JPH0740408A - Control method for motor cooling fan of electric injection molding machine - Google Patents

Abstract

(57) [Abstract] [PROBLEMS] To provide a method for controlling a fan for cooling a motor of an electric injection molding machine, in which noise is small even though the motor of the electric injection molding machine is cooled so as not to overheat. A plasticizing motor 4 that rotationally drives the screw 3, an injection motor 6 that axially drives the screw 3, an electric motor such as a mold opening / closing motor 22 that drives the mold 12 to open and close, and these electric motors 4, 6 and 22 are provided with cooling fans 7, 9 and 24, and for cooling an electric injection molding machine in which an injection molding mode such as preparation, manual operation, semi-automatic operation, and fully automatic operation can be appropriately selected. Fan 7,
The operation of the cooling fans 7, 9, 24 is driven when the injection molding mode is selected by interlocking the operations of 9, 24 ,.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention is equipped with an electric motor such as a plasticizing motor for rotationally driving a screw, an injection motor for axially driving the screw, a mold opening / closing motor for opening / closing a mold, and the like. The present invention relates to a method for controlling a motor cooling fan of an electric injection molding machine in which an injection molding mode such as manual, semi-automatic, or fully automatic can be appropriately selected.

[0002]

2. Description of the Related Art Electric injection molding machines are well known in the art without mentioning literature names, such as a plasticizing motor for rotationally driving a screw, an injection motor for axially driving a screw, and a mold opening / closing motor for opening / closing a die. Etc. are provided with a plurality of electric motors. It also has a mode selection switch for selecting an injection molding mode such as preparation, manual operation, semi-automatic operation, and full-automatic operation. Therefore, when the electric motor is started and the mode selection switch is appropriately selected and operated, the mold, the screw and the like are driven, and the synthetic resin product can be obtained in a desired injection molding mode. By the way, when a screw, a mold or the like is driven by the electric motor as described above to obtain a synthetic resin product, the electric motor generates heat. Therefore, the electric motor is provided with a cooling fan, and when the electric motor is started, the cooling fan is automatically driven at all times.

[0003]

As described above, when the electric motor is started when the synthetic resin product is obtained, the cooling fan is automatically driven constantly, so that the electric motor may be damaged by heat generation during injection molding. There is no such thing. However, there is a problem of wind noise of the cooling fan. That is, when the electric motor starts up, it generates heat due to iron loss, but when the load is small, it rarely rises to the allowable temperature. Nevertheless, since the cooling fan of the conventional electric injection molding machine is always driven, there is a drawback that noise is generated. In particular, it is a problem peculiar to electric injection molding machines.Before starting the molding operation, it is necessary to heat up for a relatively long time in order to raise the temperature to a predetermined temperature at which the injection molding machine can be molded. Despite this, the cooling fan is being driven, producing noise. Also, since it takes time to heat up, the power is often turned on even when the injection molding at night is stopped, but the environment is quiet at night, so the wind noise of the cooling fan is more noisy. To be Further, the electric injection molding machine is provided with a plurality of electric motors having different capacities, but if the electric motors have different capacities, the cooling fans also have different capacities. As a result, the frequencies of the noises of the cooling fans are different, and the noises may interfere with each other and become loud noises. Furthermore, driving the cooling fan unnecessarily causes energy loss.
Therefore, an object of the present invention is to provide a method for controlling a motor cooling fan of an electric injection molding machine, which is low in noise even though the motor of the electric injection molding machine is cooled so as not to overheat.

[0004]

In order to achieve the above object, the present invention provides a plasticizing motor for rotationally driving a screw, an injection motor for axially driving the screw, a mold opening / closing motor for opening / closing a die, and the like. In the electric injection molding machine, which is equipped with the electric motors described above, is provided with a cooling fan for these electric motors, and is capable of appropriately selecting an injection molding mode such as preparation, manual operation, semi-automatic operation, and full automatic operation. The operation of the cooling fan is interlocked with the injection molding mode selection switch, and the cooling fan is driven when the injection molding mode is selected.

[0005]

[Function] A plasticizing motor provided in the electric injection molding machine,
For example, when the electric motor such as the injection motor or the mold opening / closing motor is not activated, it heats up. At this time, the cooling fan of the electric motor is not operated. The injection molding mode such as preparation, manual operation, semi-automatic operation and full-automatic operation is appropriately selected. Then, the cooling fan of the electric motor is operated and the electric motor is cooled. Injection molding is performed by a conventionally known method according to the selected injection molding mode. When the injection molding mode is turned off after the molding is completed, the cooling fan of the electric motor is stopped even if the power is turned on.

