KR100981537B1 - The prevent structure of gas outlet hole for an extruder - Google Patents

Abstract

The present invention is applied to the cylinder of the synthetic resin extruder that melts and extrudes the synthetic resin support material is a gas discharge hole for discharging the volatile gas generated in the moisture and melting process contained in the raw material when the supply and discharge is abnormal, The present invention relates to a device for preventing a blockage of a gas discharge hole of a synthetic resin extruder for preventing a blockage by a resin. More specifically, an opening means that is lifted up by being pushed by a raw material introduced into a gas discharge hole of a vent block is installed to be elevated. On the upper surface of the vent block, a box-shaped main body is installed in a sealed state, but the main body is provided with a limit switch for detecting the rising of the opening means and a return means for pressing down the injured opening means by operating a signal of the limit switch. I did it.

Extruder, gas vent, blockage, opening means, limit switch.

Description

Blocking device for gas exhaust hole of synthetic resin extruder {TH PREVENT STRUCTURE OF GAS OUTLET HOLE FOR AN EXTRUDER}

The present invention is applied to the cylinder of the synthetic resin extruder that melts and extrudes the synthetic resin support material is a gas discharge hole for discharging the volatile gas generated in the moisture and melting process contained in the raw material to the raw material when the supply and discharge is abnormal The present invention relates to a device for preventing a blockage of a gas discharge hole of a synthetic resin extruder for preventing a blockage by a resin. More specifically, an opening means that is lifted up by being pushed by a raw material introduced into a gas discharge hole of a vent block is installed to be elevated. On the upper surface of the vent block, a box-shaped main body is installed in a sealed state, but the main body is provided with a limit switch for detecting the rising of the opening means and a return means for pressing down the injured opening means by operating a signal of the limit switch. So that the raw material is abnormally When it enters the gas discharge hole, it is automatically recognized by the open switch and the limit switch that detects it, and at the same time, the return means is forced down and returned by the return means. By opening the ball, it is possible to prevent the blockage of the gas discharge hole by an unmanned automatic method, so that smooth and stable gas removal is possible at all times, improving the quality of the product and eliminating the interruption of work due to maintenance. It is to improve productivity.

Generally, the synthetic resin melt extruder melt-feeds a synthetic resin raw material through a hopper 6 into a cylindrical cylinder 2 having a set of extrusion screws 3 and a heater heating means, as shown in FIG. 1. While passing through the die (7) to determine the shape of the extrudate constituted at the tip of the extruder to form a desired shape in a desired shape in order to stably secure the extruded cross-sectional shape through the sizing means and the cooling means sequentially The cooled extrudate is additionally drawn out at a constant speed through a drawing means, and is subsequently passed through a series of processes that are finally cut through a cutting device to an appropriate specification.

On the other hand, in the case of melting the synthetic resin raw material used in the extrusion in the cylinder, the moisture and volatile gas contained in the raw material is contained in the raw material that is melted by evaporation. There is a problem that results in a decrease in physical properties, such as roughening the surface of the extrudate due to the gas contained therein.

In view of such a problem, the conventional synthetic resin extruder cuts a part of the cylinder 2 to suction and remove moisture and volatile gas contained in the raw material as shown in FIG. 6, and observes the gas discharge line and the same in place. Vent block (1) having a function to

The vent block 1 includes a set of gas discharge holes 4 formed in a “T” shape in a state of being connected to the inside of the cylinder 2, and a vent block 1 so as to be connected to the gas discharge holes 4. A set of observation holes (5) was drilled on the upper surface to visually check the transfer state of the raw materials, and each of the observation holes (5) was provided with a transparent cover (8) which can be opened and closed selectively.

However, the gas discharge hole 4 having the above structure is a hole in a simple punched state, and serves as a space for expanding the inside of the cylinder.

When the extruder is operated, abnormally increased feed of raw material due to abnormality of the device or abnormally delayed die passage of molten extrudate increases the internal pressure of the cylinder. It is gradually introduced into the gas discharge hole (4) which is a separate space connected to block the gas discharge hole (4) while rising as shown in Figure 6,

As such, when the gas discharge hole 4 is blocked, vaporized water and volatile gases contained in the molten raw material are not discharged and remain in the raw material as bubbles in the tissue of the extrudate as mentioned above, resulting in a decrease in strength. And roughening the surface of the extrudate cause problems such as deterioration of physical properties.

