JPH0428614A - Washing method and device for screw for extruder and the like - Google Patents

Abstract

PURPOSE:To enhance washing efficiency by inclining a nozzle hole to the axis- direction of a screw, reciprocating the nozzle hole in the axis-direction of the screw while rotating it around its eccentric axis, thereafter turning the screw- shaft through a fixed angle, and repeating the above operations similarly. CONSTITUTION:A screw S is placed horizontally on receiving rollers 2, a nozzle hole is inclined to the axis-direction of a screw on one side, and a nozzle-pipe body 14a is rotated, by the start of a nozzle rotating motor 16, to rotate the nozzle hole arouns its eccentric axis so as to give a circular arc. In this state, a bed moving means 9 is actuated to move a moving bed 8 from ane end to the other end. When the moving bed 8 is stopped by a limit switch, a nozzle- inclining motor 10 is reversed through 45 degrees, and a nozzle bed 13 oscillates to incline a nozzle 14 to the axis-direction of the screw on the other, opposite side and thus change the direction of the nozzle. When a moving motor 9c is reversed, the moving bed 8 moves in the opposite direction, and the moving bed 8 is stopped at the left-limit position. The screw S is turned through a fixed angle around its axis by a drive motor 6 so that unwashed portion comes to the upside. The above operations are repeated in the same manner.

Description

DETAILED DESCRIPTION OF THE INVENTION A. Field of Industrial Application The present invention relates to a method and apparatus for cleaning screws for extruders, etc.

B. Prior Art An example of this type of device is the one described in Japanese Utility Model Publication No. 16495/1983. That is, when the screw is laid horizontally, the screw is rotatably supported (like a crane), and a plurality of sets of receiving rollers are spaced apart in the axial direction of the screw, and the screw is rotated by the frictional force with the receiving rollers that are rotated by power. A rail is provided at a position parallel to and apart from the axial direction of the screw, a moving table is driven and mounted on the rail by a table reciprocating means, a water jet section is mounted on the moving table, and the water jet section is mounted on the moving table. The nozzle of the water jet section was arranged to face the screw.

Thus, the nozzle holes provided in the nozzle tip were provided with two holes, one oriented perpendicular to the axial direction of the screw and the other oriented at an angle of 15 to 45 degrees with respect to the axial direction.

C8 Problems to be Solved by the Invention Accordingly, since a large amount of water is required, the capacity of the pump becomes large, the pump motor becomes large, and its power consumption becomes large.

The present invention solves the above problems, and the nozzle tip has only one nozzle hole, which allows the pump capacity to be small.
Moreover, it is an object of the present invention to provide a method and apparatus for cleaning a screw that allows the direction of the nozzle to be freely changed depending on the angle of the screw thread surface with respect to the screw axis direction.

01 Means for Solving the Problems In order to solve the above problems, the method of the first configuration of the present invention is as follows:
With the screw lying horizontally on the roller,
While rotating the nozzle around an axis eccentric from the nozzle hole with the nozzle hole oriented obliquely in one direction of the screw axis, the nozzle is moved from one end to the other end in the axial direction of the screw. While tilting the screw in the opposite direction of the axis, move the screw from the other end to one end in the axial direction of the screw, then rotate the screw by a certain angle, and in the same manner, The above cycle is repeated until at least 360 degrees have been rotated.

In the second oval device, a plurality of sets of receiving rollers are spaced apart in the axial direction of the screw so as to rotatably receive the screw in a horizontal state at the bottom of the box-shaped main body, and the power rotation of the screw means are provided, and a rail is provided parallel to and spaced apart from the axial direction of the screw;
An extruder, etc., in which a moving table is mounted on the rail and driven by a table reciprocating means, a water jet section is mounted on the moving table, and the nozzles of the water chef 1 to 1 are arranged to face the screw. In the cleaning device for a screw, a nozzle tilting motor is mounted on the movable table and connected to a nozzle stand support shaft that extends horizontally to the screw side and rotates forward and backward, and a nozzle tilting motor is connected directly to the tip of the nozzle stand support shaft. or a nozzle stand that is indirectly fixed and extends horizontally above the screw, and a conduit body that is rotatably attached to the nozzle stand and hangs vertically so that the tip at the lower end faces the screw; and a nozzle having a nozzle hole eccentric with respect to the conduit body, and a nozzle rotating section provided on the nozzle stand so as to rotate the conduit body of the nozzle about its axis.

The E1 action screw lies horizontally on the receiving roller. The nozzle hole is oriented obliquely to one side of the screw axis: 1. When the nozzle rotation motor is started, the conduit main body of the nozzle rotates, and the nozzle hole rotates around the eccentric axis to draw a circular arc.

In this state, the platform moving means is activated, and the moving platform moves from one end to the other end in the axial direction of the screw.

