DE7604533U1 - HOT RUNNER NOZZLE FOR SPRAYING PLASTIC - Google Patents

Description

Hot runner nozzle for spraying plastic

The innovation relates to a hot runner nozzle for sprueless spraying of plastic, with a nozzle containing the nozzle opening outer nozzle jacket, a nozzle shaft arranged in the nozzle jacket and tapering towards the nozzle opening, an annular plastic feed channel running between the nozzle jacket and the nozzle shaft, one in a bore the nozzle shaft arranged and connectable to an electrical voltage source and a heating cartridge on the Arranged nozzle shaft, to a control device for the power supply to the heating cartridge connectable temperature sensor.

Since a flawless processing of the plastic fed through the feed channel to the nozzle opening is only possible in one

Postal checking account: Karlsruhe 76979-754 Bank account: Deutsche Bank AG Villingen {BLZ 69470039) 146332

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relatively narrow temperature range is possible known hot runner nozzles of this type have a temperature sensor which should ensure that the temperature of the plastic remains within the prescribed temperature range, by the temperature sensor via a connected control device controls the power supply to the heating cartridge. In a known nozzle, however, the temperature sensor is located at the end of the heating cartridge remote from the nozzle opening. There can be a gap between the temperature sensor and the nozzle opening Temperature differences of up to 100 C result, so that an exact control of the heating cartridge is hardly possible.

In another known nozzle, the temperature sensor is arranged within ^{1 of} the heating cartridge. However, this arrangement is also not advantageous, since the temperature inside the heating cartridge is of course higher than in the area of the nozzle opening and, moreover, is not in a constant relationship to the outside temperature. This is presumably due to the effects of eddy currents in the nozzle shaft.

The innovation is to improve a hot runner nozzle of the type mentioned in such a way that it eliminates the disadvantages of known nozzles and in particular a perfect control. the heating cartridge in such a way that the im Supply channel to the nozzle opening supplied plastic maintains a temperature lying in a predetermined range.

This object is achieved according to the invention in that the temperature sensor is arranged in the area of the nozzle opening, arranged pointed end of the nozzle shaft is.

With this arrangement of the temperature sensor, the Temperature of the plastic at the nozzle opening very accurate

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measure and this results in an exact control of the power supply to the heating cartridge via the control unit, so that the temperature of the plastic remains in the predetermined range.

The temperature sensor is preferably a thermocouple formed, which can be arranged as close to the nozzle opening as desired.

In an advantageous embodiment of the innovation is Temperature sensor arranged within the tapered end of the nozzle shaft near the nozzle opening. Since this The tapered end is in intimate thermal contact with the plastic injected through the nozzle opening Temperature measurement at this point very precisely.

The supply line of the temperature sensor is preferably through the heating cartridge bore of the nozzle shaft led to the outside. This results in a protected arrangement of the supply line and the temperature sensor within the nozzle shaft consistently good temperature measurement.

In known designs, the heating cartridge consists of a heater core and a heater core that can be connected to the voltage source electrically insulating sheath. With this design of the heating cartridge, the supply line can expediently through the interior of the heating core to the temperature sensor. The supply line is even better protected when it is in the sheath the heating cartridge is embedded. In this case, the feed line is preferably at a distance from the heater core.

In order to refine the temperature measurement even further, the temperature sensor located in the tip of the nozzle shaft can be used be shielded from the heating cartridge by a heat insulating member.

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The uniform heating of the plastic at the nozzle opening results in perfect processing of the Plastic, and in particular, the lowest injection pressure can be used, since the plastic is always is in the correct temperature range.

The innovation can of course also be applied to multiple nozzles can be used, the same arrangement being selected in each individual nozzle.

The figures are used to provide examples of the innovation explained in more detail. It shows:

Fig. 1 is a longitudinal section through an embodiment of a Hot runner nozzle without heating cartridge and temperature sensor;

Fig. 2 shows a longitudinal section through the nozzle shaft shown in Fig. 1 with heating cartridge and temperature sensor according to a first embodiment of the innovation;

3 shows a longitudinal section corresponding to FIG. 2 through a second embodiment of the innovation; and

FIG. 4 shows a section along the line IV-IV in FIG. 3.

