CN212669767U - High-temperature copper alloy wire rod rapid cooling chamber - Google Patents

Abstract

The utility model provides a high-temperature copper alloy wire rod rapid cooling chamber, which comprises a chamber body, wherein a partition plate is fixed in the chamber body to divide two sides in the chamber body into a loading chamber and a cooling chamber, material racks are symmetrically arranged in the loading chamber and the cooling chamber, each material rack comprises a base, a winding roller and a layer partition plate, annealed material racks are transferred to the loading chamber, a lead pipe is arranged on each partition plate in a penetrating way, the top end of each winding roller in the cooling chamber is connected with a connecting shaft, so that the connecting shaft can be driven to rotate through a motor, the winding rollers can be driven to rotate axially, copper wires on the material racks in the loading chamber are conveyed through the lead pipes to be wound between the layer partition plates on the material racks in the cooling chamber, a vertical rod is vertically fixed on one side of each material rack in the cooling chamber, a cooling water pipe is externally connected with the vertical rod, cooling water can be injected into the layer partition plates through the vertical rod, and the cooling water, so as to realize the rapid and efficient cooling of the high-temperature copper alloy wire coil.

Description

High-temperature copper alloy wire rod rapid cooling chamber

Technical Field

The utility model relates to a copper alloy production and processing technology field especially relates to a quick cooling chamber of high temperature copper alloy wire rod.

Background

In the production and processing process of copper alloy, annealing treatment is generally needed, wherein annealing is a heat treatment process for materials, and is a process of slowly heating a copper alloy wire to a certain temperature, keeping for enough time, and then cooling and annealing, so that the hardness can be reduced, the cutting processability can be improved, the residual stress can be eliminated, the size can be stabilized, the deformation and crack tendency can be reduced, crystal grains can be refined, the structure can be adjusted, and the structure defect can be eliminated;

however, because the high-temperature copper alloy wire is easily oxidized after being exposed in the air for a long time, the copper alloy wire is annealed and then rapidly cooled to avoid the oxidation to influence the surface brightness, so that a larger degree of acid washing is needed in the subsequent processing process, aiming at the problem, a large-size fan is often adopted for rapidly cooling the copper alloy wire after annealing in industrial production, and in order to fully and efficiently cool the copper alloy wire coil, a plurality of groups of fans are often adopted to blow air towards each direction of the wire coil, so that the energy consumption is higher, the copper alloy wire is limited by the fact that the air cooling treatment cannot be carried out on the inner side of the wound coil, the heat dissipation is slower, so that the cooling efficiency is still lower Waste time and energy, and the quick cold and hot damage that easily leads to the work or material rest especially work or material rest welding seam department in turn of on the other hand leads to the practicality in the industrial production not high from this.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a high temperature copper alloy wire rod rapid cooling room to realize the high-efficient cooling of high temperature copper alloy wire book, easily be oxidized in order to avoid exposing for a long time in the air, and easy and simple to handle and do not influence the function that the work or material rest normally used.

Based on the above-mentioned purpose, the utility model provides a high temperature copper alloy wire rod rapid cooling chamber, include:

the device comprises a chamber body, a cooling chamber and a cooling chamber, wherein a partition plate is fixed in the chamber body to divide two sides in the chamber body into a loading chamber and a cooling chamber;

the work or material rest, the symmetry is located between the loading and in the cooling room, include:

a base;

the winding roller is movably connected to the base, can freely axially rotate and is used for winding the copper wire;

the winding roller is horizontally sleeved with the winding roller through the through hole, the bearing is fixedly connected between the through hole and the winding roller of the layer partition plate, so that the layer partition plate can freely rotate along the axial direction of the winding roller, the layer partition plate is designed into a hollow structure, the lower end face of the layer partition plate is provided with a spray hole, and the spray hole is communicated with the hollow interior of the layer partition plate;

the lead pipe penetrates through the partition plates, and two ends of the lead pipe extend to the layer partition plates on two sides and are used for conveying copper wires between the partition plates on the two sides;

the vertical rod is vertically fixed on one side of the material rack in the cooling room, is designed into a hollow structure and is fixedly communicated with the layer partition plate, and is externally connected with a cooling water pipe for injecting cooling water and can spray downwards through the spray holes;

the connecting shaft is fixedly connected to the top end of the winding roller in the cooling room along the axial direction;

the motor is arranged at the upper end of the cooling chamber and is mechanically connected with the connecting shaft to drive the connecting shaft to rotate so as to drive the winding roller to axially rotate and wind the copper wire between the layer partition plates through the lead pipes.

