KR101423259B1 - Device for installing and separating screw in compression machine - Google Patents

Abstract

The present invention relates to a device for attaching a screw to or detaching the screw from an extruding machine in order to clean the extruding machine or replace components therein after the use of the extruding machine for a predetermined time and, more specifically, to a screw attachment and detachment device of an extruding machine. The screw attachment and detachment device of an extruding machine includes: a base body section; a screw guide section which is a rod-shaped body positioned in an upper part of the base body section, and is arranged such that one end can be in contact with one end of a screw inserted into a barrel of the extruding machine while being moved forward and backward; a power providing section which is arranged in one side of the base body section, and provides power such that the screw guide section is moved forward and backward; and a bracket section which is arranged in one side of an upper part of the base body section to be fixed to one side of the extruding machine such that an axial direction of the screw guide section corresponds to an axial direction of the screw inserted into the barrel of the extruding machine. According to the present invention as described above, the screw attachment and detachment device enables a worker to move, in a forward and backward direction, the screw guide section moved forwarding and backward with a worm gear coupling structure to draw or mount the screw positioned inside the extruding machine with less power, thereby facilitating work and reducing working hours. Furthermore, the screw attachment and detachment device can allow an extended guide rod to be inserted into the screw guide section having a tubular shape to extend the length of the screw guide section to reduce a usual work space, thereby improving work efficiency.

Description

TECHNICAL FIELD [0001] The present invention relates to a device for screw extruding and extruding,

The present invention relates to an apparatus for extruding a screw in an extruder for cleaning or replacing internal parts after using the extruder for a predetermined period of time. More particularly, the present invention relates to a device for moving a screw guide, To a screw-in / take-out device of an extruder for taking out or mounting a screw located at a lower end of the screw.

In general, the extruder is heated by a heating material to form a fluid state, the molten molding material is compressed using a screw, advanced on a screw, passed through a die of a specific shape, It is a device for continuous molding of products.

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.

Such an extruder is mainly used for coating a large-capacity cable. When the operation of the extruder is stopped due to the change of cable type, diameter change, or material change of resin used as a molding material, Carbonization phenomenon occurs and the screw should be taken out and cleaned in order not to affect the following working conditions.

In addition, a new screw may have to be inserted after the screw is pulled out for lot replacement or the like.

However, the screw used for covering such a large cable is a metal having a diameter of about 5 to 20 cm and a length of about 2.5 to 3 m. Since the metal is heavy, it is not easy to insert and detach from the inside of the extruder pipe, Can not.

In order to solve such a problem, conventionally, a screw is manually rotated by the operator at the tip of the extruder to push out the screw by pushing a predetermined length. However, when foreign substances such as raw materials are mixed in the screw, more force is required, Lt; / RTI >

Particularly, when the screw is large in diameter of 200 mm or more, there is a great deal of difficulty for the worker to remove the workpiece by frictional force due to its own weight.

Accordingly, there is a growing demand for a ball pool which can overcome the unreasonable point of the method of removing the screw in the conventional extruder and is easy to store and carry.

Japanese Patent No. 5065855

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above problems, and it is an object of the present invention to provide a worm gear assembly in which a screw guide moving forward and backward in a worm gear engagement structure is moved to draw out a screw located inside the extruder barrel with a small force, So that the screw can be mounted into the barrel of the extruder.

According to an aspect of the present invention, there is provided an extruder barrel comprising: a base body; and a rod-shaped body located at an upper portion of the base body, A power supplier provided at one side of the base body to provide power to move the screw guide unit in the forward and backward directions and a power supplier provided in the axial direction of the screw guide unit and the barrel of the extruder, And a bracket installed on one side of the base body and fixed to one side of the extruder so that the axial directions of the screws inserted therein are aligned.

