the first stands 520 so that the lower portion of the first stand 520 is rotatable, and upwards from the lower side. It is formed to be inclined toward the outer direction of the body 511 toward.

The lower installation groove 513 is formed along the lower part of the body 511 corresponding to the number of the second stands 530 so that the upper part of the second stand may be rotatable, and the body toward the lower side from the upper side toward the lower side. It is formed to incline in the outward direction of 511.

The elastic support 514 is a first stand 520 facing the lower side so that the first stand 520 installed in the upper installation groove 512 or the second stand 530 installed in the lower installation groove 513 can stand upright. Between the one side surface and the upper installation groove 512 and between the one side surface and the lower installation groove 513 of the second stand 530 facing the upper side, respectively, the first stand 520 and the first using an elastic force 2 supports the stand (530).

The shock absorbing pad 515 is provided along the inlet of the upper installation groove 512 and the inlet of the lower installation groove 513 so as to absorb the impact caused by the collision with the first stand 520 or the second stand 530. Is installed.

Here, since the internal forming structure of the lower installation groove 513 is the same as the formation structure of the upper installation groove 512 as described above, description thereof will be omitted to avoid duplication of description.

FIG. 10 is a view illustrating the first stand of FIG. 7.

Referring to FIG. 10, the first stand 520 includes a support bar 521, a pedestal 522, and a sliding pad 523.

The support bar 521 is installed to be connected to the upper installation groove 512 so that the lower part is rotatable, the lower inclined surface is supported by the elastic support 514, and the lower part of the pedestal 522 is installed to be connected to the upper part. To form a connection groove (5211) to be.

Pedestal 522 is formed in a triangular shape, the upper surface is flat and the gap becomes narrower toward the lower side, the lower portion of the bolt (B) and nut (N) in the connection groove (5211) formed in the upper portion of the support bar (521) It is connected so as to be rotatable using a fastening means.

The sliding pad 523 has a washing plate-shaped unevenness formed of a material having elasticity so as to improve adhesion to the lower support 810 seated on an upper side thereof, and is formed along an upper surface thereof, and the lower supporter is seated on an upper side thereof. 810 is slidably moved on top of the pedestal 522 as the lifting or lowering.

In an embodiment, the pedestal 522 may have a sliding groove 5221 in the longitudinal direction along the upper surface as shown in FIG. 12.

In addition, the sliding pad 523 is connected to the sliding groove 5121 and may be provided with a sliding synchronous (5231) on the lower side to allow the sliding movement.

In the first stand 520 having the configuration as described above, the sliding pad 523 maintains the corresponding position as the lower support 810 located on the upper side as shown in FIG. The lower portion connected to the support bar 521 is driven while the pedestal 522 is slidably moved outward for movement.

Since the first stand 520 having the above-described configuration is applicable to the second stand 530 in the same manner, the description of the configuration of the second stand 530 will be omitted in order to avoid overlapping descriptions.

On the other hand, the shock absorbing means 400 is mounted to the bottom of the dust-proof means 500 to support the dust-proof means 500 from the bottom surface, when a strong pressure or load is generated in the dust-proof means 500 To alleviate the impact is to prevent the lower pedestal 810 to drop.

As shown in FIG. 13, the shock absorbing means 400 includes a top plate 410, a case 420, and a top plate support 430.

The upper plate 410 is formed in a flat plate shape, and the dustproof means 500 is mounted on an upper portion thereof, and is supported by the upper plate support portion 430 disposed below.

The case 420 is spaced apart from the lower side of the upper plate 410 and forms an inner space for installing the upper plate support part 430.

The upper plate supporter 430 is installed in the inner space of the case 420, and an upper portion thereof is exposed to the upper side of the case 420 to support the upper plate 410 using elastic force.

The shock absorbing means 400 having the configuration as described above, the upper plate support portion for forming an elastic force when the impact is applied to the upper plate direction by an external force while the metal ribbon 12 mounted on the lower support 810 is moved The impact is distributed by 430.

14 to 18 are views showing the connection of the respective components of the shock absorbing means 400 of FIG.

Referring to FIG. 14, the upper plate support part 430 includes a first support part 431 and a plurality of second support parts 432a, 432b, 432c, and 432d.

The first support part 431 supports the center of the top plate 410, and supplies the filling liquid to the plurality of second support parts 432a, 432b, 432c, and 432d in the inner space as the top plate 410 descends. .

The second support parts 432a, 432b, 432c, and 432d are respectively installed at the lower sides of the corners of the upper plate 410, and support the edges of the upper plate 410 by using an elastic force while moving in the up and down direction, and the upper plate 410. As the) is lowered, the movement in the vertical direction is braked by the filling liquid supplied from the first support part 431.

