KR101935857B1 - Manufacturing device for master batch with selecting device - Google Patents

Abstract

The present invention relates to an apparatus for producing a master batch, which comprises: a raw material input unit into which the raw materials are input; dies in which the input raw materials are extruded into a linear shape; a cooling unit for cooling the raw materials extruded into a linear shape; a cutting device for crushing the raw materials passing through the cooling unit; and a selecting device for passing only the raw material of a predetermined size among the crushed raw materials, wherein the selecting device comprises: a case having a hollow box shape; a selecting plate which is provided in the case and through which only a predetermined size or less of the raw material is passed; and an automatic conveying unit provided on a bottom surface of the case to move the case. The apparatus for producing a master batch having the selecting device can easily and automatically select only the master batch of a predetermined size by shaking the case by the automatic conveying unit.

Description

TECHNICAL FIELD [0001] The present invention relates to a master batch manufacturing apparatus having a sorting apparatus.

The present invention relates to an apparatus for producing a master batch, and more particularly, to a master batch producing apparatus which comprises a raw material input portion into which a raw material is input, a die in which the raw raw material is linearly extruded, a cooling portion for cooling the raw material to be linearly extruded, And a screening device for passing only raw materials of a predetermined size among the crushed raw materials, wherein the screening device comprises: a case having a hollow box shape; And a sorting device capable of automatically sorting only a master batch of a predetermined size by swinging the case by the automatic transferring part, the sorting device including a sorting plate provided on the bottom surface of the case and an automatic transferring part for moving the case, Batch manufacturing equipment.

Generally, when you want to give color or any special function to the plastic product you want to make in the process of molding by extrusion or injection method using plastic raw material (LDPE, EVA, PP, PET, PC, PVC etc.) You can make the plastic products with the desired color or special function by adding the additives to the basic plastic raw materials.

The additive having such a function is generally difficult to use because it is mixed with the plastic raw material directly because most of the additive is in a powder state or a liquid state and also the kneading property with the basic plastic raw material is poor and dispersion of the additive is poor, It is impossible to make a plastic product having

"Master batch" means a raw material in the form of a pellet in which a basic plastic raw material and additives to be added are concentrated and dispersed at a high concentration to solve this problem. By mixing plastic raw materials and "masterbatch" together and processing them, you can make plastic products with the desired color and special functions.

The masterbatch has a small effect on physical properties, is easy to handle, and is excellent in non-staining property and metering property. There are three types of colorants, that is, pellet, plate, and flake, and the pigment concentration is 20 to 70%. Because of its excellent particle dispersibility, it is suitable for coloring most other plastics, including films and fibers.

In order to manufacture such a master batch, conventionally, as shown in FIG. 1, a raw material feeding portion 2 into which raw material is fed, a die 3 in which raw raw material is linearly extruded, and a raw material to be linearly extruded are cooled A cutting device 5 for crushing a raw material having passed through the cooling part 4 and the cooling part 4 and a sorting device 7 for passing a master batch P formed in a pellet shape through the cutting device 5, . Only the master batch of a predetermined size is supplied to the storage unit 6 by the sorting device 7.

However, the prior art sorting apparatus has a problem in that it takes much time and effort to select only a master batch of a predetermined size by simply inputting a cut master batch.

On the other hand, the master batch and the manufacturing apparatus itself are well known and are described in detail in the following prior art documents, and a description thereof will be omitted.

Korean Patent No. 10-1278685 Korean Patent No. 10-1853841

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a cooling device for a refrigerator, which comprises a raw material input portion into which a raw material is input, a die in which the raw raw material is linearly extruded, And a screening device for passing only raw materials of a predetermined size among the crushed raw materials, wherein the screening device comprises: a case having a hollow box shape; And a sorting device capable of automatically sorting only a master batch of a predetermined size by swinging the case by the automatic transferring part, the sorting device including a sorting plate provided on the bottom surface of the case and an automatic transferring part for moving the case, And to provide a batch manufacturing apparatus.

It is to be understood, however, that the intention is not to limit the scope of the invention as defined in the appended claims, but that the invention may also be embodied in other specific forms without departing from the spirit or essential characteristics thereof. will be.