[0006]

EXAMPLES Examples of the present invention will be described below. FIG. 1 is a schematic view showing an example of the electric injection molding machine according to the present embodiment. As shown in FIG. 1, the electric injection molding machine according to the present embodiment is In terms of structure, it has a conventionally known shape. Therefore, although not described in detail in terms of structure, the electric injection molding machine S includes the injection device 1 and the mold device 1.
0, the mold clamping device 20, etc., and these devices are mounted on the table D.
It is installed on top. And these devices 1, 10, 2
0 is appropriately controlled in association with the control device 30. The control device 30 is also provided with an injection molding mode switch, a power switch, and the like, which can appropriately select each injection molding mode such as preparation, manual operation, semi-automatic operation, and fully automatic operation.

The injection device 1 has a screw cylinder 2. A screw 3 is provided in the screw cylinder 2. The screw 3 is rotationally driven by a plasticizing motor 4 by a power transmitting means 5 such as a timing belt, and is axially driven by an injection motor 6 via a power transmitting means 8. Cooling fans 7 and 9 are provided at the ends of the plasticizing motor 4 and the injection motor 6, respectively. The cooling fans 7 and 9 are driven by respective motors 7'and 9 ', which will be described later in detail.

As is well known, the mold device 10 also has a fixed mold 11.
And a movable mold 12. And fixed mold 11
Is fixed to a fixed platen 13, the movable mold 12 is attached to a movable platen 14, and the fixed platen 13 and the movable platen 14 are connected by a plurality of tie bars 15, 15, .... Although not shown in the figure, the movable mold 12 is provided with an ejector pin for ejecting a molded product. The ejector pin is driven by the ejector motor 16 via the power transmission means 17, and the ejector motor 16 is cooled by the cooling fan 18. And the cooling fan 18 is
It is adapted to be driven by a motor 18 '.

The mold clamping device 20 comprises a toggle mechanism 21 in this embodiment. And this toggle mechanism 21
Is driven by the mold opening / closing motor 22, for example, by the timing belt 23. The mold opening / closing motor 22 is also provided with a cooling fan 24, and the cooling fan 24 is driven by a motor 24 '.

As shown in FIG. 2, the control circuit of the cooling fan is composed of an OR gate 31, an AND gate 33, a drive circuit 35 and the like. OR gate 31
Each of the injection molding mode switches 1 to 3, such as preparation, manual operation, semi-automatic operation, and full automatic operation, is connected to the input terminal of, and these signals are appropriately input. The output signal of the OR gate 31 and the signal from the power switch are input to the input terminals of the AND gate 33 through the lines 32 and 34, respectively. The drive circuit 35 is
For example, it is composed of an NPN type transistor, which conducts when a voltage is applied to the base of this transistor, and the relay 3
6, the switch of the fan drive circuit 37 is turned on.

Next, the operation of the above embodiment will be described. Turn on the power switch. Then, the signal is sent to the control device 30, and the plasticizing motor 4, the injection motor 6 and the like are activated, and eventually the state becomes ready for injection molding. On the other hand, the power switch signal is also applied to the AND gate 33 by the line 34. However, since the injection molding mode switch ~ has not been pressed, the OR gate remains off. Therefore, since "H" is not applied to one input terminal of the AND gate 33, the AND gate 33
Output to the drive circuit 35. Since the transistor 36 is off and the relay 36 does not operate, the fan drive circuit 37 is also off and the cooling fans 7, 9, 18, 2 are turned off.
The respective motors 7 ', 9', 18 ', 2 which drive 4
4'does not start. Therefore, during the heat up period,
During the night, etc., when injection molding is not performed, the cooling fans 7, 9,
Since 18, 24 are not driven, it is quiet and saves energy.

An injection molding mode switch is selected. For example, press the automatic mode switch. Then,
This signal is sent to the control device 30, and the plasticizing motor 4, the injection motor 6, and the like bring the screw 3 of the injection device 1, the mold 12 of the mold device 10 and the like into a state where automatic injection molding is possible.
The resin material charged from the hopper h is melted by the heat applied from the outside and the heat generated by the shearing action, the friction action and the like due to the rotation of the screw 3 in the process of being sent by the rotating action of the screw 3. Then, the molten resin is injected into the cavities of the molds 11 and 12 by the injection motor 6 and is automatically molded in a conventional manner.

