AT506978A1 - INJECTION MOLDING MACHINE WITH ENERGY RECOVERY - Google Patents

Description

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The present invention relates to an injection molding machine having means for recovering energy from the waste heat emitted from or heated by the operation of the injection molding machines or heated areas or components of the injection molding machine.

Such injection molding machines have long been known and are apparent, for example, from the following publications: DE 101 53 704 A1, DE 198 31 483 A1, DE 196 03 036 A1, DE 24 25 589 A1, DE 27 23 088 A1, DE 32 12 796 C1 , EP 122 885 A2, JP 06-312 438 A1 and JP 10-100 215 A1.

In the known devices for recovering energy either air or a liquid is contacted with the waste heat generating components of the injection molding machine and then fed to a heat exchanger or directly to a component to be heated of the injection molding machine.

Such devices for energy recovery build relatively large and also have the disadvantage that the energy recovered from the waste heat can not save, but must be used directly for heating the components to be heated of the injection molding machine.

The object of the invention is to provide a generic injection molding machine with a device for recovering back energy from waste heat, in which the energy thus obtained on the one hand easily stored and on the other hand can be used for different purposes.

This object is achieved by an injection molding machine with the features of claim 1.

The thermal generators used according to the invention are already known per se and therefore do not need to be described in detail. Thermoelectric generators consist, for example, of a plurality of coal / graphite plates contacted in area in a row, which can be enriched with fullarenes to increase their effectiveness. These serve as carriers of thin-film thermoelectric materials such as NiCu-NiCr. The voltage applied to the thermogenerator temperature difference creates a DC electrical voltage that can be tapped via contacts. The thus obtained 64471-36 / fr ··· φ φ φ · · · · · · · φ φ · φ # φ · φ φ φ φφφφ φ φφ φ φφ φφ φ φφφφ φφ · φφ 2

Energy can be stored in electrical storage devices such as accumulators or capacitors and / or used for a variety of purposes.

For example, the thermal generator can be connected via electrical lines to at least one component of the injection molding machine that requires electrical energy. The component may, for example, be a drive unit of the injection molding machine or another of the electrical consumers existing in manifold forms in injection molding machines.

Another example of such a consumer is a heater which is used to heat selected areas or components of the injection molding machine.

But it can also be provided to connect the thermal generator via electrical lines to the factory power network, so that the energy generated by the thermal generator in the injection molding machine can be used outside the injection molding machine.

Thermal generators can be arranged at all points of the injection molding machine, in which waste heat is generated. The thermal generators can either be contacted directly with this location or placed at a certain distance from them. The locations are, for example, the injection unit of the injection molding machine, here in particular the plasticizing cylinder and the injection nozzle.

Another example is hydraulic systems of the injection molding machine, which are used as drives, for example, to produce a Anpresshub or to move the platens relative to each other.

Of course, the above lists are not intended to be limiting.

Further advantages and details of the invention will become apparent from the figures and the associated description of the figures. Showing:

1 is a schematic side view of the injection unit of an injection molding machine and a hydraulic system of the injection molding machine,

Fig. 2 shows a detail of the injection unit shown in Fig. 1 and

Fig. 3a, 3b, the prior art and another application example of the invention. 3

The areas hatched in FIGS. 1 and 2 represent the thermal generators 1.

It can be seen in FIG. 1 that, for example, a hydraulic system 3 was sheathed by means of a thermogenerator 1 in order to at least partially recover the energy generated as waste heat in the hydraulic system 3. The hydraulic system 3 has in a known manner to an oil reservoir 4, a pump 5 and a variety of valves having hydraulic block 6. It can be seen that those components of the hydraulic system 3, in which a particularly large amount of waste heat drops, such as the pump 5 and the hydraulic block 6, were additionally covered separately with a thermogenerator 1.

As can be seen in FIG. 1, the injection unit 2 of the injection molding machine was also surrounded or surrounded by a thermal generator 1 in various areas. Visible are, for example, arrangement of a thermal generator 1 in a drive cylinder 7, which serves to move the injection unit 2 to the fixed platen 8 and away from it. Furthermore, it is possible to see the casing 1 of a cylinder serving to carry out the injection stroke.

FIG. 2 shows the plasticizing cylinder 9 of the injection unit 2 shown in FIG. 1, which has a heating device in the form of a plurality of electrical heating bands 10. The heating bands 10 are covered to the outside with a thermogenerator 1.

Furthermore, FIG. 2 shows that the injection nozzle 11 also has a heating band 10 covered by a thermal generator 1.

Especially in electric injection molding machines - but not only in these - thermal generators 1 can be arranged around servomotors 11 of the injection molding machine and / or power parts 12 of the servomotor 11.

Fig. 3b shows another application example of the invention. Fig. 3a shows for better understanding of the prior art. Shown is a cooling scheme for five servomotors 11 of an injection molding machine, not shown, as well as for the power section 12 of the servomotors 11. The servomotors 11 are supplied via electrical lines 15 by a not shown in detail power section 12. The power unit 12 is arranged on a so-called cold plate, which in turn is liquid-cooled and therefore in a cooling circuit 14, which can also detect the servomotors 11, is involved. To ··································································································· 4 are further provided a flow control 16 and a heat exchanger 13 of the liquid circuit 14. Particularly preferred is the arrangement of thermal generators 1, on the one hand around the heat exchanger 13 and on the other hand in the heat radiating areas of the power unit 12 and preferably only the servomotors 11 around.

Other application examples are: temperature control units, dryers, hydraulic auxiliary units (especially in electric injection molding machines).

On the representation of electrical lines, which lead from the individual thermal generators 1 to the electrical loads or storage devices has been omitted.

Innsbruck, July 1, 2008

Claims (9)

1. Injection molding machine with a device for obtaining energy from the... characterized in that in the or by the operation of the injection molding machines heated or heated areas or components of the injection molding machine waste heat, characterized in that the device comprises at least one thermal generator (1). 2. Injection molding machine according to claim 1, characterized in that the thermal generator (1) via electrical lines with at least one electrical energy-requiring component of the injection molding machine is connected. 3. Injection molding machine according to claim 2, characterized in that the thermal generator (1) is connected via electrical lines to a heating device for heating selected areas or components of the injection molding machine. 4. Injection molding machine according to one of claims 1 to 3, characterized in that the thermal generator (1) is connected via electrical lines to a power plant network. 5. Injection molding machine according to one of claims 1 to 4, that at least one thermal generator (1) at least partially surrounds the injection unit (2) of the injection molding machine. 6. Injection molding machine according to claim 5, characterized in that at least one thermal generator (1) at least partially surrounds the plasticizing cylinder of the injection molding machine. 7. Injection molding machine according to claim 5 or 6, characterized in that at least one thermal generator (1) at least partially surrounds the injection nozzle of the injection molding machine. 64471-36 / fr • · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · · 8. Injection molding machine according to one of claims 1 to 7, characterized in that at least one thermal generator (1) at least partially surrounds a hydraulic system (3) of the injection molding machine. 9. Injection molding machine according to one of claims 1 to 8, characterized in that at least one thermal generator (1) at least partially surrounds a servo motor (11) of the injection molding machine and / or a power section (12) of the servo motor (11). Innsbruck, July 1, 2008