WO2014030870A1

WO2014030870A1 - Perpendicularly discharging extruder die for sheet forming

Info

Publication number: WO2014030870A1
Application number: PCT/KR2013/007237
Authority: WO
Inventors: 황성연
Original assignee: 주식회사 한도기공
Priority date: 2012-08-20
Filing date: 2013-08-12
Publication date: 2014-02-27
Also published as: KR101226455B1

Abstract

The present invention relates to a perpendicularly discharging extruder die for sheet forming, including: an inlet (11) which is formed on one side surface such that a raw material (P) transported from an extruder (2) can be fed in therethrough; a transport path (12), the shape of which is expanded and which is perforated such that the fed-in raw material (P) is transported within an extruder die (1); and a die cover (20) which is configured so as to have a side surface discharge path (13) which is cut outward from the transport path (12) such that the raw material (P) fed into the transport path (12) is discharged after being bent at right angles, and which opens and closes so as to discharge the raw material (P) transported from the transport path (12) to the other side surface. The extruder die including a discharge path which transports a raw material in the shape of an L on one surface of the extruder can improve the usage of space.

Description

Extruder dice for sheet molding discharged at right angles

The present invention relates to a right-angle discharge die for sheet molding, and more particularly, an extruder having a discharge path for transferring raw materials in an "L" shape on one side of an extruder so that the length of the sheet varies and the installation area of the die is reduced. Sheet forming with dies, easy to clean and maintain, discharged at right angles with an open and close die cover on one side of the extruder die to prevent the defect of the sheet by discharging the raw material containing bubbles when the raw material is first introduced. It relates to an extruder die for.

In general, an extruder for molding rubber is provided with a die for final molding into a desired shape in a finishing process.

The die is formed in the shape of the final shape in the shape of the discharge port, as in the case of forming the discharge port of the die in a circular shape when the final molding in a circular shape, and in the shape of the discharge port of the die in the shape of a square when the final molding in a square shape. It is common for this to be determined.

1 is a schematic view showing a T-type die of the extruder die of the prior art for forming a sheet, the conventional extruder T-shaped die is a rectangular shape in which the upper plate 10a is fastened to the upper surface by a bolt (B) Of the upper die 10 and a rectangular lower die 20 which are fastened to the lower end of the upper die 10 by bolts B so as to form a flow path A therein, and the upper die 10 of the upper die 10. A gap adjusting block 30 inserted into the upper guide groove 11 and the lower guide groove 21 of the lower die 20, and the support plates 40 provided on both side surfaces of the upper and

lower dies

10 and 20, respectively. And, it consists of a cover 50 consisting of upper and lower covers (51, 55) covering the outside.

However, in case of staying inside the T-type die for a long time depending on the characteristics of the raw material, it is burned out in the case of water support material due to the high temperature, and in the case of rubber material, scorch (curing) is generated, and the contact area is wide and the surface is pressed. As a result, there was a problem that scratches occur.

In addition, when the area of the sheet product to be molded is increased, the size of the T-type dice is also increased in proportion to this, and thus there is a problem in that the installation place is inefficiently used.

In addition, the production of rubber sheets for large-sized lining can be produced in a machine using a press roller called calender, which generally polishes paper and paper, etc., but in the production of thin sheets, the rolling limit of the press roller is exceeded. There was a problem that bubbles are generated to cause a defect of the product.

The present invention was created in order to solve the problems of the prior art as described above, and an object of the present invention is to provide a space utilizing an extruder die having an ejection path for transferring raw materials in an "L" shape, that is, a right angle, on one surface of the extruder. It improves the properties, makes the width of the sheet variously, and has a die cover that can be opened and closed on one side of the extruder die for easy cleaning and maintenance. An object of the present invention is to provide an extruder die for forming a sheet that is discharged at a right angle to minimize.