In order to attain the above object, the present invention provides a method of manufacturing a semiconductor device, comprising: a raw material charging part (2) to which a raw material is charged; a die (3) in which raw raw material is linearly extruded; a cooling part A cutting device 5 for crushing a raw material having passed through the cooling part 4 and a sorting device 10 for passing only raw materials of a predetermined size among the crushed raw materials, A case 100 having a box shape and a sorting plate 200 provided in the case 100 to allow only raw materials having a specific size or less to pass therethrough, And an automatic transferring unit 300. The case 100 includes a case body 110 having a hollow shape and an open top shape and a discharge hole 120 formed in a bottom surface of the case body 110, The bottom surface of the case body 110 is in the direction of the discharge hole 120 And a slanting portion 130 formed to be inclined downward from the slanting portion 130. As shown in FIG.

The automatic transferring unit 300 is provided between the bottom surface of the case body 110 and the paper surface and the automatic transferring unit 300 includes a rail 340 disposed on the paper surface, A slider 310 interlocked with the case body 110 and a ball screw 320 screwed to the slider 310 and an actuator M for driving the ball screw 320, M).

The slider 310 includes a slider main body 311 having a U shape and receiving the rail 340 therein and interlocking with the case main body 110, 2) of the slider main body 311, a load electromotive force groove 313 formed as an empty space in the thickness portion of the both side vertical portions 311-2, Wherein the rail includes a rail body formed on the ground and having a rectangular cross section and a rail body having a rectangular cross section, And a rail electrification groove 342 formed on both sides of the main body 341 and formed at the same height as the load electromagnet grooves 312. The space formed by the load electromagnet grooves 312 and the rail electrification grooves 342 A ball retainer 330 is disposed in the space of the pre-return opening 313.

The ball retainer 330 includes a plurality of balls B disposed in a moving direction of the slider 310 and spaced apart from each other by a predetermined distance and a first connecting portion 332 disposed between the balls B, And the second connection portion 333 are disposed between the adjacent pair of balls B and are arranged alternately so that the pair of balls A second connecting portion 333 is disposed between the adjacent balls B and the second connecting portion 333 is disposed between the adjacent balls B and the first connecting portion 332 is disposed between the adjacent balls B, And a spring portion 334 is provided between the second connection portions 333. The spring portions 334 are formed in the first and second connection portions 333 and 333, respectively.

The holder 331 has a disk shape and a portion of the holder 331 which is in contact with the ball B is hollowed with a specific curvature so that the ball B is in contact with the ball B, And the first connection portion 332 or the second connection portion 333 is formed between the holders 331. [

The first bending spring portion 335 and the second bending spring portion 336 are spaced apart from each other by a predetermined distance in the width direction of the ball B in the space between the balls B in which the second connection portion 333 is disposed And are configured to have a shape symmetrical to each other.

The first bending spring portion 335 has a bar-shaped first penetration portion 335-A penetrating downward the ball B and a second penetration portion 335-A extending in the horizontal direction from the lower end of the first penetration portion 335- A first vertical part 335-2 which is bent upward at an end of the first horizontal part 335-1 and a first vertical part 335-2 which is bent upward at an end of the first horizontal part 335-1, A second horizontal portion 335-3 which is bent in the direction of the adjacent ball B from the upper end of the second horizontal portion 335-3 and a second vertical portion 335-3 which is bent downward from the end of the second horizontal portion 335-3, -4 and a third horizontal portion 335-5 which is horizontally bent in the direction of the adjacent ball B at the lower end of the second vertical portion 335-4 and a third horizontal portion 335-4 A third vertical part 335-6 bent upward in the direction of the adjacent ball B and a fourth vertical part 335-6 bent in the horizontal direction in the direction of the adjacent ball B at the upper end of the third vertical part 335-6, The horizontal portion 335-7 and the adjacent ball B direction end of the fourth horizontal portion 335-7 A fourth vertical part 335-8 bent in the downward direction and a fifth horizontal part 335-9 bent in the horizontal direction in the direction of the adjacent ball B at the lower end of the fourth vertical part 335-8, And a second penetration portion 335-E that upwardly extends from the end of the fifth horizontal portion 335-9 in the direction of the adjacent ball B and penetrates the adjacent ball B upwardly .

