KR20140062760A - Sieve and device for separate solids from liquids - Google Patents

Abstract

The present invention relates to an apparatus for separating a foreign substance from a flow material separating a foreign substance having a certain size or more from a flow material. The present invention comprises a cylindrical body forming multiple penetration holes between the inner surface and the outer surface; a cylinder having a cylindrical body installed inside, to have the flow material flowing in through an inlet flow into the cylindrical body and pass the multiple through holes and be discharged through an outlet; a piston having a scratch ring being moved while contacted with the inner surface of the cylindrical body to separate the foreign substances from the inner surface of the cylindrical body and discharge through a foreign substance discharge port when the foreign substances included in the flow material is caught at the entrance of the through holes of the cylindrical body; a piston driver reciprocating the piston in the cylindrical body.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a sieve and a device for separating foreign matters in a fluid material,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a foreign matter separator and apparatus in a flowing material, and more particularly, to an apparatus for removing foreign matters from a flowing material such as a plastic melt.

In order to regenerate synthetic resin from various wastes, waste regenerating apparatuses are used. In this apparatus, the synthetic resin is melted by heat, and then the impurities are removed to restore the quality to a level that can be reused.

When plastic is to be melted and regenerated with pure resin, various foreign substances mixed in the waste synthetic resin are not removed well, which is a big problem. These foreign substances are sand, small pebbles, silver foil, metal, paper, etc. which are not melted, and these foreign substances cause failure of the synthetic resin regenerating device.

Therefore, a foreign matter removing unit or a filtering unit is provided to prevent the insoluble foreign matter from melting during the melting and extrusion process of the foreign material entering the extrusion apparatus together with the waste synthetic resin and preventing the flow of the molten material from being interrupted between the screw and the screw case .

In the patent No. 10-0411954 published on Dec. 31, 2003, a foreign substance such as a metal or a small stone mixed with a waste synthetic resin is introduced into an extruding device together with a waste synthetic resin, and an insoluble foreign matter passes through a screw and a screw And a foreign matter removing unit is provided in the molten transfer unit to prevent foreign substances from being disturbed by interrupting the flow of the molten material interposed between the cases so as to prevent the molten material from interfering with the extrusion. There is disclosed a waste synthetic resin extrusion apparatus and method in which a clogging phenomenon is automatically removed using a stripping network and a hydraulic discharge portion.

Patent Document 10-0411955 published on Dec. 31, 2003 discloses an apparatus and a method for automatically recycling waste expanded polystyrene (styrofoam) in a pellet state by pulverizing, melting and extruding by a continuous process. Is provided with a tapered structure at the outlet side of each melt transporting screw, a large number of water and gas discharge openings are provided, a second molten metal transfer vessel is installed at an oblique inclination angle, and defective foamed polystyrene in the recovered expanded polystyrene is subjected to a simple process And a regeneration section for re-melting the molten resin.

Open No. 10-2010-0013147, published on Feb. 09, 2010, discloses a rotary extruder die equipped with a rotary slope surface screen. The present invention relates to a rotary extruder die equipped with a rotary slope surface screen, which comprises a raw material feed hole formed in one side of an extruder, Wherein the raw material is discharged in the form of a pellet through an extrusion hole formed in an end of the extruder in the state that the extraneous material contained in the raw material is removed after discharging the moisture, the barrel portion is formed at one side of the extruder, And a raw material to be extruded through the vent hole of the barrel portion is extruded through the raw material supply portion of the rolling portion to the extrusion hole of the extruder so that the raw material is easily discharged and the cut portion is formed at one side of the rolling portion of the extruder, So as to recover the raw material on the screen member of the rolling part It will be generated.

