JP2521578B2 - Injection molding machine data processing method and apparatus - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an injection molding machine data processing method and apparatus for processing data relating to a molding process.

[0002]

2. Description of the Related Art Conventionally, various kinds of data processing such as setting, storing, and displaying have been performed by using screw speed data, filling pressure data, etc. in setting molding conditions and monitoring molding operation in an injection molding machine.

For example, the molding conditions in the injection process are set by a plurality of screw speeds and shift points (positions) from the injection start position after measurement. By such multi-stage setting of screw speed, the resin material flows in the order of sprue, runner, gate and cavity in the mold during injection filling.
The optimum screw speed and shift point corresponding to this flow path are set. On the other hand, also in the actual injection process, these screw speeds and shift points are detected, and the detected data are displayed as a graph on a display or the like and used as monitoring data.

[0004]

However, since the conventional data processing sets the molding conditions and the like in the injection process according to the screw speed, it is necessary to use experience and knowledge to grasp the filling state of the resin material injected into the mold. It is difficult to grasp easily, swiftly and accurately because it requires intuition, and it is difficult to analyze.

The present invention solves the problems existing in the prior art as described above, and it is possible to easily, quickly and accurately grasp the filling state of the resin material in the mold, and to easily analyze the data of the injection molding machine. It is intended to provide a processing method and a device.

[0006]

A data processing method of an injection molding machine according to the present invention calculates a volume velocity of a resin material from screw velocity data Dv and screw diameter data Dd when processing data relating to a molding process. , Data processing such as setting, storage, display, and recording is performed based on the volume velocity data Ds. In this case, as an example, a single
Injection molding different resin materials into the mold cavity
Each volume obtained from a plurality of injection devices 21, 22, 23 to be filled
Based on the velocity data, the horizontal axis is time and the vertical axis is volume velocity and
Data processing can be performed as
It

The data processing apparatus 1 of the injection molding machine according to the present invention is used for carrying out the data processing method.
Based on the input portion 2 for the screw speed data Dv, the input portion 3 for the screw diameter data Dd, the calculation portion 4 for calculating the volume velocity of the resin material from the screw velocity data Dv and the screw diameter data Dd, and the volume velocity data Ds. It is characterized by including a processing unit 5 for performing data processing such as setting, storage, display and recording relating to the molding process.

[0008]

According to the data processing method (or data processing apparatus 1) of the injection molding machine according to the present invention, the screw speed data Dv is input to the arithmetic section 4 from the input section 2 such as an input device and a detection device (sensor). And the screw diameter data Dd from the input unit 3 such as an input device and a storage device.
As a result, the calculation unit 4 calculates the volume speed of the resin material from the screw speed data Dv and the screw diameter data Dd. That is, the screw cross-sectional area is calculated from the screw diameter data Dd, and further the volume velocity (volume moving amount per unit time, unit: cm ³ / s) of the resin material is calculated from the screw cross-sectional area and the screw velocity data Dv. . Then, the processing unit 5 obtains the obtained volume velocity data Ds.
Based on the above, data processing such as setting, storing, displaying and recording is performed.

[0009]

The preferred embodiments of the present invention will be described below in detail with reference to the drawings.

First, the configuration of the data processing device 1 according to the present invention will be described with reference to FIG.

M is an injection molding machine, which constitutes a general in-line screw type injection molding machine having a screw 12 inserted in a heating cylinder 11.

On the other hand, 13 is a position sensor (detection device) for detecting the position of the screw 12, and the position detection signal of the position sensor 13 is given to a central controller 14 having a computer function. The central controller 14 includes a speed calculation function section 15 (input section 2) and a volume speed calculation function section 16
The calculation unit 4 includes a resin amount calculation function unit 17, a product weight calculation function unit 18, a determination function unit 19, a reference value setting unit 20, and the like. Further, an input device 21 (input unit 3), a display unit 22, and a printer 23 are connected to the central controller 14, respectively. It should be noted that the functional units that perform determination, conversion, display, recording, etc. for the volume velocity data Ds output from the volume velocity calculation function unit 16 constitute the processing unit 5.

Next, a data processing method according to the present invention will be described with reference to FIG.

First, the speed calculation function section 15 is used for the position sensor 1
The screw speed is calculated on the basis of the position detection signal given from No. 3. Then, the obtained screw speed data D
v is given to the volume velocity calculation function unit 16. On the other hand, the screw diameter data Dd is input from the input device 21,
The screw diameter data Dd is given to the volume velocity calculation function unit 16. The volume velocity calculation function unit 16 calculates the volume velocity based on the screw velocity data Dv and the screw diameter data Dd. Volume velocity means 1 screw per unit time
It is the volume of the resin material transferred by the movement of 2, and the unit is [cm ³ / s]. Then, the obtained volume velocity data Ds is given to the resin amount calculation function unit 17, the measured resin amount and the injection resin amount are calculated, and the product weight calculation function unit 18 calculates the product weight. in this case,
The product weight can be easily calculated based on the resin characteristics (temperature, density, resin pressure).

