KR20160089061A - the spreading apparatus and the spreading system of yarn therewith - Google Patents

Abstract

The present invention relates to a spreading device capable of acquiring a large amount of threads in a quick and an easy way. The present invention further relates to a thread spreading system comprising the spreading device. To this end, the spreading device comprises: a fixing board; a fixing part including a freely rotating rotation roller; a moving board; a driving roller; and a driving motor rotating the rotation roller.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a spreading apparatus and a spreading apparatus for spreading a yarn including a spreading apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a spreading apparatus and a spreading system for a yarn including the spreading apparatus, and more particularly, to a spreading system for a yarn including a fixing table configured to vertically face the fixing plate, and a rotating roller Fixed government; A reciprocating unit including a movable stage which is vertically opposed to the moving plate, a movable roller which is located across the movable stage, and a movable motor which rotates the movable roller; A moving plate is connected to the upper portion of the fixing plate by a linear motion guide, and a plurality of rotating rollers are disposed on both sides of the lower portion of the movable roller; The reciprocating unit constitutes a spreading device reciprocating in the longitudinal direction of the movable roller by the reciprocating means; Wherein the movable roller has a plurality of convex portions of a convex structure along the longitudinal direction thereof; Wherein the rotary roller comprises a spreading unit in which a plurality of concave-convex portions of a convex structure or concave-convex portions of a concave structure are formed along the longitudinal direction, and a plurality of krilles are arranged to mount the rollers wound on the krill; A deasphalting device for passing the yarn through an electric furnace to remove the adherend of the yarn; The spreading device; A yarn spreading system comprising a winding device comprising a winding roller rotated by a winding motor and a traction device including a nip roller rotating in contact with the winding roller; The yarn fed from the krill is dehazed by the deaerator, and the deflected yarn passes through the convex portion of the movable roller of the spreading device and the rotating rollers on both sides thereof, The present invention relates to a spreading device and a spreading system thereof, in which a spread yarn can be pulled at a constant speed in a pulling device to quickly and easily spread a large amount of yarns.

Generally, a prepreg is an intermediate base material for a fiber-reinforced composite material, and is a molding material preliminarily impregnated with a matrix resin in a reinforcing fiber. The prepreg is formed in a state of being wound around a branch pipe in a state of being combined with release paper. The prepreg is separated from the releasing paper, and prepregs are laminated and heated and pressed to cure the resin to produce a molded article.

This prepreg is prepared by preparing reinforcing fibers (yarn or sheet) wound on a roller, desizing the additive (epoxy series) contained in the reinforcing fiber, and stretching a thin strand of the de- After the spreading, the spread reinforcement fiber is impregnated with a matrix resin such as a thermoplastic resin film or a thermosetting resin, and prepregs are integrally formed with the releasing paper.

On the other hand, in the spreading operation in which the reinforcing fibers are spread thinly, the reinforcing fibers supplied to the yarn expand the contact area at the time of lamination of the prepreg and spread the de-reinforced reinforcing fibers as thin as possible in the strands in order to facilitate impregnation of the resin For example, Korean Patent Application No. 1997-709969 (International Application No. PCT-JP1997-001451) discloses a method of blowing air into a multifilament for spreading Filed on the same date), filed on the same date, and Japanese Patent Application No. 10-2012-7032385 (International Application No. PCT / US2011 / 034477) discloses a method for manufacturing a filament spreadsheet in which a plurality of fixed bars and rollers And a device for spreading a bundle of fibers is disclosed.

Examples of the system for manufacturing a prepreg using a matrix resin include domestic patent application No. 2000-7000189 (International Application No. PCT / US1998 / 014122), domestic patent application No. 1988-7000798 (International Application No. PCT / US 87/02867).

However, in the case of a conventional spreading device, in the case of a device for blowing an air stream into a filament to spread the filament, the filament is not sufficiently loosened according to the twist of the filament. When the air flow is increased, In addition, when the bundle of fibers is passed through a plurality of bars and rollers, a plurality of bars and rollers are installed for spreading, And there was a problem that the fiber bundle was damaged due to the generation of a lot of friction as it passes through the bar roller having many fiber bundles.

In addition, a conventional spreading device spreads a single strand of reinforcing fibers. However, there is a problem in that a large number of spreading devices must be provided to simultaneously work a large amount of reinforcing fibers. In addition, There is a problem that the reinforced fibers that have been spread must be rearranged in order to make it, so that the products are not uniform and the productivity is lowered.