Patent Publication No. 10-1171496 published on Aug. 07, 2012 discloses a foreign matter separating device in a drum body and a flowing substance. The present invention relates to a device for separating foreign substances such as solids in a flowing material, as shown in Fig. 1, which is a device for separating foreign substances such as solids from a plurality of A drum body having a through hole formed therein; And a foreign matter removing blade which is provided in contact with the outer surface of the drum body or spaced apart from the outer surface of the drum body by a predetermined distance in order to remove foreign substances from the surface of the drum body through the through holes of the drum body, So that the foreign matter held in the hole of the sieve is separated from the drum body

Conventional methods and apparatuses for removing foreign substances have problems such as frequent occurrence of malfunctions in the process of removing various foreign substances, deterioration of the foreign matter separating material easily, or replacement of the foreign matter which is caught in the body, There were many inconveniences. Therefore, there is a drawback that the productivity of removing the foreign matter is low and the quality of the final product is poor. The foreign substances which are difficult to remove in the conventional foreign substance removing apparatus are small nails, aluminum foil, paper pieces, labels, etc. These foreign substances block the holes of the filter to block the flow of the melt, reduce the normal operation time of the apparatus, Shortening the life of the machine, and even damaging the machine.

In addition, if the foreign objects are caught on the body, the machine should be stopped and the body (wire net) should be replaced. The resin is buried in the body and if it is burned, the pollutant will spread to the atmosphere and cause serious damage to the residents.

An object of the present invention is to provide a device for separating large and small foreign substances such as nails, stones, stain pieces, aluminum foil, paper, labels, sand, etc.,

Disclosure of Invention Technical Problem [8] The present invention is intended to provide a plastic waste regenerating apparatus capable of melting plastic wastes to separate and remove foreign materials for reuse.

The present invention is intended to provide a method and apparatus for releasing foreign matter adhering to a cylindrical body during normal operation of the apparatus and capable of removing the collected foreign matter during normal operation.

The present invention relates to a cylindrical body for separating impurities from a flowing substance, the inlet of the through-hole on the inner side of the cylindrical body being smaller than the outlet of the through-hole on the outer side, and the through- So that the foreign matter can be used for a long time without being sandwiched between the through holes.

The present invention is intended to enable a pressure sensor to sense foreign matter caught in a cylindrical body by a predetermined amount, and to automatically discharge it by drum rotation and a scratch discharge process.

The object of the present invention is to provide a foreign substance processing system capable of enlarging the size of the apparatus and increasing the throughput.

By removing the foreign materials caught by the cylindrical body of the present invention with the scratch ring of the piston, it is possible to remove large and small foreign matters such as nails, boulders, stain pieces, aluminum foil, paper, labels, To provide a device with

The present invention relates to a foreign matter separating apparatus for separating foreign matter having a predetermined size or more from a flowing material, comprising: a cylindrical body formed between an inner surface and an outer surface of a plurality of through holes; a cylindrical body disposed inside the hollow body; A cylinder for allowing the substance to enter the cylindrical body and passing through the plurality of through holes and being discharged to the outlet; and a filter for separating the foreign substances from the inner surface of the cylindrical body when the foreign substances contained in the flowing substance are caught by the openings of the cylindrical bodies, A piston having a scraping ring moving in contact with the inner surface of the cylindrical body for discharging to the discharge port; and a piston driver reciprocating the piston in the cylindrical body.

The cylindrical body of the present invention is formed such that the holes gradually increase in size so that the outlets formed on the outer surface of the cylindrical body are wider than the openings formed on the inner surface of the cylindrical body by the through holes, Exit to the exit.

In the present invention, the cylindrical body is coupled to the cylinder so that only the flowing material injected into the inlet of the cylinder enters the interior of the cylindrical body and only the flowing material passing through the through-hole of the cylindrical body is discharged to the outlet. A piston for supporting the piston so as to allow the diameter of the piston to contract and expand and a piston for moving the piston to a predetermined position, A passage is formed.

The present invention is characterized in that a fluid material supply means is coupled to an inlet of a cylinder to pressurize and supply a fluid material, and the fluid material is discharged through a ring nozzle die to form a fluid material in a form of a pallet, to be.

According to the present invention, there is also provided a method of controlling a flow rate of a fluid, comprising the steps of: using a plastic extruder as a fluid substance supply means, for controlling the temperature at a portion through which the foreign matter passes, a temperature sensor for detecting the temperature of each part, And further comprising system control means for controlling the fluid substance supply means, the piston actuator, the heater and the temperature sensor, and the pressure sensors collectively. The system control means analyzes the pressure of the fluid material passage and drives the piston so as to reciprocate when the fluid material does not move smoothly or cyclically. When the pressure of the foreign material passage becomes equal to or more than a predetermined value, So that the temperature of the foreign matter discharging means is controlled to be 10 to 20 degrees higher than that of the flowing substance.