Wherein the worm gear box portion is formed to have a predetermined length on the outer edge of the screw guide portion and the worm gear is rotatably mounted on the inner side of the worm gear box portion so that the screw guide portion is formed in the screw guide portion A screw thread is worm-wise engaged with the teeth of the worm wheel, and the screw guide portion is moved forward and backward in accordance with the rotational direction of the worm wheel.

Further, an operation handle capable of rotating the worm wheel in the left or right direction is further provided at one side of the worm gear box portion.

The screw guide portion may be a tubular pipe, and may further include an extension guide rod inserted into the screw guide portion, wherein one end of the screw guide portion and the one side of the extension guide rod are integrally joined to one end portion of the screw guide portion A locking means is further provided.

Furthermore, another extension guide rod continuously connected to one end of the extension guide rod along the longitudinal direction of the extension guide rod is coupled.

Further, at one end of the extension guide rod, there is further provided a clamping coupling part for fixing one end of the screw of the extruder.

More specifically, the bracket portion is a tubular body coupled to one side of the worm gear box portion, and includes a guide tube portion through which the screw guide portion passes, and a plate coupled to one end of the guide tube portion, And a bracket plate on which at least one engaging hole is formed for engaging with one side of the extruder.

An elastic support portion provided between the base body portion and the worm gear box portion and supporting a load provided by the worm gear box portion; and an elastic supporting portion provided between the base body portion and the worm gear box portion to coincide the axial direction of the screw guide portion with the central axis direction of the screw inserted into the extruder And a position adjusting unit installed at a lower portion of the worm gear box unit to finely adjust the position of the worm gear box unit.

According to the present invention as described above, the operator can move the screw guide portion, which is moved back and forth by the worm gear engagement structure, in the forward and backward direction, thereby drawing or mounting the screw located inside the extruder with a small force, In addition, since the length of the screw guide portion is extended by inserting the extension guide bar into the pipe guide portion of the tubular shape, the working space can be reduced at normal times, thereby improving the working efficiency.

1 and 2 are perspective views showing a screw extender for a screw extruder according to the present invention.
FIG. 3 is a side cross-sectional view illustrating a state where the screw extender of the extruder according to the present invention is coupled to the extruder.
Fig. 4 is an enlarged view of the portion (a) of Fig. 3;
FIG. 5 is a cross-sectional view of the screw extruder of the extruder according to the present invention as viewed from the front.
FIG. 6 is a view illustrating a process in which a screw is taken out from the screw-field removing apparatus according to the present invention.
FIG. 7 is a view illustrating a process of mounting a screw in the screw-field detaching device according to the present invention.

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

FIG. 1 is a perspective view of a screw extruder of the extruder according to the present invention, FIG. 3 is a side sectional view showing a state where the screw extruder of the extruder according to the present invention is coupled to an extruder, 4 is an enlarged view of a portion of FIG. 3 (a), and FIG. 5 is a cross-sectional structural view of the screw extruder of the extruder according to the present invention as viewed from the front.

Referring to the drawings, an apparatus for screwing and dismounting an extruder according to the present invention includes a base body 10, a power supply 20 coupled to one side of an upper portion of a base body 10, A screw guide portion 30 which is worm-gear-connected to the worm gear box portion 20 in a tubular shape having a predetermined length so as to be moved forward and backward through the inside of the worm gear box, a worm gear box portion A bracket portion 40 provided at one side of the screw guide portion 20 and fixed to the extruder, and an extension guide rod 70 inserted into the screw guide portion 30.

Although the base body 10 is shown as a frame structure in FIGS. 1 and 2, it may have various shapes. Referring to the drawings, the structure of the base body 10 will be described. In the lower part, a moving means 13 composed of a moving wheel sliding in contact with a ground surface is mounted on each end of a lower frame structure 12 formed in a T- . The upper frame structure 11 is coupled to the upper portion of the lower frame structure 12 formed in a T shape at a predetermined height and an operator grasps the base body portion 10 on one side of the upper side of the upper frame structure 11, The grip portion 14 is provided.

