CN221028612U - Annealing device for aluminum alloy conductor production - Google Patents

Abstract

The utility model provides an annealing device for aluminum alloy conductor production, which comprises an annealing box, wherein a shifting mechanism for controlling the aluminum alloy conductor to move is arranged in the annealing box, a limiting mechanism for assisting the aluminum alloy conductor to move is arranged above the shifting mechanism, a supporting mechanism for supporting the aluminum alloy conductor and a heating mechanism for heating the aluminum alloy conductor are arranged in the middle of the annealing box, a cooling mechanism for cooling the aluminum alloy conductor is arranged in the annealing box, and the cooling mechanism and the heating mechanism are positioned on the same horizontal line; the shifting mechanism comprises a mounting plate, a push rod, a first spring, a push plate, a push rod, a baffle plate and a second spring. According to the utility model, through the shifting mechanisms and the limiting mechanisms distributed at the two ends of the annealing box, the aluminum alloy conductor at the annealing part can be integrally moved by clamping the aluminum alloy conductor, so that the influence of external force on the aluminum alloy conductor in the annealing process is reduced, and the annealing effect of the annealing device on the aluminum alloy conductor is conveniently improved.

Description

Annealing device for aluminum alloy conductor production

Technical Field

The utility model relates to the technical field of cable production, in particular to an annealing device for aluminum alloy conductor production.

Background

The aluminum alloy cable is a cable for transmitting power, and consists of an aluminum alloy conductor and an insulating material, and compared with the traditional copper conductor cable, the aluminum alloy cable has lower cost, lighter weight and good electric conductivity;

In the production process of the aluminum alloy cable, a linear aluminum alloy conductor is required to be manufactured, and then an insulating protective sleeve is sleeved outside the aluminum alloy conductor, so that the aluminum alloy conductor can be annealed in the production process in order to improve the quality of the aluminum alloy conductor;

The annealing treatment of the aluminum alloy conductor can eliminate the internal stress in the aluminum alloy conductor and improve the grain size, thereby increasing the conductivity and flexibility of the conductor;

However, when the aluminum alloy conductor is annealed, the annealing treatment of the aluminum alloy conductor is usually realized in a traction mode, and after the aluminum alloy conductor is heated, the aluminum alloy conductor is pulled by traction force, so that the aluminum alloy conductor has deformation, cracks and damage conditions, and the annealing quality of the aluminum alloy conductor is not guaranteed.

In summary, there is a need for an annealing apparatus that safely handles aluminum alloy conductors.

Disclosure of utility model

Aiming at the defects of the prior art, the utility model provides an annealing device for aluminum alloy conductor production, which solves the problems in the background art.

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

The annealing device for aluminum alloy conductor production comprises an annealing box, wherein a shifting mechanism for controlling the aluminum alloy conductor to move is arranged in the annealing box, a limiting mechanism for assisting the aluminum alloy conductor to move is arranged above the shifting mechanism, a supporting mechanism for supporting the aluminum alloy conductor and a heating mechanism for heating the aluminum alloy conductor are arranged in the middle of the annealing box, a cooling mechanism for cooling the aluminum alloy conductor is arranged in the annealing box, and the cooling mechanism and the heating mechanism are positioned on the same horizontal line;

The shifting mechanism comprises a mounting plate, a push rod, first springs, a push down plate, push down strips, a baffle and second springs, wherein the mounting plate is arranged inside the annealing box, the push rod penetrates through the middle of the mounting plate, the push rod slides in a clamping manner with the mounting plate, two first springs are arranged at the top end of the push rod, the push down plate is arranged at the top end of the first springs, a plurality of push down strips are arranged at the top surface of the push down plate, the baffle is arranged at the middle of the push rod, the second springs are arranged at the top surface of the baffle, the second springs are arranged at the outer side of the push rod, and the second springs are positioned between the baffle and the mounting plate;

The push rod is arranged in the annealing box in an inclined mode, a plurality of tooth blocks are distributed on the side face of the bottom of the push rod at equal intervals, a sector gear is arranged in the annealing box, and the sector gear is meshed with the tooth blocks.