The foreign matter separating device of the present invention is very easy and reliable to remove foreign matter which is different from the conventional or perforated screen.

Since the foreign matter separating apparatus of the present invention does not need to frequently exchange the thread as in the conventional method, it is possible to improve the quality of the product because the work efficiency is high, the product is homogeneous, and it can be made into a very small hole.

In the present invention, unlike the prior art in which foreign substances are collected together with filters, sieves, screen nets, only foreign substances are collected separately and processed, so that secondary pollution does not occur.

In the prior art, filters, sieves, and screen nets have to be replaced with consumables, but the cylinders of the present invention are semi-permanent in life and require little maintenance cost.

The present invention can detect foreign matter caught in a cylindrical body by a certain amount and can detect it by a pressure sensor and automatically discharge it by a drum rotation and a scratch discharge process. can do.

The cylindrical body of the present invention can be manufactured in a large size, so that the plant can be enlarged and the throughput can be increased.

By the combination of the cylindrical body and the scratch ring of the present invention, the primary scratch can remove foreign substances such as nails, stones, stain pieces, and the like, and remove foreign substances such as aluminum foil, paper, labels, It can be convenient.

The present invention can primarily remove foreign substances contained in the molten plastic to improve the efficiency of the regenerating apparatus.

In general, the present invention can be used as a filtration filter device that removes solids of a certain size or more from a fluid material mixed with a solid, and thus its use range is wide.

1 is a horizontal sectional view for explaining a separation apparatus using a drum body according to the prior art.
FIG. 2 is a schematic view showing a cross section of each part for explaining a foreign matter separator in a fluid material using the cylindrical body of the present invention. FIG.
3 is a cross-sectional view of a cylindrical body according to the present invention, showing a cross-sectional view of the cylindrical shaft and a longitudinal section of the cylindrical shaft.
4 (a) and 4 (b) show another embodiment of the cylindrical body according to the present invention, wherein FIG. 4 (a) shows a longitudinal section and a cross section, (C) is a perspective view of this cylindrical body.
Fig. 5 is a cross-sectional view of another cylindrical body having a circular through-hole, wherein (a) is a longitudinal and transverse cross-sectional view of the cylindrical body, and Fig.
Fig. 6 is a perspective view of another cylindrical body having a through-hole of a square shape,
7 is a cross-sectional view of another cylindrical body in which a through hole having a circular shape is formed on an iron plate by an etching process,
8 is a cross-sectional view of a cylinder of a foreign matter separating apparatus of the present invention.
9 is a cross-sectional view for explaining a state in which the cylindrical body of the present invention is installed in a cylinder.
10 is a cross-sectional view of a piston ring and a piston of the foreign matter separation apparatus of the present invention.
11 is a cross-sectional view showing a state where a cylindrical body, a cylinder and a piston are engaged.
12 is a cross-sectional view and a plan view of a ring nozzle die.

As shown in FIG. 2, the apparatus for separating foreign materials in the flowing material of the present invention comprises a cylindrical body 10, a cylinder 20 for accommodating the cylindrical body therein, A piston (40) having a scratch ring (30) that contacts and moves with the inner surface of the cylinder to separate these foreign substances from the inner surface of the cylinder and discharge it to the foreign matter outlet when caught by the inlet, And a reciprocating piston driver (60). The term " cylinder " in this specification refers to a shape obtained by cutting a pipe having a cylindrical curved shape to have a predetermined length, and the cylindrical body refers to a body having such a shape. In the figure, the arrow indicates the direction in which the flowable material moves.