The extruder for sheet molding extruded at right angles according to the present invention for achieving the above object is an extruder die which is attached to one surface of an extruder for conveying the raw material introduced in one direction to discharge the raw material to be transported in a sheet form. An inlet formed on one side so that the raw material conveyed from the feeder is expanded, an expanded feed passage formed in the other side of the inlet so that the introduced raw material is transferred inside the extruder die, and the raw material introduced into the conveying path is perpendicular to each other. A die body which is divided into up and down parts and formed of a side discharge path cut outward from the inner circumference of the transfer path to be discharged by bending;

And a die cover configured to fix the die body divided up and down on the other side of the inlet of the die body, and to be opened or closed to block or flow the raw material transferred from the transfer path to the other side.

The lower one side of the side discharge path is provided with a discharge amount adjusting means for changing the vertical height of the side discharge path to be moved up and down so that the amount of raw material transferred from the transfer path to the side discharge path is variable, the discharge amount adjusting means The lower portion of the discharge amount adjusting means is characterized in that it is provided with a plurality of discharge amount adjusting port penetrated and screwed in the lower surface of the die body so that the shangdong.

The discharge amount which is inclined so that the height of the inlet side of the discharge amount adjusting means is high and the height of the opposite side of the inlet side is low so that the same amount of the raw material flowing from the inlet is introduced into the side discharge path on the upper surface of the discharge amount adjusting means. It characterized in that the inclined portion is formed.

One side of the die cover is provided with a cover hinge connection portion formed to rotate and open and close the die cover, and one side of the die body is connected to the cover hinge connection portion is formed a body hinge connection portion formed to penetrate through the hinge, One surface of the die cover is characterized in that the plurality of cover fastening holes for fastening the die body and the die cover.

The die cover is perforated with a cover conveying path communicating with the conveying path so that the raw material conveyed from the conveying path is discharged, and a die auxiliary cover is formed on one surface of the die cover to open and close the cover conveying path. The inner periphery of the furnace is characterized in that the shaft-shaped cover feed shaft pipe path is formed so that the discharge area of the transferred raw material is reduced.

The die subsidiary cover is formed in communication with the cover feed path and the perforated auxiliary cover feed path is formed so that the raw material transferred from the cover feed path is discharged, and one side of the die auxiliary cover is rotated to open and close the auxiliary cover feed path. It characterized in that the auxiliary cover opening and closing means is formed.

The auxiliary cover opening and closing means is formed in the cylindrical rotary opening and closing the perforated auxiliary cover opening and closing hole communicating with the auxiliary cover transfer path, the rotary opening and closing connection piece in the inner side of the rotary opening and closing so as to be rotatable in both sides of the rotary opening and closing It is formed, characterized in that the rotating lever opening is formed on one side of the rotary opening and closing so that the user can grip when rotating the rotary opening and closing.

The outer side of the die discharge passage is provided with a discharge thickness adjusting means for varying the vertical height of the side discharge passage so that the raw material flowing into the side discharge passage is discharged to a predetermined thickness, the upper side of the discharge thickness adjusting means It characterized in that it is provided with a plurality of discharge thickness adjusting holes penetrated in the upper surface of the die body and screwed to move the discharge thickness adjusting means up and down.

A front surface of the discharge thickness adjusting means is provided with a plurality of thickness adjusting fasteners for fastening through one surface of the die body and the discharge thickness adjusting means so that the discharge thickness adjusting means adjusted up and down is firmly fixed. .

As described above, the rectangular ejection die for sheet molding according to the present invention has the following effects.

First, by having an extruder die formed with an "L" shape, that is, a discharge path for transferring raw materials in a rectangular shape, on one surface of the extruder for transporting rubber or water support material calcined at a high temperature in one direction, Improve the versatility of the sheet width,

Second, by fixing the dice body divided up and down, and having a die cover rotated on one side of the die body to block or open the material transported from the inside of the die body to the other side, when the die cover is sealed Induce the raw material to be transferred to the side discharge path, and when deployed can facilitate the internal cleaning and maintenance,

Third, by providing a discharge amount adjusting means that is moved up and down on the lower surface of the side discharge path to fill the first raw material flowing from the extruder to the inside of the die body, the discharge amount control until the raw material is filled inside the die body If the raw material is filled after adjusting the means to the best position, the discharge amount adjusting means can be adjusted to the lowest position to greatly reduce the unnecessary consumption of raw materials.