Preferably, the number of the spray holes is a plurality, and the spray holes are uniformly distributed on the lower end face of the layer partition plate.

Preferably, the side wall of one end of the lead tube is provided with a gas hole, the gas hole is externally communicated with a connecting tube, a cooling gas tube is arranged in the chamber body and used for introducing cooling gas, and the connecting tube is communicated with the cooling gas tube so as to inject the cooling gas into the lead tube through the gas hole.

Preferably, one end of the lead pipe close to the air hole is coaxially connected with a rubber hose so that the copper wire can be attached to the inner side wall of the rubber hose for transmission.

Preferably, the cooling gas is nitrogen.

Preferably, one end of the lead tube located in the loading room is bent and extended along the circumferential direction of the layer separator.

Preferably, a distance sensor is fixed on the side wall of the vertical rod, facing one side of the layer partition plate, and used for downwards detecting a distance value between the vertical rod and a copper wire, the distance sensor is electrically connected with the motor, and when the distance value detected by the distance sensor is smaller than a preset value, the motor can be triggered to be disconnected.

Preferably, a first switch valve is arranged on the cooling water pipe, the first switch valve is electrically connected with the distance sensor, and when the distance value detected by the distance sensor is smaller than a preset value, the first switch valve can be triggered to be closed.

Preferably, a second switch valve is arranged on the cooling air pipe, the second switch valve is electrically connected with the distance sensor, and when the distance value detected by the distance sensor is smaller than a preset value, the second switch valve can be triggered to be closed.

Preferably, the partition plate is filled with heat insulation materials.

From the above, the utility model provides a high temperature copper alloy wire rod rapid cooling chamber, through setting up the chamber body, the chamber body internal fixation has the division board, in order to separate the internal both sides of chamber into loading room and cooling room, loading room and cooling room internal symmetry are equipped with the work or material rest, the work or material rest includes the base, the wind-up roll, the layer baffle, wherein, the wind-up roll is movably connected to the base, in order to free axial rotation, the layer baffle is horizontally sleeved on the wind-up roll through the through-hole, and fixedly connected with the bearing in the department of being sleeved, so that the layer baffle can freely rotate along the wind-up roll axial, wear to be equipped with the lead tube on the division board, the lead tube both ends extend to the layer baffle of both sides, wherein, the wind-up roll top in the cooling room is connected with the connecting axle along axial fixedly, the connecting axle is mechanically connected with the motor, because in industrial production, in order to improve efficiency, simultaneously annealing and cooling are carried out, so that the annealed material rack can be transferred to a loading room, a connecting shaft can be driven to rotate by a motor, a winding roller can be driven to axially rotate, copper wires on the material rack of the loading room can be conveyed by a lead pipe to be wound between layer partition plates of the cooling room, meanwhile, the lower end surfaces of the layer partition plates are designed into hollow structures, spray holes are communicated with the lower end surfaces of the layer partition plates, a vertical rod is vertically fixed on one side of the material rack in the cooling room and is fixedly communicated with the layer partition plates, the vertical rod is externally connected with a cooling water pipe, when the copper wires are wound on the layer partition plates of the cooling room, cooling water can be injected through the cooling water pipe and the vertical rod, the cooling water can be continuously sprayed downwards through the spray holes, the annealed high-temperature copper wires are conveyed and wound to be fully cooled, and the cooling water is sprayed to the copper wires in the winding process in, the copper wire is transmitted and protected by the lead pipe, the lead pipe is sprayed and covered by cooling water when being led out, so that direct contact with outside air can be reduced, the copper wire can be quickly cooled and prevented from being exposed in the air for a long time to be oxidized, the cooling effect can be prevented from being influenced by direct heat conduction from high temperature in the loading room to the cooling room through separation of the partition plate, the copper wire is wound between the loading room and the material racks which are oppositely arranged in the cooling room, so that the high-temperature copper alloy wire coil can be quickly and efficiently cooled, meanwhile, the copper wire is prevented from being exposed in the air for a long time to be oxidized, compared with continuous air cooling and cooling of a traditional large-size fan, the cooling efficiency is obviously higher, compared with the reciprocating hanging material rack which is immersed in a cooling well for cooling, the operation is more convenient and fast through automatic winding and spraying cooling, and because the material racks are separately arranged, the work or material rest in the cooling chamber is maintained at relative lower temperature, can not receive quick cold and hot alternation along with the copper line to can avoid work or material rest especially work or material rest welding seam department because quick temperature variation is impaired, thereby ingenious not influence the normal use of work or material rest when the copper line cools off fast, in order to do benefit to the practicality in the industrial production from this.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

fig. 2 is a top view of a lead tube according to an embodiment of the present invention;