When the movable base reaches near the other end of the screw, the movable base stops.Next, the nozzle tilting motor is activated, which causes the nozzle base to swing, and the nozzle tilts in the opposite direction of the screw axis. and change direction. Then, the moving table moves in the opposite direction, and the nozzle moves from the other end of the screw to one end.

The moving table stops at one end position.Next, the power rotation means of the screw is activated, and the screw rotates by a certain angle around its axis so that the end cleaning part is on the upper side.7 In the same way, the screw is rotated 360 degrees. Repeat the above cycle until rotated.

EXAMPLE Below, embodiments of the present invention will be explained based on an example shown in the drawings.

As shown in FIGS. 1 and 2, two sets of receiving rollers 2 are installed at the bottom of the rectangular box-shaped main body 1 at a distance in the axial direction of the screw so as to rotatably receive the screw S while it is lying horizontally. It is placed. The height of the receiving roller 2 can be adjusted according to the thickness of the screw S.

One end of the screw S is connected to a drive shaft 4 via a connecting device 3 consisting of a cap piece 3a and a cap plate 3b passing through it, and is rotated intermittently at a constant angle by a rotation motor 6 via a transmission gear 5. be moved.

17. The inner diameter of the A-tough piece 3a into which the screw S is fitted is considerably larger than the boss portion of the screw S, and the stop bolt 3h is recessed into the keyway of the boss portion.

Thereby, even if the centers of the screw S and the cap piece 3a are slightly misaligned, the screw S can be rotated without any problem.

A rail 7 is provided on the outside of the box body 1 at a position parallel to the axial direction of the screw S and spaced apart in a horizontal direction perpendicular to it, and a moving table 8 is mounted on the rail by being driven by a table moving means 9. . That is, a nut member 9a is fixed to the lower surface of the moving table 8, and a threaded rod 9b screwed into the nut member 9a is connected to the moving motor 9C.
Rotated by

A water jet section is mounted on the movable table 8, and a nozzle 14 of the water jet section faces the screw S. A nozzle tilting motor 10 is mounted on the movable table 8, and its output shaft, which is a nozzle stand support shaft, is rotated forward and backward within a range of approximately 90 degrees by a power source, and the motor 10 extends horizontally toward the screw side. A leg 13b is fixed to the tip of the output shaft of 10,
A nozzle stand 3a projects horizontally from the -E end to above the screw S.

The nozzle 14 is rotatably mounted on the nozzle stand 13, and the conduit main body 14a hangs vertically so that the tip 14b at the lower end faces the screw.

The nozzle hole is eccentric with respect to the conduit body 1, 1a.

The conduit main body 14a is rotatably supported around a vertical axis by a flange 14c fixed thereto and a thrust bearing serving as a nozzle bearing 15 that receives the flange 14c.

A nozzle rotating section 16 is provided in the nozzle f313 to rotate the conduit main body 14a of the nozzle about its axis, and is composed of a nozzle rotation motor 16a and a transmission gear 16b.

The operating state will be explained above.

In FIGS. 1 and 2, the screw S is shown lying horizontally on one of the receiving rollers 2.

Then, when the nozzle rotation motor 16a is started while the nozzle hole is tilted toward one side of the screw axis, the conduit main body 14a rotates, and the nozzle hole rotates around the eccentric axis to draw a circular arc.

When the platform moving means 9 is operated in this state and the moving motor 9c is started, the threaded rod 9b rotates, and accordingly the moving platform 8 is moved from one end to the other end in the axial direction of the screw via the nut member 9a. do.

When the moving table 8 reaches the right limit position near the other end of the screw S, a limit switch (not shown) is activated and the moving table 8 stops.
is started, the motor rotates in reverse by approximately 45 degrees, thereby swinging the nozzle stand 13, and the nozzle 14 changes direction by tilting in the opposite direction of the screw axis. Then, the moving motor 9c reverses, the moving table 8 moves in the opposite direction, and the nozzle moves from the other end of the screw to one end. At the left limit position, the moving table 8 is stopped by the operation of a limit switch (not shown).

The signal starts the drive motor 6, and the transmission gear 5
The screw S is rotated through a certain angle (for example, 60 degrees) about its axis so that the end cleaning part is on the upper side. Accordingly, the receiving roller 2 comes into contact with friction and rotates freely.

Thereafter, one or more operations in which the above-described cycle is repeated in the same manner until the screw is rotated 360 degrees are automatically controlled by a sequence circuit.

As a result, the nozzle hole of the nozzle tip 14b optimally faces the threaded surface of the screw, so that the water jet impinges on the threaded surface of the screw at the most efficient angle. Therefore, foreign matter adhering to the screw thread surface can be effectively removed.

When cleaning is finished, the drive motor 6, moving motor 9C, and tilt motor 10 are stopped, and the locking bolt 3b of the connector 3 is closed.
is loosened and the screw S is pulled out from the connection cap piece 3a. This completes the cleaning work.

