JP4294005B2 - Control method of roller head extruder - Google Patents

Description

  The present invention relates to a control method for a roller head extruder, and in particular, a roller head extruder provided with a taper screw for extruding an extruded material in a bank and a roller head for extruding the extruded material extruded into the bank. It is related with the control method.

  Conventionally, as a control method of the roller head extruder, a method of controlling the rotation speed of the material extrusion screw and the roller head so as to keep the pressure in the bank constant (for example, refer to Patent Documents 1 and 2). ).

However, in this case, with the pressure changes in the bank, to change the rotational speed of the extrusion screw and the roller head, but is intended to control to keep the bank pressure constant, the rotation of the taper screw and roller head The speed fluctuates frequently due to changes in bank pressure, making it difficult to achieve a predetermined bank pressure, and the shape of the sheet extruded by the roller head tends to be disturbed at the edge.
Japanese Patent No. 2698037 Japanese Patent Publication No.55-4575

  An object of the present invention is to provide a control method for a roller head extruder in which the edge portion of a sheet to be extruded is less likely to be disturbed in view of the problems of the conventional control method for a roller head extruder. .

In order to achieve the above object, a control method for a roller head extruder according to the present invention includes, in a bank, a taper screw for extruding an extruded material, and a roller head for extruding the extruded material extruded in the bank. In the control method of the roller head extruder, the pressure in the bank based on the preset roller head rotation speed, the speed ratio of the taper screw rotation speed to the roller head rotation speed, and the bank internal pressure at the speed ratio. The range is stored, and automatic operation is started by the taper screw rotation speed calculated from the stored roller head rotation speed and the ratio of the taper screw rotation speed to the roller head rotation speed. when off, the roller head rotational speed remains constant, the tapered screw rotation speed By further, by changing the speed ratio, bank pressure, when returning to the bank pressure range, back to the original speed ratio, characterized by extruding the extruded material.

  In this case, the set value set in advance is rotated by rotating the taper screw to extrude the extruded material into the bank, and when the pressure in the bank reaches the roller head start set pressure, the roller head is rotated and extrusion molding is performed. The quality of the extruded material sheet is determined to be good, and when a good product is extruded, the roller head rotation speed, the speed ratio of the taper screw rotation speed to the roller head rotation speed, the bank pressure, and the bank pressure Can be determined by a teaching operation that stores a predetermined range of in-bank pressure ranges each having a central value.

In this case, the bank pressure range can be classified into five levels by dividing the maximum upper limit pressure, the upper limit pressure, the lower limit pressure, and the lower limit pressure as boundary values .

  According to the control method of the roller head extruder of the present invention, the speed ratio is changed only when the pressure in the bank deviates from a predetermined range on the basis of the speed ratio of the roller head rotation speed and the taper screw rotation speed, To provide a method for controlling a roller head extruder capable of extruding a sheet having a stable shape without changing the rotation speed of the taper screw frequently because the rotation speed of the taper screw is changed. Can do.

  Further, when performing the preset setting value by teaching operation, when the optimally shaped sheet can be extruded, the roller head rotation speed and the speed ratio of the taper screw rotation speed to the roller head rotation speed, A control method for a roller head extruder capable of extruding a sheet having a more stable shape since a bank internal pressure and a bank internal pressure range having a central value of the bank internal pressure can be obtained. Can be provided.

In addition, when the pressure range in the bank is divided into the upper limit pressure, the upper limit pressure, the lower limit pressure, and the lower limit pressure as boundary values and is divided into five stages, the roller head rotation speed and the taper screw rotation speed are more detailed. Ratio can be changed.

  Embodiments of a control method for a roller head extruder according to the present invention will be described below with reference to the drawings.

1 to 2 show an embodiment of a roller head extruder 1 used in the method for controlling a roller head extruder according to the present invention.
First, a roller head extruder 1 using the control method of the present invention is provided with a casing 2 having an extrusion material supply port 2a opened at an upper portion thereof, and is rotatably disposed in the casing 2 by a drive mechanism M1. A pair of taper screws 3 and 3, an extrusion material outlet 2 b extruded from the taper screws 3 and 3 opened in the housing 2, and an extrusion material extruded from the outlet 2 b are formed into a sheet shape. The roller heads 4 and 4 are paired up and down and rotatably arranged by the drive mechanism M2. The bank 5 formed between the outlet 2b and the roller heads 4 and 4 is formed in a so-called closed type. The pressure detector 6 measures the pressure in the bank 5.
The operation of the roller head extruder 1 is controlled by the control mechanism 10.