In addition, in the conventional spreading device or the apparatus of the prepreg including the spreading device, the yarn is pulled by the winding device that winds the final spread yarn or prepreg, and the winding device rotates the constant rotation The speed at which the yarn is wound in the spreading device is gradually reduced due to the increase in the diameter of the yarn winding yarn, So that there is a problem that the spreaded product is not uniform.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a fixing device comprising a fixing block vertically opposed to a fixing plate and a rotating roller, A reciprocating unit including a movable stage which is vertically opposed to the moving plate, a movable roller which is located across the movable stage, and a movable motor which rotates the movable roller; A moving plate is connected to the upper portion of the fixing plate by a linear motion guide, and a plurality of rotating rollers are disposed on both sides of the lower portion of the movable roller; The reciprocating unit constitutes a spreading device reciprocating in the longitudinal direction of the movable roller by the reciprocating means; Wherein the movable roller has a plurality of convex portions of a convex structure along the longitudinal direction thereof; Wherein the rotating roller constitutes a spreading device in which a plurality of concave / convex portions of a convex structure or concave / convex portions of a concave structure are formed along the longitudinal direction, and the yarns passing above the convex portions of the movable roller and the rotating rollers on both sides thereof, So that the yarn can be quickly and easily discharged.

The reciprocating means includes an eccentric shaft integrally formed so that distances between centers of the upper shaft and the lower shaft are distant from each other, the lower shaft is connected to the motor, the upper shaft is connected to the moving plate by a link plate, The bearing is assembled to the link plate at the other end and the auxiliary plate is integrated with the bearing plate of the link plate so that the movable plate is coupled to the bearing of the link plate. Thereby making it easier to reciprocate in the direction of the arrow.

The movable rollers and the rotating rollers are configured to be parallel to the upper or lower position, and the positions of the convex portions of the movable rollers positioned above and below are offset by half the width of the convex portions, And the movable rollers and the rotating rollers are further arranged parallel to the lengthwise direction of the yarn so that the yarns are spread along a plurality of movable rollers.

The movable roller and the rotating roller are made of a metal material such as steel, stainless steel or aluminum, and the surfaces of the movable roller and the rotating roller are surface-treated with glass sanding so that the glass- To make it easier.

And a plurality of krills arranged on the krill to which the rollers wound the yarns are mounted on the krill; A deasphalting device for passing the yarn through an electric furnace to remove the adherend of the yarn; The spreading device; A yarn spreading system comprising a winding device comprising a winding roller rotated by a winding motor and a traction device including a nip roller rotating in contact with the winding roller; The yarn fed from the krill is dehazed by the deaerator, and the deflected yarn passes through the convex portion of the movable roller of the spreading device and the rotating rollers on both sides thereof, And the warped yarn is towed at a constant speed in the traction device, allowing a large amount of yarn to be quickly and easily deployed.

A width-retaining roller is further provided between the winding roller and the spreading device of the traction device. The width-retaining rollers are constituted by a pair of upper and lower widths, both ends of the width- And the other width-retaining roller is configured to be in contact with or spaced from the fixed width-retaining rollers so that the embroidered yarn off the spreading device is spaced apart from the width- Keep it in tow.

In addition, a plurality of glass rods are provided between the dehobizing device and the spreading device, and the raw yarn which has deviated from the deasphalting device enters the spreading device through the glass rod to maintain the tension by the excellent frictional force of the glass rod.

As described above, according to the present invention, there is provided a fixing apparatus comprising: a fixing unit including a fixing base vertically opposed to a fixing base; and a rotation roller disposed to cross the fixing base and freely rotating; A reciprocating unit including a movable stage which is vertically opposed to the moving plate, a movable roller which is located across the movable stage, and a movable motor which rotates the movable roller; A moving plate is connected to the upper portion of the fixing plate by a linear motion guide, and a plurality of rotating rollers are disposed on both sides of the lower portion of the movable roller; The reciprocating unit constitutes a spreading device reciprocating in the longitudinal direction of the movable roller by the reciprocating means; Wherein the movable roller has a plurality of convex portions of a convex structure along the longitudinal direction thereof; Wherein the rotating roller constitutes a spreading device in which a plurality of concave / convex portions of a convex structure or concave / convex portions of a concave structure are formed along the longitudinal direction, and the yarns passing above the convex portions of the movable roller and the rotating rollers on both sides thereof, And the linear reciprocating movement of the yarn is quick and easy.

