CN203976881U - Cable annealing device - Google Patents

Abstract

A kind of cable annealing device of the present utility model, comprise process furnace and be positioned at the cool furnace in annealing furnace outside, heating tube is set in annealing furnace, heating tube runs through annealing furnace two ends along its length, cool furnace comprises wire collecting part and is positioned at the cooling end of wire collecting part top, annealing furnace is connected by thread-protected tube with cool furnace, the two ends of thread-protected tube are communicated with heating tube and wire collecting part respectively, take-up reel is set in wire collecting part, scatterer is set in cooling end, scatterer is removably fixed in wire collecting part top, the two ends up and down of scatterer have respectively air outlet and blast inlet, at least one is offered in the top of wire collecting part can make the nitrogen in wire collecting part enter into the ventilation opening in scatterer, air outlet arranges fan away from a side of blast inlet, fan taking port is offered at the top of cooling end, the top of cooling end is provided with motor, the output shaft of motor extends in cooling end and is connected with fan through fan taking port, the arranged outside tracheae of cool furnace, the two ends of tracheae are communicated with cooling end and wire collecting part respectively.

Description

Cable annealing device

Technical field

The utility model relates to cable manufacture field, relates in particular to a kind of cable annealing device.

Background technology

Cable is through drawing after operation, copper cash inside has produced unrelieved stress, external presentation is cable hardening, becomes fragile, need to eliminate by necessary heat treatment step the over-all properties of this stress and recovery cable, this process is carried out anneal to cable exactly, usual method is the cable having drawn to be put into process furnace be heated to certain temperature and be incubated the regular hour, and then allow cable along with body of heater naturally cooling, but, allow cable along with body of heater naturally cooling can spend long time, this is unfavorable for the following process process of cable.

Utility model content

The purpose of this utility model is to propose a kind of cable annealing device, and it can make the annealing time of cable shorten, and has improved the working (machining) efficiency of cable.

A kind of cable annealing device, comprise for heating the process furnace of cable and being positioned at the cool furnace for cooling cable in described process furnace outside, in described process furnace, be provided with heating tube, described heating tube runs through described process furnace two ends along its length, in described cool furnace, fill nitrogen, described cool furnace comprises wire collecting part and is positioned at the cooling end of described wire collecting part top, described process furnace is with described cool furnace by being connected with the thread-protected tube of described heating tube concentric, and the two ends of described thread-protected tube are communicated with described heating tube and described wire collecting part respectively;

In described wire collecting part, be provided with for collecting the take-up reel of cable, in described cooling end, be provided with scatterer, described scatterer is removably fixed in the top of described wire collecting part, the two ends up and down of described scatterer have respectively air outlet and blast inlet, the top of described wire collecting part offers at least one can make the nitrogen in described wire collecting part enter into the ventilation opening in described scatterer, described air outlet arranges fan away from a side of described blast inlet, the top of described cooling end offer can be by described fan the fan taking port from taking out in described cooling end, the top of described cooling end is provided with motor, the output shaft of described motor extends in described cooling end and is connected with described fan through described fan taking port,

The arranged outside tracheae of described cool furnace, the two ends of described tracheae are communicated with described cooling end and described wire collecting part respectively, for being transported in wire collecting part by the cooling gas of scatterer in described cooling end.

As a kind of preferred technical scheme, described heating tube is silica tube, and described silica tube inner side is provided with for heating the electric heating film of cable.

As a kind of preferred technical scheme, the thickness of described heating tube is 1-1.5mm.

As a kind of preferred technical scheme, the thickness of described electric heating film is 6-15um.

Preferably, the thickness of described electric heating film is 10um.

As a kind of preferred technical scheme, described take-up reel is fixed in described wire collecting part by rotating shaft, and one end of described rotating shaft is connected with described take-up reel, and the other end is connected with the power set that is arranged on cool furnace outside through the furnace wall of described wire collecting part.

As a kind of preferred technical scheme, on described take-up reel, be provided with temperature inductor, described temperature inductor is connected with the control device that is arranged at cool furnace outside.

As a kind of preferred technical scheme, the both sides of described scatterer arrange respectively inlet flume and the effluent trough of sealing, many heat dissipation pipes are set in described scatterer, on described heat dissipation pipe's outer side wall, be provided with radiating fin, described heat dissipation pipe's two ends are communicated with described inlet flume and effluent trough respectively, described inlet flume is provided with water inlet manifold away from described heat dissipation pipe's a side, described effluent trough is provided with total rising pipe away from described heat dissipation pipe's 251 a side, described water inlet manifold and described total rising pipe all extend to outside described cooling end through the furnace wall of described cooling end away from one end of described heat dissipation pipe.

As a kind of preferred technical scheme, described ventilation opening is one, described ventilation opening and described blast inlet concentric.

Contrast prior art, the beneficial effects of the utility model are: the utility model is by arranging cool furnace, and scatterer is set in cool furnace and can makes the fan of flow of nitrogen gas in cool furnace, while making cable annealing, need the cooling time to shorten, and then shortened the whole annealing time of cable, improved the working (machining) efficiency of cable.