  The control method of the roller head extruder 1 is performed according to the procedure shown in the flow charts of FIGS. 3 and 4. First, the rotation speed of the roller head 4 (automatic roller head rotation) Speed), a speed ratio of the rotational speed of the taper screw 3 to the rotational speed of the roller head 4, and a pressure range in the bank based on the pressure in the bank 5 at the speed ratio. Run T. Since the rotational speed of the roller head 4 is an amount per hour of the sheet material to be molded, it is usually not changed during the molding process.

FIG. 3 shows a flowchart of the teaching operation T.
This teaching operation T is not necessary when extruding the same material under the same conditions. The teaching operation T is performed by reading out necessary data at the reading of teaching data in the flow chart of the automatic operation A shown in FIG. Can be omitted.

In the teaching operation T, first, when the taper screws 3 and 3 are started to rotate at a high speed in order to improve productivity, the bank 5 starts to be filled with the extruded material.
When the pressure in the bank 5 reaches the automatic taper screw start pressure, the rotational speed of the taper screws 3 and 3 is switched to the automatic taper screw start speed. The automatic taper screw starting pressure and the automatic taper screw starting speed differ depending on the extruded material, but are usually set to, for example, 50 kPa, 3 rpm, or the like.

  Due to the automatic taper screw start speed, the extruded material is further filled into the bank 5 and the pressure in the bank 5 is increased. When the pressure in the bank 5 reaches a predetermined (for example, 350 kPa) automatic roller head start pressure, the roller heads 4 and 4 are rotated at a predetermined automatic roller head start speed of, for example, 3 m / min. When the speed of the roller head 4 is switched to the automatic roller head start speed, the speed of the taper screws 3 and 3 is referred to as a constant ratio (hereinafter referred to as “speed ratio”) with respect to the automatic roller head start speed of the roller head 4. ) Change the speed to

When the speed ratio is 100%, the ratio of the automatic roller head start speed to the maximum rotation speed of the roller head 4 is A%. This means that the speed of A is set to A%, and when the speed ratio is 250%, it means that the speed is (A × 2.5)% with respect to the maximum speed of the taper screw 3.
Therefore, when the speed ratio is 100% and the maximum rotation speed of the roller head 4 is 10 m / min, and the automatic roller head start speed is 3 m / min, the automatic roller head start speed is the maximum of the roller head 4 When the rotation speed is 30% and the maximum speed of the taper screw 3 is 20 rpm, the speed of the taper screw 3 is 20 rpm × 0.3 = 6 rpm.

  Then, operation is performed at a speed of the taper screw 3 determined by a speed ratio between the automatic roller head start speed and the automatic roller head start speed, and the speed of the roller head 4 and the speed of the taper screw 3 are changed to an analog joystick or the like. While adjusting with a fine adjustment device, the shape of the sheet to be extruded (particularly the shape of the edge portion) is determined visually or with a shape sensor, etc., and the automatic roller head start speed when the sheet shape is optimal, The speed ratio and the pressure in the bank 5 are stored as the bank reference pressure.

The pressure in the bank 5 (reference pressure in the bank) to be stored is the reference value of the speed ratio between the automatic roller head start speed and the automatic roller head start speed and feeder speed when the sheet shape is optimal. At the time of operation, it is preferable to classify the reference pressure as the central value and the bank pressure classification into the maximum upper limit value, the upper limit value, the lower limit value, and the lower limit value as the boundary value, and to make five stages.
This pressure category is determined by multiplying a predetermined bank pressure category ratio by a certain ratio with respect to the reference pressure, and is expressed by the following equation.
Maximum value = Reference pressure x (1 + 2 x Bank pressure division ratio)
Upper limit value = Reference pressure x (1 + Bank pressure division ratio)
Lower limit = reference pressure x (1-bank pressure division ratio)
Lower limit = reference pressure x (1-2 x pressure division ratio in bank)
According to the experiments conducted by the inventors, the bank pressure division ratio is an optimum value around 0.2 (20%). Therefore, when the reference pressure is 500 kPa, the bank pressure division ratio is 0.2 ( 20%), the maximum upper limit value, the upper limit value, the lower limit value, and the lower limit value are 700, 600, 400, and 300 kPa, respectively, and these values are stored in the storage unit 11 of the control mechanism 10 and the automatic roller head. The starting speed and speed ratio are stored together and the teaching operation T is completed.