FIG. 3 is a cross-sectional view of a lead tube according to an embodiment of the present invention;

fig. 4 is a schematic view of a top view structure of a material shelf according to an embodiment of the present invention.

In the figure: the device comprises a chamber body 1, a partition plate 2, a loading room 3, a cooling room 4, a material rack 5, a base 51, a take-up roll 52, a layer partition plate 53, a through hole 531, a bearing 532, a spray hole 533, a copper wire 6, a lead pipe 7, an air hole 71, a vertical rod 8, a cooling water pipe 9, a first switch valve 91, a connecting shaft 10, a motor 11, a connecting pipe 12, a cooling air pipe 13, a second switch valve 131, a rubber hose 14 and a distance sensor 15.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings.

It should be noted that unless otherwise defined, technical or scientific terms used in the embodiments of the present invention should have the ordinary meaning as understood by those having ordinary skill in the art to which the present disclosure belongs. The use of "first," "second," and similar terms in this disclosure is not intended to indicate any order, quantity, or importance, but rather is used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

A high-temperature copper alloy wire rapid cooling chamber is disclosed, as shown in figures 1 to 4, comprising a chamber body 1, a partition plate 2 is fixed in the chamber body 1 to divide two sides in the chamber body 1 into a loading chamber 3 and a cooling chamber 4, material racks 5 are symmetrically arranged in the loading chamber 3 and the cooling chamber 4, each material rack 5 comprises a base 51, a winding roller 52 and a layer partition plate 53, the winding roller 52 is movably connected on the base 51 to rotate freely and axially and is used for winding a copper wire 6, a through hole 531 is arranged at the center of the layer partition plate 53 and horizontally sleeved on the winding roller 52 through the through hole 531, a bearing 532 is fixedly connected between the layer partition plate 53 and the winding roller 52 at the through hole 531 to enable the layer partition plate 53 to rotate freely and axially along the winding roller 52, the layer partition plate 53 is designed to be a hollow structure, a spray hole 533 is arranged on the lower end face of the layer partition plate 53, the spray hole 533 is communicated with the hollow inside of the layer partition plate, 7 both ends of lead wire extend to the layer baffle 53 department of both sides, be used for lead wire conveying copper line 6 between the layer baffle 53 of both sides, the vertical montant 8 that is fixed with in 5 one side of work or material rest in 4 between the cooling, montant 8 designs for hollow structure, and with the fixed intercommunication of layer baffle 53, montant 8 is external to have condenser tube 9, be used for pouring into the cooling water, and can spray downwards via orifice 533, wind-up roll 52 top in 4 between the cooling is along axial fixedly connected with connecting axle 10, 4 upper ends are equipped with motor 11 between the cooling, motor 11 and connecting axle 10 mechanical connection, be used for driving connecting axle 10 and rotate, in order to drive wind-up roll 52 axial rotation, in order to can be via lead wire 7, wind-up copper line 6 is between layer baffle.