As shown in Fig. 3, the cylindrical body 10 is formed by machining a plurality of through holes 11 in a base body 12 of a cylindrical body. The cylindrical body 10 has an inlet 11- 1, the through hole 11-2 formed in the outer surface of the cylindrical body is wider, so that the hole is formed so as to gradually increase in size from the inlet to the outlet. The flowing substances and foreign matter passing through the through-hole entrance are all discharged through the through-hole without being caught in the through-hole. In this cylindrical body, the through holes are formed in a curved surface of a cylinder. In the figure, the through holes are formed as if they are in a plane, but this is shown in the drawing convenience only. It should be understood that they are all ellipses except for the front view. The same applies to other cylindrical bodies. In order to increase the size of the through hole of the cylindrical body, it is possible to use a machine tool such as a drill or a punch. However, in the case of forming a through hole having a diameter of 1 mm or less as an example of a very small diameter, . Such an etching process can be performed using a technique used in a semiconductor manufacturing process. The etching time can be precisely controlled when a hole is formed by etching an etching mask layer on an iron plate.

As shown in FIG. 4, the cylindrical body 10 can also be a general wire net made by weaving a wire horizontally and vertically. The hollow cylindrical body 10 may be formed by drilling a steel plate with a drill or by forming a through hole by an etching process, The frames 131 and 136 may be used. 4 (a), 4 (b) and 4 (c), a cylindrical body 130 is formed so that a through hole is formed in an iron plate and then rolled into a cylindrical shape to be coupled to a cylinder, Alternatively, an iron plate having a circular or trapezoidal through hole as shown in FIG. 5 may be formed into a cylindrical shape, or an iron plate having a square through hole as shown in FIG. 6 may be formed into a cylindrical shape 7, a through-hole having a circular shape may be formed on the steel plate by an etching process so as to be made into a cylindrical body 14 and joined to the frames 13 and 13-1. When the through holes are formed by drilling, punching, or etching on a flat cylindrical substrate, and then the substrate is made into a cylinder, the exit of the through hole outside the cylinder becomes larger at the entrance of the through hole inside the cylinder . In this case, the foreign matter passing through the inlet is prevented from passing through the through-hole in the middle. In addition, although the cylindrical body can be formed by using only one flat plate substrate, it is also possible to form a superimposed cylindrical body by overlapping two or more substrates.

This cylindrical body 10 is coupled to the cylinder.

The cylinder 20 is formed by coupling various parts to the head cylinder 21. As shown in Fig. 8, the head cylinder is formed with an inlet 22 at its upper portion, and a head connecting flange 23 for connecting the fluid material supply means 70 to the inlet port is connected . In the lower part of the cylinder, a droplet collecting and discharging port 25 in the form of a dish is connected to collect and discharge the resin that has passed through the cylindrical body 10. A resin outlet 24 is formed in the lower part of the flow material collecting and discharging port.

As shown in FIG. 9, a cylindrical body 10 for filtering a fluid material is provided in the cylinder. The cylindrical body 10 has a coupling hole 16 formed in the upper flange of the cylindrical body and a coupling hole 26 formed in the upper end of the cylindrical body. (27). A cylindrical body support plate 17 having a foreign matter discharge port 28 is connected to the lower surface of the cylinder with the bolts 14 while firmly adhering the lower portion of the cylinder to discharge the foreign substances which have not passed through the cylindrical body and some fluid materials. A stopper 15 for manually removing foreign substances is provided on the support plate 17 and a foreign matter discharge valve 29 is provided on the foreign matter cabbage outlet 28. The foreign matter discharge valve is normally a solenoid valve. A valve or a hydraulic valve may be used, and the foreign matter discharge valve is provided with a heater for heating the flowing material.

Thus, the fluid material injected into the cylinder inlet enters the interior of the cylindrical body, passes through the through-hole of the cylindrical body, and only the filtered flow material is discharged to the outlet. If the foreign substances that can not pass through the cylindrical body are collected, the foreign substance discharge valve is opened to discharge the foreign substance, and if the foreign substance that can not be discharged automatically collects, manually open the plug (15) and discharge it.

The piston (40) is coupled to the cylinder (20). 10, two or more of the scratch rings 30 are coupled to each other. In this embodiment, the both side ends 31 of the scratch ring 30 are ½ in size, 31 are made to coincide with each other when they are opposed to each other so as to be able to contract and expand in diameter (as in the case of a piston ring of an automobile engine) and to be installed in the scraping ring engagement groove 35 have. The piston 40 is coupled to the lower end of the piston rod 33 by a coupling bolt 34 and is provided between the piston's scratch ring and the scraper ring so that the flowing material can pass through the piston tube when the piston is moved, A plurality of flow-material passages 32 are also formed around an axis of the fluid-flow passage.