Further, stop gear is including installation curb plate, push up the board, push up the strip, the activity strip, the spacing box, the extension board, branch, the third spring, the inboard of annealing case is located to the installation curb plate, the installation curb plate inboard is equipped with the push up board, the activity groove has been seted up to the installation curb plate inboard, push up board top surface limit portion and be equipped with the activity strip, activity strip and activity groove block are slided, push up the push up board bottom surface and be equipped with a plurality of push up the strip, installation curb plate inboard top is equipped with the spacing box, push up the board top surface and be equipped with the branch, branch one end extends to inside the spacing box, branch and the inside third spring that is equipped with of spacing box, third spring both ends respectively with branch tip and the inside fixed connection of spacing box.

Further, the shifting mechanism and the limiting mechanism are arranged in two groups, the two groups of shifting mechanisms and the limiting mechanism are distributed at two ends of the annealing box, and the two groups of shifting mechanisms and the limiting mechanism are arranged in the same direction.

Further, the supporting mechanism comprises a supporting rod, a supporting frame and a supporting rod, wherein the supporting rod is arranged on the bottom surface of the inner side of the annealing box, the supporting frame is arranged at the top end of the supporting rod, the supporting rods are arranged at the two ends of the inner side of the supporting frame, and the supporting rod is rotationally connected with the supporting frame.

Further, the heating mechanism comprises a heating box and heating rods, the heating box is arranged on the inner side of the annealing box, a plurality of heating rods are arranged in the heating box, and the heating box and the heating rods are distributed in a mirror image mode on the inner side of the annealing box.

Further, the cooling mechanism comprises an air outlet box, air nozzles, an air collecting box, a rotating rod, fan blades and air collecting plates, the air outlet box is arranged on the inner side of the annealing box, the air nozzles are arranged on one side, close to the aluminum alloy conductor, of the air blowing box, a plurality of air nozzles are arranged on the side face of the air outlet box, the air collecting boxes are in mirror image distribution corresponding to the air outlet box, the rotating rod is arranged in the air collecting box, the rotating rod is rotationally connected with the air collecting boxes, the fan blades are arranged on the outer side of the rotating rod, air outlets are arranged at two ends of the air collecting boxes, air inlets are formed in one side, close to the aluminum alloy conductor, of the air collecting boxes, a plurality of air collecting plates are distributed on the side face of the air collecting boxes at equal intervals, and the air collecting plates are in mirror image distribution;

the cooling mechanism is provided with a plurality of cooling mechanisms, and the cooling mechanisms are sequentially reversed.

Further, an air supply pump is arranged on the outer side of the annealing box, an air supply pipe is arranged at the end part of the air supply pump, and the air supply pipe is communicated with a plurality of air outlet boxes.

The utility model provides an annealing device for aluminum alloy conductor production. Compared with the prior art, the method has the following beneficial effects:

Through shifter and stop gear at annealing case both ends that distributes, can be by centre gripping aluminum alloy conductor, make the aluminum alloy conductor of annealing position carry out the whole removal, reduce the aluminum alloy conductor and receive the influence of external force in annealing process, and then be convenient for improve this annealing device to the annealing effect of aluminum alloy conductor.

Drawings

In order to more clearly illustrate the embodiments of the utility model or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 shows a schematic structural diagram of an annealing device for aluminum alloy conductor production of the present utility model;

fig. 2 shows a schematic view of the structure of the interior of the annealing chamber of the present utility model;

FIG. 3 shows a schematic structural view of the cooling mechanism of the present utility model;

FIG. 4 shows a schematic structural view in overall side cross section of the present utility model;

FIG. 5 shows a schematic structural view of the displacement mechanism of the present utility model;

FIG. 6 shows a schematic diagram of the structure of the utility model at A in FIG. 5;

FIG. 7 shows an enlarged schematic view of the structure of the present utility model at B in FIG. 4;

The figure shows: 1. an annealing box; 2. a displacement mechanism; 21. a mounting plate; 22. a push rod; 221. tooth blocks; 23. a first spring; 24. a lower push plate; 25. pushing down the strip; 26. a baffle; 27. a second spring; 28. a sector gear; 3. a limiting mechanism; 31. installing a side plate; 311. a movable groove; 32. a push plate; 33. pushing up the strip; 34. a movable bar; 35. a limit box; 36. a support plate; 37. a support rod; 38. a third spring; 4. a support mechanism; 41. a support rod; 42. a support frame; 43. a supporting rod; 5. a heating mechanism; 51. a heating box; 52. a heating rod; 6. a cooling mechanism; 61. an air outlet box; 62. an air nozzle; 63. a wind collecting box; 631. an air inlet; 64. a rotating lever; 65. a fan blade; 66. a wind collecting plate; 7. an aluminum alloy conductor.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions in the embodiments of the present utility model are clearly and completely described, and it is obvious that the described embodiments are some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Example 1