The utility model discloses a through setting up the room body 1, the room body 1 internal fixation has a division board 2, in order to separate the both sides in the room body 1 into loading room 3 and cooling room 4, loading room 3 and cooling room 4 internal symmetry are equipped with the work or material rest 5, work or material rest 5 includes base 51, wind-up roll 52, layer baffle 53, wherein, wind-up roll 52 swing joint is on base 51, but free axial rotation, layer baffle 53 is through the horizontal cover of through-hole 531 on wind-up roll 52, and fixedly connected with bearing 532 in the cover department, so that layer baffle 53 can be along wind-up roll 52 axial free rotation, wear to be equipped with lead tube 7 on division board 2, lead tube 7 both ends extend to the layer baffle 53 department of both sides, wherein, wind-up roll 52 top in the cooling room 4 is along axial fixedly connected with connecting axle 10, connecting axle 10 mechanical connection has motor 11, because in industrial production, in order to raise the efficiency, often through many groups of copper alloy wire coils are fixed on work or material, so as to simultaneously anneal and cool, so that the annealed material rack 5 can be transferred to the loading room 3, the connecting shaft 10 can be driven to rotate by the motor 11, so as to drive the wind-up roller 52 to axially rotate, so that the copper wires 6 on the material rack 5 of the loading room 3 can be transmitted by the lead pipe 7 to be wound between the layer partition plates 53 of the cooling room 4, meanwhile, because the layer partition plates 53 are designed to be hollow structures, and the lower end surfaces of the layer partition plates 53 are communicated with the spray holes 533, one side of the material rack 5 in the cooling room 4 is vertically fixed with the vertical rod 8 and is fixedly communicated with the layer partition plates 53, the vertical rod 8 is externally connected with the cooling water pipe 9, so that the cooling water can be injected through the cooling water pipe 9 and the vertical rod 8 while being wound on the layer partition plates 53 of the cooling room 4, so as to continuously spray the cooling water downwards through the spray holes 533, so that the annealed high-temperature, the copper wire 6 in the winding process is sprayed with cooling water in real time to realize high-efficiency quick cooling, the copper wire 6 is transmitted and protected through the lead pipe 7, the lead pipe 7 is led out and is covered by the cooling water spraying, so that direct contact with the outside air can be reduced, long-time exposure to the air and oxidation can be avoided simultaneously when the copper wire 6 is quickly cooled, the cooling effect can be prevented from being influenced by direct heat conduction from high temperature of the loading room 3 to the cooling room 4 through the separation of the partition plate 2, the copper wire 6 is wound between the oppositely arranged material racks 5 in the loading room 3 and the cooling room 4, so that high-temperature copper alloy wire coils can be quickly and efficiently cooled, meanwhile, the high-temperature copper alloy wire coils are prevented from being exposed to the air and oxidized for a long time, compared with continuous air cooling by a traditional large-size fan, the cooling efficiency is obviously higher, and compared with the reciprocating hanging material racks, through automatic rolling spray cooling, the operation is comparatively convenient, and because work or material rest 5 separately sets up, work or material rest 5 in 3 maintains at relatively high temperature between loading, work or material rest 5 in 4 maintains at relatively low temperature between the cooling, can not receive quick cold and hot alternation along with copper line 6, thereby can avoid work or material rest 5 especially work or material rest 5 welding seam department because quick temperature variation is impaired, thereby ingenious do not influence work or material rest 5's normal use when copper line 6 cools off fast, from this in order to do benefit to the practicality in the industrial production.

The utility model discloses an in the embodiment, orifice 533 is equipped with a plurality of, and evenly distributed under layer baffle 53 on the terminal surface to do benefit to and promote spray cooling efficiency.

The utility model discloses an in the embodiment, the gas pocket 71 has been seted up on the lateral wall of lead tube 7 one end, and the external intercommunication of gas pocket 71 has connecting pipe 12, is equipped with cooling pipe 13 in the room body 1 for let in cooling gas, connecting pipe 12 communicate in cooling pipe 13 to with accessible gas pocket 71 to spouting cooling gas in lead tube 7, in order to realize passing through the forced air cooling in the conveying with further promotion cooling efficiency.

The utility model discloses an in the embodiment, the one end coaxial coupling that lead wire 7 is close to gas pocket 71 has rubber hose 14 to can make copper line 6 laminate in the conveying of rubber hose 14 inside wall, thereby utilize rubber hose 14 in the realization conveying, in order can laminate copper line 6, when making cooling gas inject by gas pocket 71, the export via the lead wire 7 other end flows, thereby in order to do benefit to cooling gas and flow through whole lead wire 7 length, with abundant and copper line 6 contact cooling.

The embodiment of the utility model provides an in, cooling gas is nitrogen gas to when utilizing cooling gas fully to contact the cooling with copper line 6 in lead pipe 7, in order can cladding protection copper line 6 to avoid receiving the air oxidation.

In the embodiment of the present invention, the end of the lead pipe 7 located in the loading room 3 extends along the circumferential bending of the layer partition 53, so as to facilitate the faster separation of the copper wire 6 and the transmission via the lead pipe 7, thereby facilitating the further improvement of the cooling efficiency.

