CN111816367A - Heat Distribution Management Devices for Wire Handling - Google Patents

Abstract

The subject of the invention is a thermal distribution management device in a device for processing electrical wires moving on a transport member through which a heat flow can pass at or through an orifice, characterized in that it comprises at least one sealing member which is sealed by covering at least a portion of the orifice of the transport member, such sealing member being independent of the transport member.

Description

Heat Distribution Management Devices for Wire Handling

technical field

The present invention relates to the field of heat distribution management mechanisms in heat treatment devices for electrical wires, and more particularly, to the field of mechanisms for optimizing the heat distribution around the parts to be treated of the wires inside the heat treatment device.

Background technique

Currently, the handling of wires or bundles of wires is carried out in a processing device by placing the wires on a conveyor belt that moves inside the processing device.

Inside the processing device, according to a defined path, wires or bundles of wires can be guided to switching conveying members passing from one belt to another.

In the framework of thermal treatment, for example, by distributing the flow of steam in the treatment chamber, the conveying means are realized in the form of structures or conveying means that allow the flow of steam and/or heat to pass through. Thus, the construction of this transport member participates in the heat treatment on each side of the bundle of wires placed on the transport member. Therefore, the heat treatment is not only done on the only exposed face of the wire on the conveying member, that is to say against the face of the wire that will be in direct contact with the conveying member.

Nonetheless, this particular construction of the conveying member has disadvantages in handling the ends of the wires or bundles of wires.

In fact, during placement of the downstream wire ends, the surface of the conveying member is free for at least part of its length until the wire or bundle of wires is placed over the entire length of the conveying member. Furthermore, when only a portion of the length of the conveying member is covered by wires or bundles of wires, the vacant portion of the conveying member presents an easier flow of heat and steam than the portion of the conveying member that is covered by the wires or bundles of wires Structure. The flow of heat or steam then has a tendency to travel first through the portion of the conveying member that presents an empty structure. Such placement priorities can be detrimental to the portion of the conveying member that carries the wires or bundles of wires, and therefore to the quality of the heat treatment of the wires.

The same problem exists at the upstream end of the treated wire or bundle of wires. Thus, this heat distribution problem in the thermal processing apparatus results in wires or bundles of wires with uneven processing quality over their entire length.

SUMMARY OF THE INVENTION

The present invention aims to overcome these drawbacks by proposing a solution which, on the one hand, allows the wires or bundles of wires to have the same treatment over their entire length and, on the other hand, can be easily implemented in existing heat treatment installations.

The subject of the present invention is therefore a heat distribution management device in a device for the treatment of electrical wires moving on a conveying member, through which a heat flow can pass at or through an orifice, characterized in that the device comprises at least A sealing member or sealing device that seals by covering at least a portion of the orifice of the delivery member, such sealing member being independent of the delivery member.

The present invention also relates to a method for implementing at least one thermal distribution management device according to the present invention, characterized in that the method comprises:

a stage involving the placement of a heat distribution management device on a conveying member at the entrance to the handling device for the electrical wire,

A stage involving distributing the management device over at least a portion of the width of the conveying member.

The present invention also relates to a mechanism for recovering a heat distribution management device according to the present invention, characterized in that the recovery mechanism can be positioned at the outlet of the processing device for the electric wire, and the recovery mechanism includes at least:

a fastening interface fastened to at least one end of the management device;

a pivot on which the fastening interface is mounted,

a winding device that is wound around the pivot;

An adjustment device that adjusts the winding speed based on the speed of movement of the at least one conveying member of the handling device of the electric wire.

Description of drawings

The invention will be better understood from the following description with reference to preferred embodiments, given by way of non-limiting example, and explained with reference to the accompanying schematic drawings, in which:

Figure 1 is a schematic view of a variant of the device of the invention downstream of the wire to be treated,

Figure 2 is a schematic view of a variant of the device of the invention upstream of the wire to be treated,

Figures 3 and 3b are schematic and detailed illustrations of an example of a mechanism for recovering a heat distribution management device according to the present invention.

Detailed ways

In this document, the terms "downstream" and "upstream" define the position relative to the wire being processed and/or the direction of movement of the wire on the conveying member 1 of the processing device 5 .

