DE7811836U1 - CAPACITIVE HIGH-FREQUENCY OVEN FOR DRYING FOLDED FIBER CABLES, IN PARTICULAR CHEMICAL FIBER CABLES - Google Patents

Description

did " " ·

SIEMENS AKTIENGESELLSCHAFT Our reference Berlin and Munich VPA 78 P 3 0 71 ERD

Capacitive high-frequency oven for drying folded fiber cables, especially man-made fiber cables

The invention relates to a capacitive high-frequency oven for drying folded fiber cables, in particular man-made fiber cables, in which the fiber packages are transportable in the furnace chamber on a conveyor belt, which serves as a grounded electrode, and one additional heating is provided.

The preamble is used to refer to an arrangement, as it is, for example, from DT-OS 2 036 489 is known.

The fiber packets are often marked with undefined at the furnace Bulk height and packing density delivered. It is important that the homogeneity of the fiber packages is ensured during the drying process, so that an approximate uniform temperature distribution in the fiber package can be achieved. This requirement is met in the known arrangement in that the high voltage is applied

t j Ch 2 you / 5.4.1978

C S

- 2 - VPA 78 P 3 O 7 1 BRD j?

Electrode of one at the speed of the conveyor | '

bandea running band is surrounded and the additional 1

Tape is printed on the fiber packets. Simultaneously , the electrode is additionally heated.

\

The object of the present invention is to provide f;

High frequency field avoided and a defined density of the material adjusted via the air speed.

to train the furnace of the type mentioned so that

very even drying with optimally coordinated |

relationship between high-frequency drying and addition |

batch drying is achievable. 1

Ci ,.

This object is achieved according to the invention in that %

the furnace room is connected to a controllable hot air source

the earthed conveyor belt as a sieve belt with air §

passage openings is formed and under the conveyor § '

derband an adjustable negative pressure compared to the furnace f

space can be generated. |

In this way, the fiber cables in the |

This results in a very even drying also g

for man-made fiber cables in the temperature range over 100 degrees, |

C where otherwise pure high-frequency drying is f

knows difficulties. |

A simple constructive solution to the aforementioned inventive concept consists in the fact that below the for- | derbandes an air box is arranged, which via Ab- "| Suction openings and valves with a suction fan vsrbun- S that is. The suction fan and the hot air source can then be switched in a circuit in order to save energy will.

Based on an embodiment shown in the drawing

C ι

ι · t · at · ···

ι itii · «· ·

t itii ■ * ■

I I I I I (I I I * ·

- 3 - VPA 78 ρ 3 O 7 1 BRD

The invention is explained in more detail by way of example: The fiber packets 7 transported by the Kremper, not shown, on a conveyor belt 8 reach a grounded, metallic conveyor belt 3 running in the direction of arrow 10, which runs over grounded rollers 6 and itself acts as an electrode. The conveyor belt 3 is designed as an air-permeable sieve belt or the like with air passage openings 31; an electrode 4 is provided above the fiber stacks 7 in the furnace chamber 1 and is connected to the high voltage of the high-frequency generator 2 via a regulating capacitor 9. Instead of one electrode ( ) , several electrodes can also be provided.

To even out and accelerate drying and to hold the goods on the conveyor belt 3, a stream of hot air is passed through the goods. This is done with the furnace chamber 1 a controllable hot air source, consisting of fan 14, heater 12 and control valve 13 connected, the hot air 19 with excess pressure in the furnace chamber 1 blows in. This hot air 19 is sucked through the openings 31 into an air box 16 with negative pressure and flows through the fiber packets 7. Here, the fiber packets 7 are additionally heated and held in a defined manner. In order to also define vacuum conditions in box 16 To obtain, this is provided in several places with suction openings 20, which are controlled by control valves 17 old a suction fan 18 are connected. The air sucked off by this suction fan 18 can then optionally back to the line 15 to save energy Be returned to the cycle. In such a case the fan 14 can then optionally be dispensed with. The above construction is about the Air speed can be adjusted to the firmness of the package, prevents the fiber package from cracking open at the same time the ratio between drying energy

I · I · I

· III

ι ι ι ι ι ι

- 4 - VR * 78 P 3 0 71 BRD

the air and radio frequency energy on an optimal Value held.

3 claims 1 figure

I ·

VPA 78 P 3 0 71 BRP

] Capacitive high frequency oven for drying folded? ··

ten fiber cables. In particular man-made fiber cables

The invention relates to a capacitive high-frequency oven for drying folded fiber cables (7). the Fiber cables are transported through the furnace on a grounded sieve belt (3) with openings (31). In the oven room is hot air (19) from a hot air source (12, 14), flows through the fiber cable (7) and exits through the openings (31) into the box (16). In this way, in addition to capacitive drying by means of an electrode (4), hot air drying is achieved. the The electrode (4) is connected to the high-frequency generator (2) via a regulating capacitor (9). (Flg.1)

Claims (3)

- 1 - VPA 78 P 3 0 71 BRD HPatteart4nsprüche 1. High frequency capacitive oven for drying folded Fiber cables, in particular man-made fiber cables, in which the fiber packets are placed on a conveyor belt in the furnace chamber can be transported, which serves as a grounded electrode and an additional heater is provided, characterized in that the furnace chamber (1) is provided with a controllable hot air source (12, 13) is connected, the grounded conveyor belt (3) as a sieve belt. 10 is formed with air passage openings (31) and An adjustable negative pressure can be generated under the conveyor belt (3) in relation to the furnace chamber (1). 2 »Oven according to claim 1, characterized in that an LT _s vft box (16) is arranged below the conveyor belt (3), which is connected via suction openings (20) and control valve (17) with a suction fan (18). 3. Oven according to claim 1 and 2, characterized ge = indicates that the suction fan (18) and hot air source (12, 13, 14) are connected via a line (15) are.