WO1994004281A1 - Process and device for consolidating and coating an air-core coil - Google Patents

Abstract

A process is disclosed for consolidating and coating an air-core coil (3) with a winding made of naked electroconductive cables (5) made of twisted wires of substantially rectangular cross-section wound one or several times. A liquid duroplastic synthetic resin mixture is poured on the upper end of the pre-dried coil of the air-core coil rotated around its vertical axis in an impregnating station and flows downwards along the inner and outer surfaces of the coil, if required also between the layers of the coil winding, partially entering the intermediate spaces between the wires of which the conductive cable (5) is composed. The excess of synthetic resin mixture is collected and re-used, and the air-core coil (3) is then cured at a higher temperature. A device for carrying out the process has a chain conveyor system which moves hanging treatment units constituted of a revolving ring (10) to which is secured the air-core coil (3) between several working or processing stations. In the impregnating station (2) the revolving ring (10) is coupled to a driving device (21) in order to rotate the air-core coil (3).

Description

 Method for solidifying and coating an air throttle and device for carrying out this method

The invention relates to a method for solidifying and

Coating an ironless air throttle _/ its coil is made up of a single or multi-layer winding of bare, electrically conductive, twisted metal wire ropes of essentially rectangular cross-section, in which in a soaking process liquid thermosetting synthetic resin mixture within the ropes into the spaces between the Metal wires penetrate and form a film on the surface of the coil, after which the air throttle is heat-treated and the resin mixture absorbed by it is cured. It also relates to an advantageous device for performing this method.

PRIOR ART In the usual methods of the aforementioned type, the impregnation process is carried out by immersing in a bath of a synthetic resin mixture consisting of a thermoplastic synthetic resin, a hardener and an accelerator. In this method, however, relatively large amounts of resin mixture must be placed in the resin container, with only a very small part of it being absorbed by the impregnated throttle during each impregnation process.

PRESENTATION OF THE INVENTION The invention aims to remedy this. The method according to the invention, as characterized in claims 1-3, solves the problem of being able to make do with a significantly lower resin supply during the impregnation process than by immersing the known impregnation process mentioned above. The device according to the invention according to claims 4-8 for carrying out the method according to the invention represents a new, particularly favorable mechanical engineering solution.

DESCRIPTION OF THE FIGURES The invention is explained in detail below with reference to the figures: 1 shows a schematic representation in elevation in the direction of arrow 1 (see FIG. 3) the impregnation station 2 of the device,

Fig. 2 shows a partial cross section of Fig. 1 and Fig. 3 is a schematic representation of the overall device.

1 shows an ironless air throttle 3 to be treated, which here consists of a single-layer coil of bare, electrically conductive, twisted metal wire ropes of rectangular cross-section, with several glass fiber tapes distributed over the circumference of the coil and running in the coil axis (from FIG 1 not visible) serve as a spacer between adjacent turns of the coil. 2 shows in a partial cross section (detail 4) the ropes 5 and the glass fiber ribbons 7 running in the direction of the arrow 6, which have folds 8 which have been pushed into the spaces between adjacent turns. The coil is held together on the top and bottom by two holding stars connected by a central axis 9. The axis 9 has * - at its upper end a mounting eyelet, via which the air throttle 3 is mounted on the underside of a turntable 10. 11 with a chain conveyor mounted on the ceiling structure 12 of the workshop is designated, which serves to support the air throttle 3 in the hanging state or to transport it (perpendicular to the plane of the drawing). The suspension is carried out by means of suspension elements 13 rotatably arranged in the chain conveyor, each of which has an eyelet at its lower end, in which the turntable 10 together with the air throttle 3 hanging on it is suspended by means of a hook 14.

The impregnation station 2 (FIG. 1) further comprises a spray lance 16 which extends between the upper edge of the air throttle 3 and the rotating ring 10 and which is provided with an actuator 15 and has a slot-shaped nozzle opening which is adjustable in length by means of the actuator 15. The spray lance 16 is connected to a resin supply system comprising a pump 17 and a reservoir 18. Under the suspended air restrictor 3, a sump 19 is provided with a resin return 20 to the resin delivery system. A drive device 21 with a pivoting part 22, which has a drive pinion 23, which can be brought into engagement with the rotating ring 10 serves to rotate the air throttle 3.

The overall device for carrying out the method according to the invention has a number of work or treatment stations, between which the air throttles 3, each provided with a rotating ring 10, are moved by means of a chain conveyor system. The device shown schematically in FIG. 3 has two chain conveyors 11 and 25 coupled to one another via a switch 24. The chain conveyor 11 serves a loading station 26, a preheating station 27, the impregnation station 2 and a curing station 28, while the chain conveyor 25 for operating a station 29 for manual treatment with several positions, which simultaneously functions as an unloading station, and a painting station 30 serves. The chain conveyors 11 and 25 are of the known "Power and Free" type, in which transport elements which are movable along a transport chain are provided, which have suspension elements 13 which are rotatably mounted about a vertical axis and which locks in the various work or treatment stations or - coupled with the transport chain when the lock is released and taken along by it. The preheating stations 27 and the curing station 28, which are hot air ovens, and the cabin-like painting station 30 each have a slot (not visible in FIG. 3) at the entrance or exit of double doors 31 and on their ceiling in the transport direction, through which the receiving elements 13 pass through, so that the air restrictors 3 together with the turntable 10 can be brought into the preheating station 27, the curing station 28 or the painting station 30.

