JPH0342988Y2 - - Google Patents

Description

[Detailed description of the invention] <Industrial application field of the invention> The invention is intended to prevent molded products from becoming unable to separate from the mold due to static electricity when the mold is opened in an injection molding machine. , relates to a static electricity removal device that removes static electricity from molded products.

<Prior Art> As shown in FIG. 4, in an injection molding machine, a plastic material pulverized into small pieces is fed from a hopper 3 into a cylinder 2 provided on a base 1. The cylinder 2 is heated to a constant temperature by an externally attached band heater 4. Generally, the melted plastic material in cylinder 2 is
Due to the rotation of the screw inside the cylinder 2, the resin is frictionally melted, and the melted resin accumulates in the front part of the cylinder, and after a certain amount has accumulated, it is injected and transferred to the stationary mold 5.
A is fed into the mold 5 in a state where the movable mold 5b is in close contact with the movable mold 5b. Next, the movable mold 5b
opens, and the molded product inside the mold 5 falls.

When the molten resin is fed from the cylinder 2 to the mold 5, static electricity is generated in the molten resin due to friction between the molten resin and the screw and the inner wall of the cylinder 2, and in this state, injection molding is carried out inside the mold 5. be done. It is then cooled inside the mold,
After a certain period of time, the melted resin solidifies, but the resin itself is usually an extremely large dielectric substance,
Static electricity generated inside the resin cannot flow outside.

Therefore, even if the movable mold 5b moves to open the mold and try to release the molded product from the mold by dropping it, if the molded product is small and light,
The static electricity of the molded product may cause it to adhere to the mold surface and not be released. However, if the movable side mold 5b and the fixed side mold 5a are closed in this adhered state, there is a risk that the mold surface will be damaged by the remaining molded product.

To prevent this, conventional methods have been used such as adding an antistatic agent to the resin or spraying a mold release agent onto the surface of the mold in order to make it easier to release the mold from the mold.

<Problems to be Solved by the Present Invention> However, there was a problem in that adding an antistatic agent changed the properties of the resin. Furthermore, even if a mold release agent was sprayed onto the mold surface, the static electricity of the resin was not removed, making it difficult to release the mold, and this did not provide a fundamental solution.

<Object of the present invention> The present invention aims to correct the above-mentioned drawbacks and provide a static electricity removal device for an injection molding machine that removes static electricity by spraying charged ions into the mold.

<Means for achieving the above object> In order to achieve the above object, the present invention uses a charged ion generating electrode that alternately generates positively and negatively charged ions in the air duct for blowing air into the mold of an injection molding machine. It is characterized by being equipped with a heater and a fan.

<Function> In the static electricity removal device for an injection molding machine of the present invention, the static electricity held by the molded product is removed by the charged ions, making mold release easier, and the air heated by the heater is Because the resin is sprayed, the temperature of the mold does not drop, so the melted resin is distributed throughout the interior of the mold during the next molding cycle, and no inconvenience occurs.

<Embodiment of the present invention> Next, an embodiment of the present invention will be described based on the drawings.

FIG. 1 shows an embodiment of the present invention.

In the figure, 10 is an outlet for inputting commercial power, and 11 is an AC high voltage generation transformer that converts the commercial power into high voltage. Reference numeral 12 denotes an overcurrent prevention capacitor connected in series to the output side of the AC high voltage generating transformer 11 in order to allow only a certain frequency of commercial power supply (i.e., 50 Hz or 60 Hz) to pass and only a minute current to pass. be.

13 and 14 are charged ion generating electrodes connected to the output side of the AC high voltage generating transformer 11.

15 is a heater transformer connected in parallel with the AC high voltage generating transformer 11 to the commercial power input outlet 10. 16 is a heater transformer 15
stabilized power supply for the heater connected to the output side of the
17 is a heater connected to the stabilized power supply device 16 for heater.

18 is Juan.

Reference numeral 19 denotes an air duct for blowing air into the mold of the injection molding machine, in which charged ion generating electrodes 13 and 14 are arranged on the outlet 19a side of the air duct 19, and a fan 18 is arranged on the entrance 19b side of the air duct 19. The heater 17 is placed between the charged ion generating electrode 13 and the fan 18 or between the charged ion generating electrode 1
3 and the charged ion generating electrode 14.

20 is a fuse for interrupting the circuit in the event of a problem with the input power supply.

<Operation of the above embodiment> Next, the operation of the above embodiment will be explained.

The commercial power source from the commercial power input outlet 10 is converted into AC high voltage by an AC high voltage generating transformer 11 to generate an AC high voltage as shown in FIG.
The overcurrent prevention capacitor 12 allows only a certain frequency (50 Hz or 60 Hz in this case) to pass through, and allows only a minute current to pass so that there is no danger even if a human touches the charged ion generating electrodes 13, 14. Charged ion generating electrode 13,1
4, positive or negative ions are generated alternately in response to changes in the 50 Hz or 60 Hz voltage as shown in FIG. The ions thus generated alternately are passed through together with the air heated by the heater 17 and are blown into the opened mold by the fan 18 from the outlet 19a of the ventilation duct 19.

Therefore, as shown in FIG. 3, the +Q charged ions generated from the charged ion generating electrodes 13 and 14 neutralize and eliminate the -Q charge of the negatively charged molded product 21, and -Q The charged ions neutralize and eliminate the +Q charge of the positively charged molded article 21.

However, if the air blown onto the mold is cold air, the temperature of the mold surface will drop, and when the next molding cycle begins, the mold will have cooled down, causing the melt to flow from the cylinder into the mold. There is an inconvenience that the resin solidifies before it reaches the final details of the mold, but since the air heated by the heater 17 is blown in this manner, such inconvenience does not occur.

<Effects of the present invention> As explained above, according to the present invention, static electricity is removed from a plastic molded product charged with static electricity by spraying charged ions, eliminating mold adhesion. Furthermore, since the mold temperature does not drop, there is no problem with molding due to mold cooling.

[Brief explanation of drawings]

Fig. 1 is a schematic configuration diagram showing an embodiment of the present invention, Fig. 2 is a waveform diagram showing the voltage applied to the charged ion generating electrode, and Fig. 3 is an explanation showing the principle of static electricity removal according to this embodiment. It is a diagram. FIG. 4 is a schematic configuration diagram showing an injection molding machine. 10... Commercial power input outlet, 11...
AC high voltage generation transformer, 12... Overcurrent prevention capacitor, 13... Charged ion generation electrode, 14...
Charged ion generating electrode, 15... Transformer for heater, 16... Stabilized power supply device for heater, 17...
Heater, 18... Fan, 19... Air duct,
20... Fuse, 21... Molded product.

Claims (1)

[Claims for Utility Model Registration] An air duct 19 having an air outlet 19a facing the mold of an injection molding machine; a heater 17 that heats the air in the air duct 19; a charged ion generator that generates charged ions, and the charged ions generated from the charged ion generator are blown toward the mold from the air outlet 19a of the air duct 19 together with the air heated by the heater 17. A static electricity eliminator for an injection molding machine equipped with a fan 18.