CN109988899A

CN109988899A - A kind of heating cooling body of cable copper wire annealing device

Info

Publication number: CN109988899A
Application number: CN201910300669.5A
Authority: CN
Inventors: 付小珍
Original assignee: 付小珍
Current assignee: Suzhou Kaiyang electrical materials Co.,Ltd.
Priority date: 2019-04-15
Filing date: 2019-04-15
Publication date: 2019-07-09
Anticipated expiration: 2039-04-15
Also published as: CN109988899B

Abstract

The invention discloses a kind of heating cooling bodies of cable copper wire annealing device, including heating cylinder, firm banking and cooling tank body, the left part top surface of the firm banking is fixed with multiple support plates, heating cylinder is fixed on the top surface of all support plates, the right part top surface of firm banking is fixed with cooling tank body, the middle part on the top of cooling tank body is equipped with transmission directive wheel, the both ends for being driven the middle part shaft of directive wheel pass through bearing hinge connection on former and later two side plates of cooling tank body, coolant liquid is placed in cooling tank body, the lower part for being driven directive wheel is immersed in coolant liquid；It can guarantee that the copper bar of conveying or copper wire normally convey by ball, reduce abrasion, guarantee the quality of its conveying annealing, and can be directly entered in cooling tank body and be cooled down after heating cylinder output, good cooling results ensure that quantity-produced needs.

Description

A kind of heating cooling body of cable copper wire annealing device

Technical field

The present invention relates to cable apparatus technical field, more specifically to a kind of heating of cable copper wire annealing device is cold But mechanism.

Background technique

Copper bar and aluminium bar can generate hardening, become fragile during drawing on wire drawing machine, in order to restore the plasticity of monofilament, Keep good electric property, it is therefore desirable to be heat-treated wire rod at a certain temperature；

And existing annealing has annealing furnace mode or heat pipe-type to heat, its in annealing furnace is usually to be made of furnace body, one As be that the copper bar of winding is entirely placed on to annealing heating in furnace body, annealing after filament properties it is unstable, be unable to on-line continuous Annealing, and the annealing cycle is longer.And heat pipe-type, annealing cycle are short, and it has the drawback that the copper bar or copper wire of conveying It can be in contact with heat pipe and generate friction and wear, influence quality, meanwhile, the material after annealing has hot properties, needs It is cooled down, and there is no the mechanisms of continuous coo1ing now.

Summary of the invention

The purpose of the present invention is to the deficiencies of the prior art, and the heating for providing a kind of cable copper wire annealing device is cold But mechanism, it can guarantee that the copper bar of conveying or copper wire normally convey by ball, reduce abrasion, guarantee the matter of its conveying annealing Amount, and can be directly entered in cooling tank body and be cooled down after heating cylinder output, good cooling results ensure that continuous The needs of production.

Technology solution of the invention is as follows:

A kind of heating cooling body of cable copper wire annealing device, including heating cylinder, firm banking and cooling tank body, institute The left part top surface for stating firm banking is fixed with multiple support plates, and heating cylinder is fixed on the top surface of all support plates, fixed bottom The right part top surface of seat is fixed with cooling tank body, and the middle part on the top of cooling tank body is equipped with transmission directive wheel, is driven in directive wheel The both ends of portion's shaft on former and later two side plates of cooling tank body, are placed with coolant liquid by bearing hinge connection in cooling tank body, pass The lower part of action-oriented wheel is immersed in coolant liquid；

The interior of heating cylinder is fixed with electric heating wire；

Thermally conductive protective sleeve is fixed on the inner sidewall of the heating cylinder；

Annular slot is formed on the left part and right part inner sidewall of the thermally conductive protective sleeve, is equipped in annular slot Toroidal shell and ring cover are equipped with multiple balls, the middle part molding of toroidal shell and ring cover between toroidal shell and ring cover Have be mutually aligned and communicate through through-hole.