The upper plate support portion 430 having the above-described configuration efficiently supports the upper plate 410 using elastic force by using the first support portion 431 and the plurality of second support portions 432a, 432b, 432c, and 432d. can do.

The first support part 431 includes a first pivotal fastening part 4311, a first connecting ball 4312, a first support bar 4313, a filling liquid tank 4314, and a connection pipe 4315. .

As shown in FIG. 13, the first pivot fastening part 4311 is installed at the center portion of the lower surface of the upper plate 410, and forms a spherical inner space to connect the first connection balls 4312.

The first connecting ball 4312 is formed in a spherical shape corresponding to the shape of the internal space of the first pivot fastening portion 4311, is installed to be rotatable in the internal space of the first pivot fastening portion 4311, and the first Supported by a support bar 4313.

The first support bar 4313 extends from a lower portion of the first connecting ball 4312 to an inner space of the filling liquid tank 4314 in a downward direction to support the first connecting ball 4312, and the upper plate 410. As it descends, it descends together and compresses the filling liquid contained in the filling liquid tank 4314 in the downward direction.

Filling tank 4314 is formed in a cylindrical shape is installed in the inner space of the case 420, the filling liquid is received in the sealed inner space, the lower portion of the first support bar 4313 is inserted into the inner space When the upper plate 410 is lowered, as the lower portion of the first support bar 4313 descends from the upper side of the inner space, the filling liquid is compressed to be supplied to the second support part 432 through the connecting pipe 4315.

At this time, the first support bar 4313 is a rubber corresponding to the shape of the inner space of the filling liquid tank 4314 so that the filling liquid contained in the filling space of the filling liquid tank 4314 can be compressed in the same way as the syringe driving method. Packing material P may be formed on the lower side.

The connecting pipe 4315 extends from the lower portion of the filling liquid tank 4314 to the respective second supporting portions 432a, 432b, 432c, and 432d to form a passage through which the filling liquid flows.

Hereinafter, the second support part 432 will be described.

The second support part 432 includes a second pivotal fastening part 4321, a second connecting ball 4322, a second support bar 4323, an elastic support part 4324, and a lift adjusting part 4325.

As shown in FIG. 13, the second pivot fastening part 4321 is installed at a corner of the lower surface of the upper plate 410, and forms a spherical inner space to connect the second connection balls 4322.

The second connecting ball 4322 is formed in a spherical shape corresponding to the shape of the internal space of the second pivotal fastening part 4321, and is installed to be rotatable in the internal space of the second pivotal fastening part 4321. Supported by support bars 4323.

The second support bar 4323 extends from the lower portion of the second connection ball 4322 to the inner space of the case 420 in a downward direction to support the second connection ball 4322, and to the elastic support part 4324. Is supported.

The elastic support part 4324 is provided below the second support bar 4323 to support the second support bar 4323 in the inner space of the case 420 by using an elastic force.

The elevating adjustment part 4325 is formed in the shape of a circular tube that forms the through hole 4325h in the vertical direction, and the second support bar 4323 is inserted into the through hole 4325h, and the upper plate 410 is lowered. In this case, as the filling liquid is supplied to the internal space through the connecting pipe 4315 and expanded, the size of the through hole 4325h is reduced so that the second support bar 4323 is not moved.

In one embodiment, the elevating control unit 4325 has an outer wall 4325o to expand in an inward direction in which the through hole 4325h is located as the filling liquid is supplied to the inner space as shown in FIG. 18. It may be formed of a hard material, and the inner side 4325i facing the second support bar 4323 may be formed of a material that can expand or contract.

The upper plate support part 430 having the configuration as described above supports the upper plate 410 by using the first support part 431 and the plurality of second support parts 432a, 432b, 432c, and 432d, and forms an elastic force. By using a plurality of second supports 432a, 432b, 432c, and 432d, each corner of the top plate 410 is basically supported, and the top plate 410 is an elastic force of each of the second supports 432a, 432b, 432c, and 432d. When the first support 431 is lowered by lowering the pressure, the filling solution contained in the first support 431 is compressed and supplied to each of the second support parts 432a, 432b, 432c, and 432d, which are being lowered together. Due to expansion due to the supply of the filling liquid, the lowering of each of the second supporting parts 432a, 432b, 432c, and 432d is prevented, and the lowering of the upper plate 410 is gradually increased.

That is, the upper plate 410 is initially supported using only the elastic force of each of the second support parts 432a, 432b, 432c, and 432d, but is supplied from the first support part 431 as the first support part 431 descends together. The downward driving of the upper plate 410 is reduced by adding up to a resistance value generated by the adhesion force due to the filling liquid.