The second bending spring portion 336 is formed symmetrically with respect to the first bending spring 335 and includes a first fixing plate 337 provided below the first bending spring portion 335, And a second fixing plate 338 provided on the upper side of the second bending spring portion 336. The first fixing plate 337 includes a first fixing plate main body 337-1 in the shape of a plate, A central slot 337-2 formed at the center of the body 337-1 in the longitudinal direction and a first side slot 337-3 formed at both sides of the first fixing plate body 337-1, A third horizontal portion 335-5 of the first folding spring portion 335 is inserted into a central slot 337-2 of the first fixing plate 337, The first vertical part 335-2 and the first horizontal part 335-1 are inserted into the first side slot 337-3 and the fourth vertical part 335-1 is inserted into the second side slot 337-4. And the fifth horizontal portion 335-9 is inserted, and the second fixing portion 335- The first fixing plate main body 338-1 has a plate-shaped second fixing plate main body 338-1 and a central slot 338-2 formed at the center of the second fixing plate main body 338-1 in the longitudinal direction, -1 in the central slot 338-2 of the second fixing plate 338 and a first side slot 338-3 and a second side slot 338-4 formed on both sides of the second fixing plate 338. [ The third horizontal portion 336-5 of the second folding spring portion 336 is inserted and the first vertical portion 336-2 and the first horizontal portion 336-2 are inserted into the first side slot 338-3. And the fourth vertical portion 336-8 and the fifth horizontal portion 336-9 are inserted into the second side slot 338-4.

The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

Prior to that, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may properly define the concept of the term in order to best explain its invention It is to be understood that the technical terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Also, the technical terms used herein should be interpreted in a sense generally understood by a person skilled in the art to which the present invention belongs, unless otherwise defined in this specification, and it should be understood that an overly comprehensive It should not be construed as a meaning or an overly reduced meaning.

Furthermore, the singular forms " a " as used herein include plural referents unless the context clearly indicates otherwise. In the present application, the term "comprising" or "comprising" or the like should not be construed as necessarily including the various elements or steps described in the specification, Or may include additional components or steps, and should be construed as meaning and concept consistent with technical thought.

According to the present invention described above, there is an effect that it is possible to easily select only a master batch of a predetermined size.

1 is a schematic view of a general masterbatch manufacturing apparatus,
FIG. 2 is a perspective view showing a case, a sorting plate, and a transfer unit of the master batch production apparatus of the present invention,
3 is a cross-sectional view of the sorting plate of the master batch production apparatus of the present invention,
4 is a perspective view showing an automatic transfer unit of a master batch apparatus according to an embodiment of the present invention,
FIG. 5 and FIG. 6 are a sectional view and a coupled view of the automatic transfer unit of the master batch apparatus according to the embodiment of the present invention,
7 to 10 are perspective views showing a ball retainer among the automatic transfer units of the master batch apparatus according to the embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

In addition, the following embodiments are not intended to limit the scope of the present invention, but merely as exemplifications of the constituent elements set forth in the claims of the present invention, and are included in technical ideas throughout the specification of the present invention, Embodiments that include components replaceable as equivalents in the elements may be included within the scope of the present invention.

As shown in FIGS. 2 and 3, the master batch manufacturing apparatus according to an embodiment of the present invention includes a raw material input portion 2 into which a raw material is input, a die 3 into which raw raw material is linearly extruded, A cutting device 5 for crushing a raw material having passed through the cooling part 4; a sorting device 10 for passing only raw materials of a predetermined size among the crushed raw materials; . At this time, the raw material input part 2, the die 3, the cooling part 4, and the cutting device 5 can use the conventional technology as shown in FIG. 1, and explanations and illustrations thereof are omitted.

The sorting apparatus (10) of the present invention comprises a case (100) having a hollow box shape, a sorting plate (200) provided inside the case (100) And an automatic transfer unit 300 provided in the case 100 to move the case 100. That is, the case 100 is shaken by the automatic transfer unit 300 so that only a master batch of a specific size passes through the sorting plate 200.

The case 100 includes a case body 110 having a hollow shape and an open top, and a discharge hole 120 formed in a bottom surface of the case body 110. At this time, a bottom surface of the case body 110 is formed with an inclined portion 130 formed to be inclined downward toward the discharge hole 120. That is, when the case body 110 is shaken by the automatic transfer unit 300, the master batch having a predetermined size passes through the sorting plate 200 and descends. The lowered master batch is gathered by the discharge hole 120 through the inclined portion 130 and discharged downward through the discharge hole 120.

The sorting plate 200 includes a plate-shaped sorting plate body 210 and a plurality of sorting holes 220 formed in the sorting plate body 210. The master batch can be selected according to the size of the sorting hole 220.

The automatic transfer unit 300 is provided between the bottom surface of the case body 110 and the ground to shake the case body 110.

