DE3233069A1 - CAPACITIVE HIGH-FREQUENCY CONTINUOUS - Google Patents

Description

S,

SIEMENS AKTIENGESELLSCHAFT Our mark

Berlin and Munich VPA 82 P 3 2 6 9 DE

Capacitive high frequency continuous furnace

The invention relates to a capacitive high frequency continuous furnace for the thermal treatment of textile goods, in particular of man-made fiber cables, in which the Electrodes connected to a high frequency generator and the furnace interior is connected to a source of air is.

This generic term refers to an arrangement as is known from DE-OS 28 17 067, for example. With this arrangement, the man-made fiber cables transported through the furnace on a grounded sieve belt with openings. There is hot air in the oven blown in and flows through the fiber cable. As a result, hot air drying is used in addition to capacitive drying reached and the material is fixed on the sieve belt.

High-frequency ovens of the aforementioned type have proven themselves well for heating a wide variety of materials. the possible heating capacity of the furnace is limited, among other things, by the permissible field strength, above whose electrical breakdowns occur. For a given output, this generally also applies to the structural Dimensions set. If one now wants to integrate such treatment systems into an overall system, it would be however, it is often of interest if one could get by with a reduced construction volume.

The object of the present invention is therefore to provide a capacitive furnace of the type mentioned at the beginning designed in such a way that for the given dimensions the assigned

Ch 2 Bd / 08/31/1982

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led electrical power can be increased, or vice versa that for a given power the dimensions reduced and can be grounded, but nevertheless safe electrical operation in every operating state should be present.

This object is achieved according to the invention in that the continuous furnace to interior pressures between 1.5 and 6 bar and an overpressure in this area can be generated by the air source in the furnace interior is. When the overpressure in the furnace interior drops below a specified value, the voltage of the high-frequency generator is can be automatically reduced or switched off. Since the breakdown field strength is largely the Pressure is proportional, in this way the energy density that can be converted per furnace volume can be reduced without the risk of a Increase punch.

Working at high pressures also has the considerable technical advantage that the evaporation temperature rises accordingly, so that, for example, 6. still at 130 C no evaporation takes place and therefore only in the presence of moisture in this temperature range processes taking place are better controlled. Such a case is, for example, when fixing fiber cables when they are wet before.

The invention will be explained in more detail with the aid of a drawing.

The meandering shape transported on a conveyor belt 8 Folded fiber cable 3 passes through a sealing sluice 12 consisting of rubber rollers 12 with an insertion part 11 a grounded metallic conveyor belt 4 running in the direction of arrow 5, which acts as an electrode. Above that Fiber cable 3, a high-frequency electrode 21 is provided, which via a coupling capacitor 22 with a high-frequency

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frequency generator 2 of eg 15 MHz is connected. After the thermal treatment, the fiber cable 3 leaves the furnace via a further pressure lock 13 and is of a
Conveyor belt 15 transported to another system component. What is essentially new is now to be seen in the fact that
this high-frequency furnace doubles as a pressure dryer
is formed, that is, the housing of the furnace 1 is on
designed an interior pressure of, for example, 4 bar. To generate this pressure, a compressed air source 6 is provided as a gas source, which is connected to the furnace interior. The compressed air can be preheated at the same time to reinforce the heating. As indicated by the line 7, some of the air can also be returned from the furnace
withdrawn and run in a closed circuit, e.g. to remove moisture. This can be done, for example, by condensation in a heat exchanger 71, from which
then the condensate is discharged (arrow 72).

The pressure ρ prevailing in the furnace interior is given by a

Measuring element 63 detected and can, for example, in a controller 61 for
Control of the air pressure can be used. Is essential
However, that this pressure measuring element is connected to a monitoring element 62 which, if the pressure drops below a predetermined value, for example as a result of a leaky lock or some other leak, reduces the voltage of the high-frequency generator 2 or switches off the system. This is important because, as a result of the higher pressure, work is also carried out with correspondingly higher field strengths, which would then lead to electrical flashovers if the pressure were to drop. If, for example, 0.5 to 5 kV per cm field strength is used in a furnace without excess pressure, the permissible field strength can easily be doubled in the furnace according to the invention at a pressure of 4 bar without it

Rollover is coming.

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The term "gas" is also to be understood as meaning steam at the appropriate pressure and temperature.

6 claims
1 figure

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Claims (6)

Claims ('1 J Capacitive high-frequency continuous furnace for the thermal treatment of textile goods, in particular chemical cables, in which the electrodes are connected to a high-frequency generator and the furnace interior is connected to a gas source, characterized in that the furnace (1) is set to interior pressures between 1.5 and 6 bar and the gas source (6) can generate an overpressure in this area in the furnace interior. 2. Capacitive high frequency continuous furnace according to claim 1, characterized in that when the overpressure in the furnace interior drops below one predetermined value the voltage of the high-frequency generator (2) can be automatically reduced or switched off. 3. Capacitive high frequency continuous furnace according to claim 1, characterized by elastic pressure seals (12, 13) at the inlet and outlet. 4. Capacitive high frequency continuous furnace according to claim 1, characterized by the use of a gas source (6) with a heating device. 5. Capacitive high frequency continuous furnace according to claim 1, characterized in that a superheated steam generator is used as the gas source. 6. High frequency capacitive continuous furnace, thereby marked that the gas in the closed Circuit (7) is passed through a heat exchanger (71) serving for moisture condensation and condensate removal.