To carry out the method, the air throttles 3 to be treated are each turned into a treatment unit with a rotating ring 10. connected unit 32. Such a treatment unit 32 is now suspended in the loading station 26 in the eyelet of a suspension element 13 and brought by means of the chain conveyor 11 into the preheating station 27, in which the air throttle 3 is thoroughly dried at approximately 130-150 ° C. The treatment unit 32 is then transported to the impregnation station 2, the heart of the device. Here, the drive pinion 23 of the drive device 21 is first brought into engagement with the slewing ring 10 by pivoting the pivoting part 22. Then the drive device 21 is switched on and the turntable 10 together with the air throttle 3 is set in slow rotation. The circumferential speed of the air throttle 3 is less than 4 cm / s, but advantageously, for example, 2 cm / s. A curable liquid synthetic resin mixture, advantageously an epoxy resin hardener mixture which may contain an accelerator, is now supplied from the reservoir 18 by means of the pump 17 to the spray lance 16. The synthetic resin mixture then emerges from the slot-shaped nozzle opening in the form of a flat jet 33 which tapers in width and then runs downward on the inside and outside of the coil of the rotating air throttle 1. The glass fiber tapes 6 are impregnated with the synthetic resin mixture and the surfaces of the electrically conductive ropes 2 of the coil are covered with a film from which the synthetic resin mixture penetrates into the spaces between the metal wires that form the ropes 4. Excess resin mixture 34 drips into the collecting trough 19 and is returned to the inlet side of the pump 17 for reuse. The air throttle is poured with the synthetic resin mixture, for example, for 10 minutes, after which it is left to drain for a further 10 minutes. In total, about ten times the amount of synthetic resin that ultimately remains on the air throttle is poured onto it. Thereafter, after stopping the rotary drive and decoupling the drive device 21 and the turntable 10, the treatment unit 32 is brought to the curing station 28, where the air throttle 3 is cured at a temperature of about 160 to 180 ° C. The lingering The time of the air throttle in the curing station 28 is, for example, 240 min., so that in order to ensure an optimal treatment throughput of the air throttles 3, two air throttles are advantageously cured at the same time in full operation. After curing has taken place, the treatment units 32 are transferred from the chain conveyor 11 to the chain conveyor 25 via the switch 24 and from there to the station 29 for manual treatment, which has several positions and at the same time serves as a buffer store for the treatment units 32. In this station 29, various manual tasks can be carried out on the rotatably suspended air throttles, in particular covering certain areas of the air throttle 3 for the subsequent painting process. By means of the chain conveyor 25, the treatment units 31 are then transported to the painting station 30 and the air throttles 3 are subjected to a painting there and then returned to the station 29, where, for example, the painting covers are removed again and the treatment units 32 are unloaded, after which the slewing rings 10 decreases from the finished air restrictors 3.

Commercial usability A method for fastening and coating an ironless air throttle by impregnation with the lowest possible liquid, thermosetting synthetic resin mixture and a device for carrying out the method are specified.

Claims

—- —— claims;

1. A method for solidifying and coating an air throttle, the coil of which is constructed from a single or multi-layer winding of bare, electrically conductive, twisted ropes made of metal wires of essentially rectangular cross-section, in which in a soaking process liquid thermosetting synthetic resin mixture within the ropes penetrate into the spaces between the metal wires and form a film on the coil surface, after which the air throttle is heat-treated and the synthetic resin mixture absorbed by it is cured, characterized in that the synthetic resin mixture is impregnated and coated on the upper end of the coil of the coil air throttle (3) rotating about its vertically arranged axis is poured into one or more jets (33) and runs down along the inner and outer surface of the coil and optionally between the layers of the coil winding, the synthetic resin mixture gradually within the ladder-S hurry (5) penetrates into the spaces between the metal wires and forms a film on the surface of the coil and the excess resin mixture is collected under the air throttle (3) and recycled for reuse.

2. The method according to claim 1, characterized in that the air throttle (3) is dried at an elevated temperature before the impregnation process.

3. The method according to claim 1 or 2, characterized in that the air throttle (3) is subjected to a painting process after curing.

4. Apparatus for carrying out the method according to one of claims 1 to 3, characterized by support devices for supporting the air throttles (3) to be rotated about a vertical axis, by a loading station (26), a preheating station (27), a drinking station (2), a curing station (28), a station (29) for manual treatment, optionally a painting station (30) and an unloading station, and a transport device for moving the support devices loaded with the air throttles (3) between these stations.

5. The device according to claim 4, characterized in that the impregnation station (2) has an over the air throttle to be impregnated (3) arranged spray lance (16) with a length-adjustable slot-shaped nozzle opening on its underside, with a resin supply system with reservoir (18 ) and pump (17) and a sump (19) with resin return to the resin supply system.

6. Apparatus according to claim 4 or 5, characterized in that the transport device consists of one or more chain conveyors (11, 25) and that the support devices each have a rotating ring with a vertical axis (10), on the underside of which Luftdrosε °! (3) can be suspended.

7. The device according to claim 6, characterized in that the impregnation station (2) has a drive device (21) with a

Drive pinion (23), which is to be brought into engagement with the rotating ring (10) of the support device placed in the watering station (2).

8. The device according to claim 7, characterized in that the

Drive device (21) has a pivoting part (22), by means of which the drive pinion (23) can be brought into engagement with the rotating ring (10).