The various data thus obtained are processed by the processing unit 5. That is, the volume velocity data Ds, the screw velocity data Dv, the data regarding the measured resin amount and the injection resin amount, and the data regarding the product weight are displayed on the display unit 22 and can be printed out by the printer 23. On the other hand, volume velocity data Ds
Each data including the is provided to the determination function unit 19, and it is determined whether the data is normal data or abnormal data by comparison with the reference value given from the reference value setting unit 20, and the determination result is output.

By the way, the data processing based on the volume velocity data Ds is particularly suitable for use in the injection molding machine 20 for molding a laminated sandwich molded product or a multicolor molded product shown in FIG. The injection molding machine 20 includes a plurality of injection devices 21,
Different resin materials are injection-filled from 22 and 23 into a single mold cavity 25 for molding. When molding a sandwich molded product, etc., the filling condition of the resin material injected first greatly affects the subsequent injection and filling conditions, so in order to perform stable molding, the resin material on the skin side and core side It is necessary to properly balance the rheological properties of and to precisely control molding conditions that influence the flow state of each resin material. Therefore, for example, if the molding conditions on the side of an arbitrary injection device that performs injection filling are changed in advance, it is necessary to change the molding conditions on the other injection devices that perform injection filling after that.

In this case, by using the volume velocity data Ds, the horizontal axis represents time and the vertical axis represents individual injection devices 21.
By displaying the characteristic diagram of the volume velocity and the sum of the volume velocity, the whole filling state can be easily, quickly and accurately grasped.

In FIG. 2, 31, 32, 33
Are control devices, 34 ... are amplifiers connected to various sensors, 3
5 is a sequence control device, 36 is a processing device, 37 is a display device, and 38 is an input device.

The embodiment has been described in detail above.
The present invention is not limited to such an embodiment.
For example, although the case where the molding operation in the injection process is monitored is illustrated, the case where the molding condition is set may be used.
In this case, the input unit for the screw speed data serves as an input device. Further, the volume velocity data may be used in another molding process such as a measuring process. Furthermore, although an input device is illustrated as an input unit of the screw diameter data and the case where the input is performed from this input device is illustrated, the data stored in the storage device in advance may be read. In this case, the storage in the storage device may be input from the input device, or the identification code imprinted on the screw may be read and stored when the power is turned on. Further, the volume velocity is a concept including a weight velocity converted by specific gravity. In addition, the detailed configuration, method, and the like can be arbitrarily changed without departing from the scope of the present invention.

[0020]

As described above, the data processing method (data processing device) for the injection molding machine according to the present invention calculates the volume velocity of the resin material from the screw velocity data and the screw diameter data, and the data is calculated based on the volume velocity data. Since processing is performed, it is easy to intuitively grasp the filling state of the resin material injected into the mold, and the molding state can be grasped easily, quickly and accurately, and analysis etc. can be performed easily. It has a remarkable effect that it can be done.

[0021]

[Brief description of drawings]

FIG. 1 is a functional block diagram of a data processing device according to the present invention,

FIG. 2 is a schematic configuration diagram of an injection molding machine suitable for using the data processing method according to the present invention,

[Explanation of symbols]

 1 data processing device 2 input unit 3 input unit 4 arithmetic unit 5 processing unit21 injection device 22 Injection device 23 Injection device  Dv Screw speed data Dd Screw diameter data Ds Volume speed data

Claims (3)

(57) [Claims] 1. When processing data relating to a molding process of an injection molding machine, a volume velocity of a resin material is calculated from screw velocity data and screw diameter data , and setting, storage, display, recording, etc. are performed based on the volume velocity data. A data processing method for an injection molding machine, comprising: 2. Different molds for a single mold cavity
Obtained from multiple injection devices that injection-fill several resin materials
Based on the volume velocity data, the horizontal axis is time and the vertical axis is volume velocity.
To perform the data processing that is displayed as the degree and its sum.
The data processing method of the injection molding machine according to claim 1.
Law. 3. An input unit for screw speed data, an input unit for screw diameter data, and a calculation unit for calculating the volume velocity of the resin material from the screw velocity data and the screw diameter data.
Settings related to the molding process based on volume velocity data
A data processing apparatus for an injection molding machine, comprising a processing unit for performing data processing such as storage, display, and recording .