FIG. 3 shows another embodiment of the screw drive section.

That is, the pinion 4 is connected to the drive shaft 4 via the one-way clutch 41.
2 is installed, and the air link 43 that meshes with this
It is reciprocated by a piston cylinder mechanism 44. Stroke adjustment poles 1 to 46 that come into contact with the tip of the rack 43 and adjust its stroke are screwed onto the pillar 45.

Each of the above parts is installed on a stand 47. And rack 4
When the rack 43 moves forward (the piston rod of the air piston cylinder mechanism 44 moves in the direction of exiting the cylinder), the binion 42 and the drive shaft 4 rotate together, and when the rack 43 moves backward, the binion 42 idles. . The forward end position of the rack 43 is adjusted by the screwed-in length of the pillars 4 and 4 of the adjustment poles I and 46. This adjustment of the stroke of the rack 43 is possible due to the compressibility of the air in the air cylinder mechanism. By the above screw driving means,
A long heavy screw (e.g. 300 ni m diameter
, length 10 m) can be reliably rotated intermittently with a simple configuration.

Note that the screw may be rotated by rotating the socket with power.

In addition to extrusion, the present invention is also applicable to screws for injection molding, kneading, and other uses.

The present invention is not limited to the embodiments and embodiments described above, and includes two//variations without departing from the spirit and scope of the claims.

G0 Effect of the Invention Due to the first ellipse of the present invention, the nozzle hole of the nozzle tip is 1
Therefore, the amount of water required is small, which allows the pump capacity to be reduced.

Additionally, since the direction of the nozzle can be freely changed according to the inclination angle of the threaded surface, work can be performed with maximum cleaning efficiency.

Moreover, since the screw is rotated intermittently, running costs are reduced.

In addition to the effects of the first structure, the structure 211 has a simple structure and can be provided at low cost.

[Brief explanation of drawings]

FIG. 1 is a longitudinal sectional view showing one embodiment of the present invention, FIG. 2 is a left side view thereof, and FIG. 3 is a plan view of another embodiment. S...screw, 1...box-shaped body, 2...receiving roller, 3...connecting tool, 3a...cap piece, 3b...stopping bolt 4...drive shaft, 5...・Transmission gear, 6... Drive motor, 7...
Rail, 8... Moving table, 9... Stand moving means 9a... Nut member, 9b... Threaded rod, 9C... Moving motor, 10... Nozzle tilt motor, ]3... Nozzle stand, 13a...Main body, 13b...Legs 14...Nozzle, 14a...Conduit body, 14b...Tip, 15...
Nozzle bearing, 1G... Nozzle rotation part, 16a... Nozzle rotation motor. 16b...Transmission gear, 41...One-way clutch, 42...Binion, 43...
・Rack, 44. Air piston cylinder mechanism, 45. Column, 46. Stroke adjustment bolt, 47. White patent applicant: Hitachi Zosen Sangyo Co., Ltd., San-Ai Engineering, Patent attorney, Shinpei Inukai

Claims (2)

[Claims] (1) With the screw lying horizontally on the receiving roller, with the nozzle hole tilted toward one side of the screw axis, rotate the nozzle around the axis eccentric from the nozzle hole. from one end to the other end in the axial direction of the screw, then tilt the nozzle toward the other axial direction of the screw opposite to the above, and then move the nozzle from the other end to the one end in the axial direction of the screw;
A method for cleaning a screw for an extruder or the like, characterized in that the screw is rotated by a certain angle, and the above cycle is repeated in the same manner until the screw is rotated at least 360 degrees. (2) A plurality of sets of receiving rollers are spaced apart in the axial direction of the screw so as to rotatably receive the screw in a horizontal state at the bottom of the box-shaped main body, and power rotation means for the screw is provided; A rail is provided at a position parallel to and apart from the axial direction of the screw, a moving table is mounted on the rail while being driven by a table reciprocating means, a water jet section is mounted on the moving table, and the water jet section is mounted on the moving table. In a cleaning device for a screw for an extruder, etc., in which a nozzle of the part is arranged to face the screw, a nozzle stand support shaft is mounted on the movable stand, extends horizontally to the screw side, and is rotated forward and backward. A nozzle tilting motor is connected to the nozzle tilting motor, a nozzle base is fixed directly or indirectly to the tip of the nozzle base support shaft and extends horizontally to the top of the screw, and a nozzle base is rotatably attached to the nozzle base and is attached to the lower end of the nozzle base. A nozzle whose conduit body hangs vertically so that the tip faces the screw, and whose nozzle hole is eccentric with respect to the conduit body, and a nozzle mounted on the nozzle stand so that the conduit body of the nozzle is rotated about its axis. 1. A cleaning device for a screw for an extruder, etc., comprising a nozzle rotating section provided therein.