The piston 40 is coupled through the piston rod 33 to the piston rod 33 so that the piston 40 can reciprocate within the cylinder 10 by the piston support mechanisms as shown in Figure 11 . That is, the piston support 41 is coupled to the bolt hole or nut portion 19 formed in the cylindrical flange, and the piston driver 60 may be a motor drive device, but in this embodiment, the hydraulic cylinder 42 is used . The hydraulic cylinder 42 is engaged with the piston support 41 by the bolt nut 44 by the hydraulic cylinder supporting plate 43. [ The piston is moved by the piston driver 60. When the piston moves inside the cylindrical body, the foreign substances hanging at the through-hole of the cylindrical body are moved away from the cylindrical body together with the flowable material by the scratch ring, And is collected by the lower portion of the cylindrical body.

A fluid substance supply means (70) is coupled to the fluid substance inlet (22) of the cylinder (20).

The fluid material supply means includes an extruder 72 for melting and pressurizing molten material (plastic waste, plastic waste such as plastic pellets or waste plastic, or partially purified availability plastic) inserted through the inlet hopper 71 into which the material is introduced, And the respective flanges 23 and 73 are coupled with each other so that the extrusion port 76 of the extruder is connected to the inlet 22 of the cylinder 20. [ The fluid substance supply means can be a plastic extruder and can be provided with an outlet 75 of the gas which is generated if necessary.

In order to form a fluid material in the outlet 24 of the cylinder 20 in the form of a pallet, a ring nozzle die 80 may be provided instead of the fluid material collecting and discharging outlet 25. [ As shown in Fig. 12, the ring nozzle die has a plurality of nozzle holes 84 formed in an intermediate region of the ring, and the inlet 85 of the nozzle is wider. A plurality of bolt holes (82, 83) are formed on both sides of the nozzle, so that the bolt holes (82, 83) can be firmly coupled to the cylindrical body support plate (17) attached to the lower portion of the cylinder. When the ring nozzle die 80 is engaged with the cylindrical body receiving plate 17, the manual operation stopper 15 is exposed through the central portion ring inner hole 81 of the ring nozzle die 80 so that the stopper can be opened if necessary . The bolt hole 82 of the ring nozzle die is positioned and formed so that the bolt 14 for coupling the base plate coupling to the lower portion of the cylinder can be commonly used when the ring nozzle die 80 is coupled to the cylindrical base plate 17. [ It is good to do. It is possible to couple the cylinder with the cylinder receiving plate 17 to the cylinder through the bolt hole 82 of the ring nozzle die 80 and to connect the cylinder through the bolt hole 83 to the cylindrical body receiving plate 17. [

Foreign matter and a flowing material are mixed in the foreign matter discharge port 28 for intermittently discharging the foreign matter, and the temperature is temporarily lowered because the foreign matter is temporarily not moving and stopped. Since the flow material is hardened when the temperature is lowered, foreign matter may not move even if the foreign matter discharge valve 29 is opened for discharging foreign matter. Therefore, the foreign matter discharge port 28 and the foreign matter discharge valve 29 may be moved An electric heater should be installed because it needs to be heated above the melting temperature. The electric heat may be provided outside the foreign matter discharge valve 29 or inserted into the foreign matter discharge valve 29, but not shown separately in the drawing. In addition, in order to prevent the temperature from lowering and solidifying while passing through the flowing material, there are provided a heater for adjusting the temperature of the necessary part, a temperature sensor for detecting and controlling the temperature of each part, Pressure sensors to detect are installed. Such a process control sensor and a method of installing the sensor may be well known in the art, so that description of the technology is omitted here.

However, these known sensors further include system control means for controlling the flow substance supply means 70, the piston driver 60, the foreign matter discharge valve 29 and the heaters in a general manner. The system control means analyzes the pressure and temperature of the fluid material passage using a temperature sensor and a pressure sensor to periodically or process the flow to determine the flow of the fluid material and to control the overall operation of the device The piston is driven to reciprocate and the foreign matter discharge valve is operated. It is preferable to control the foreign matter discharge valve so that foreign matter is discharged when the pressure of the foreign matter passage becomes equal to or more than a predetermined value and the temperature of the foreign matter discharge passage is maintained to be higher by 10-20 degrees Celsius than the flowing substance.