In order to solve the technical problems in the background art, the annealing device for aluminum alloy conductor production is provided as follows:

Referring to fig. 1-7, the annealing device for aluminum alloy conductor production provided by the utility model comprises an annealing box 1, wherein a shifting mechanism 2 for controlling the aluminum alloy conductor 7 to move is arranged in the annealing box 1, a limiting mechanism 3 for assisting the aluminum alloy conductor 7 to move is arranged above the shifting mechanism 2, a supporting mechanism 4 for supporting the aluminum alloy conductor 7 and a heating mechanism 5 for heating the aluminum alloy conductor 7 are arranged in the middle of the annealing box 1, a cooling mechanism for cooling the aluminum alloy conductor 7 is arranged in the annealing box 1, and the cooling mechanism and the heating mechanism 5 are positioned on the same horizontal line; the shifting mechanism 2 comprises a mounting plate 21, a push rod 22, a first spring 23, a push rod 24, push down strips 25, a baffle 26 and a second spring 27, wherein the mounting plate 21 is arranged inside the annealing box 1, the middle part of the mounting plate 21 is penetrated with the push rod 22, the push rod 22 and the mounting plate 21 are clamped and slide, two first springs 23 are arranged at the top end of the push rod 22, the push rod 24 is arranged at the top end of the first spring 23, a plurality of push down strips 25 are arranged at the top surface of the push rod 24, the baffle 26 is arranged at the middle part of the push rod 22, the top surface of the baffle 26 is provided with the second spring 27, the second spring 27 is arranged at the outer side of the push rod 22, and the second spring 27 is positioned between the baffle 26 and the mounting plate 21; the push rod 22 is convenient to move upwards by the clamping and sliding of the mounting plate 21 and the push rod 22, and the push plate 24 is driven to move; the first spring 23 arranged at the top of the push rod 22 can increase the movable range of the lower push plate 24 when the push rod 22 moves upwards; a second spring 27 is arranged on the top surface of the baffle 26 and can assist the push rod 22 to move downwards for resetting after the push rod 22 moves upwards; the push rod 22 is obliquely arranged in the annealing box 1, a plurality of tooth blocks 221 are distributed on the side surface of the bottom of the push rod 22 at equal intervals, a sector gear 28 is arranged in the annealing box 1, and the sector gear 28 is in meshed connection with the tooth blocks 221; the sector gear 28 in the annealing box 1 can be meshed with the tooth block 221 under the drive of a motor to provide thrust for the upward movement of the push rod 22;

In this embodiment, the limiting mechanism 3 includes a mounting side plate 31, a push-up plate 32, a push-up bar 33, a movable bar 34, a limiting box 35, a support plate 36, a support rod 37, and a third spring 38, where the mounting side plate 31 is disposed at the inner side of the annealing box 1, the upper push-up plate 32 is disposed at the inner side of the mounting side plate 31, a movable slot 311 is disposed at the inner side of the mounting side plate 31, a movable bar 34 is disposed at the top of the top surface of the push-up plate 32, the movable bar 34 slides in a clamping manner with the movable slot 311, a plurality of push-up bars 33 are disposed at the bottom surface of the upper push-up plate 32, a limiting box 35 is disposed at the inner side of the mounting side plate 31, a support plate 36 is disposed at the side of the support plate 36, one end of the support rod 37 extends into the limiting box 35, the support rod 37 slides in a clamping manner with the limiting box 35, a third spring 38 is disposed in the limiting box 35, and two ends of the third spring 38 are fixedly connected with the end of the support rod 37 and the inside the limiting box 35 respectively; the upper push plate 32 can slide on the inner side of the mounting side plate 31 through the clamping and sliding of the movable strip 34 and the movable groove 311; the supporting rod 37 is matched with the third spring 38 arranged in the limit box 35 through the clamping and sliding of the supporting rod 37 and the limit box 35, so that the supporting rod 37 can be pushed after the upper push plate 32 moves, and the purpose of assisting the upper push plate 32 to reset is achieved;

in this embodiment, the two groups of displacement mechanisms 2 and the limiting mechanisms 3 are provided, the two groups of displacement mechanisms 2 and the limiting mechanisms 3 are distributed at two ends of the annealing box 1, and the two groups of displacement mechanisms and the limiting mechanisms 3 are arranged in the same direction;