In addition, the gas discharge hole (4) connected to the inside of the cylinder to maintain the same pressure is provided with a pressure gauge (G) for measuring the internal pressure of the cylinder,

As described above, when the gas discharge hole 4 is blocked, the gas discharge hole 4 and the inside of the cylinder are separated from each other, so that the pressure in the gas discharge hole 4 and the internal pressure of the cylinder are different from each other. ), The measured value of the pressure gauge for measuring the pressure inside the cylinder is not reliable, which can cause a big problem because it can not respond quickly to abnormal pressure in the cylinder.

In addition, if the existing structure is to prevent the blockage of the gas discharge hole (4) in view of the above problems, the operator frequently checks whether the gas discharge hole (4) through the observation hole (5) at regular intervals. There is a hassle to check, which wastes time and manpower,

If the gas discharge hole 4 is blocked, open the cover 8 of the observation hole 5 while the extruder is stopped and pull out the removed raw material using a tool to remove or push it back into the gas discharge hole. Opening of (4) causes a problem of lowering productivity due to stoppages, increasing defective rate of the product, and lowering work efficiency due to waste of time and manpower.

The present invention is to solve and complement the problems caused by the existing structure as described above,

The object of the present invention is to deviate by forcibly descending and returning the opening means through the return means when the raw material is abnormally introduced into the gas discharge hole other than the cylinder through the injury of the opening means and a limit switch for detecting the same. As the raw material is returned to the inside of the cylinder, the gas discharge hole is opened to prevent clogging of the gas discharge hole in an unmanned and automated manner, so that smooth and stable gas removal is possible at all times, thus improving product quality. The present invention provides a device for preventing the blockage of gas exhaust holes of a synthetic resin extruder, which can prevent productivity interruption due to maintenance.

According to an aspect of the present invention,

An opening means to be lifted by being pushed by the raw material flowing into the gas discharge hole of the vent block is provided to be lifted and a box-shaped main body is installed on the upper surface of the vent block in a sealed state. It is characterized in that it comprises a return means for operating by pressing the signal of the limit switch and the limit switch for sensing the lowering of the injured opening means.

In addition, the opening means of the present invention comprises a rod having a small diameter portion in the middle, a plate integrally formed at the upper end of the rod and having a straight portion for preventing rotation on one side, and integrally formed on the plate and associated with the return means. It is characterized in that it is configured to include an actuating operation piece, and a switch drive for driving the limit switch through the contact is adjustable fastening installation of the protruding length.

According to the present invention as described above, when the molten raw material is abnormally introduced into the gas discharge hole other than the cylinder, the opening means is raised so that the blockage is automatically recognized through the limit switch, and at the same time, the opening means is forcibly lowered through the return means. By returning the raw material deviated by returning it to the inside of the cylinder, the gas discharge hole is opened so that the blockage of the gas discharge hole can be prevented in an unmanned and automated manner. The product can be smoothly and stably removed at all times to improve product quality. It is possible to eliminate the interruption of work due to maintenance, and thus increase productivity.

Figure 1 is a plan view showing a known extruder to which the present invention is applied, Figure 2 is an exploded perspective view of the present invention, Figure 3 is a longitudinal cross-sectional view showing an assembled state of the present invention,

A set of gas discharge holes 4 formed of a “T” shape in a state in which a portion of the cylinder 2 in which a set of extrusion screws 3 are arranged is cut and connected to the inside of the cylinder 2 in place; In a known structure for installing a vent block (1) having a set of observation holes (5) for visually confirming the transfer state of the raw material is drilled in the upper surface of the vent block (1) to be connected to the gas discharge hole (4) In

Opening means (10) installed in the respective gas discharge holes (4) to be lifted and lifted to be pushed by the raw material introduced from the inside of the cylinder (2);

A box-shaped body 20 having a bottom surface fixed to the upper surface of the vent block 1 and having a space 21 therein;

A set of limit switches (30) configured to protrude downward in the space portion (21) of the main body (20) and to sense the rise of the opening means (10);

It is fixed to the main body 20 and is characterized in that it comprises a return means 40 for pressing down the opening means (10) raised by the detection signal of the limit switch 30 to return to the original position do.