The operation of the present invention apparatus will be described.

When the raw material (mainly waste plastic) is drawn into the hopper 71 as the material inlet, the extruder 72 is operated to heat the raw material to be molten and pressurized to be discharged to the outlet 76 of the extruder 72 .

The melt flowing into the outlet 76 is drawn into the cylindrical body through the inlet 22 of the cylinder 20. When the pressure increases, the melt passes through the through holes 11 of the cylindrical body, That is, along the passage 36 between the cylindrical body and the cylinder inner wall and the hole 37 formed in the cylindrical body receiving plate 17, and is discharged to the outlet 24.

In Fig. 2, the apparatus of the present invention is installed in two stages. In the first stage operation, the above operation is carried out to the outlet, but as the molten resin after completion of the first stage operation or several stages, In the final step, as shown in FIG. 2, after the filtering process is performed as shown in FIG. 2, when the ring nozzle die is made to pass through the outlet, the molten material is cooled by the small holes and solidified and cut into pellets.

However, the foreign substances which can not pass through the through holes of the cylindrical body are caught at the through hole entrance of the cylindrical body, thereby blocking the through holes. The control device of the system control means, The piston driver (60: hydraulic cylinder) is operated to reciprocate the piston (40). Then, the foreign substances blocking the through holes are separated from the through-hole inlet and moved along the fluid material passage 32 of the piston or downward along the inner wall of the cylinder. When the operation of the piston is repeatedly performed several times, The foreign substances are gradually accumulated in the lower part, and the flow of the flow material is not desired. This situation is judged by the program of the system control means, for example, by analyzing the measurement of the pressure sensor and the temperature sensors, counting the number of times the piston is driven, measuring the flow of the flow material, Or if such information is comprehensively judged, and if it is judged that a large amount of foreign matter is accumulated in the lower part of the cylindrical body, the foreign matter discharge valve 29 is opened and the foreign matter is sent down the foreign matter discharge port 28.

If the operation is continued in this way, foreign substances that do not go to the foreign matter outlet may be piled up. By manually opening the stopper (15) provided on the cylindrical body plate and prepared to remove the foreign substance mass, .

The apparatus of the present invention can be connected to various stages to form a system for purifying the waste plastic by a consistent process. In this case, it is preferable to use smaller and smaller through-holes of the cylindrical body.

Thus, the size of the through-hole is made to be about 2 mm in the first stage, and the diameter of the through-hole is reduced to about 0.5 mm in the second stage. Also, according to the target value standard of the recycled material to be obtained, the through hole size can be reduced to 0.1 mm to obtain desired quality.

In order to increase the size of the through hole of the cylindrical body, it is possible to use a machine tool such as a drill or a punch. However, in the case of forming a through hole having a diameter of 1 mm or less as an example of a very small diameter, . Such an etching process can be performed using a technique used in a semiconductor manufacturing process. The etching time can be precisely controlled when a hole is formed by etching an etching mask layer on an iron plate.

The material of the cylindrical body can be lengthened by using a high-strength acid-resistant material such as tool steel or stainless steel. Although the radial grooves are shown in a circular shape in section, they may be formed in a triangular shape, a square shape, a semi-elliptical shape, a U shape, or the like.

The fluid material supply means uses an extruder which dissolves and pressurizes the molten material to be inserted into the hopper or the material inlet, in which the gas can be generated and the generated gas exits to the gas outlet 75, In the case where the valve is to be attached and controlled at the outlet of this gas or a filter or pollution prevention device is to be installed.

In addition, there may be a case where a cooling means is provided in addition to a heating device as well as a cooling portion if necessary. That is, the cooling part may be provided in the vicinity of the ring nozzle die for cooling the fluid material into a small piece of pellet.

The method of operating the apparatus of the present invention can be used by using the technique disclosed in the above-mentioned Japanese Patent Laid-Open No. 10-1171496.

Although the embodiment of the present invention has been described by taking an actual device as an example, the joining or bonding of parts may be modified in various ways within the known technical scope.