Through the shifter 2 and the stop gear 3 that distribute at annealing box 1 both ends, can be by centre gripping aluminum alloy conductor 7, make the aluminum alloy conductor 7 of annealing position carry out the bulk movement, reduce aluminum alloy conductor 7 and receive the influence of external force in annealing process, and then be convenient for improve this annealing device to the annealing effect of aluminum alloy conductor 7.

Example two

As shown in fig. 1 to 7, on the basis of the above embodiment, the present embodiment further provides the following:

in order to enable the annealing device to thermally anneal the aluminum alloy conductor 7, the present embodiment gives the following design:

The supporting mechanism 4 comprises a supporting rod 41, a supporting frame 42 and a supporting rod 43, wherein the supporting rod 41 is arranged on the bottom surface of the inner side of the annealing box 1, the supporting frame 42 is arranged at the top end of the supporting rod 41, the supporting rods 43 are arranged at the two ends of the inner side of the supporting frame 42, and the supporting rod 43 is rotatably connected with the supporting frame 42; the annealed aluminum alloy conductor 7 can be supported by the supporting frame 42 and the supporting rods 43 arranged in the supporting mechanism 4, so that the aluminum alloy conductor 7 can conveniently move in the annealing box 1;

In this embodiment, the heating mechanism 5 includes a heating box 51 and a heating rod 52, the heating box 51 is disposed inside the annealing box 1, a plurality of heating rods 52 are disposed inside the heating box 51, and the heating box 51 and the heating rods 52 are distributed in mirror image inside the annealing box 1; by the heating box 51 and the heating rod 52 provided in the heating mechanism 5, the aluminum alloy conductor 7 can be baked and heated when the aluminum alloy conductor 7 passes, and the temperature of the aluminum alloy conductor 7 can be raised to the annealing temperature.

Example III

As shown in fig. 1 to 7, on the basis of the above embodiment, the present embodiment further provides the following:

In order to enable the aluminum alloy conductor 7 to be uniformly and comprehensively cooled after being heated, the following technical scheme is provided in the embodiment:

The cooling mechanism 6 comprises an air outlet box 61, air nozzles 62, an air collecting box 63, rotating rods 64, fan blades 65 and air collecting plates 66, the air outlet box 61 is arranged on the inner side of the annealing box 1, one side, close to the aluminum alloy conductor 7, of the air blowing box is provided with the air nozzles 62, a plurality of air nozzles 62 are arranged on the side face of the air outlet box 61, the air collecting box 63 and the air outlet box are in corresponding mirror image distribution, the rotating rods 64 are arranged in the air collecting box 63, the rotating rods 64 are in rotating connection with the air collecting box 63, the fan blades 65 are arranged on the outer side of the rotating rods 64, air outlets are arranged at two ends of the air collecting box 63, an air inlet 631 is formed in one side, close to the aluminum alloy conductor 7, of the air collecting box 63, a plurality of air collecting plates 66 are distributed on the side face of the air collecting box 63 at equal intervals, and the air collecting plates 66 are in mirror image distribution; the air in the air outlet box 61 can be blown to the outer side of the heated aluminum alloy conductor through the air nozzle 62 arranged on the side surface of the air outlet box 61, so that the aim of reducing the temperature of the aluminum alloy conductor 7 is fulfilled; the rotating rod 64 arranged in the air collecting box 63 can rotate the fan blades 65 driven by the motor, so that suction force is generated in the air outlet box, and air discharged by the air outlet box 61 is conveniently pumped out and discharged by the air outlet;