The reciprocating means includes an eccentric shaft integrally formed so that distances between centers of the upper shaft and the lower shaft are distant from each other, the lower shaft is connected to the motor, the upper shaft is connected to the moving plate by a link plate, The bearing is assembled to the link plate at the other end and the auxiliary plate is integrated with the bearing plate of the link plate so that the movable plate is coupled to the bearing of the link plate. It is easy to reciprocate in the direction of the arrow.

The movable rollers and the rotating rollers are configured to be parallel to the upper or lower position, and the positions of the convex portions of the movable rollers positioned above and below are offset by half the width of the convex portions, And the movable rollers and the rotating rollers are further arranged in parallel along the length direction of the yarn, and the yarn has many effects of spreading the yarn along a plurality of movable rollers.

The movable roller and the rotating roller are made of a metal material such as steel, stainless steel or aluminum, and the surfaces of the movable roller and the rotating roller are surface-treated with glass sanding so that the glass- There is an easier effect.

And a plurality of krills arranged on the krill to which the rollers wound the yarns are mounted on the krill; A deasphalting device for passing the yarn through an electric furnace to remove the adherend of the yarn; The spreading device; A yarn spreading system comprising a winding device comprising a winding roller rotated by a winding motor and a traction device including a nip roller rotating in contact with the winding roller; The yarn fed from the krill is dehazed by the deaerator, and the deflected yarn passes through the convex portion of the movable roller of the spreading device and the rotating rollers on both sides thereof, , And the placed yarn has a effect of towing a large amount of yarn quickly and easily by pulling at a constant speed in the drawing device.

A width-retaining roller is further provided between the winding roller and the spreading device of the traction device. The width-retaining rollers are constituted by a pair of upper and lower widths, both ends of the width- And the other width-retaining roller is configured to be in contact with or spaced from the fixed width-retaining roller so that the embroidered yarn off the spreading device is spaced apart from the width- There is an effect of towing.

Further, a plurality of glass rods are provided between the dehobizing device and the spreading device, and the raw yarn deviating from the deasphalting device enters the spreading device through the glass rod, thereby maintaining the tension by the excellent frictional force of the glass rod.

1 is a front view of a spreading device according to the present invention;
2 is a side view of a spreading device according to the present invention;
3 is an enlarged cross-sectional view of a reciprocating means of a spreading device according to the present invention;
4 is a front view of a spreading device according to another embodiment of the present invention;
5 is a side view of a spreading device according to another embodiment of the present invention
6 is a plan view of a reciprocating portion of a spreading device according to another embodiment of the present invention.
7 is a schematic view of a yarn spreading system including a spreading device according to the present invention.
8 is a side view of a krill stand included in a yarn spreading system including a spreading device according to the present invention.
9 is a side view of a traction device included in a yarn spreading system including a spreading device according to the present invention.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a spreading apparatus and a spreading system for a yarn including the spreading apparatus, and more particularly, to a spreading system for a yarn including a fixing table configured to vertically face the fixing plate, and a rotating roller Fixed government; A reciprocating unit including a movable stage which is vertically opposed to the moving plate, a movable roller which is located across the movable stage, and a movable motor which rotates the movable roller; A moving plate is connected to the upper portion of the fixing plate by a linear motion guide, and a plurality of rotating rollers are disposed on both sides of the lower portion of the movable roller; The reciprocating unit constitutes a spreading device reciprocating in the longitudinal direction of the movable roller by the reciprocating means; Wherein the movable roller has a plurality of convex portions of a convex structure along the longitudinal direction thereof; Wherein the rotary roller comprises a spreading unit in which a plurality of concave-convex portions of a convex structure or concave-convex portions of a concave structure are formed along the longitudinal direction, and a plurality of krilles are arranged to mount the rollers wound on the krill; A deasphalting device for passing the yarn through an electric furnace to remove the adherend of the yarn; The spreading device; A yarn spreading system comprising a winding device comprising a winding roller rotated by a winding motor and a traction device including a nip roller rotating in contact with the winding roller; The yarn fed from the krill is dehazed by the deaerator, and the deflected yarn passes through the convex portion of the movable roller of the spreading device and the rotating rollers on both sides thereof, The present invention relates to a spreading device and a spreading system thereof, in which a spread yarn can be pulled at a constant speed in a pulling device to quickly and easily spread a large amount of yarns.

