KR101334034B1 - Device for extracting screw in compression machine - Google Patents

Abstract

The invention relates to an extraction device for drawing out a screw of an extruder to the outside and, more specifically, to the extraction device comprising: a seat part in which the screw extracted from the extruder is mounted; a load supporting part which is combined with the lower part of the seat part and supports the part of screw load; an auxiliary load supporting part containing an elastomer which is interposed between the seat part and the load supporting part and supports the part of the screw load; and a transportation device which is movable structure and is combined with the lower part of the load supporting part. According to the present invention, an operator conveniently can draw out the screw while directly pushing the extraction device by cutting the screw load in half in a state in which the screw is mounted on the extraction device, thereby increasing work efficiency. When the alignment of the screw is unstable by an uneven surface, the auxiliary load supporting part elastically supports the screw load and elastically maintains the screw without rubbing the screw against the barrel end of the extruder. Even when the screw is rubbed against the barrel end of the extruder, the screw is protected not to be damaged by cutting the screw load in half in the state in which the screw is mounted on the extraction device, thereby reducing work defect rate

Description

Screw Extraction Device of Extruder {DEVICE FOR EXTRACTING SCREW IN COMPRESSION MACHINE}

The present invention relates to an apparatus for drawing out the screw of the extruder to the outside, and more particularly, when the screw is taken out in the extruder, the screw is not rubbed to the end of the barrel and broken, and half the load of the screw to facilitate the operator It relates to a screw taking out device of the extruder that can take out the screw.

The extruder heats the molding material into a fluid state, compresses the molten molding material with a screw, advances it on the screw, and then passes a die of a specific shape to produce a product having a specific cross section. It is a device for forming continuously.

The operation of the conventional extruder is as follows. The raw material is supplied to the extruder maintained at a predetermined temperature through a hopper. The supplied raw material is supplied by the heat transmitted from the barrel wall between the screw and the barrel of the extruder. It is melted and transported.

At this time, the raw material is discharged in a form having a specific cross section continuously through a die provided at the tip of the screw, the molten material being rubbed against the channel of the screw, and the molten material discharged through the die is cooled by a cooling device outside the extruder And the shape is maintained.

Stopping the extruder for reasons such as changing the extrudate type, changing the diameter, or changing the resin's material used as a molding material, will cause the melted resin to stick to the screw and cause carbonization. As the extruder stops, the screw should be taken out for cleaning.

However, the screw used for the sheath of a large cable is a metal having a size of about 5 ~ 20cm to 2.5 ~ 3m, and it is not easy to draw because the weight is heavy and the worker cannot pull out by hand.

In order to solve this problem, conventionally, a method of lifting a screw by hanging a rope at the tip of the screw using a hoist has been proposed.

However, since the tolerance between the barrel and the screw of the extruder is very small, if the screw is slightly twisted in a straight line when the screw is pulled out, a problem occurs that the screw hits the end of the barrel and the screw is damaged.

In addition, conventionally, there is also disclosed a method of aligning the screw according to the height of the screw using a transport cart, and then carrying the screw on the transport cart. This is not done properly, the same problem as above occurs.

In addition, the screw used in the extruder has a problem that the outer circumferential surface is formed as a rigid channel and the channel is easily broken by friction with the barrel during the drawing process.

In addition, the Korean Utility Model Publication No. 1995-2101 discloses a technology that can pull out the screw forward using the extruder itself power.

However, in the Korean Utility Model Publication No. 1995-2101, the same problem occurs when the screw is drawn out.

Therefore, it is possible to overcome the absurdity of the conventional screw extruder screw extraction method and to prevent the breakage of the screw when the screw is taken out, the situation is increasing the demand for a screw taking device that can easily take out the screw by the operator manually.

The present invention has been made to solve the above problems, an object of the present invention is to prevent the breakage of the screw when the screw is pulled out, to provide a screw withdrawal device that the operator can easily take out the screw by hand have.

According to an aspect of the present invention for achieving the above object, the seating portion is the screw is drawn out from the extruder is seated, the load supporting portion is coupled to the lower portion of the seating portion to support the load of the screw, the seating portion And a load assisting part interposed between the load supporting part and an elastic body supporting a part of the screw load, and a conveying means coupled to the lower part of the load supporting part in a movable structure.

Wherein the load support portion is coupled to the lower side of the first shaft is extended to the first shaft, the upper side is coupled to the other side of the first shaft and the lower side is coupled to the transfer means, the load to support the screw It is provided with a jack portion for lifting the screw.