The present invention relates to a heat distribution management device in a treatment device 5 of wires 6 moving on a conveying member 1 through which a heat flow can pass at or through an orifice, characterized in that the device comprises at least A sealing member 2 which seals by covering at least part of the orifice of the conveying member 1, this sealing member 2 being independent of the conveying member.

The sealing member 2 of the device is intended to replace the wires or bundles 6 of wires upstream and/or downstream of the wires or bundles of wires 6 to be treated during the processing of the wires 6 placed on the conveying member 1 in the processing device 5 of the wires 6 . Thus, such a sealing member 2 allows covering the orifice of the conveying member in a manner similar to the covering of an equivalent wire or bundle of wires 5 that would be positioned upstream or downstream of the wire or bundle of wires 5 to be treated. Furthermore, movement of heat or steam flow through the portion of the conveying member 1 that does not carry the wires or bundles of wires 6 (in the same way as if the portion of the conveying member 1 were carrying the wires or bundles of wires 6) is limited or even excluded.

As a result, the distribution of the heat flow or the steam flow is homogenized over the entire portion of the electric wire 6 that is processed on the conveying member 1 in the heat treatment device 5 .

According to an embodiment feature of the management device of the invention, the sealing member 2 is realized in the form of a fiber tape or a bundle of wires. The selection of the sealing member 2 is based on the type of wire or bundle of wires 6 processed upstream and/or downstream of the sealing member 2 . Furthermore, in addition to the width of the distribution in which the wires or bundles of wires 6 are placed on the conveying member 1, which is taken into account for the selection of the sealing member 2, it is also important to consider the processed Tendency of wires or bundles of wires 6 . Thus, the sealing member 2 is selected based on the sealing properties of the wires or bundles 6 of wires being treated for the passage of heat or steam flow, or the opposite permeable properties, in order to optimize the uniformity of the flow distribution in the treatment device 5 of the wires 6 .

According to constructional features, the heat distribution management device is characterized in that the length of the device is adapted to be at least equal to the entire cumulative length of the conveying member 1 involved in the conveying of the electric wire 6 in the treatment device 5 of the electric wire 6 . This constructional feature allows the sealing member 2 of the device according to the invention to be long enough to seal the entirety of the conveying member 1 of the wires in the processing device 5 before and/or after processing the wires or bundles 6 of wires.

According to constructional features complementary and/or alternatives to the aforementioned constructional features, the heat distribution management device is characterized in that the length of the device is adapted to be at least equal to the length of the electric wire 6 that travels in the treatment device 5 of the electric wire 6 . This constructional feature allows the length of the device according to the invention to be optimally adapted to the path followed by the wires or bundles of wires 6 in the processing device 5 . In fact, especially when the wire 6 is caused to be transferred from one conveying member 1 to another, it may happen that the length of the path followed by the wire 6 differs from the cumulative length of the conveying members 1 . Thus, when the wires or bundles of wires 6 do not move over the entire length of the conveying member 1 , the length of the path of the wires 6 is shorter than the cumulative length of the conveying member 1 . Conversely, when a wire or bundle of wires 6 is transferred from one conveying member 1 to the other by means of a drop between the two conveying members 1, the length of the drop increases with respect to the distance of the movement made on the single conveying member 1 the path of the wire or wire bundle 6.

According to another constructional feature of the device of the invention, the width of the device corresponds substantially to the width of the entire wire 6 to be processed by the processing device 5 . In a complementary manner, the width of the device corresponds to the unfolded width of the wire bundle 6 on the surface of the conveying member 1 .

According to another constructional feature of the device according to the invention, the device comprises at least one fastener for fastening the sealing member 2 to an end of a wire or a bundle of wires 6 . The fastener preferably cooperates with the sealing member 2 at its end. Thus, the fastener maintains the fastening of the wire or bundle of wires 6 and the sealing member 2 throughout the processing path in the thermal processing apparatus. The risk of discontinuities between the wires or bundles of wires 6 and the sealing member 2 is reduced and the quality of the distribution of heat and/or steam flow in the heat treatment device 5 is maintained.

The present invention also relates to a method for implementing at least one thermal distribution management device according to the present invention, characterized in that the method comprises:

Including the stage of placing the heat distribution management device on the conveying member 1 at the entrance of the handling device 5 of the wire 6,

Comprising a stage of distributing the management device over at least a part of the width of the conveying member 1 .