The utility model discloses an in the embodiment, be fixed with distance sensor 15 on the montant 8 towards the lateral wall on layer baffle 53 one side for survey downwards and the distance value between copper line 6, distance sensor 15 and the 11 electricity of motor are connected, when the distance value that detects through distance sensor 15 is less than the default, but open circuit with trigger motor 11, thereby when accomplishing certain volume of rolling up between layer baffle 53, but automatic control motor 11 opens circuit, in order to stop the rolling, thereby realize the automatic quantitative control of volume of rolling up.

The utility model discloses an in the embodiment, be equipped with first ooff valve 91 on condenser tube 9 to the break-make of steerable condenser tube 9, first ooff valve 91 is connected with distance sensor 15 electricity, and when the distance value that detects through distance sensor 15 is less than the default, can trigger first ooff valve 91 closed, thereby can be when the rolling is accomplished, automatic control condenser tube 9 stops to spray.

The embodiment of the utility model provides an in, be equipped with second ooff valve 131 on the cooling trachea 13 to the break-make of steerable cooling trachea 13, second ooff valve 131 is connected with distance sensor 15 electricity, and when the distance value that detects through distance sensor 15 is less than the default, can trigger second ooff valve 131 closed, thereby can be when the rolling is accomplished, automatic control cooling trachea 13 stops to spout.

The utility model discloses an in the embodiment, division board 2 intussuseption is filled with thermal-insulated insulation material to do benefit to and further play thermal-insulated heat retaining effect, influence the cooling effect to 4 direct heat-conduction in cooling rooms of high temperature that avoid loading room 3.

In the utility model discloses a high temperature copper alloy wire rod rapid cooling chamber, through setting up the chamber body 1, be fixed with division board 2 in the chamber body 1, in order to divide the interior both sides of chamber body 1 into loading room 3 and cooling room 4, loading room 3 and cooling room 4 are interior symmetry are equipped with work or material rest 5, during the use, shift work or material rest 5 after annealing to loading room 3 department, because lead tube 7 wears to be equipped with on division board 2, wind-up roll 52 top in cooling room 4 is along the axially fixed connecting axle 10 that is connected with, connecting axle 10 mechanical connection has motor 11, thereby drive connecting axle 10 through motor 11 and rotate, in order to drive wind-up roll 52 axial rotation, so as to load copper line 6 on the work or material rest 5 of room 3, convey via lead tube 7, in order to roll up between the layer baffle 53 on the work or material rest 5 of cooling room 4, simultaneously because a montant 8 is vertically fixed with in work or material rest 5 one side in, the vertical rod 8 is externally connected with a cooling water pipe 9, so that cooling water can be injected into the layer partition plate 53 through the cooling water pipe 9 and the vertical rod 8, and the copper wire 6 in rolling is continuously sprayed with cooling water through the spray holes 533, so as to realize the rapid and efficient cooling of the high-temperature copper alloy wire coil, wherein the spray holes 533 are provided with a plurality of spray holes 533 and are uniformly distributed on the lower end surface of the layer partition plate 53, the side wall of one end of the lead pipe 7 is provided with an air hole 71, the air hole 71 is externally connected and communicated with a connecting pipe 12, the connecting pipe 12 is communicated with the cooling air pipe 13, so as to realize the further improvement of the cooling efficiency through air cooling during the transmission, one end of the lead pipe 7 close to the air hole 71 is coaxially connected with a rubber hose 14, so that the copper wire 6 can be attached to the inner side wall of the rubber hose 14 for transmission, so that the cooling gas can flow through the length of the whole lead pipe 7 to be fully contacted with, a distance sensor 15 is fixed on the side wall of the vertical rod 8 facing one side of the layer partition plate 53, a first switch valve 91 is arranged on the cooling water pipe 9, a second switch valve 131 is arranged on the cooling air pipe 13, when the distance value detected by the distance sensor 15 is smaller than a preset value, the motor 11 can be triggered to be switched off, the first switch valve 91 and the second switch valve 131 are triggered to be closed, automatic quantitative control of the coiling amount is realized, meanwhile, the cooling water pipe 9 and the cooling air pipe 13 are automatically controlled to stop jetting, and the partition plate 2 is filled with a heat insulation material, so that the heat insulation effect is further played.