The opening means 10 constitutes a small diameter portion 11C between the upper and lower large diameter portions 11A and 11B, but discharges a plurality of gases leading to the small diameter portion 11C on the outer circumferential surface of the lower large diameter portion 11B. A rod 11 constituting the groove 12 to be recessed, a plate 13 integrally formed at an upper end of the rod 11 and having a straight portion 13A for preventing rotation on one side thereof, and the plate 13 It is integrally formed on the operating piece 14 and associated with the return means 40 and the operating piece 14 is fastened and installed to enable adjustment of the protruding length to drive the limit switch 30. It characterized in that it comprises a switch drive 15.

The return means 40 is constituted by an air cylinder 41A and a plunger 41B which is retracted as shown in Figs. 1 to 4A, or an operation cam 42 which is rotated by a motor as shown in Fig. 5. Can be.

Referring to the operation of the present invention configured as described above in detail as follows.

Figure 4 (a) is an enlarged cross-sectional view of the main portion showing a state before the operation of the present invention without the gas discharge hole is blocked.

The whole of the rod 11 of the opening means 10 is fitted in the gas discharge hole (4), a constant spaced space in which gas can be moved between the inner wall of the gas discharge hole (4) and the small diameter portion (11C) The upper part of the space is connected to the outlet of the gas discharge hole (4) and the lower direction is the inside of the cylinder (2) through a plurality of gas discharge grooves 12 concave to the outer circumferential surface of the lower large diameter portion (11B) Connected with.

The anti-rotation straight portion 13A of the plate 13 is in contact with the inner wall of the main body 20 so that the rod 11 can always be elevated to the right position without being rotated without permission.

In addition, the upper ends of the operating piece 14 and the switch drive mechanism 15 are respectively spaced apart by the interval set by the lower end of the plunger 41A and the sensing piece 31 of the limit switch 30, respectively.

In this state, since the gas discharge hole 4 is not blocked, the vacuum suction force is applied to the gas discharge hole 4 to discharge the gas, so that the molten raw material transferred into the cylinder 2 through the extrusion screw 3 is discharged. Water and gas are introduced into the space between the inner wall of the gas discharge hole 4 and the small diameter portion 11C through a plurality of gas discharge grooves 12 concave on the outer circumferential surface of the lower large diameter portion 11B, and then the gas discharge holes. It is discharged to the outside through (4).

On the other hand, abnormality in the supply of the raw material due to abnormality of the device or abnormally delayed die passage of the molten extrudate increases the internal pressure of the cylinder, which causes the gas, which is a separate space connected to the inside of the cylinder, in which the molten raw material is a normal transport path. When the gas discharge hole 4 is blocked while gradually flowing into the discharge hole 4 and rising, ascending force of the rising raw material is applied to the bottom surface of the lower large diameter part 11B as shown in FIG. When the means 10 is lifted up, the switch drive mechanism 15, which is raised together, presses the sensing piece 31 of the limit switch 30 to generate a detection signal, and through this detection signal, the air being the return means 40. The cylinder 41A is driven to advance the plunger 41B as shown in FIG. 4 (c) or press the operating piece 14 downward while the actuating cam 42 is rotated as shown in FIG. Pushing a bottom departing from the raw materials having a diameter portion (11B) by being taken to thereby return the inside of the cylinder (2) becomes an open makhyeotdeon gas discharging hole (4).

When the whole of the rod 11 is made of a heavy metal, the pressing force of the molten raw material is strong due to its own weight, so that the molten raw material does not easily rise, and the molten raw material flows into the gas discharge groove 12 which is the discharge passage of the gas and closes it. As the concern increases, a portion of the rod 11 is made of a synthetic resin having a melting temperature higher than the melting point of the processed raw material so as to reduce the weight so that the molten raw material floats before the molten raw material is introduced into the gas discharge groove 12.