The cooling mechanisms 6 are provided in plurality, and the cooling mechanisms 6 are sequentially reversed; through the cooling mechanism 6 which is reversely arranged in sequence, a plurality of strands can be controlled to flow outside the aluminum alloy conductor 7, so that the device is convenient for annealing the aluminum alloy conductor 7, and then the aluminum alloy conductor 7 can be uniformly and comprehensively cooled, and the quality of the aluminum alloy conductor 7 is convenient to maintain;

In this embodiment, an air supply pump is arranged outside the annealing box 1, an air supply pipe is arranged at the end part of the air supply pump, and the air supply pipe is communicated with a plurality of air outlet boxes 61; air can be fed into the air outlet box 61 by an air supply pump arranged outside the annealing box 1, so that the air outlet box 61 can conveniently spray air outside the aluminum alloy conductor 7 through a spray nozzle.

The working principle and the using flow of the utility model are as follows:

when in use:

Firstly, an aluminum alloy conductor 7 to be annealed is sent into an annealing box 1, then a heating rod 52 in a heating mechanism 5 can bake and heat the aluminum alloy conductor 7 from the upper direction and the lower direction, the aluminum alloy conductor 7 is heated to an annealing temperature, after a part of the aluminum alloy conductor 7 is annealed, sector gears 28 in a moving mechanism at the inner sides of two ends of the annealing box 1 rotate under the drive of a motor, the sector gears 28 are contacted with tooth blocks 221 at the side surfaces of a push rod 22 after rotating, the push rod 22 is pushed upwards, at the moment, the push rod 22 can move upwards obliquely in an installation plate 21, a lower push plate 24 connected with a first spring 23 at the top of the push rod 22 can also move upwards obliquely along with the push rod 22, then a lower push rod 25 at the top surface of the lower push plate 24 can be contacted with the aluminum alloy conductor 7, the lower push plate 32 in a limiting mechanism 3 is pushed to the lower side of the upper push plate 32, the aluminum alloy conductor 7 is contacted with the upper push rod 33, then the lower push plate 24 can be matched with the upper push plate 32 to push the aluminum alloy conductor 7 to move in the annealing box 1, the middle part can move under the synchronous movement of the two end moving mechanisms, the middle part of the aluminum alloy conductor 7 can move obliquely, and the risk of tearing and tearing of the aluminum alloy 7 can be reduced when the whole aluminum alloy 7 is pulled and the whole is pulled, and the risk of the deformation of the conductor is reduced;

during the annealing process:

After the annealing position of the aluminum alloy conductor 7 moves to the lower part of the cooling mechanism 6, the air pump outside the annealing box 1 sends air into the air outlet box 61 of the cooling mechanism 6, the air outlet nozzle on the side surface of the air outlet box 61 can blow air outside the annealing position of the aluminum alloy conductor 7, the purpose of accelerating the cooling of the aluminum alloy conductor 7 is achieved, and meanwhile, the cooling mechanisms 6 which are reversely arranged can uniformly and comprehensively cool the aluminum alloy conductor 7, so that the quality of the aluminum alloy conductor 7 annealed by the annealing device is conveniently ensured.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (7)

1. An annealing device is used in aluminum alloy conductor production which characterized in that: the aluminum alloy conductor cooling device comprises an annealing box (1), wherein a shifting mechanism (2) for controlling an aluminum alloy conductor (7) to move is arranged in the annealing box (1), a limiting mechanism (3) for assisting the aluminum alloy conductor (7) to move is arranged above the shifting mechanism (2), a supporting mechanism (4) for supporting the aluminum alloy conductor (7) and a heating mechanism (5) for heating the aluminum alloy conductor (7) are arranged in the middle of the annealing box (1), a cooling mechanism (6) for cooling the aluminum alloy conductor (7) is arranged in the annealing box (1), and the cooling mechanism (6) and the heating mechanism (5) are positioned on the same horizontal line;

The shifting mechanism (2) comprises a mounting plate (21), a push rod (22), a first spring (23), a lower push plate (24), lower push strips (25), a baffle plate (26) and a second spring (27), wherein the mounting plate (21) is arranged inside the annealing box (1), the middle part of the mounting plate (21) is penetrated and provided with the push rod (22), the push rod (22) and the mounting plate (21) are clamped and slide, the top end of the push rod (22) is provided with the two first springs (23), the top end of the first spring (23) is provided with the lower push plate (24), the top surface of the lower push plate (24) is provided with the plurality of lower push strips (25), the middle part of the push rod (22) is provided with the baffle plate (26), the top surface of the baffle plate (26) is provided with the second spring (27), the second spring (27) is arranged on the outer side of the push rod (22), and the second spring (27) is arranged between the baffle plate (26) and the mounting plate (21);

The push rod (22) is obliquely arranged in the annealing box (1), a plurality of tooth blocks (221) are distributed on the side surface of the bottom of the push rod (22) at equal intervals, a sector gear (28) is arranged in the annealing box (1), and the sector gear (28) is meshed with the tooth blocks (221).