Fourth, by providing a die auxiliary cover to open or open the cover conveying path for the raw material is transferred to the die cover, it can be easily opened and closed without opening and closing the die cover directly coupled with the die body, cleaning and maintenance of the interior Can facilitate,

Fifth, by providing an auxiliary cover opening and closing means provided with a rotary lever sphere easy to grip the user on one surface of the die cover, it is possible to visually check the bubble or defective raw material distributed in the raw material introduced from the extruder with the naked eye There is an effect that can improve the commerciality, and can significantly reduce the defective rate of the product.

1 is a configuration diagram showing a T-type extruder dice for the prior art,

Figure 2 is a perspective view showing an extruder dice according to the present invention,

Figure 3 is an exploded perspective view showing an extruder dice according to the present invention,

4 is a plan view showing an embodiment according to the present invention,

Figure 5 is a side view showing an embodiment according to the present invention,

6 is a front view showing an embodiment according to the present invention,

7 is a partial front view showing an embodiment according to the present invention,

8 is a state diagram showing an embodiment of the rotary switchgear according to the present invention, 8a is a state diagram of the rotary switch is closed, 8b is a state diagram of the rotary switch opening and closing.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

The sheet molding extruder die discharged at a right angle according to the present invention is a raw material (P) attached to one surface of the extruder (2) for transporting the raw material (P) introduced therein in one direction as shown in FIGS. ) As an extruder die 1 for discharging a sheet into a sheet shape, an inlet 11 formed at one side such that the raw material P transferred from the extruder 2 is introduced, and the raw material P introduced therein is the extruder die 1. The transfer path 12 of the expansion pipe-shaped perforated to the other side of the inlet 11 so as to be transferred from the inside of the inlet 11 and the raw material P introduced into the transfer path 12 is bent at a right angle and discharged. A die body (10) consisting of a side discharge passage (13) cut outward from the inner circumference of (12) and divided up and down; Fixing the die body 10 divided up and down on the other side of the inlet 11 of the die body 10, the discharge of the raw material (P) transferred from the transfer path 12 to the other side is blocked or The die cover 20 is opened and closed to flow.

Here, the inlet 11 is preferably formed in the shape of a shaft tube diameter is reduced while moving in the feed direction in order to impose a transfer force of the raw material (P) flowing from the extruder (2).

On the other hand, it is preferable that a plurality of coupling bolts (not shown) are vertically penetrated so as to couple the dice body 10 divided up and down.

In addition, in the die body 10, in order to match the properties of the raw material (P) transported at a high temperature, a hot tub circulation path (not shown) through which hot water is circulated is formed or an electric heater rod generating heat by applying electricity. (Not shown) is preferably provided.

In addition, the lower one surface of the side discharge path 13 by varying the vertical height of the side discharge path 13 is the amount of the raw material (P) transferred from the transfer path 12 to the side discharge path 13 Discharge amount adjusting means 14 which is vertically conveyed so as to be variable is provided, the lower portion of the discharge amount adjusting means 14 is penetrated through the lower surface of the die body 10 so that the discharge movement of the discharge amount adjusting means 14 can be moved A plurality of fastening amount adjusting openings 15 are provided.

On the other hand, a space portion (not shown) is formed on the lower surface of the side discharge passage 13 so that the discharge amount adjusting means 14 can be moved up and down, and the discharge amount control on the lower surface of the space portion (not shown) It is preferable that a plurality of discharge amount adjustment hole recesses (not shown) are formed to penetrate the lower surface of the die body 10 so that the spheres 15 are screwed.

Here, the discharge amount adjusting means 15 is provided with a plurality of rows in a row, the first is formed of a push adjusting mechanism (not shown) for pushing up the discharge amount adjusting means 14, the second is the discharge amount adjusting means 14 It is preferable that the puller is alternately provided to the pull control device (not shown).

In addition, an inlet port of the discharge amount adjusting means 14 is disposed on the upper surface of the discharge amount adjusting means 14 so that the same amount of the raw material P introduced from the inlet 11 is introduced into the side discharge path 13. The inclined discharge amount inclined portion 14a is formed such that the height at the 11) side is high and the height at the opposite side of the inlet 11 is low.