On the other hand, the switch drive opening 15 is able to adjust the distance with the sensing piece 31 of the limit switch 30 by adjusting the protrusion degree of the upper end in accordance with the rotation direction by screwing like a bolt. It is possible to adjust the operation timing of the return means 40, that is, the down return time of the opening means 10, according to the interval adjustment degree, the greater the protrusion of the switch drive opening 15, the lower return point of the opening means 10 It becomes faster and the opening operation is made in a state in which the blockage of the gas discharge hole 4 is less.

In the above, one embodiment of the present invention has been described, but modifications and variations within the scope without departing from the technical spirit of the present invention by those skilled in the art belong to the scope of the present invention Of course.

1 is a plan view showing a known extruder to which the present invention is applied.

2 is an exploded perspective view of the present invention.

Figure 3 is a longitudinal cross-sectional view showing an assembled state of the present invention.

Figure 4 (a) is an enlarged cross-sectional view of the main portion showing a state before the operation of the present invention without the gas discharge hole is blocked.

Figure 4 (b) is an enlarged cross-sectional view of the main portion showing the state that the deviated raw material is introduced into the gas discharge hole, the opening means is raised and the limit switch is operated.

Figure 4 (c) is an enlarged cross-sectional view of the main portion showing a state that opens the gas discharge hole while the opening means is returned to its original position through the return means.

Figure 5 is an exemplary cross-sectional view showing another configuration example of the return means applied to the present invention.

6 is a cross-sectional view showing a conventional gas discharge hole without the blockage preventing means.

<Explanation of the code | symbol about the principal part in drawing>

1: vent block 2: cylinder

3: Extrusion screw 4: Gas discharge hole

5: observation hole 10: opening means

11: Rod 11A, 11B: Upper, lower large diameter part

11C: Small diameter 12: Gas discharge groove

13: Plate 13A: Straight part for preventing rotation

14: Operation Part 15: Switch Drive

20: body 21: space

30: Limit switch 31: A sensing edition

40: return means 41A: air cylinder

41B: Plunger 42: Operation Cam

Claims (5)

A set of gas discharge holes 4 formed of a “T” shape in a state in which a portion of the cylinder 2 in which a set of extrusion screws 3 are arranged is cut and connected to the inside of the cylinder 2 in place; In a known structure for installing a vent block (1) having a set of observation holes (5) for visually confirming the transfer state of the raw material is drilled in the upper surface of the vent block (1) to be connected to the gas discharge hole (4) In Opening means (10) installed in the respective gas discharge holes (4) to be lifted and lifted to be pushed by the raw material introduced from the inside of the cylinder (2); A box-shaped body 20 having a bottom surface fixed to the upper surface of the vent block 1 and having a space 21 therein; A set of limit switches (30) configured to protrude downward in the space portion (21) of the main body (20) and to sense the rise of the opening means (10); It is fixed to the main body 20 and is characterized in that it comprises a return means 40 for pressing down the opening means (10) raised by the detection signal of the limit switch 30 to return to the original position To prevent clogging of gas exhaust holes of a synthetic resin extruder. The small opening portion (11C) is formed on the outer circumferential surface of the lower large diameter portion (11B) while the opening means (10) constitutes a small diameter portion (11C) between the upper and lower large diameter portions (11A) (11B). A rod 11 constituting a plurality of gas discharge grooves 12 leading to A plate 13 integrally formed at an upper end of the rod 11 and having a straight portion 13A for preventing rotation on one side thereof; An operating piece 14 integrally formed on the plate 13 and operatively associated with the return means 40; Gas discharge hole of the synthetic resin extruder, characterized in that it comprises a switch drive port 15 for driving the limit switch 30 through contact is installed to enable adjustment of the protruding length to the operating piece (14) Blocking device. The synthetic resin extruder according to claim 1, wherein the return means (40) comprises an air cylinder (41A) having a plunger (41B) which is operated through an air pressure supplied from the outside and is configured to be retractable. Gas vent hole blocking device. 2. The apparatus of claim 1, wherein the return means (40) comprises an operation cam (42) which is rotated by a motor. 3. The method of claim 2, Part of the rod 11 is a synthetic resin extruder, characterized in that the gas discharge hole clogging prevention device comprising a synthetic resin.

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