The spreading apparatus 100 according to the present invention will be described with reference to a sequential description of a yarn spreading system including the spreading apparatus. First, the spreading apparatus 100 includes a fixing unit 110, a reciprocating unit 120, (130).

Thus, as shown in Figs. 1, 2, 3 and 4, the fixing portion 110 is formed of a hexahedral main frame 111, and a plate-like fixing plate 112 is attached to the main frame 111 And a fixing table 113 standing vertically with respect to the fixing plate 112 is opposed to each other.

The rotating roller 114 is rotatably supported by bearings (not shown) at both ends of the rotating roller 114. The rotating roller 114 rotates in the form of a rod And recesses and protrusions 114a are formed at regular intervals on the surface along the longitudinal direction.

More specifically, as shown in the enlarged view of FIG. 2, the concave-convex portion 114a having a convex structure that becomes thicker toward the center of each concave-convex portion 114a, Concave and convex portions 114a having a tapered diameter toward the center are formed uniformly along the longitudinal direction of the rotary roller 114 and the concave and convex portions of the concave and convex portions 114a formed on one rotary roller 114 Whether or not the convex structure is selected and the degree of irregularity is decided by the user's choice according to the kind of the yarn.

A plurality of such rotating rollers 114 are formed on both sides of the movable rollers 124, which will be described later, and the position of the rotating rollers 114 is further described with reference to the following movable rollers 124 .

The reciprocating unit 120 includes a moving frame 121 and a movable roller 124. The moving frame 121 constitutes a plate-shaped moving plate 122 And a moving base 123 installed vertically to the moving plate 122 are opposed to each other.

Both ends of the movable roller 124 are supported by bearings 125 and one end of the movable roller 124 is connected to the movable motor 124 The movable roller 124 is in the form of a rod, and convex portions 124a are formed at regular intervals on the surface along the longitudinal direction.

More specifically, as shown in the enlarged view of FIG. 2, convex portions 124a, which become thicker toward the center of each convex portion 124a, are formed to be constant along the longitudinal direction of the movable roller 124 And the convex degree of the convex portion 124a is determined by the user's choice according to the kind of the yarn.

The convex portion 124a of the movable roller 124 and the concave and convex portions 114a of the rotating roller 114 are formed to have the same width and spacing so that the movable roller 124 and the rotating roller 114 are positioned in parallel , One concave / convex portion 114a corresponds to one convex portion 124a.

The movable roller 124 is disposed parallel to the rotating roller 114 and the movable roller 124 is positioned between the plurality of rotating rollers 114. The movable roller 124 is positioned at a position higher than the rotating roller 114 As shown in Fig. 1, the rotating rollers 114 may be disposed on both sides of the movable rollers 124, and as shown in Fig. 4, The rotary roller 114 may be provided with a rotary roller 114 including a concavo-convex portion 114a having a concave structure and a rotary roller 114 having a convex structure, And the rotating roller 114 including the concave and convex portions 114a is appropriately used in combination so that the yarn passes over the movable roller 124 and passes under both of the rotating rollers 114, The convex portion 124a of the movable roller 124 and the concave-convex portion 114a of the rotating roller 114 sequentially pass through the yarn Please spread it.

The rotary roller 114 positioned on both sides of the movable roller 124 is positioned below the movable roller 124. The vertical positions of the rotary roller 114 and the movable roller 124 are perpendicular to each other The yarn passing between the rotating roller 114 and the movable roller 124 is in a vertical state, that is, both sides of the yarn hanging over the movable roller 124 fall vertically downward, The effect of spreading is maximized by the structure that passes under the rollers 114. When the structure is applied so that the movable roller 124 can be moved up and down as required, The conditions can be changed.

1, the movable roller 124 may be further vertically structured, or the movable roller 124 may be further configured in accordance with the moving direction of the yarn, whereby one movable roller (not shown) The movable rollers 124 (further constituting movable rollers are also rotated by the movable motor, and similarly constitute a plurality of rotating rollers below both of the movable rollers constituting a further one) The protrusions 124a of the movable rollers 124 located at the upper and lower positions are arranged such that the positions of the protrusions 124a are offset by half the width of the intervals of the protrusions 124a as shown in FIG. The upper and lower movable rollers 124 are spaced apart from each other by convex portions 124a and spaced apart from each other. The convex portion 124a at the position offset by half the width Then, you can work together spreading the many strands of yarn simultaneously with minimal interference between yarns.