In addition, one side of the die cover 20 is provided with a cover hinge connection portion 21 formed so that the die cover 20 is rotated and opened, and one side of the die body 10 has the cover hinge connection portion 21. Is connected to the body hinge connecting portion 16 is formed so as to penetrate through the hinge (h), a plurality of the through-through the die body 10 and the die cover 20 on one surface of the die cover (20) A cover fastener 22 is provided.

Here, upper and lower surfaces of the cover hinge connecting portion 21 and upper and lower surfaces of the main hinge connecting portion 16 are formed with hinge hinge grooves (not shown) having the same diameter so that the hinge h is recessed, and the die cover 20 is formed. ), A through hole (not shown) through which the cover fastener 22 penetrates, and a screw hole (not shown) are formed in the die body 10 so that the cover fastener 22 is screwed.

On the other hand, it is also preferable that the sealing cover (not shown) is provided on the contact surface of the die cover 20 or the die body 10 so that the raw material (P) moving in the inside does not leak out.

In addition, the die cover 20 is perforated with a cover transfer path 23 communicated with the transfer path 12 so that the raw material (P) transferred from the transfer path 12, the die cover 20 A die auxiliary cover 24 is formed on one surface of the cover feed path 23 so that the cover feed path 23 is opened and closed, and the inner periphery of the cover feed path 23 has a shaft-shaped cover to reduce the discharge area of the transferred raw material P. The feed shaft pipe line 23a is formed.

Here, a hinge connecting portion (not shown) to which a hinge (h) is connected is formed on a lower surface of the die auxiliary cover 24 so that the die auxiliary cover 24 may be rotated up and down and opened and closed. It is preferable that an auxiliary cover fixing part (not shown) is formed to seal and fix the die auxiliary cover 24.

In addition, the die auxiliary cover 24 is perforated with an auxiliary cover transfer path 25 communicating with the cover transfer path 23 so that the raw material P transferred from the cover transfer path 23 is discharged. An auxiliary cover opening and closing means 26 is formed on one surface of the auxiliary cover 24 to rotate to open and close the auxiliary cover transport path 25.

In addition, the auxiliary cover opening and closing means 26 is formed with a cylindrical rotary opening and closing hole 26a in which the auxiliary cover opening and closing hole 26b communicating with the auxiliary cover conveying path 25 is formed, and the opening and closing of the rotary opening and closing 26a. On both sides, the rotary opening and closing hole 26a is inserted into a rotary opening and closing connection piece 26c having an inner side to be rotatable, and a user grips one side of the rotary opening and closing hole 26a when the rotary opening and closing hole 26a is rotated. The rotary lever sphere 26d is formed so that it can be done.

Here, the auxiliary cover opening and closing hole (26b) is in communication with the auxiliary cover transfer path 25 by the rotation of the rotary opening and closing 26a or the outer circumference of the rotary opening and closing hole (26a) so that the auxiliary cover transfer path 25 is sealed. It is preferable to penetrate through the same diameter as the auxiliary cover feed path (25).

In addition, the upper and lower heights of the side discharge passages 13 are disposed at the outer side of the side discharge passages 13 of the die body 10 so that the raw material P introduced into the side discharge passages 13 is discharged to a predetermined thickness. Variable discharge thickness adjusting means 17 is provided, and the upper part of the discharge thickness adjusting means 17 penetrates from the upper surface of the die body 10 and is screwed to move the discharge thickness adjusting means 17 up and down. A plurality of discharge thickness adjusting mechanism (17a) is provided.

Here, it is preferable that a seating groove (not shown) is formed on the outer surface of the die body 10 so that the discharge thickness adjusting means 17 can be moved up and down. .

In addition, the front surface of the discharge thickness adjusting means 17 through-fastening one surface of the die body 10 and the discharge thickness adjusting means 17 so that the discharge thickness adjusting means 17 adjusted up and down is firmly fixed. A plurality of thickness adjusting fasteners 17b are provided.

On the other hand, the discharge thickness adjusting means 17 is preferably formed in the through hole (not shown) through which the thickness adjustment fastening member (17b) is recessed so that it can be moved up and down easily.