Those of ordinary skill in the art will understand that: the discussion of any embodiment above is meant to be exemplary only, and is not intended to intimate that the scope of the disclosure, including the claims, is limited to these examples; within the idea of the invention, also technical features in the above embodiments or in different embodiments can be combined, steps can be implemented in any order, and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity.

The present embodiments are intended to embrace all such alternatives, modifications and variances which fall within the broad scope of the appended claims. Therefore, any omission, modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The utility model provides a quick cooling chamber of high temperature copper alloy wire rod which characterized in that includes:

the cooling device comprises a chamber body, a cooling chamber and a cooling chamber, wherein a partition plate is fixed in the chamber body to divide two sides in the chamber body into a loading chamber and a cooling chamber;

the work or material rest, the symmetry is located between the loading with in the cooling room, include:

a base;

the winding roller is movably connected to the base, can freely axially rotate and is used for winding the copper wire;

the layer partition plate is provided with a through hole in the center and horizontally sleeved on the wind-up roll through the through hole, a bearing is fixedly connected between the layer partition plate and the wind-up roll at the position of the through hole, so that the layer partition plate can freely rotate along the axial direction of the wind-up roll, the layer partition plate is designed to be of a hollow structure, and a spray hole is formed in the lower end face of the layer partition plate and communicated with the hollow interior of the layer partition plate;

the lead pipe penetrates through the partition plates, and two ends of the lead pipe extend to the layer of partition plates on two sides and are used for conveying the copper wires between the partition plates on the two sides;

the vertical rod is vertically fixed on one side of the material rack in the cooling room, is designed into a hollow structure and is fixedly communicated with the layer partition plate, and is externally connected with a cooling water pipe for injecting cooling water and can spray downwards through the spray holes;

the connecting shaft is fixedly connected to the top end of the winding roller in the cooling room along the axial direction;

the motor is arranged at the upper end of the cooling chamber, is mechanically connected with the connecting shaft and is used for driving the connecting shaft to rotate so as to drive the winding roller to axially rotate, and can be wound on the copper wire between the layer of partition plates through the lead pipes.

2. The rapid cooling chamber for high temperature copper alloy wire as claimed in claim 1, wherein the plurality of spray holes are uniformly distributed on the lower end surface of the layer of partition plate.

3. A high temperature copper alloy wire rapid cooling chamber as claimed in claim 1, wherein a gas hole is opened on a side wall of one end of the lead tube, the gas hole is externally connected and communicated with a connecting tube, a cooling gas tube is arranged in the chamber body for introducing cooling gas, and the connecting tube is communicated with the cooling gas tube so as to inject the cooling gas into the lead tube through the gas hole.

4. The rapid cooling chamber for high-temperature copper alloy wire according to claim 3, wherein a rubber hose is coaxially connected to one end of the lead tube close to the air hole, so that the copper wire can be attached to the inner side wall of the rubber hose for transmission.

5. A rapid cooling chamber for high temperature copper alloy wire as recited in claim 3, wherein said cooling gas is nitrogen.

6. A rapid cooling chamber for high temperature copper alloy wire as set forth in claim 1, wherein one end of said lead tube located in said loading chamber is bent and extended along the circumference of said layer of partition.

7. The rapid cooling chamber for high-temperature copper alloy wires as claimed in claim 3, wherein a distance sensor is fixed on a side wall of the vertical rod facing to the side of the layer partition for downward detection of a distance value between the vertical rod and the copper wire, the distance sensor is electrically connected to the motor, and the motor is triggered to be turned off when the distance value detected by the distance sensor is smaller than a preset value.

8. The rapid cooling chamber for high-temperature copper alloy wires according to claim 7, wherein a first switch valve is arranged on the cooling water pipe, the first switch valve is electrically connected with the distance sensor, and the first switch valve can be triggered to close when the distance value detected by the distance sensor is smaller than the preset value.

9. The rapid cooling chamber for high-temperature copper alloy wires according to claim 7, wherein a second switch valve is arranged on the cooling gas pipe, the second switch valve is electrically connected with the distance sensor, and the second switch valve can be triggered to close when the distance value detected by the distance sensor is smaller than the preset value.

10. The rapid cooling chamber for high-temperature copper alloy wires according to claim 1, wherein the partition plate is filled with a heat insulation material.

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