As shown in FIG. 2, when the automatic mode switch is pushed, the signal is also inputted to the OR gate 31, so that the "H" signal is outputted from the OR gate 31 to the AND gate 33, and the AND gate is formed. The gate 33 turns on. Therefore, the transistor of the drive circuit 35 is turned on,
The switch of the fan drive circuit 37 is turned on by the relay 36, and the respective motors 7 ', 9', 18 ', 24' for driving the cooling fans 7, 9, 18, 24 'are activated. Press any of the other injection molding mode switches ~
It is clear that the "H" signal is output from the OR gate 31 to the AND gate 33 and the relay 36 turns on the switch of the fan drive circuit 37. When the injection molding mode switches (1) to (4) are turned off, that is, when injection molding is not performed, the "H" signal is output from the OR gate 31 to the AND gate 3.
3 is not output, the AND gate 33 is turned off.
Therefore, the drive circuit 35 also becomes non-conductive, and the cooling fans 7, 9, 18, 24 are not driven.

As described above, according to the present embodiment, the cooling fan 7 is interlocked with the injection molding mode switch.
Since 9, 18, 24 are driven, the plasticizing motor 4, the injection motor 6, the mold opening / closing motor 22 and the like work, and when these motors generate heat, they are cooled and do not undergo injection molding during the heat-up period. During the night, etc., the cooling fans 7, 9, 18, 24 are not operated, so it is quiet,
It also saves energy. In addition, according to the present embodiment, when the injection molding mode switches are turned off, the motor 7 ′ for driving the cooling fans 7, 9, 18 and 24,
9 ', 18', 24 'stop immediately, but some of the injection molding motors 4, 6, 16, 22 used are relatively hot. A delay relay or the like is provided for such a motor so that the motor 7 ', 9', 1
It is also possible to drive 8 ′ and 24 ′ and then turn them off. Further, in the illustrated embodiment, the control circuit for the motor cooling fan is shown as an example configured by a wired logic circuit, but the microcomputer provided in the injection molding machine can be used to softly control the motor cooling fan. It can also be controlled. However, specific examples of these are not shown.

[0014]

As described above, according to the present invention, an electric motor such as a plasticizing motor for rotating the screw, an injection motor for axially driving the screw, and a mold opening / closing motor for opening / closing the die are provided. These electric motors are equipped with cooling fans and are used for preparation, manual operation, semi-automatic operation,
In an electric injection molding machine in which a fully automatic injection molding mode can be appropriately selected, the cooling fan is operated when the injection molding mode is selected by linking the operation of the cooling fan with the injection molding mode selection switch. Since it is configured to drive a fan, the cooling fan is operated when cooling of an electric motor such as a plasticizing motor is required.
Since it is automatically turned off when cooling is not required, the effect peculiar to the present invention that the noise emitted from the electric injection molding machine is reduced can be obtained.

[Brief description of drawings]

FIG. 1 is a front view schematically showing an embodiment of an electric injection molding machine to which the present invention is applied.

FIG. 2 is a circuit diagram showing an example of a control circuit of a motor cooling fan of the electric injection molding machine of the present invention.

[Explanation of symbols]

 1 injection device 4 plasticizing motor 7 cooling fan 6 injection motor 9 cooling fan 10 type device 16 ejector motor 18 cooling fan 20 mold clamping device 22 type opening / closing motor 24 cooling fan

Claims (1)

[Claims] 1. A plasticizing motor (4) for rotationally driving a screw (3), an injection motor (6) for axially driving the screw (3), and a mold opening / closing motor (22) for driving the mold (12) to open and close. ) And the like, and the electric motors (4, 6, 22) are provided with cooling fans (7, 9, 2).
4) is provided and the injection molding mode such as preparation, manual operation, semi-automatic operation, full-automatic operation, etc. can be selected as appropriate, in the cooling fan (7, 9, 24, ,) In conjunction with the injection molding mode selection switch (-) to select the injection molding mode, the cooling fan (7,
9, 24,) are driven to control a motor cooling fan of an electric injection molding machine.