The worm gear box portion 20 is a box shape having a circular hole 21 through which the screw guide portion 30 can be moved from one side to the other side and is formed on one side of the upper side of the base body portion 10, As shown in Fig.

The worm gear box portion 20 is provided with a worm shaft 22 in a direction perpendicular to the direction in which the screw guide portion 30 is moved and both ends of the worm shaft 22 are exposed to the outside of the worm gear box portion 20 do.

An operation handle 24 is mounted on one end of the worm shaft 22 exposed to the outside so that an operator can manually rotate the operation handle 24 in the left and right direction and the other end is exposed to the outside, And the worm shaft 22 may be rotated by the motor power by being attached to the other end of the worm shaft 22. [

A worm wheel 23 having teeth at regular intervals on its outer periphery is axially coupled to the worm shaft 22 and rotates in conjunction with the rotation of the worm shaft 22 on the inside of the worm gear box portion 20.

The screw guide portion 30 has a tubular shape in which the interior of the screw guide portion 30 is hollowed out. A screw thread 31 is continuously formed on the outer edge of the screw guide portion 30 to have a predetermined length, and is moved forward and backward through the circular hole 21 of the worm gear box portion 20.

The screw guide portion 30 is moved so that the thread 31 formed on the outer periphery of the screw guide portion 30 is engaged with the teeth formed on the outer periphery of the worm wheel 23, 31 are slid and moved forward or backward. The forward and backward driving of the screw guide unit 30 is performed by a general worm gear coupling method, and a detailed description thereof will be omitted.

3, in the present invention, the screw guide portion 30 is moved so that one end of the screw guide portion 30 is brought into contact with one end of the inner screw of the extruder barrel so that the screw is pushed in the moving direction of the screw guide.

In this way, the bracket portion 40 is provided at one end of the worm gear box portion 20 so that the screw guide portion 30 contacts the screw in the extruder barrel in the same axial direction, and is fixed to one side of the extruder by the bracket.

This is to prevent the screw guide portion 30 from rubbing against the inner wall of the extruder barrel so that the axial direction of the screw guide portion 30 and the axial direction of the extruder screw are aligned in a straight line.

For this purpose, the bracket portion 40 is a tubular body whose one side is coupled to the outer surface of the worm gear box portion 20, and the circular hole 21 of the worm gear box portion 20 is provided with a guide A tubular member 41 and a bracket plate 42 having at least one engaging hole 42a formed on the plate to be fixed to one side of the extruder, ).

In the state where the bracket part 40 is in communication with the circular hole 21, the bolt is inserted into the coupling hole 42a of the bracket plate 42 and is fastened to one side of the extruder, So that the axial direction is positioned in a straight line.

Further, in order to align the axial direction as described above, the position adjusting unit 60 is provided below the worm gear box unit 20 to finely adjust the left-right height deviation by the four bolts of up, down, right and left as shown in the figure.

Between the base body portion 10 and the worm gear box portion 20, an elastic support portion 50 for supporting a load provided to the worm gear box portion 20 is further provided. As shown in the drawing, the resilient supporting portion 50 supports a load provided to the worm gear box portion 20 by a coil spring formed at a lower end of the worm gear box portion 20 to have a predetermined length.

The extension guide rod 70 is inserted inside the tube of the screw guide portion 30 and is integrally coupled with the screw guide portion 30. [ The extension guide rod 70 serves as an auxiliary means of the screw guide portion 30. The one end of the screw guide portion 30 is inserted into the screw guide portion 30 so that the one end of the screw guide portion 30 comes into contact with one end portion of the screw of the extruder screw, One end of the extension guide rod 70 is brought into contact with one end of the screw so as to have the same function as the screw guide portion 30.

In order to integrally connect the extension guide rod 70 to the screw guide portion 30, the locking means 32 is provided at one end of the screw guide portion 30 so that the extension guide rod 70 Is integrally coupled to the one end of the screw guide portion 30. As shown in FIG.