In Fig. 1, a hot runner nozzle is shown to which the innovation can be applied. The nozzle consists of a nozzle jacket 10, which has a nozzle opening 12 at the front end, a nozzle shaft 14 arranged within the nozzle jacket and an annular plastic feed channel 16 running between the nozzle jacket 10 and the nozzle shaft 14, which is located at the front The end conically extends into the nozzle opening 12. The nozzle shaft 14 has an end 18 which tapers to a point towards the nozzle opening 12 and a bore 20 extending in the longitudinal direction of the shaft for receiving the heating cartridge, not shown in FIG on. He is with lateral guide lugs 22, from

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only one of which is shown in FIG. 1, supported on the inside of the nozzle jacket 10. Furthermore, have nozzle jacket 10 and nozzle shaft 14 at the end remote from the nozzle opening 12 a connecting the bore 20 with the outside space Hole 24. The plastic feed channel 16 is via a Distribution channel 26 connected in the usual way to devices (not shown) for the delivery of the plastic.

In the embodiment shown in FIGS According to the innovation, the tapering end 18 of the nozzle shaft 14 is connected to the bore 20 Blind hole 28 for receiving a heat sensor 30 in the form of a thermocouple. In the bore 20 is shown in FIG Inserted heating cartridge 32, which consists of a heating core 34 and an insulating jacket 36. The supply line 38 of the thermocouple 30 is guided to the thermocouple 30 inside the heater core 34. Heater core 34 and lead 38 are passed through the bore 24 from the nozzle to the outside. The arrangement of the thermocouple 30 in the tapered At the end 18 and thus near the nozzle opening 12, the temperature of the plastic at the nozzle opening can be very precisely measure and the measured values determined can be used to control the power supply to the heater core 34 via a not shown Control device can be used.

In the embodiment shown in FIGS. 3 and 4 are The same reference numerals are used for the same or corresponding parts as in the embodiment according to FIG. and 2. The innovation in this second embodiment is the supply line 38 for the thermocouple 30 is introduced separately from the heater core 34 through the bore 24 into the bore 20 and then passes through the jacket 36 by being embedded in the jacket at a distance from the heater core 34 is. In the tapered end 18 in this embodiment there is an approximately conical one adjoining the bore 20

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Recess 40 is provided, in the tip of which the thermocouple 30 is arranged. The recess 40 is through a heat insulating member 42 filled in, which shields the thermocouple from the heating cartridge 32. The lead 38 is embedded in the thermal insulating member 42 between the jacket 36 and the thermocouple 30. In this embodiment a particularly accurate temperature measurement results.

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Claims (8)

Protection claims 1.Hot runner nozzle for sprueless spraying of plastic, with an outer nozzle jacket containing the nozzle opening, one arranged in the nozzle jacket and tapering towards the nozzle opening, one between the nozzle jacket and Nozzle shaft running annular plastic feed channel, a heating cartridge arranged in a bore in the nozzle shaft and connectable to an electrical voltage source and one arranged on the nozzle shaft and connectable to a control device for the power supply to the heating cartridge Temperature sensor, characterized in that the temperature sensor (30) in the region of the tapering end (18) of the nozzle shaft arranged at the nozzle opening (12) (14) is arranged. 2. Hot runner nozzle according to ..nspruch 1, characterized in that the temperature sensor (30) is designed as a thermocouple. 3. Hot runner nozzle according to claim 1 or 2, characterized in that the temperature sensor (30) within the tapered End (18) of the nozzle shaft (14) near the nozzle opening (12) is arranged. 4. hot runner nozzle according to claim 3, characterized in that the supply line (38) of the temperature sensor (30) through the Heating cartridge bore (20) of the nozzle shaft (14) is guided to the outside. 5. Hot runner nozzle according to claim 4, wherein the heating cartridge consists of a heater core and can be connected to the voltage source an electrically insulating sheath, characterized in that the supply line (38) through the interior of the Heater core (34) is passed to the temperature sensor (30). 6. Hot runner nozzle according to claim 4, wherein the heating cartridge consists of a heater core and can be connected to the voltage source an electrically insulating sheath, characterized in that the feed line (33) into the sheath (36) is embedded. 7. hot runner nozzle according to claim 6, characterized in that the supply line (38) is embedded in the casing (36) at a distance from the heater core (34). 8. hot runner nozzle according to one of claims 5 to 7, characterized characterized in that the temperature sensor (30) by a Heat insulating member (42) is shielded from the heating cartridge (32).