In addition, the load-assisted support portion is coupled to the coupling plate on the first shaft, the second shaft is coupled to the lower side of the seating portion extending downward, one side is coupled to the other side of the second shaft and the other side is It is provided to include a spring assembly coupled to the upper surface of the coupling plate to support a portion of the screw load.

In addition, the seating portion and the seating plate located in the lower portion of the screw, the upper surface of the seating plate, the roller portion which is installed on both sides of the screw to be seated in contact with the outer edge of the screw, and the screw It is provided on both sides of the upper surface of the seating plate so as to surround both sides of the outer edge and includes a clamping part that can be adjusted in width according to the diameter of the screw.

In addition, the transfer means is provided including a transfer rail installed in the longitudinal direction of the screw, and a moving wheel for moving on the transfer rail.

The frame is coupled to any one of the seating portion, the load support portion, the load assisting support portion, the transfer means, the handle is provided that the operator can hold the frame to transfer the screw seated on the seating portion.

According to the present invention as described above, the screw load is reduced by half when the screw is mounted on the take-out device when the screw is withdrawn, the operator can easily take out the screw while manually pushing the take-out device can increase the work efficiency It has an effect.

In addition, even if the position of the screw is unstable because the ground is not smooth when the screw is pulled out, the auxiliary load supporting portion elastically supports the load of the screw so that the screw remains elastic without friction at the barrel end of the extruder. Even if the end portion of the barrel is rubbed, the load of the screw is reduced by half in the state in which the screw is seated on the take-out device, so that the screw is not easily broken, thereby reducing the work failure rate.

1 is a cross-sectional view showing the side structure of the screw take-out device of the extruder according to the present invention.
2 is a cross-sectional view showing the front structure of the screw take-out device of the extruder according to the present invention.
3 is a view illustrating a state in which a screw drawn out from the extruder is seated on a seating part.
4 is a view showing a screw pulled out from the extruder.
5 is a schematic diagram showing the relationship in which the load of the screw is shared with the load supporting portion and the auxiliary load supporting portion.

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

1 is a cross-sectional view showing the side structure of the screw take-out device of the extruder according to the present invention, Figure 2 is a cross-sectional view showing the front structure of the screw take-out device of the extruder according to the present invention.

Referring to the drawings, the screw withdrawal device of the extruder according to the present invention is coupled to the seating portion 10 and the seating portion 10 is seated while the screw 120 is drawn out from the extruder to the load of the screw 120 It includes a load supporting portion 20 and a load auxiliary support portion 30 to support, and a conveying means 40 coupled to the lower portion of the load supporting portion 20.

The seating part 10 includes a seating plate 11 positioned below the screw 120 drawn out from the extruder, and a roller part 12 capable of supporting the outer surface of the screw 120 on the top surface of the seating plate 11. And a clamping part 13 is installed.

The roller part 12 is composed of two rollers 12a on both sides such that the screw 120 is seated at an upper portion thereof and spaced apart from the central axis of the screw 120 by a predetermined distance so that the outer edge of the screw 120 contacts.

In addition, the roller part 12 is preferably made of a material having a weaker rigidity than the screw 120 such as aluminum so that the screw 120 is not damaged by contact with the screw 120.

In addition, the roller portion 12 is composed of a roller (12a) that can be rotated on both sides at a predetermined interval to reach one side of the roller (12a) even if the screw 120 is not seated in place when the screw 120 is seated The screw 120 is arranged to slide.

The clamping part 13 is installed on the upper surface of the seating plate 11 so as to surround both sides of the outer edge of the screw 120, thereby clamping the screw 120 in the withdrawal process so as not to flow from side to side.

In addition, the clamping part 13 is mounted with a clamp 13a to be spaced apart from the screw 120 disposed on the seating plate 11 by a predetermined interval, the clamp (13a) so that the width can be adjusted according to the diameter of the screw 120 The operation handle 13b for adjusting the separation interval of the is installed.

The load supporting part 20 is coupled to the lower part of the seating part 10, and lifts the screw 120 seated on the seating part 10 by the jack of the lower part to support the load of the screw 120.

In more detail, the load supporting part 20 is coupled to a lower portion of the seating plate 11 of the seating part 10, and is formed on the first shaft 21 extending downward and the other side of the first shaft 21. It is coupled to the lower end is coupled to the transfer means 40, it comprises a jack portion 22 that can lift the screw 120 to support the load of the screw 120.