In addition, the movable roller 124 is rotated by another movable roller 124 (movable motor 124) at a certain distance in accordance with the moving direction of the yarn, and also constitutes a plurality of rotating rollers on both sides of the movable roller The positions of the convex portions 124a of the plurality of movable rollers 124 installed in the moving direction are configured to correspond to each other. In this way, the plurality of movable rollers 124 in the moving direction of the yarns 124 are provided, there is a feature that the spreading of the yarn is performed more without the additional spreading device 100 being additionally provided.

The joining structure of the fixing plate 112 and the fixing table 113 of the fixing unit 110 is formed by the rotation roller 114 which is additionally provided with two or more movable rollers 124, A horizontal frame and a vertical frame are added to the structure of the moving plate 122 and the moving table 123 of the reciprocating unit 120 so that a plurality of rotations The rollers 114 and the movable rollers 124 are efficiently arranged to have a compact structure.

The convex portion 124a of the movable roller 124 and the concave-convex portion 114a of the rotary roller 114 are made of a metal such as stainless steel, stainless steel or aluminum, and the rotary roller 114 and the movable roller 124 are made of metal, Surface treatment with glass sanding makes it easier to friction by surface roughness and friction.

The movable frame 121 including the movable roller 124 rotated by the movable motor 126 performs a linear motion with respect to the fixed portion 110. For this purpose, as shown in FIGS. 4 and 6, The fixed plate 112 and the moving plate 122 are connected to each other by a linear motion guide 140 (LM guide, linear linear motion guide). To this end, a rail 141 is fixed to the movable plate 124, And the block 142 is assembled to the bottom surface of the moving plate 122 so that the moving frame 121 can move linearly with respect to the fixing plate 112. [

3, the reciprocating means 130 includes an eccentric shaft 131, a motor 137, a link plate 133, an auxiliary shaft 122a, and the like, and further includes a motor 137 Is fixed to the main frame 111. The shaft of the motor 137 is connected to the eccentric shaft 131. The eccentric shaft 131 has a structure in which the lower shaft 131a and the upper shaft 131b are integrated, 3, the lower shaft 131a and the upper shaft 131b are parallel to each other and the center of the lower shaft 131a and the center of the upper shaft 131b are separated from each other by a proper distance d A housing 135 including a bearing is coupled to the lower portion of the eccentric shaft 131 and an end of the eccentric shaft 131 is connected to the motor shaft of the motor 137 by a coupling 136. [ And the housing 135 is fixed to the fixing plate 112.

A bearing 132 is assembled to the upper shaft 131b of the eccentric shaft 131 so that the bearing 132 of the upper shaft 131b and the link plate 133 are connected to each other. And the link plate 133 is connected to the moving frame 121 of the reciprocating unit 120 to be described later.

The auxiliary shaft 122a protruded from the moving plate 122 is integrally formed with the auxiliary shaft 122a and is engaged with the bearing 134 of the link plate 133 described above. And the other end is engaged with the moving plate 122 to move the moving plate 122 by the rotation of the eccentric shaft 131 and the moving plate 122 is moved by the linear motion guide 140 (I.e., in the direction of the length of the movable roller 124).

The fixing unit 110 constitutes the spreading unit 100 with the fixing unit 110 and the reciprocating unit 120. The fixing unit 110 includes a fixing table 113 which is vertically opposed to the fixing plate 112 of the main frame 111, And the reciprocating unit 120 includes a movable roller 121 supported by a movable table 123 which is vertically opposed to the movable plate 122 of the movable frame 121, And a movable motor 126 for rotating the movable roller 124. The movable plate 122 is connected to the upper portion of the fixed plate 112 by a linear motion guide 140, And an eccentric shaft 131 integrally formed so as to be spaced apart from each other by the centers of the upper shaft 131b and the lower shaft 131a is integrally formed, 131a are connected to the motor 137 and the upper shaft 131b is connected to the moving plate 122 by a link plate 133. One end of the link plate 133 is connected to the upper A bearing 134 is assembled to the link plate 133 at the other end and an auxiliary shaft 122a integral with the movement plate 122 is connected to the bearing 134 of the link plate 133 And the movable roller 124 is formed with a plurality of convex portions 124a having a convex structure along the longitudinal direction and the rotating roller 114 has convex portions 114a having a convex structure or convex portions 114a having concave structures 114a And the reciprocating unit 120 is linearly moved on the moving plate 122 repeatedly with respect to the fixed plate 112 by the rotation of the eccentric shaft 131.