4 to 6, the automatic transferring unit 300 includes a rail 340 disposed on the ground, a slider 310 coupled to the rail 340 and interlocked with the case body 110, A ball screw 320 screwed to the slider 310, and an actuator M for driving the ball screw 320. That is, when the ball screw 320 is rotated by the actuator M using an electric motor or the like, the slider 310 moves forward and backward in accordance with the rotational direction. The slider 310 is moved forward and backward to shake the case body 110 as it moves.

Meanwhile, the slider 310 and the case 100 may be fixed to each other by an adhesive or the like and may be fixed to each other by fasteners (not shown) such as bolts or the like. .

The rotational direction and rotational speed of the actuator M are controlled by a control unit (not shown).

The slider 310 includes a slider body 311 having a U shape and receiving the rail 340 therein and interlocking with the case body 110 and a pair of vertical portions 311-2 on both sides of the slider body 311, A back electret 313 formed as an empty space in a thickness portion of the both vertical portions 311-2 and a horizontal portion 311 of the slider body 311, -1) and includes a fixing hole SO to which the ball screw 320 is screwed.

Needless to say, the screw is formed in the fixing hole SO so as to be screwed with the ball screw 320.

The rail 340 has a rail main body 341 having a rectangular cross section and a rail electrification groove 342 formed on both sides of the rail main body 341 and formed at the same height as the load main groove 312, .

A ball retainer 330 as shown in FIGS. 7 to 10 is disposed in the space formed by the load electric rail groove 312 and the rail electric rail groove 342 and the space before the return hole 313.

The ball retainer 330 is for allowing the slider 310 to smoothly move with respect to the rail 340. The ball retainer 330 includes a plurality of balls B disposed in a moving direction of the slider 310 and spaced apart from each other by a predetermined distance and a first connecting portion 332 disposed between the balls B and a second And a connection portion 333.

The ball retainer 330 can absorb vibration in various directions generated between the slider 310 and the rail 340.

It is a well-known structure that the ball retainer 330 is infinitely circulated in the space formed by the load electroconductive groove 312 and the rail electroconductive groove 342 and the space before the return electroconductive hole 313 as described above. Japanese Patent No. 4619226 discloses a detailed description and an illustration thereof.

The first connection portion 332 and the second connection portion 333 are disposed between adjacent pairs of balls B and are disposed alternately. That is, when the first connection portion 332 is disposed between the pair of balls B, the first connection portion 332 is provided and the second connection portion 333 is disposed between the adjacent balls B. In other words, in the embodiment shown in FIG. 9, other balls B1 are arranged outside a pair of balls B2 on which the second connecting portions 333 are formed, and between the balls B2 and B1, A connection portion 332 is formed.

The first connection part 332 is formed on both sides so that the ball B is closely contacted.

The second connection portion 333 has a bar shape spaced apart from each other and a spring portion 334 using a coil spring or the like is provided between the second connection portions 333.

On the other hand, on both sides of the ball B, a holder 331 is attached. The holder 331 is in the form of a disk, and a portion of the holder 331 contacting the ball B is recessed at a specific curvature so that the ball B is closely contacted. The first connection portion 332 or the second connection portion 333 is formed between the holders 331.

The first folding spring portion 335 and the second folding spring portion 336 are spaced apart from each other by a predetermined distance in the width direction of the ball B and are symmetrical to each other in a space between the balls B in which the second connection portion 333 is disposed Shape.

10, the first folding spring portion 335 includes a bar-shaped first penetration portion 335-A penetrating the ball B downwardly and a first penetration portion 335- A first vertical portion 335-2 which is bent upward at an end of the first horizontal portion 335-1 and a second vertical portion 335-2 which is bent upward at an end of the first horizontal portion 335-1, A second horizontal portion 335-3 which is horizontally bent in the direction of the adjacent ball B from the upper end of the second horizontal portion 335-2 and a second horizontal portion 335-3 which is bent in the downward direction from the end of the second horizontal portion 335-3, A third horizontal part 335-5 which is horizontally bent in the direction of the adjacent ball B at the lower end of the vertical part 335-4 and the second vertical part 335-4, -5 in the direction of the adjacent ball B and a third vertical part 335-6 bent upward in the direction of the adjacent ball B in the horizontal direction in the direction of the adjacent ball B at the upper end of the third vertical part 335-6 The fourth horizontal portion 335-7 bent and the fourth horizontal portion 335-7 adjacent to the fourth horizontal portion 335-7 A fourth vertical part 335-8 bent from the end in the direction of the arrow B to a downward direction and a fifth horizontal part 335-8 bent in the direction of the adjacent ball B from the lower end of the fourth vertical part 335-8, And a second penetration portion 335-9 that upwardly extends from the end of the fifth horizontal portion 335-9 adjacent to the ball B in the upward direction and penetrates the adjacent ball B upwardly, E).