The other extension guide rods 70 may be continuously connected along the longitudinal direction of the extension guide rods 70.

In order to push the screw out of the extruder by using only the screw guide part 30, the screw guide part 30 is formed to have a length corresponding to the length thereof So that the work space becomes too large, and the operator is also constrained to move the screw guide portion 30.

By using the extension guide rod 70 integrally coupled with the screw guide portion 30, it is possible to easily attach and detach the screw without space limitation. A description thereof will be described in more detail in the screw extender method described later.

When the screw is to be detached from the extruder, one end of the extension guide rod 70 is pushed backward at the front end of the extruder. When the screw is mounted to the extruder, one end of the extension guide rod 70 And is pulled to the front end of the extruder in a fixed state.

To this end, a clamping engaging portion 80 for fixing one end of the screw is further provided at one end of the elongated guide rod 70, and one end of the screw is clamped according to necessity such as screwing. A description thereof will be further described in detail in a screw extender method to be described later.

Hereinafter, the operation of the screw extender device of the extruder according to the present invention will be described in detail.

6 is a view illustrating a process of pulling out a screw in the screw-field desorption apparatus according to the present invention.

6 (a), the extension guide rod 70 is first inserted into the screw guide portion 30, and the locking portion provided at one end of the screw guide portion 30 is inserted into the screw guide portion 30, And the one side of the extension guide rod 70 is fixed by the means 32. In the figure, an operator can turn the handle provided on the locking means 32 to lock it.

Then, the base body portion 10 is moved and aligned so that one end of the extension guide rod 70 is located on the same axis as the screw of the extreme end of the extruder. At this time, the position adjuster 60 adjusts the left and right positions so that the axial directions coincide with each other according to the state of the ground.

The extension guide rod 70 is aligned on the same axis as the screw of the extruder, and then the bracket portion 40 is fixed to the front end of the extruder. The fixing of the bracket part 40 may be accomplished by bolts through a coupling hole 42a formed in the bracket plate 42 as shown in FIG.

Although the one end of the screw is clamped by the clamping engagement portion 80 in the drawing, it may not be fixed at the clamping engagement portion 80 in the drawing process.

6 (b), the worker rotates the operation handle 24 or the motor is mounted on the worm shaft 22 to rotate automatically so that the thread 31 of the screw guide portion 30 is rotated by the worm wheel 23). As shown in the drawing, the distal end portion of the screw guide portion 30 is advanced to the front end side of the extruder so that the screw is pushed and moved to the rear end of the extruder.

Then, the operator rotates the operation handle 24 in the opposite direction in a state where the operator unlocks the locking means 32 to disengage the extension guide rod 70 from the screw guide portion 30, or moves the driving force of the motor in the opposite direction So that the front end of the screw guide portion 30 is moved from the inside of the extruder barrel to the front end side of the extruder as shown in FIG. 6 (a).

Then, as shown in FIG. 6C, the locking means 32 of the screw guide portion 30 is operated again so as to be fixed integrally with the extension guide rod 70. [ That is, only the screw guide portion 30 is moved forward and backward in a state in which the extension guide rod 70 is not moved so that the rear end of the extension guide rod 70 is locked.

Then, as described above, the screw guide portion 30 is advanced again to move the screw toward the rear end of the extruder. These steps are repeated several times to withdraw the screw.

6 (d), when the length of the single extension guide rod 70 is smaller than the length of the extruder screw, another extension guide rod 70 'is pushed straight in the other end portion of the extension guide rod 70 And the screw is moved as shown in FIG. 6 (e).

FIG. 7 is a view illustrating a process of mounting a screw in the screw-field detaching device according to the present invention.

As shown in FIG. 7A, in the screw mounting process, the end of the screw mounted on the transporting carriage is cleaned first in the opposite direction to the drawing process, and the end of the screw is integrally coupled with the extending guide rod 70 by the clamping engaging portion 80 . At this time, the extension guide rods 70 are connected in a straight line to form a length corresponding to the entire length of the screw.