The yarn is supplied to each concave-convex portion 114a of the rotary roller 114 and the yarn passed through the rotary roller 114 is moved to the upper portion of the movable roller 124 and is again passed through the rotary roller 114 The movable roller 124 is rotated by the movable motor 126. When the eccentric shaft 131 is rotated by the motor 137, the movable roller 124 is moved by the reciprocating linear movement of the moving plate 122 by the eccentric shaft 131 The roller 124 is moved in the longitudinal direction and simultaneously the filaments constituting the yarn are rotated (spreading, spreading, expanding) by the rotation of the movable motor 126. The yarn is continuously supplied and moved , The concavo-convex portion 114a of the rotating roller 114 performs a spreading operation while guiding a plurality of yarns.

Thus, the spreading device 100 according to the present invention is characterized in that a plurality of yarns can be spread at a time by the movable roller 124 by the rotation and the linear reciprocating movement. In the past, only one yarn As a result, the spreading of many strands of yarn is performed at the same time as that of the existing spreading device which has spread the yarn, so that productivity and space efficiency are excellent. The spreading of the yarn in a short time, .

Next, a description will be given of a spreading system of a yarn to which the above-described spreading device 100 is applied. In brief, a yarn spreading system supplies a yarn, deflates the yarn, spreads the yarn, This is a system that winds the spread yarn on a roll.

More specifically, the yarn spreading system according to the present invention comprises a krill band 200, a defoaming device 300, a spreading device 100, and a traction device 400, The guide rollers are further disposed at a plurality of positions so that the materials are moved while maintaining proper tension, and the spreading system of such yarns will be described with reference to FIGS. 7 to 10 as follows.

As shown in FIGS. 7 and 8, a plurality of krill 210 are provided. Rollers 230 (bobbins, branch tubes) wound with yarns 231 (tow) are installed on the krill 210 And each yarn is unwound and supplied to the next desalination apparatus 300.

The yarns 231 are supplied without interfering with each other and the yarn guides 220 are formed on the krill band 200 and the krill 210 of the krill band 200 is arranged in a proper order. It is preferable that the yarn 231 is fed out of each yarn guide 220.

For example, the roller 230 is rotated while being rotated by the krill 210, and the yarn 231 is supplied while being unwound. Referring to some examples of supplying the yarn 231, the roller 230 together with the krill 210 The tension of the yarn can be controlled by controlling the rotation speed of the krill 210. To this end, a friction material (a cord, a pusher, etc., not shown in the drawing) The tension of the yarn 231 is adjusted by the friction between the crick 210 and the friction material or the tension of the yarn 231 is adjusted by the friction force between the crick 210 and the motor Or a sub motor (not shown) may be provided to control the degree of unwinding of the yarn 231 through the rotation control of the krill 210.

Next, the desalting device 300 is a device for burning and removing the sucking agent (epoxy series) contained in the yarn 231 by high temperature heat. The desalting device 300 is connected to the electric furnace 310 And passes through the yarn 231 by the electric furnace 310 to remove the additive contained in the yarn 231 at a temperature of 150 to 250 ° C.

The electric furnace 310 is supported by the frame 320. The electric furnace 310 can be completely removed from the yarn 231 by passing through the desoldering device 300. However, The degree of spreading (degree of spreading of the yarn) varies depending on the amount of the additive, so that the degree of spreading can be controlled through temperature control.

On the other hand, the yarn 231 deflated through the desalination device 300 enters the following spreading device 100, and as shown in an enlarged right view of FIG. 7, the dehobizing device 300 and the spreading device 300, (The glass rod is fixed without rotating), and the plurality of strands of yarn 213 are arranged between the glass rods 330 through the plurality of glass rods 330 The glass rod 330 is fixed in the shape of a round bar, and the glass rod 330 is made of a material having a high elasticity, .