Accompanying drawing explanation

Fig. 1 is the structural representation of the cable annealing device described in embodiment.

In figure:

1, process furnace; 11, heating tube; 12, electric heating film; 2, cool furnace; 21, wire collecting part; 211, ventilation opening; 22, cooling end; 221, fan taking port; 23, take-up reel; 24, rotating shaft; 25, scatterer; 251, heat dissipation pipe; 252, inlet flume; 253, effluent trough; 254, water inlet manifold; 255, total rising pipe; 256, blast inlet; 257, air outlet; 26, motor; 27, fan; 28, tracheae; 3, cable; 4, support; 5, thread-protected tube.

Embodiment

Below in conjunction with accompanying drawing and by embodiment, further illustrate the technical solution of the utility model.

As shown in Figure 1, in the present embodiment, a kind of cable annealing device, comprise for heating the process furnace 1 of cable 3 and being positioned at the cool furnace 2 for cooling cable 3 in process furnace 1 outside, process furnace 1 and cool furnace 2 are all fixed on ground by support 4, in process furnace 1, be provided with heating tube 11, heating tube 11 runs through process furnace 1 two ends along its length, the interior filling nitrogen of cool furnace 2, cool furnace 2 comprises wire collecting part 21 and is positioned at the cooling end 22 of wire collecting part 21 tops, process furnace 1 and cool furnace 2 are by being communicated with the thread-protected tube 5 of heating tube 11 concentrics, the two ends of thread-protected tube 5 are communicated with heating tube 11 and wire collecting part 21 respectively, the setting of thread-protected tube 5, can avoid cable 3 to contact with outside air, make the cable 3 can be by the dioxygen oxidation in outside air.

In wire collecting part 21, be provided with for collecting the take-up reel 23 of cable 3, in cooling end 22, be provided with scatterer 25, scatterer 25 is removably fixed in the top of wire collecting part 21, the two ends up and down of scatterer 25 have respectively air outlet 257 and blast inlet 256, the top of wire collecting part 21 offers one can make the nitrogen in wire collecting part 21 enter into the ventilation opening 211 in scatterer 25, ventilation opening 211 and blast inlet 256 concentrics, air outlet 257 arranges fan 27 away from a side of blast inlet 256, the top of cooling end 22 offer can be by fan 27 fan taking port 221 from cooling end 22 interior taking-ups, the top of cooling end 22 is provided with motor 26, the output shaft of motor 26 extends in cooling end 22 and is connected with fan 27 through fan taking port 221.

Arranged outside one tracheae 28 of cool furnace 2, the two ends of tracheae 28 are communicated with cooling end 22 and wire collecting part 21 respectively, for being transported in wire collecting part 21 by the cooling gas of scatterer 25 in cooling end 22.

The utility model is by arranging cool furnace 2, and scatterer 25 is set and can makes the mobile fan 27 of the interior gas circulation of cool furnace 2 cool furnace 2 is interior, while making cable 3 annealing, need the cooling time to shorten, and then shortened the whole annealing time of cable 3, improved the working (machining) efficiency of cable 3.

Heating tube 11 is silica tube, and silica tube inner side is provided with for heating the electric heating film 12 of cable 3.By electric heating film 12 is set in silica tube, can make the temperature in silica tube get a promotion rapidly, and the thermotolerance of silica tube is higher, can be resistance to the above temperature of 1200 degree, guaranteed work-ing life of heating tube 11.

The thickness of heating tube 11 is 1-1.5mm, and the thickness of electric heating film 12 is 6-15um, and in the present embodiment, the thickness of heating tube 11 is 1.5mm, and the thickness of electric heating film 12 is 10um.

Take-up reel 23 is fixed in wire collecting part 21 by rotating shaft 24, one end of rotating shaft 24 is connected with take-up reel 23, the other end is connected with the power set that is arranged on cool furnace 2 outsides through the furnace wall of wire collecting part 21, and power set can drive take-up reel 23 that the cable having heated 3 is collected thereon.

On take-up reel 23, be provided with temperature inductor, temperature inductor is connected with the control device that is arranged at cool furnace 2 outsides.

By set temperature sensor on take-up reel 23, can indirectly record the temperature of cable 3, by temperature sensor is connected with control device, when the temperature of cable 3 drops to required temperature, control device just can be controlled motor 26 and stop operating, and then makes scatterer 25 without carrying out cooling to the nitrogen in wire collecting part 21 again.