The above-described embodiments are for illustrative purposes, and those of ordinary skill in the art to which the above-described embodiments belong may easily change to other specific forms without changing the technical spirit or essential features of the above-described embodiments. I can understand. Therefore, it is to be understood that the above-described embodiments are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope to be protected by the present specification is represented by the following claims rather than the above description, and should be construed to include all changes or modifications derived from the meaning and scope of the claims and their equivalents. .

11: bobbin
12: metal ribbon
100: unwinding device
110: body
120: first rotating shaft
130: bobbin connecting unit
131: fixing member
132: support member
133: connecting member
134: locking member
135: elastic body
140: first guide unit
141: guide bar
142: guide screw
143: guide rod
144: stopper
145: elastic member
150: second guide unit
151: second rotating shaft
152: Main guide
153: First Sub Guide
154: Second Sub Guide
155: guide roller
160: third guide unit
200: feeder
300: processing equipment
400: shock absorbing means
500: dustproof means
800: Dustproof Guide Unit
810: lower stand
820: Upper Base
830: Dust Cover

Claims (2)

An unwinding device 100 which draws out the metal ribbon 12 wound in the roll state to the bobbin 11;
A supply device 200 for unfolding and moving the metal ribbon 12 supplied from the release device 100 in a flat manner;
A processing device 300 for processing the metal ribbon 12 supplied from the supply device 200;
A dustproof guide unit 800 disposed between the supply device 200 and the processing device 300 to support the metal ribbon 12 flatly and reduce vibration and friction generated during movement; Including,
The release device 100,
Body 110;
A first rotating shaft 120 mounted to protrude on one side of the body 110 and controlled to be rotated by a predetermined angle by a motor;
A bobbin connecting unit 130 mounted on an outer side of the first rotary shaft 120 and closely attached to an inner surface of the bobbin 11 to fix the bobbin 11 to the first rotary shaft 120;
A first guide unit 140 mounted to the body 110 to guide left and right sides of the metal ribbon 12 wound around the bobbin 11;
A second guide unit 150 disposed on the bobbin 11 to support an upper side of the metal ribbon;
A third guide unit 160 disposed below the bobbin 11 to support a lower side of the metal ribbon; Including,

The bobbin connection unit 130,
A fixing member 131 fixed to an outer side of the first rotation shaft 120;
A support member 132 disposed at an angular interval along an inner circumferential surface of the bobbin 11;
One end is rotatably mounted to the fixing member 131, the other end is rotatably mounted to the support member 132, and one end of the support member 132 is rotated in the direction of the body 110. A connecting member 133 to be folded in one rotation shaft 120 and to allow the support member 132 to be deployed in the bobbin 11 direction when one end is rotated in the opposite direction of the body 110;
A locking member 134 mounted on an outer side of the support member 132 to prevent the bobbin 11 from moving in the opposite direction of the body 110; Including,

The first guide unit 140,
A guide bar 141 disposed spaced apart in front of the first rotation shaft 120 and fixedly mounted to the body 110;
A guide screw 142 formed to extend in the longitudinal direction of the first rotation shaft 120 and rotatably mounted to the guide bar 141;
A guide rod 143 having one end coupled to the guide screw 142 so as to be movable in the longitudinal direction of the guide screw 142, and the other end disposed at the side of the metal ribbon 12;
A stopper 144 mounted on the guide bar 141 to block movement of the guide rod 143;
An elastic member 145 disposed between the stopper 144 and one end of the guide rod 143; Including;

The second guide unit 150,
A second rotating shaft 151 having one end rotatably mounted to the body 110 at a predetermined angle;
A main guide 152 mounted on the second rotation shaft 151 to rotate together and surrounding the metal ribbon 12;
A first sub guide 153 having one end rotatably mounted on the other end of the main guide 152 and surrounding the metal ribbon 12;
A second sub guide 154 having one end rotatably mounted at the other end of the first sub guide 153 and surrounding the metal ribbon 12;
A guide roller 155 rotatably mounted to the first sub guide 153 and the second sub guide 154 and rotating in contact with the metal ribbon 12; Including,

The dustproof guide unit 800,
A lower support 810 disposed between the supply device 200 and the processing device 300 and disposed below the metal ribbon 12 supplied from the supply device 200;
An upper pedestal 820 mounted on the lower pedestal 810 to form a passage through which the metal ribbon 12 passes;
A dust cover 830 attached to the lower support 810 and the upper support 820 by an adhesive;
Dustproof means (500) mounted on the lower portion of the lower support 810 to absorb vibration;
A shock absorbing means (400) mounted to the lower part of the dustproof means (500) to support the dustproof means (500) from a bottom surface; Including;