The cylindrical body 10 has a cylindrical body 12, a through hole 11, a through hole inlet 11-1, a through hole outlet 11-2, frames 131 and 136, a cylindrical body The bolt 14 and the stopper 15 and the engaging hole 16 and the cylindrical body plate 17 and the nut portion 19,
The cylinder 20, the cylinder 20, the head cylinder 21, the inlet 22, the head connecting flange 23, the outlet 24, the fluid material collecting and discharging outlet 25, the coupling hole 26, A foreign matter discharge port 28, a foreign matter discharge valve 29,
Scratch ring 30 Scratch ring both ends 31 Piston fluid material passage 32 Piston rod 33 Engagement bolt 34 Scratch ring engagement groove 35 Passage between cylinder and cylinder inner wall 36, A hole 37 formed in the base member 30,
Pistons (40) Piston Supports (41) Hydraulic Cylinders (42) Hydraulic Cylinder Support Plates (43) Bolt Nuts (44)
The piston driver 60 includes a fluid material supply means 70, a material inlet hopper 71, a molten material material extruder 72, a compression bulb flange 73, a gas outlet 75, an outlet 76 of the extruder,
Ring nozzle dice 80 ring inner hole 81 nozzle 84 inlet of nozzle 85 bolt hole 82 bolt hole 83

Claims (7)

An apparatus for separating foreign matters in a flowing material for separating foreign matter having a predetermined size or more from a flowing material,
A cylindrical body 10 having a plurality of through holes formed between an inner surface and an outer surface;
A cylinder 20 installed inside the cylindrical body to allow the flowing substance introduced through the inlet to enter the cylindrical body and to pass through the plurality of through holes and to be discharged to the outlet;
When the foreign substances contained in the fluid material are caught by the openings of the through holes of the cylindrical body, a scraping ring which contacts and moves with the inner surface of the cylindrical body to separate the foreign substances from the inner surface of the cylindrical body and discharge them to the foreign matter outlet A piston (40)
And a piston driver (60) reciprocating the piston in the cylinder. The method according to claim 1,
The cylindrical body 10 is formed such that the holes gradually increase in size so that the outlet formed on the outer surface of the cylindrical body is wider than the inlet formed on the inner surface of the cylindrical body by the through holes, Or a common wire mesh or a perforated steel plate is used, The method according to claim 1,
Wherein the cylindrical body is coupled to the cylinder so that only the flowing material injected into the inlet of the cylinder enters the inside of the cylindrical body and only the flowing material passing through the through hole of the cylindrical body is discharged to the outlet,
The cylinder is provided with a foreign matter discharge port (28) for collecting and discharging foreign substances which can not pass through the cylindrical body,
Wherein the piston supports the diameter of the scratch ring so that it can shrink and extend,
And a fluid material passage (32) is formed in the piston so that the fluid material can freely pass through the piston before and after the movement. The method according to any one of claims 1 to 3,
A fluid material supply means (70) is coupled to the inlet of the cylinder to pressurize and supply the fluid material,
And discharging the flow material through a ring nozzle die (80) to form a pellet in the outlet port of the cylinder. The method according to any one of claims 1 to 4,
Wherein said fluid substance supply means uses a plastic extruder,
A temperature sensor for detecting the temperature of each part, a pressure sensor for detecting the pressure of the fluid material passage,
Further comprising system control means for controlling the fluid material supply means, the piston actuator, the heater and the temperature sensor, and the pressure sensors collectively. The system according to claim 5,
The pressure of the fluid material passage is analyzed so that the flow of the fluid material is not smooth, or the piston is periodically driven to reciprocate,
When the pressure of the foreign matter passage becomes equal to or more than a predetermined value, the foreign matter discharging means is operated to discharge the foreign matter,
And the temperature of the foreign matter discharging means is controlled to be maintained at 10 to 20 degrees higher than that of the flowing substance. A cylindrical body having a plurality of through-holes formed to penetrate from the inside to the outside of the body for separating impurities from the flowing material,
The inlet of the through hole on the inner side of the cylindrical body is smaller than the outlet of the through hole on the outer side,
Wherein the through-hole is formed so as to gradually increase in diameter from the inlet to the outlet,

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