Here, the screw 120 used in the extruder 100 has a diameter of about 150 kg, about 800 kg, a diameter of about 175 to 200 mm, about 1.2 to 1.5 tons, and a diameter of about 250 to about 2 ton.

In order to support the screw 120 having the weight as described above, the jack portion 22 in the present invention is preferably composed of a screw jack, in particular, since the screw jack itself can be self-locking manual handle 22a It is preferable that the operator can arbitrarily self-lock the device by attaching it.

The load assisting part 30 is interposed between the seating part 10 and the load supporting part 20 to bear a part of the screw 120 load by the elastic body.

More specifically, the load assisting support part 30 is coupled to the coupling plate 31 coupled on the first shaft 21 of the load support part 20, and one side is coupled to the lower portion of the seating plate 11 and extends downward. It is configured to include a second shaft 32 and a spring assembly 33, one side is coupled to the other side of the second shaft 32 and the other side is coupled to the upper surface of the coupling plate 31.

Here, the spring assembly 33 is preferably composed of a dish spring having a high buffering efficiency and having a large load capacity in a narrow space.

In addition, the plate spring may be different in the longitudinal direction of the second shaft 32 or differently set the bottle latch, so that the operator can support the load auxiliary support portion 30 relative to the total load of the screw 120 The load can be set arbitrarily.

The load-assisted support part 30 is such that when the screw 120 is seated on the seating part 10 and the load is transmitted downward, the screw 120 is not struck downward by the jack part 22 of the load support part 20. It is responsible for the load and allows a portion of the screw 120 load to be supported by the disc spring.

The load-bearing relationship of the screw 120 of the load support 20 and the load assisting support 30 will be described in more detail in the following operational relationship.

The transfer means 40 is provided with a moving wheel 41 at the bottom, the worker pulls out the screw 120 while manually pushing the screw take-out device according to the present invention, or if the ground is not smooth, separate transfer to the floor The rail 42 is installed in the lengthwise direction of the screw 120 so that the screw 120 is drawn out while the moving wheel 41 moves on the transfer rail 42.

The movement of the screw withdrawal device is coupled to any one of the seating portion 10, the load supporting portion 20, the load assisting portion 30, the conveying means 40 so that the operator can be moved directly pushed by the operator The handle 50 may be installed, and in the present invention, the handle 50 made of a frame bent in a '-' shape is installed.

Hereinafter will be described in detail with respect to the operating relationship of the screw extractor of the extruder according to the present invention.

3 is a view showing a state in which a screw to be drawn out from the extruder is seated on the seating portion, Figure 4 is a view showing a screw taken out from the extruder.

Referring to the drawings, the screw 120 take-out apparatus according to the present invention pushes the screw 120 to some extent through the puller from the rear end of the extruder 100 to the tip so that the screw 120 is transferred to the upper portion of the seating portion 10. do.

The screw 120 drawn out at the tip of the extruder 100 is aligned on the seating part 10, and the operator operates the manual handle 22a installed at the jack part 22 to screw the roller part 12. The outer edge of 120 should be in contact. Then, the operator manipulates the handle 13b of the clamping part 13 to adjust the interval of the clamp 13a to match the outer diameter of the screw 120 so that the screw 120 is clamped.

And while the worker by hand holding the handle 50 coupled to the screw taking out device by applying a force to move the screw taking out device so that the screw 120 is withdrawn from the tip of the extruder 100. In FIG. 4, a plurality of screw extractors according to the present invention may be configured to be drawn out according to the length of the screw 120.

Thus, the screw 120 drawn out by the operator's force is applied to the jack portion 22 most of the load so that the operator does not apply a great force to push the take-out device in which the actual screw 120 is seated.

However, when the total load of the screw 120 is applied to the jack portion 22, the position alignment of the screw 120 is not matched or the smoothness of the bottom surface is not constant in the extraction process of the screw 120, the tip of the extruder 100 The screw 120 is broken in the same problem as in the prior art.

Thus, in the present invention, the total load of the screw 120 is not applied to the load supporting portion 20, but the load auxiliary supporting portion 30 supports a part of the load of the screw 120, and the load auxiliary supporting portion 30 is The plate spring structure is included to compensate for the positional alignment during the extraction of the screw 120 by the elastic force.

Hereinafter, the load sharing of the screw will be described in more detail with reference to FIG. 5.

5 is a schematic diagram showing the relationship in which the load of the screw is shared with the load supporting portion and the auxiliary load supporting portion.