Looking at the action of the sheet-shaped right-angle discharge die according to the present invention made of the above configuration as follows.

Sheet molding extruder die discharged at a right angle according to the present invention "L" on one side of the extruder (2) for conveying rubber or water support material (P) fired at a high temperature in one direction as shown in Figures 2 to 4 "By providing the extruder dice 1 in which the discharge path which transfers a raw material to a shape, ie, a rectangular shape, is provided, the space utilization inside a factory can be improved.

That is, as illustrated in FIG. 4, raw materials introduced by forming a shaft-shaped inlet 11 on one side of the die body 10 so that the raw material P to be transferred to one side of the extruder 2 may be introduced ( By introducing the feed force of P) at a high pressure due to the pressure inversely proportional to the cross-sectional area, the raw material P introduced from the extruder 2 can be easily transferred from the transfer path 12.

Subsequently, due to the side discharge path 13 cut outward on one side of the inner circumferential surface of the transfer path 12, the raw material P transferred from the transfer path 12 to one side may be bent at a right angle and discharged to the outside. .

At this time, by forming the cylindrical conveying path 12 formed in the die body 10 in an expanded pipe shape having a larger diameter while moving in the conveying direction, the pressure of the raw material P flowing into the conveying path 12 is increased. Overload can be prevented.

And, the die body 10 is fixed up and down due to the die cover 20 provided on the other side of the die body 10, the raw material (P) to be transferred from the transfer path 12 The discharge to the side can be blocked or opened.

As a result, when the die cover 20 is sealed, the raw material P transferred therein is moved to the side discharge path 13, and when it is deployed, the inside of the die cover 20 can be easily cleaned and maintained. .

Here, as shown in FIGS. 4 to 5, the lower portion of the side discharge path 13 so as to safely fill the inside of the transfer path 12 with the raw material P introduced for the first time in the extruder 2. Due to the discharge amount adjusting means 14 which is provided on one surface and moves up and down, the discharge amount adjusting means 14 is adjusted to the best position until the raw material P is filled in the transfer path 12, and then When (P) is full, by adjusting the discharge amount adjusting means 14 to the lowest position, it is possible to significantly reduce the raw material (P) which is unnecessaryly consumed.

On the other hand, as shown in Figure 5 can adjust the amount of the raw material (P) introduced into the side discharge path 13 due to the discharge amount adjusting device 15 is provided so that the vertical height is adjusted to the lower portion of the discharge amount adjusting means (14) Will be.

At this time, as shown in Figure 6 the discharge amount inclined so that the height (h1) in the direction of the inlet 11 is high on the upper surface of the discharge amount adjusting means 14, the height (h2) opposite the inlet 11 is low. Due to the inclined portion 14a, the amount of the raw material P flowing into the side discharge path 13 on the side of the inlet 11 and the raw material P flowing into the side discharge path 13 on the opposite side of the inlet 11 Can be adjusted to a predetermined proportion.

On the other hand, by rotating the plurality of discharge amount control port 15 differently to be able to arbitrarily adjust the angle of one side and the other side of the discharge amount adjusting means 14, thereby closing or opening and closing the side discharge path (13) Or it is possible to position the vertical height of one side and the other side of the side discharge passage 13 differently.

Subsequently, as shown in FIG. 5, the raw material P passing through the discharge amount adjusting means 14 is discharged due to the discharge thickness adjusting means 17 provided to move up and down on the outer side of the side discharge path 13. It is discharged to the outside of the extruder dice (1) to form a sheet (S) having a predetermined thickness.

At this time, the discharge thickness adjusting means 17 is moved upward and downward due to the plurality of discharge thickness adjusting holes 17a provided on the upper part of the discharge thickness adjusting means 17, thereby discharging to the outside of the extruder die 1. It is possible to easily adjust the thickness of the sheet (S) to be.

On the other hand, the raw material discharged from the inside due to the plurality of thickness adjusting fasteners 17b through-fastening the one surface of the die body 10 and the discharge thickness adjusting means 17 on the front surface of the discharge thickness adjusting means 17. The discharge thickness adjusting means by preventing the discharge thickness adjusting means 17 from being separated by the pressure generated by (P) in advance and forming a recessed hole through which the thickness adjusting fastener 17b is recessed. 17) the Shanghai dong will be possible.