The spreading device 100 following the dehydrating device 300 is constructed by applying the spreading device 100 described above and the yarn 231 is wound around the movable roller 124 of the spreading device 100 in the longitudinal direction The yarn 231 is arranged so as to pass through the spreading device 100 while passing through the rotating roller 114 and the movable roller 124 and the rotating roller 114 again, The spreading (spreading) operation of the yarn 231 is completed by the rotation of the roller 124 and the linear reciprocating movement.

For reference, the yarn passes through the yarn corresponding to each convex portion 124a of the movable roller 124 included in the spreading device 100. When a plurality of the movable rollers 124 are vertically arranged, In the case where the movable rollers 124 are further disposed in the moving direction of the yarn or a plurality of spreading devices 100 are arranged in the moving direction of the yarn, There is a feature that can increase.

9, the traction device 400 traps the yarn fed from the crick band 200 to the desalting device 300 and the spreading device 100, and discharges the delivered yarn A winding roller 410 rotated by a winding motor 411 and nip rollers 420 and 420 'rotating in contact with the winding roller 410. The nip rollers 420 and 420' Is configured to be able to contact the winding roller (410) or to move again apart.

In the structure in which the nip rollers 420 and 420 'are in contact with or spaced from the winding roller 410, both ends of the nip roller 420 are supported by the cradle 421, 422 and a male screw shaft 423 having a male thread on one side thereof are fixed to a block 422 at a distance spaced a certain distance from the cradle 421 and a male or a female 423 is screwed And the end of the male screw shaft 423 is fixed to the holder 421. When the male screw shaft 423 is rotated, the holder 421 and the nip roller 420 to which the holder 421 belongs move while the nip roller 420 And has a structure in contact with or spaced from the winding roller 410.

When the link 424 is connected to the rod of the cylinder 425, both ends of the nip roller 420 'are connected to each other by the operation of the cylinder 425, And the nip roller 420 'belonging to the nip roller 420' move, the nip roller 420 'contacts or is spaced from the winding roller 410.

Meanwhile, the traction device 400 further includes width-retaining rollers 430 and 430 'for allowing the bound yarn that is out of the spreading device 100 to be pulled with a uniform interval. To this end, A pair of width-retaining rollers 430 and 430 'positioned vertically between the support 410 and the spreading device 100 and the width-retaining rollers 430 and 430' are assembled with bearings at both ends And one width retaining roller 430 is fixed in position and the other width retaining roller 430 'is in contact with or spaced from the fixed width retaining roller 430.

To this end, both ends of the width-retaining roller 430 'are supported by a cradle 431, and the cradle 431 is coupled to the rod of the cylinder 432, And the width retaining roller 430 'belonging to the width retaining roller 430' moves while the width retaining roller 430 'is in contact with or spaced from the width retaining roller 430. The linear motion guide 433 (LM guide, linear linear motion guide)), it is easier to linearly move. When a plurality of movable rollers 124 are vertically arranged in the spreading device 100, the movable rollers 124 The width-retaining rollers 430 and 430 'are preferably arranged vertically.

As described above, the krill band 200, the desoldering unit 300, the spreading unit 100, and the traction unit 400 are arranged in sequence to constitute a yarn spreading system.

A yarn spreading system including such a spreading device feeds yarn at the krill band 200, the yarn is removed from the deburring device 300 by the yarn removing agent, And the drawn yarn is towed while maintaining the arranged spacing to complete the manufacture of the spun yarn.

The yarn spreading system according to the present invention is characterized in that the yarn is fed, defoured, and spread continuously, so that the yarn can be quickly and accurately spread. Since the yarn is pulled at a speed, it is possible to supply the yarn with the uniform quality.

For reference, in the yarn spreading system according to the present invention, following the traction device 400, a wrapping device for winding the wrapped yarn into a branch tube or a bobbin may be constituted, or a matrix resin may be impregnated and cured A conventional prepreg manufacturing apparatus can be constructed.