The second bending spring portion 336 is formed symmetrically with respect to the first bending spring 335 in the vertical direction as shown in FIG.

The first fixing plate 337 and the second fixing plate 338 are disposed on the lower side of the first bending spring 335 and the second fixing plate 338 on the upper side of the second bending spring 336, respectively.

10, the first fixing plate 337 includes a first fixing plate main body 337-1 in the form of a plate and a central slot 337-1 formed in the center of the first fixing plate main body 337-1 in the longitudinal direction, And a first side slot 337-3 and a second side slot 337-4 formed on both sides of the first fixing plate main body 337-1.

The third horizontal portion 335-5 of the first folding spring portion 335 is inserted into the central slot 337-2 of the first fixing plate 337 and the third horizontal portion 335-5 is inserted into the first lateral slot 337-3 The first vertical part 335-2 and the first horizontal part 335-1 are inserted and the second vertical part 335-8 and the fifth horizontal part 335-1 are inserted into the second side slot 337-4, (335-9) is inserted.

9, the second fixing plate 338 includes a second fixing plate main body 338-1 in the form of a plate and a central slot 338 formed in the center of the second fixing plate main body 338-1, -2 and a first side slot 338-3 and a second side slot 338-4 formed on both sides of the first fixing plate main body 338-1.

At this time, the third horizontal portion 336-5 of the second folding spring portion 336 is inserted into the central slot 338-2 of the second fixing plate 338, and the first lateral slot 338-3 The first vertical part 336-2 and the first horizontal part 336-1 are inserted into the second side slot 338-4 and the fourth vertical part 336-8 and the fifth horizontal part 336-1 are inserted into the second side slot 338-4, (336-9) is inserted.

The height of the first bending spring portion 335 and the second bending spring portion 336 may be smaller than the diameter of the ball B so that the first bending spring portion 335 or the second bending spring portion 336 Is prevented from rubbing against the space formed by the load transducer groove 312 and the rail electrifying groove 342 or the space of the pre-return opening 313.

The case 100 can be shaken by the automatic transferring unit 300 of the present invention, so that the case 100 can be more conveniently selected.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, You will understand.

It is therefore to be understood that the embodiments described above are to be considered in all respects only as illustrative and not restrictive, the scope of the invention being described in the foregoing specification is defined by the appended claims, Ranges and equivalents thereof are to be construed as being included within the scope of the present invention.

100: Case 110: Case body
200: sorting plate 300: automatic transferring part
310: Slider 320: Ball Screw
330: ball retainer 331: holder
332: first connection part 333: second connection part
334: spring portion 335: first bending spring portion
336: second bending spring portion 337: first fixing plate
338: second fixing plate 350:

Claims (8)