The both sides of scatterer 25 arrange respectively inlet flume 252 and the effluent trough 253 of sealing, scatterer 25 is interior arranges many heat dissipation pipes 251, on heat dissipation pipe 251 outer side wall, be provided with radiating fin, heat dissipation pipe 251 two ends are communicated with inlet flume 252 and effluent trough 253 respectively, inlet flume 252 is provided with water inlet manifold 254 away from a side of heat dissipation pipe 251, effluent trough 253 is provided with total rising pipe 255 away from a side of heat dissipation pipe 251, and water inlet manifold 254 and total rising pipe 255 all extend to outside cooling end 22 through the furnace wall of cooling end 22 away from one end of heat dissipation pipe 251.During scatterer 25 work, water leg outside cool furnace 2 is transported to the water in it in inlet flume 252 by water inlet manifold 254, water in inlet flume 252 flow in each heat dissipation pipe 251, water in heat dissipation pipe 251 flow in effluent trough 253 after the heat exchange with nitrogen, water in effluent trough 253 is got back in another water leg outside cool furnace 2 by total rising pipe 255 again, so recirculation reaches the cooling of nitrogen in 25 pairs of wire collecting part 21 of scatterer, and then accelerates the speed of cooling of the cable 3 on take-up reel 23.

Principle of work:

First cable 3 is sent into the interior heating of heating tube 11, take-up reel 23 in cool furnace 2 is under the driving of power set simultaneously, cable through heating 3 is collected thereon, when all cables 3 have been heated and have been collected on take-up reel 23, stop the operation of power set, subsequently, starter motor 26, motor 26 drive fan 27 rotations, the fan 27 of rotation drives the nitrogen in wire collecting part 21 to pass through scatterer 25, nitrogen obtains cooling under the thermolysis of scatterer 25, cooling gas is transported in wire collecting part 21 by tracheae 28, and carry out cooling to cable 3, carried out the nitrogen heating of heat exchange with cable 3, the nitrogen of heating flows in scatterer 25 again under the driving of fan 27, scatterer 25 carries out cooling to nitrogen again, circulation and so forth, the temperature that temperature sensor on take-up reel 23 records cable 3 is reduced to when temperature required, the control device being connected with temperature sensor just can be controlled motor 26 and stop operating, scatterer 25 has also stopped cooling to the nitrogen in wire collecting part 21 thereupon.

What need statement is; above-mentioned embodiment is only preferred embodiment of the present utility model and institute's application technology principle; in technical scope disclosed in the utility model; the variation that any those skilled in the art of being familiar with easily expect or replacement, all should be encompassed in protection domain of the present utility model.

Claims (8)

1. a cable annealing device, it is characterized in that, comprise for heating the process furnace of cable and being positioned at the cool furnace for cooling cable in described process furnace outside, in described process furnace, be provided with heating tube, described heating tube runs through described process furnace two ends along its length, in described cool furnace, fill nitrogen, described cool furnace comprises wire collecting part and is positioned at the cooling end of described wire collecting part top, described process furnace is with described cool furnace by being connected with the thread-protected tube of described heating tube concentric, and the two ends of described thread-protected tube are communicated with described heating tube and described wire collecting part respectively;

In described wire collecting part, be provided with for collecting the take-up reel of cable, in described cooling end, be provided with scatterer, described scatterer is removably fixed in the top of described wire collecting part, the two ends up and down of described scatterer have respectively air outlet and blast inlet, the top of described wire collecting part offers at least one can make the nitrogen in described wire collecting part enter into the ventilation opening in described scatterer, described air outlet arranges fan away from a side of described blast inlet, the top of described cooling end offer can be by described fan the fan taking port from taking out in described cooling end, the top of described cooling end is provided with motor, the output shaft of described motor extends in described cooling end and is connected with described fan through described fan taking port,

The arranged outside tracheae of described cool furnace, the two ends of described tracheae are communicated with described cooling end and described wire collecting part respectively, for being transported in wire collecting part by the cooling gas of scatterer in described cooling end.

2. cable annealing device according to claim 1, is characterized in that, described heating tube is silica tube, and described silica tube inner side is provided with for heating the electric heating film of cable.

3. cable annealing device according to claim 2, is characterized in that, the thickness of described heating tube is 1-1.5mm.

4. cable annealing device according to claim 2, is characterized in that, the thickness of described electric heating film is 6-15um.

5. cable annealing device according to claim 1, it is characterized in that, described take-up reel is fixed in described wire collecting part by rotating shaft, and one end of described rotating shaft is connected with described take-up reel, and the other end is connected with the power set that is arranged on cool furnace outside through the furnace wall of described wire collecting part.

6. cable annealing device according to claim 1, is characterized in that, on described take-up reel, is provided with temperature inductor, and described temperature inductor is connected with the control device that is arranged at cool furnace outside.

7. cable annealing device according to claim 1, it is characterized in that, the both sides of described scatterer arrange respectively inlet flume and the effluent trough of sealing, many heat dissipation pipes are set in described scatterer, on described heat dissipation pipe's outer side wall, be provided with radiating fin, described heat dissipation pipe's two ends are communicated with described inlet flume and effluent trough respectively, described inlet flume is provided with water inlet manifold away from described heat dissipation pipe's a side, described effluent trough is provided with total rising pipe away from described heat dissipation pipe's a side, described water inlet manifold and described total rising pipe all extend to outside described cooling end through the furnace wall of described cooling end away from one end of described heat dissipation pipe.

8. cable annealing device according to claim 1, is characterized in that, described ventilation opening is one, described ventilation opening and described blast inlet concentric.