The adhesive is 40 to 80 parts by weight of thermoplastic resin, 5 to 40 parts by weight of tackifying resin, 1 to 5 parts by weight of rosin, 1 to 10 parts by weight of plasticizer, 1 to 10 parts by weight of filler and 0.1 to 1 parts by weight of antioxidant, Contains 0.1 to 5 parts by weight of nanosilica,

The dustproof means 500,
A body portion formed in a cylindrical shape; Spaced apart from the other first stand at a predetermined interval is installed so that a plurality of rotatably connected along the upper portion of the body portion, and installed to be inclined in a direction closer to the other first stand from the upper side to the lower side the lower support 810 A first stand for supporting; And spaced apart from the other second stand at a predetermined interval is connected to be installed so that a plurality of rotatable along the lower portion of the body portion, is installed to be inclined in a direction closer to the other second stand from the lower side to the upper side to support the body portion A second stand,
The body portion, the body is formed in a cylindrical shape; An upper installation is formed along the upper portion of the body corresponding to the number of the first stand so that the lower portion of the first stand can be installed to be rotatable, and inclined in the outward direction of the body toward the upper side from the lower side home; Lower installation is formed along the lower portion of the body corresponding to the number of the second stand so that the upper portion of the second stand can be installed to be rotatable, and inclined in the outward direction of the body toward the lower side from the upper side home; The first side facing the upper side and the upper side of the first stand, and the upper side of the first stand installed in the upper mounting groove or the second stand installed in the lower mounting groove; An elastic support installed between one side of the second stand and the lower mounting groove to support the first stand and the second stand using an elastic force; And an impact absorbing pad installed along the inlet of the upper installation groove and the inlet of the lower installation groove to absorb the impact caused by the collision with the first stand or the second stand.
The first stand is connected to the upper installation groove so that the lower portion is rotatable, the lower inclined surface is supported by the elastic support bar; A pedestal which is formed in a triangular shape in which an upper surface is flat and the gap becomes narrower toward the lower side, and a lower portion is connected to the upper portion of the support bar to be rotatable; And a washing plate-shaped unevenness formed of a material having elasticity to improve adhesion to the lower support 810 along the upper surface, and the lower support 810 moves up or down by vibration, It includes a sliding pad that is slidingly moved on the upper side,
The pedestal, the sliding groove is formed in the longitudinal direction along the upper surface,
The sliding pad is connected to the sliding groove is provided with a sliding synchronization on the lower side to allow the sliding movement,

The shock absorbing means 400,
An upper plate disposed below and supported by the dustproof unit 500; A case spaced apart from the upper plate and formed to form an inner space; And an upper plate support part installed in an inner space of the case and having an upper portion exposed to an upper side of the case to support the upper plate using an elastic force.
The upper plate support unit may support a center of the upper plate, the first support unit for supplying a filling liquid into the inner space as the upper plate is lowered; And installed at each lower side of each corner of the upper plate, and move upwards and downwards to support the edges of the upper plate by using an elastic force, and the upper plate is lowered in the vertical direction by the filling liquid supplied from the first support part as the upper plate descends. A second support to which movement is braked,
The first support portion, the first rotational fastening portion is provided in the center of the lower side of the upper plate, forming a spherical inner space; A first connection ball formed in a spherical shape corresponding to the shape of the inner space of the first pivot fastening part and installed to be rotatable in the inner space of the first pivot fastening part; A first support bar extending downward from the bottom of the first connection ball to support the first connection ball; It is formed in a cylindrical shape is installed in the inner space of the case, the filling liquid is received in the sealed inner space, the lower portion of the first support bar is inserted into the inner space, the first support bar when the upper plate is lowered A filling liquid tank in which a filling liquid is compressed and supplied to the second support part as a lower portion of the lower portion falls from an upper side of the inner space; And a connecting pipe extending from the lower portion of the filling liquid tank to the second supporting portion to form a passage through which the filling liquid flows.
The second support part may include a second pivotal fastening part installed at an edge of a lower side of the upper plate and forming a spherical inner space; A second connection ball formed in a spherical shape corresponding to the shape of the inner space of the second pivotal fastening part and rotatably installed in the inner space of the second pivotal fastening part; A second support bar extending downward from the bottom of the second connection ball to support the second connection ball; An elastic support installed at a lower side of the second support bar to support the second support bar using an elastic force; And a second support bar is inserted into the through hole to form a through hole in a vertical direction. When the upper plate descends, the filling liquid is supplied to the internal space through the connecting pipe and expands. According to the size of the through hole is reduced to include a lifting control unit for fastening so that the second support bar does not move,
The elevating control unit, the outer wall is formed of a hard material so that the filling liquid is expanded to the inner direction in which the through hole is located as the filling liquid is supplied, the inner side facing the second support bar is expanded or contracted Continuous processing system, characterized in that formed from a possible material.







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