Referring to the drawings, the load P of the screw 120 seated on the seating portion 10 is a load (P ₁ ) applied to the load support portion 20 and a load (P ₂ ) applied to the load assisting support portion 30. ) To be supported by the screw 120.

That is, P = P ₁ + P ₂ to support the load of the screw 120 from the bottom, where the load (P ₁ ) applied to the load supporting portion 20 occupies most of the load of the screw 120. The load P ₂ applied to the load assisting portion 30 is set to be smaller than the load P ₁ applied to the load supporting portion 20, so that the worker grips the handle 50 to move the screw take-off device. When the actual load to be felt is to be the load (P ₂ ) applied to the load auxiliary support portion 30, not the screw 120, the total load (P).

That is, when the screw 120 is seated in the screw extractor according to the present invention and then the screw 120 is taken out, the load P of the screw 120 is applied to the load P ₁ at the load supporting part 20. This offset and the load P ₂ applied to the actual load assisting support 30 is acted in the same manner as the load P of the screw 120 on the screw take-off device.

For example, the load (P ₁ ) for supporting the screw 120 through the jack portion 22 of the load supporting portion 20 to the screw 120 weighing 1000 kg may be about 900 kg. To occupy most of the load, the load ( ₂ ) applied to the load-supporting portion 30 is to be 100kg, when moving the screw take-out device according to the present invention 900kg is lifted by the screw jack, load supplement Only the 100kg load applied to the support part 30 allows the worker to feel it, so that the worker grips the handle 50 directly and manually pulls out the screw 120 from the tip of the extruder 100 while manually pushing the screw out device. It becomes possible.

In addition, since the half of the load is halved elastically by the plate spring assembly 33 of the auxiliary load support 20, the flow of the screw 120 itself or the ground is not smooth at the time of withdrawal, the screw 120 ), Even if the position alignment becomes somewhat unstable, the screw 120 is elastically maintained at the end of the barrel 110 without friction, and even if the screw 120 is rubbed at the end of the barrel 110, it is seated on the screw take-off device. The load of the screw 120 in the closed state is halved to 100 kg, so that the load applied when the screw 120 is pulled out is small, so that the damage of the screw 120 is reduced.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, it is possible to make various modifications and variations without departing from the spirit and scope of the invention. Accordingly, the scope of the appended claims should include all such modifications and changes as fall within the scope of the present invention.

10: seating portion 11: seating plate
12: roller portion 12a: roller
12b: rotating shaft 13: clamping part
13a: Clamp 13b: Handle
20: load supporting portion 21: first shaft
22: jack portion 22a: handle
30: load assisting part 31: coupling plate
32: second shaft 33: spring assembly
40: transfer means 41: moving wheel
42: conveying rail
50: Handle
100: extruder 110: barrel
120: Screw

Claims (6)

A seating part in which a screw drawn out from the extruder is seated;
A load supporting part coupled to a lower part of the seating part and supporting a load of the screw;
A load assisting part including an elastic body interposed between the seating part and the load supporting part to support a part of the screw load;
Screw dispensing apparatus of the extruder comprising a transfer means coupled to the lower portion of the load support in a movable structure.
The method of claim 1,
The load supporting part
A first shaft having one side coupled to a lower portion of the seating portion and extending downward;
The upper side is coupled to the other side of the first shaft and the lower side is coupled to the conveying means, screw extraction apparatus of the extruder, characterized in that it comprises a jack for lifting the screw to support the load of the screw.
The method of claim 2,
The load assisting support portion
A coupling plate coupled to the first shaft,
A second shaft having one side coupled to a lower portion of the seating portion and extending downward;
And a spring assembly having one side coupled to the other side of the second shaft and the other side coupled to the upper surface of the coupling plate to support a portion of the screw load.
The method of claim 1,
The seat
A seating plate located below the screw;
Is installed on the upper surface of the seating plate, the roller portion which is installed on both sides of the screw so that the screw is in contact with the outer edge of the screw,
Screw extraction apparatus of the extruder, characterized in that it is installed on both sides of the upper surface of the seating plate so as to surround both sides of the screw and the width adjustable according to the diameter of the screw.
The method of claim 1,
The conveying means
And a transfer rail installed in the longitudinal direction of the screw, and a moving wheel moving on the transfer rail.
The method of claim 1, wherein
A frame coupled to any one of the seating portion, the load supporting portion, the load assisting portion, and the transfer means, the handle may further include a handle that allows the operator to grip the frame to transfer the screw seated on the seating portion. Screw take out device of extruder.

Images