7 (b), the screw having the extension guide rod 70 coupled thereto is moved by the transporting carriage in a state where the screw-field removal device according to the present invention is coupled to the front end of the extruder, Is passed through the barrel at the rear end of the extruder to be exposed to the outside of the screw guide portion (30) through the front end portion of the extruder. Thereafter, the extending guide rod 70 'is fixed by the locking means 32 so as to be integrated with the screw guide portion 30, and the operation handle 24 or motor power The worm wheel 23 is rotated so that the screw guide portion 30 is moved backward so that the screw is moved toward the front end from the rear end of the extruder.

Then, the extension guide rods 70 'are unlocked and then only the screw guide portion 30 is advanced again. Then, the plurality of extension guide rods 70' are disassembled as shown in FIG. 7 (d) The rod 70 is locked.

7 (e) to FIG. 7 (g), the screw guide portion 30 is moved in the reverse order to the screw mounting process, while the extension guide rod 70 is repeatedly locked and unlocked, As shown in FIG.

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: base body part 11: upper frame structure
12: lower frame structure 13: moving means
14: grip part 20: power supply (worm gear box part)
21: Round hole 22: Worm shaft
23: Worm wheel 24: Operation handle
30: screw guide portion 31: threaded portion
32: locking means 40: bracket portion
41: guide tube portion 42: bracket plate
42a: coupling hole 50: elastic support
60: position adjusting section 70: extension guide rod
80:

Claims (8)

A base body portion;
A rod-shaped body located at an upper portion of the base body portion, the screw guide portion being disposed in such a manner that one end of the rod can be brought into contact with one end of the screw inserted into the extruder barrel while being moved in the forward and backward directions;
A power supply provided at one side of the base body to provide power to move the screw guide in the front and rear direction;
And a bracket which is installed on one side of the upper portion of the base body and is fixed to one side of the extruder so that the axial direction of the screw guide portion coincides with the axial direction of the screw inserted into the barrel of the extruder, Long-term removable device.
The method according to claim 1,
Wherein a screw thread of a predetermined length is formed on the outer periphery of the screw guide portion, and the power providing portion is provided inside the worm gear box so that the worm wheel is rotatable,
Wherein the screw guide portion passes through the worm gear box portion so that a thread formed on the screw guide portion is worm-wise engaged with the teeth of the worm wheel, and the screw guide portion is moved forward and backward in accordance with the rotation direction of the worm wheel. Long-term removable device.
3. The method of claim 2,
Wherein the worm gear box portion is further provided with an operation handle capable of rotating the worm wheel in the left or right direction on one side of the worm gear box portion.
3. The method of claim 2,
Wherein the screw guide portion is a tubular pipe and further includes an extension guide rod inserted into the screw guide portion,
And a locking means for integrally connecting one end of the screw guide portion and one end of the extension guide rod is further provided at one end of the screw guide portion.
5. The method of claim 4,
And an extension guide rod continuously connected to one end of the extension guide rod along the longitudinal direction of the extension guide rod.
5. The method of claim 4,
Further comprising a clamping engagement portion at one end of the extension guide rod for fixing one end of the screw of the extruder.
3. The method of claim 2,
The bracket portion
A tubular body coupled to one side surface of the worm gear box part, the guide tube part passing through the screw guide part to the inside of the tube;
And a bracket plate coupled to one end of the guide tube unit and having at least one engaging hole formed on the plate for engaging with one side of the extruder.
3. The method of claim 2,
An elastic support portion provided between the base body portion and the worm gear box portion and supporting a load provided by the worm gear box portion;
Further comprising a position adjusting unit installed at a lower portion of the worm gear box part to finely adjust the position of the worm gear box part so that the axial direction of the screw guide part and the central axis direction of the screw inserted into the extruder coincide with each other, Screw device.

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