100: spreading device 110: fixing part 111: main frame
112: fixing plate 113: fixing table 114: rotating roller
114a: concave / convex portion 120: reciprocating portion 121: moving frame
122: moving plate 123: moving table 124: movable roller
124a: convex portion 125: bearing 126: movable motor
130: reciprocating means 131: eccentric shaft 131a:
131b: Upper shaft 132: Bearing 133: Link plate
134: bearing 135: housing 136: coupling
137: motor 140: linear motion guide
141: rail 142: block 200:
210: Krill 220: Thread guide 230: Roller
231: yarn 300: defoaming device 310: electric furnace
330: glass rod 320: frame 400: pulling device
410: winding roller 411: winding motor
420, 420 ': Nip roller 421: Cradle 422: Block
423: male screw shaft 424: link 425: cylinder
430, 430 ': width-retaining roller 431: holder
432: cylinder 433: linear motion guide

Claims (8)

A fixing unit including a fixing base vertically opposed to the fixing base, and a rotation roller positioned to cross the fixing base and rotating freely;
A reciprocating unit including a movable stage which is vertically opposed to the moving plate, a movable roller which is located across the movable stage, and a movable motor which rotates the movable roller;
A moving plate is connected to the upper portion of the fixing plate by a linear motion guide, and a plurality of rotating rollers are disposed on both sides of the lower portion of the movable roller;
The reciprocating unit constitutes a spreading device reciprocating in the longitudinal direction of the movable roller by the reciprocating means;
Wherein the movable roller has a plurality of convex portions of a convex structure along the longitudinal direction thereof;
Wherein the rotary roller has a plurality of concave / convex portions of a convex structure or concave / convex portions of a concave structure along a longitudinal direction thereof;
Wherein the yarn passing through the convex portion of the movable roller and the rotating rollers on both sides of the movable roller is fast and easy to spread the yarn by rotating and linearly reciprocating the movable roller.
The method according to claim 1,
The reciprocating means includes:
The lower shaft is connected to the motor, the upper shaft is connected to the moving plate by a link plate, and one end of the link plate is connected to the upper shaft A bearing is assembled to the link plate at the other end, and a sub-shaft integral with the moving plate is formed to be coupled with the bearing of the link plate,
And the movable roller reciprocates in the longitudinal direction by the rotating eccentric shaft.
3. The method of claim 2,
Wherein the movable roller and the rotating roller are configured to be parallel to the upper or lower position,
The positions of the convex portions of the movable rollers located up and down are offset by half the width of the convex portions,
And a plurality of yarns can be simultaneously delivered by the movable rollers positioned up and down.
The method of claim 3,
Wherein the movable roller and the rotating roller are further configured to be parallel to each other along the longitudinal direction of the yarn,
Both sides of the yarn passing above each of the movable rollers are moved to the lower side of the straight line and the movable rollers and the rotating rollers on both sides thereof are arranged so as to pass through the lower rotating roller,
The spreading of the yarn is maximized by the arrangement structure of the movable rollers and the rotating rollers on both sides of the movable rollers, and the yarn spreads a lot along the plurality of movable rollers.
5. The method of claim 4,
Wherein the movable roller and the rotating roller are made of a metal material,
The surfaces of the movable roller and the rotating roller are surface-treated with glass sanding,
Wherein the surface condition of the movable roller and the rotating roller facilitates the spreading.
A krill stand in which a plurality of krilles are arranged and the yarn wound rollers are mounted on the krill;
A deasphalting device for passing the yarn through an electric furnace to remove the adherend of the yarn;
A spreading device for spreading defoured yarn by a spreading device according to any one of claims 1 to 5;
A yarn spreading system comprising a winding roller rotating by a winding motor and a traction device comprising a nip roller contacting or spaced from the winding roller;
The yarn fed from the krill band is deflected by the de-aerator and is deflected by the deflected spreading device, and the embroidered yarn can be quickly and easily expanded by a system that pulls the yarn at a constant speed in the towing device. Characterized in that the yarn spreading system comprises a spreading device.
The method according to claim 6,
A width-retaining roller is further provided between the winding roller and the spreading device of the drawing device,
The width-retaining rollers are constituted by a pair of upper and lower portions,
Both ends of each width-retaining roller are assembled with a bearing and rotate freely,
One width-retaining roller is fixed in position, and the other width-retaining roller is constituted in a structure in which it is contacted or spaced by a fixed width-retaining roller,
Characterized in that the pleated yarn leaving the spreading device is pulled while maintaining the spacing arranged by the width retaining rollers.
8. The method of claim 7,
Between the desalting device and the spreading device,
A plurality of glass rods made of glass are further formed,
The yarn that has deviated from the desalination device enters the spreading device through the glass rod,
Wherein a tension of the glass rod is maintained by an excellent frictional force of the glass rod.

Images