Here, when the discharge thickness adjusting means 17 is set to a predetermined thickness, when the thickness of the sheet S discharged is not constant, the discharge amount adjusting means 15 so that the heights of both sides of the discharge amount adjusting means 14 are inconsistent. By adjusting the thickness of the sheet (S) in the thin portion by lowering the discharge amount adjusting means 14 to increase the amount of the raw material (P), to compensate for the thickness of the sheet (S), the thickness of the sheet (S) In the thick portion, by increasing the discharge amount adjusting means 14 to reduce the amount of the raw material (P), it is possible to reduce the thickness of the sheet (S).

In addition, as shown in FIG. 7, the die cover 20 may include a die cover directly coupled with the die body 10 due to the die auxiliary cover 24 provided to open and close the cover transfer path 23. 20) Can be easily opened and closed without opening and closing to facilitate the cleaning and maintenance of the interior.

Here, the hinge is connected to the lower portion of the die auxiliary cover 24 by the hinge (not shown) connected to the lower portion (not shown) and the upper and the second die cover 24 and the die cover 20 for fastening detachable Due to the auxiliary cover fixing part (not shown) it is possible to simply open and close the die auxiliary cover 24.

At this time, the rotation provided in the auxiliary cover opening and closing means 26 due to the auxiliary cover opening and closing means 26 having a rotary opening and closing hole 26a for easily sealing or opening and closing the inside of the die auxiliary cover 24. By holding and rotating the lever tool 26d, the raw material P filled in the die body 10 can be discharged arbitrarily very easily.

Here, as shown in Figure 8a by rotating the auxiliary cover opening and closing hole 26b drilled in the interior of the rotary opening and closing 26a vertically, the auxiliary cover feed path 25 to the outer periphery of the rotary opening and closing opening (26a) ) Is closed, and by rotating the auxiliary cover opening and closing hole 26b bored in the rotary opening and closing hole 26a horizontally, as shown in Figure 8b, the auxiliary cover feed path 25 and the auxiliary cover opening and closing hole The internal raw material P can be discharged | emitted to the exterior by mutually communicating 26b.

Therefore, bubbles or defective raw materials P distributed in the raw material P introduced for the first time in the extruder 2 can be visually checked, thereby improving the commercial property of the sheet S, and improving the defective rate of the product. You can make a big drop.

The present invention is not limited to the above-described specific preferred embodiments, and various modifications can be made by those skilled in the art without departing from the gist of the present invention as claimed in the claims. Of course, such changes will fall within the scope of the claims.

* Description of the sign

1: Extruder Die 2: Extruder

10: die body 11: inlet

12: transfer path 13: side discharge path

14: discharge amount adjusting means 14a: discharge amount slope portion

15: discharge amount control port 16: body hinge connection portion

17: discharge thickness adjusting means 17a: discharge thickness adjusting device

17b: thickness adjusting fastener 20: die cover

21: cover hinge connector 22: cover fastener

23: cover feed path 23a: cover feed shaft pipe

24: die subsidiary cover 25: subsidiary cover feed path

26: auxiliary cover opening and closing means 26a: rotary opening and closing

26b: auxiliary cover opening and closing hole 26c: rotary opening and closing connection piece

29: rotary lever ball P: raw material

S: Sheet

Claims

In the extruder dice (1) for discharging the raw material (P) attached to one surface of the extruder (2) for transferring the raw material (P) injected into one direction in a sheet form,

The inlet 11 formed on one side so that the raw material (P) conveyed from the extruder (2) and the other of the inlet (11) so that the introduced raw material (P) is transferred in the extruder die (1) A side discharge pipe cut outward from the inner circumference of the transfer path 12 so that the expanded feed passage 12 drilled in the side and the raw material P introduced into the transfer path 12 are bent at a right angle and discharged. A die body 10 consisting of a furnace 13 and divided up and down;