According to implementation features, the method according to the invention is characterized in that it comprises:

a phase comprising the movement of the heat distribution management device on the conveying member 1 and the subsequent actuation of the at least one wire 6 to be treated,

Including the stage in which the entire length of the path of the wire 6 to be treated on the conveying member 1 of the treatment device 5 of the wire 6 is occupied by the heat distribution management device and the at least one wire 6 to be treated.

According to alternative implementation features, the method according to the invention is characterized in that it comprises:

comprising a stage of movement of the heat distribution management device on the conveying member 1, which is then driven by the at least one wire 6 to be treated,

Including the stage in which the entire length of the path of the wire 6 to be treated on the conveying member 1 of the treatment device 5 of the wire 6 is occupied by the heat distribution management device and the at least one wire 6 to be treated.

The present invention also relates to a mechanism for recovering a heat distribution management device according to the present invention, characterized in that the recovery mechanism can be positioned at the outlet of the processing device 5 of the electric wire 6, and the recovery mechanism includes at least:

a fastening interface fastened to at least one end of the management device;

pivot 3 on which the fastening interface is mounted,

a winding device 4, which is wound around the pivot shaft 3;

An adjustment device that adjusts the winding speed based on the speed of movement of the at least one conveying member 1 of the handling device 5 of the wire 6 .

According to the constructional features of the retrieval mechanism, the fastening interface is arranged to interact with the end of the sealing member 2 of the management device.

According to another structural feature of the mechanism, the adjustment of the winding speed is carried out on the basis of the movement speed of the last conveying member 1 carrying the management device of the invention.

It should be clear that the invention is not limited to the embodiments described and illustrated in the drawings. In particular, modifications are still possible from the viewpoint of the constitution of various elements or by substituting equivalent techniques without departing from the scope of protection of the present invention.

Claims (11)

1. A thermal distribution management device in an electrical wire handling device, the thermal distribution management device comprising:

a delivery device having an orifice configured to be traversed by a heat flow at the orifice; and

at least one sealing device for covering at least a portion of the orifice of the delivery device, the sealing device being independent of the delivery device.

2. The thermal distribution management device of claim 1, wherein the sealing device is a fiber ribbon or a wire bundle.

3. The thermal distribution management device of claim 1, wherein the thermal distribution management device is adapted to have a length at least equal to a length of the transport device.

4. The thermal distribution management device of claim 1, wherein the length of the thermal distribution management device is adapted to be at least equal to the length of travel of the wire in the wire handling device.

5. The thermal distribution management device of claim 1, wherein a width of the thermal distribution management device corresponds to a width of all wires to be processed by the wire processing device.

6. The thermal distribution management device of claim 1, comprising at least one fastener on the sealing device configured to be secured to an end of an electrical wire or a bundle of electrical wires.

7. A method of processing a wire with a processing device, the method comprising:

a placing stage comprising placing a thermal profile management device on a transport device at an entrance of the processing device; and

a distribution stage comprising distributing the thermal distribution management device across at least a portion of a width of the transport device.

8. The method of claim 7, further comprising:

a movement phase comprising the movement of the thermal distribution management device on the transport device and the subsequent driving of at least one wire to be processed; and

an occupancy phase comprising a length of a path of the wire to be processed on the conveyor occupied by the thermal distribution management device and the at least one wire to be processed.

9. The method of claim 7, further comprising:

a movement phase comprising the movement of the thermal distribution management device on the transport device due to the movement of at least one wire to be processed;

an occupancy phase comprising a length of a path of the at least one wire to be processed on the conveyor occupied by the thermal distribution management device and the at least one wire to be processed.

10. A recovery mechanism for a thermal profile management device located at an outlet of a wire handling device, the recovery mechanism comprising:

a fastening interface mounted to at least one end of the thermal distribution management device;

a pivot, the fastening interface being mounted on the pivot,

a winding device for winding the sealing device of the thermal distribution management device around the pivot; and

an adjustment device for adjusting the winding speed based on the movement speed of at least one transport device of the wire treatment device.

11. The thermal distribution management device of claim 1, further comprising:

a recovery mechanism located at an outlet of the wire processing device, the recovery mechanism comprising:

a fastening interface mounted to at least one end of the thermal distribution management device;

a pivot, the fastening interface being mounted on the pivot,

a winding device for winding the sealing device around the pivot; and

an adjusting device for adjusting the winding speed based on the movement speed of the conveying device.

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