A cooling unit 4 for cooling the raw material to be linearly extruded, a cooling unit 4 for cooling the raw material which has passed through the cooling unit 4, And a screening device (10) through which only raw materials of a predetermined size are passed among the crushed raw materials,
The sorting apparatus 10 includes a case 100 in the form of a hollow box, a sorting plate 200 provided in the case 100 to allow only a predetermined size or less of raw material to pass therethrough, And an automatic transfer unit (300) for transferring the case (100)
The case 100 includes a case body 110 having a hollow shape and an open upper side and a discharge hole 120 formed in a bottom surface of the case body 110,
The bottom surface of the case body 110 is formed with an inclined portion 130 which is inclined downward in the direction of the discharge hole 120,
The automatic transfer unit 300 is provided between the bottom surface of the case body 110 and the paper surface,
The automatic transferring unit 300 includes a rail 340 disposed on the ground, a slider 310 coupled to the rail 340 to interlock with the case body 110, An actuator M for driving the ball screw 320 and a controller for controlling the actuator M,
The slider 310 includes a slider body 311 having a U shape and receiving the rail 340 therein and interlocking with the case body 110 and a pair of vertical portions 311-2 on both sides of the slider body 311, A back electret 313 formed as an empty space in a thickness portion of the both vertical portions 311-2 and a horizontal portion 311 of the slider body 311, -1) and includes a fixing hole (SO) to which the ball screw (320) is screwed,
The rail 340 includes a rail main body 341 having a rectangular cross section disposed on the ground and a rail electric groove 342 formed on both sides of the rail main body 341 and formed at the same height as the load main groove 312 ),
The ball retainer 330 is disposed in the space formed by the load electric rail groove 312 and the rail electric rail groove 342 and the space before the return hole 313,
The ball retainer 330 includes a plurality of balls B disposed in a moving direction of the slider 310 and spaced apart from each other by a predetermined distance and a first connecting portion 332 and a second connecting portion 332 disposed between the balls B, A connection portion 333,
The first connection portion 332 and the second connection portion 333 are disposed between a pair of adjacent balls B,
A first connection portion 332 is disposed between the pair of balls B and a second connection portion 333 is provided between the adjacent balls B with the first connection portion 332,
Wherein the second connection portion (333) has a bar shape spaced apart from each other, and a spring portion (334) is provided between the second connection portions (333). delete delete delete The method according to claim 1,
And a holder (331) attached to both sides of the ball (B)
The holder 331 is in the form of a disk, and a portion of the holder 331 contacting the ball B is recessed with a specific curvature to closely contact the ball B,
And the first connection part (332) or the second connection part (333) is formed between the holders (331). The method according to claim 1,
The first folding spring portion 335 and the second folding spring portion 336 are spaced apart from each other by a predetermined distance in the width direction of the ball B and are symmetrical to each other in a space between the balls B in which the second connection portion 333 is disposed And a sorting device which is provided so as to have a shape that is different from that of the master batch. The method according to claim 6,
The first bending spring portion 335 includes a bar-shaped first penetration portion 335-A penetrating downwardly of the ball B and a second penetration portion 335-A bent in a horizontal direction at a lower end of the first penetration portion 335- The first vertical part 335-2 and the upper part 335-2 of the first vertical part 335-2 are bent upward at the ends of the first horizontal part 335-1 and the first horizontal part 335-1, A second vertical portion 335-4 bent in a downward direction from an end of the second horizontal portion 335-3, A third horizontal portion 335-5 which is horizontally bent in the direction of the adjacent ball B at the lower end of the second vertical portion 335-4 and a third horizontal portion 335-4 which is bent at an adjacent ball A third vertical part 335-6 bent upward in the direction of the arrow B and a fourth horizontal part bent horizontally in the direction of the adjacent ball B at the upper end of the third vertical part 335-6 335-7) and the fourth horizontal portion (335-7) in the direction of the adjacent ball (B) And a fifth horizontal part 335-9 bent in the direction of the adjacent ball B at the lower end of the fourth vertical part 335-8, And a second penetration portion 335-E that upwardly extends from the end of the fifth horizontal portion 335-9 in the direction of the adjacent ball B and penetrates the adjacent ball B upwardly. The master batch manufacturing apparatus comprising: The method according to claim 6,
The second bending spring portion 336 is formed to be symmetrical with respect to the first bending spring 335 in the vertical direction,
A first fixing plate 337 provided below the first bending spring portion 335 and a second fixing plate 338 provided above the second bending spring portion 336,
The first fixing plate 337 includes a first fixing plate body 337-1 having a plate shape and a central slot 337-2 formed at a center of the first fixing plate body 337-1 in the longitudinal direction, A first side slot 337-3 and a second side slot 337-4 formed on both sides of the fixed plate main body 337-1,
The third horizontal portion 335-5 of the first folding spring portion 335 is inserted into the central slot 337-2 of the first fixing plate 337 and the third horizontal portion 335-5 is inserted into the first lateral slot 337-3 The first vertical part 335-2 and the first horizontal part 335-1 are inserted and the second vertical part 335-8 and the fifth horizontal part 335-4 are inserted into the second side slot 337-4. -9) are inserted,
The second fixing plate 338 includes a second fixing plate main body 338-1 in the shape of a plate and a center slot 338-2 formed in the center of the second fixing plate main body 338-1 in the longitudinal direction, A first side slot 338-3 and a second side slot 338-4 formed on both sides of the fixed plate main body 338-1,
The third horizontal portion 336-5 of the second folding spring portion 336 is inserted into the central slot 338-2 of the second fixing plate 338, The first vertical part 336-2 and the first horizontal part 336-1 are inserted and the second vertical part 336-8 and the fifth horizontal part 336-1 are inserted into the second side slot 338-4. -9) is inserted into the master batch producing apparatus.

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