Next, in the automatic operation A, the data stored in the teaching operation T is read and the extrusion material is extruded. Of course, the automatic operation A can be performed after the teaching operation T.
FIG. 4 shows a flowchart of the automatic operation A.
This automatic operation A starts by reading the data stored in the teaching operation T from the storage means 11. Then, as in the teaching operation T, until the pressure in the bank 5 reaches the reference pressure in the bank, the taper screws 3 and 3 are started to rotate at a high speed, and the bank 5 starts to be filled with the extruded material. When the pressure in the bank 5 reaches the automatic taper screw starting pressure, the rotational speed of the taper screws 3 and 3 is switched to the automatic taper screw starting speed, and the pressure in the bank 5 is further increased to increase the automatic roller head starting pressure. , The rotation of the roller heads 4 and 4 is started at the stored automatic roller head start speed, the feeder speed is changed to the feeder speed determined by the speed ratio stored by the storage means 11, and the automatic operation is performed. Start.
As shown in the flowchart, when the pressure in the bank 5 is between the upper limit value and the lower limit value stored in the storage means 11 (hereinafter referred to as “appropriate pressure”), extrusion molding is performed at the feeder speed. Continue to change the feeder speed when the proper pressure is released.
When the pressure in the bank 5 exceeds the upper limit and lower limit, the feeder speed is set to the low speed / high speed, respectively. When the pressure exceeds the maximum upper limit, the feeder speed is set to 0 and vice versa. When the lower limit is exceeded, the feeder speed is changed to the highest speed.
The preset feeder speeds of low speed and high speed may be fixed values before and after the feeder speed determined by the speed ratio, or may be values calculated by the control mechanism 10 based on the speed ratio. Good.

  The control method of the roller head extruder of the present invention is based on the ratio of the roller head speed and the speed of the feeder. Control of a conventional roller head extruder that changes the feeder speed and roller head speed one by one due to fluctuations in the pressure in the bank as a result of extrusion using a method that changes only the feeder speed while the roller head speed remains constant Compared with the method, the shape of the formed sheet could be remarkably stabilized.

  As mentioned above, although the control method of the roller head extruder of this invention was demonstrated based on the Example, this invention is not limited to the structure described in the said Example, In the range which does not deviate from the meaning, it is appropriate. The configuration can be changed.

  According to the control method of the roller head extruder of the present invention, a sheet having a stable shape is extruded by controlling the speed ratio as long as it is within a proper pressure range based on the speed ratio between the roller head speed and the feeder speed. Since it has the property that it can be molded, it can be used for a control method of a new roller head extruder, and is applied by replacing the control mechanism with the control method of an existing roller head extruder. It can also be used for applications.

It is a top view of a part notch of the roller head extruder used for the control method of the present invention. It is the same side view. It is a flowchart of the teaching driving | operation of the control method of the roller head extruder of this invention. It is a flowchart of the automatic driving | operation of the control method of the roller head extruder of this invention.

DESCRIPTION OF SYMBOLS 1 Roller head extruder 3 Tapered screw 4 Roller head 5 Bank 10 Control mechanism 11 Memory | storage means T Teaching operation

Claims (3)

In the control method of the roller head extruder provided with a taper screw for extruding the extruded material in the bank and a roller head for extruding the extruded material extruded into the bank, a roller head rotation speed set in advance, A speed ratio of the taper screw rotation speed to the roller head rotation speed and a bank pressure range based on the bank pressure at the speed ratio are stored, and the stored roller head rotation speed and the roller head rotation speed are stored. When the automatic operation is started with the taper screw rotation speed calculated from the ratio of the taper screw rotation speed, and the pressure in the bank is out of the pressure range in the bank , the roller head rotation speed remains constant and the taper screw rotation speed is adjusted. by changing, and changing the speed ratio, bank pressure, wherein the bar When returning to click within the pressure range, back to the original speed ratio control method for a roller head extruder, which comprises extruding an extrusion material.   Set the preset value by rotating the taper screw to extrude the extruded material into the bank, and when the bank pressure reaches the roller head start set pressure, the roller head is rotated and the extruded material sheet is extruded. Determine the quality of the shape, when the non-defective product is extruded, the roller head rotation speed, the speed ratio of the taper screw rotation speed to the roller head rotation speed, the bank internal pressure, and the bank internal pressure 2. The method of controlling a roller head extruder according to claim 1, wherein the control is determined by a teaching operation that stores a predetermined range of the in-bank pressure range. 3. The method of controlling a roller head extruder according to claim 1, wherein the pressure range in the bank is classified into five stages by dividing the maximum upper limit pressure, the upper limit pressure, the lower limit pressure, and the lower limit pressure as boundary values .

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