Fixing the die body 10 divided up and down on the other side of the inlet 11 of the die body 10, the discharge of the raw material (P) transferred from the transfer path 12 to the other side is blocked or Die-screw extruder for sheet molding discharged at a right angle, characterized in that consisting of;
The method of claim 1,

The upper and lower heights of the side discharge path 13 are variable on one lower surface of the side discharge path 13 so that the amount of the raw material P transferred from the transfer path 12 to the side discharge path 13 is variable. Discharge amount adjusting means 14 which is conveyed up and down is provided,

A lower portion of the discharge amount adjusting means 14 is provided with a plurality of discharge amount adjusting holes 15 penetrated and screwed in the lower surface of the die body 10 so that the discharge amount adjusting means 14 can be moved. Extruder dice for sheet molding discharged at right angles.
The method of claim 2,

Inlet 11 of the discharge amount adjusting means 14 so that the same amount of the raw material (P) flowing from the inlet 11 is introduced into the side discharge path 13 on the upper surface of the discharge amount adjusting means 14. The extruder die for sheet molding discharged at right angles, characterized in that the discharge amount inclined portion 14a is inclined so that the height of the side is high and the height of the opposite side of the inlet 11 is low.
The method of claim 1,

One side of the die cover 20 is provided with a cover hinge connection portion 21 formed to rotate and open and close the die cover 20, and one side of the die body 10 is connected to the cover hinge connection portion 21. Main body hinge connecting portion 16 is formed to penetrate through the hinge (h), a plurality of cover fastening through the die body 10 and the die cover 20 on one surface of the die cover 20 The extruder die for sheet molding discharged at a right angle, characterized in that the sphere 22 is provided.
The method of claim 1,

The die cover 20 is perforated with a cover transfer path 23 communicated with the transfer path 12 so that the raw material (P) transferred from the transfer path 12 is discharged, one surface of the die cover 20 The die auxiliary cover 24 is formed to open and close the cover conveying path 23, and the inner circumference of the cover conveying path 23 has a shaft-shaped cover conveying shaft tube so that the discharge area of the transferred raw material P is reduced. The extruder die for sheet molding discharged at a right angle, characterized in that the furnace (23a) is formed.
The method of claim 5,

The die auxiliary cover 24 is formed in communication with the cover transfer path 23 so that the raw material P transferred from the cover transfer path 23 is discharged, and a perforated auxiliary cover transfer path 25 is formed. One side of the auxiliary cover 24 is an auxiliary cover opening and discharging means for forming a sheet forming extruder die which is characterized in that the auxiliary cover opening and closing means 26 is rotated so as to open and close the 25.
The method of claim 6,

The auxiliary cover opening and closing means 26 is formed with a cylindrical rotary opening and closing hole 26a in which the auxiliary cover opening and closing hole 26b communicating with the auxiliary cover transfer path 25 is formed, and is provided at both sides of the rotary opening and closing opening 26a. The rotary opening and closing hole 26a is formed to form a rotary opening and closing connection piece 26c having a perforated inside thereof so as to be rotatable, and the user can grip the rotary opening and closing hole 26a at one side of the rotary opening and closing hole 26a. Extruder die for sheet molding discharged at a right angle, characterized in that the rotary lever sphere 29 is formed so that.
The method of claim 1,

The upper and lower heights of the side discharge passage 13 are variable so that the raw material P introduced into and transported from the side discharge passage 13 is discharged to a predetermined thickness on the outer side of the side discharge passage 13 of the die body 10. Discharge thickness adjusting means (17) is provided, and the upper part of the discharge thickness adjusting means (17) penetrates from the upper surface of the die body (10) and screwed to move the discharge thickness adjusting means (17) up and down The extruder die for sheet molding discharged at a right angle, characterized in that the two discharge thickness adjusting mechanism (17a) is provided.
The method of claim 8,

A plurality of penetrating fastening one surface of the die body 10 and the discharge thickness adjusting means 17 so that the discharge thickness adjusting means 17 adjusted up and down is firmly fixed on the front surface of the discharge thickness adjusting means 17. The extruder die for sheet molding discharged at right angles, characterized in that the two thickness adjusting fasteners (17b) is provided.