2. An annealing device for aluminum alloy conductor production according to claim 1, wherein: stop gear (3) are including installation curb plate (31), go up push pedal (32), push up strip (33), activity strip (34), spacing box (35), extension board (36), branch (37), third spring (38), the inboard of annealing case (1) is located to installation curb plate (31), installation curb plate (31) inboard is equipped with push pedal (32), activity groove (311) have been seted up to installation curb plate (31) inboard, push pedal (32) top surface limit portion is equipped with activity strip (34), activity strip (34) and activity groove (311) block are slided, push pedal (32) bottom surface is equipped with a plurality of push up strip (33), installation curb plate (31) inboard top is equipped with spacing box (35), push pedal (32) top surface is equipped with extension board (36), branch (36) side is equipped with branch (37), branch (37) one end extends to spacing box (35) inside, branch (37) and spacing box (35) block are slided, spacing box (35) inside is equipped with third spring (38), third spring (38) both ends respectively with branch (37) tip and spacing box (35) inside fixed connection.

3. An annealing device for aluminum alloy conductor production according to claim 2, wherein: the two groups of the shifting mechanisms (2) and the limiting mechanisms (3) are arranged at two ends of the annealing box (1), and the two groups of the shifting mechanisms and the limiting mechanisms (3) are arranged in the same direction.

4. An annealing device for aluminum alloy conductor production according to claim 1, wherein: the supporting mechanism (4) comprises a supporting rod (41), a supporting frame (42) and supporting rods (43), wherein the supporting rod (41) is arranged on the inner bottom surface of the annealing box (1), the supporting frame (42) is arranged at the top end of the supporting rod (41), the supporting rods (43) are respectively arranged at the two ends of the inner side of the supporting frame (42), and the supporting rods (43) are rotatably connected with the supporting frame (42).

5. The annealing device for aluminum alloy conductor production according to claim 4, wherein: the heating mechanism (5) comprises a heating box (51) and heating rods (52), the heating box (51) is arranged on the inner side of the annealing box (1), a plurality of heating rods (52) are arranged in the heating box (51), and the heating box (51) and the heating rods (52) are distributed in a mirror image mode on the inner side of the annealing box (1).

6. An annealing device for aluminum alloy conductor production according to claim 1, wherein: the cooling mechanism (6) comprises an air outlet box (61), air nozzles (62), an air collecting box (63), rotating rods (64), fan blades (65) and air collecting plates (66), wherein the air outlet box (61) is arranged on the inner side of the annealing box (1), one side, close to an aluminum alloy conductor (7), of the air outlet box is provided with the air nozzles (62), a plurality of air nozzles (62) are arranged on the side face of the air outlet box (61), the air collecting box (63) and the air outlet box are in mirror image distribution, the rotating rods (64) are arranged in the air collecting box (63), the rotating rods (64) are in rotating connection with the air collecting box (63), the fan blades (65) are arranged on the outer side of the rotating rods (64), air inlets (631) are formed in two ends of the air collecting box (63), one side, close to the aluminum alloy conductor (7), of the air inlets (631) are distributed on the side face of the air collecting box (63) at equal intervals, the air collecting plates (66) are arranged on the side face of the air collecting box (63), and the air collecting plates (66) are in mirror image distribution;

the cooling mechanisms (6) are provided in plurality, and the cooling mechanisms (6) are reversed in sequence.

7. An annealing device for aluminum alloy conductor production according to claim 1, wherein: an air supply pump is arranged on the outer side of the annealing box (1), an air supply pipe is arranged at the end part of the air supply pump, and the air supply pipe is communicated with a plurality of air outlet boxes (61).