Inner groovy, inner groovy and annular slot phase are formed on the left end of the thermally conductive protective sleeve and right end inner sidewall Logical, the diameter of annular slot is less than the diameter of inner groovy, forms internal screw thread on the inner sidewall of inner groovy, positioning sleeve is in indent In slot, for the external thread bolt connection on the lateral wall of positioning sleeve on internal screw thread, the inner face of positioning sleeve is pressed against corresponding ring cover On.

The edge sleeve of the toroidal shell and ring cover in annular slot, be close to by the side wall of toroidal shell and ring cover The end face edge of the inner wall of annular slot, toroidal shell is pressed against on the inner sidewall of annular slot.

The edge of the toroidal shell and ring cover is mutually pressed against.

The inner sidewall of the toroidal shell forms annular arc groove, multiple ball sleeves in annular arc groove, The edge of the inner face of the end plate of toroidal shell forms first annular lug boss, and ring cover is pressed against the end face of toroidal shell Edge forms the second annular relief, and ball is in first annular lug boss, the second annular relief and annular arc groove Between.

The top of the left plate of the cooling tank body forms charging through slot, and the top of the right side plate of cooling tank body forms Discharge through slot.

Annular guide groove is formed in the middle part of the side wall of the transmission directive wheel.

The beneficial effects of the present invention are:

It can guarantee that the copper bar of conveying or copper wire normally convey by ball, reduce abrasion, guarantee its conveying annealing Quality, and can be directly entered in cooling tank body and be cooled down after heating cylinder output, good cooling results, the company of ensure that The needs of continuous production.

Detailed description of the invention

Fig. 1 is the structural diagram of the present invention；

Fig. 2 is partial enlarged view of the invention.

Specific embodiment

Embodiment: as shown in Fig. 1 to Fig. 2, a kind of heating cooling body of cable copper wire annealing device, including heating cylinder 10, firm banking 20 and cooling tank body 30, the left part top surface of the firm banking 20 are fixed with multiple support plates 21, heating cylinder 10 are fixed on the top surface of all support plates 21, and the right part top surface of firm banking 20 is fixed with cooling tank body 30, cooling tank body 30 Top middle part be equipped with transmission directive wheel 31, be driven directive wheel 31 middle part shaft both ends by bearing hinge connection in cooling bath On former and later two side plates of body 30, coolant liquid is placed in cooling tank body 30, the lower part of transmission directive wheel 31 is immersed in coolant liquid；

The interior of heating cylinder 10 is fixed with electric heating wire 11；

Thermally conductive protective sleeve 12 is fixed on the inner sidewall of the heating cylinder 10；

Annular slot 13 is formed on the left part and right part inner sidewall of the thermally conductive protective sleeve 12, in annular slot 13 Toroidal shell 14 and ring cover 15 are installed, multiple balls 16, toroidal shell 14 are equipped between toroidal shell 14 and ring cover 15 Formed with the middle part of ring cover 15 be mutually aligned and communicate through through-hole 17.

Further, inner groovy 121, indent are formed on the left end of the thermally conductive protective sleeve 12 and right end inner sidewall Slot 121 is communicated with annular slot 13, and the diameter of annular slot 13 is less than the diameter of inner groovy 121, on the inner sidewall of inner groovy 121 Internal screw thread is formed, positioning sleeve 18 is in inner groovy 121, and the external thread bolt connection on the lateral wall of positioning sleeve 18 is in internal screw thread On, the inner face of positioning sleeve 18 is pressed against on corresponding ring cover 15.

Further, the edge sleeve of the toroidal shell 14 and ring cover 15 is in annular slot 13, toroidal shell 14 and the side wall of ring cover 15 be close to the inner wall of annular slot 13, the end face edge of toroidal shell 14 is pressed against annular slot 13 Inner sidewall on.

Further, the edge of the toroidal shell 14 and ring cover 15 is mutually pressed against.

Further, the inner sidewall of the toroidal shell 14 forms annular arc groove 141, multiple 16 sleeves of ball In annular arc groove 141, the edge of the inner face of the end plate of toroidal shell 14 forms first annular lug boss 142, ring The edge that shape lid 15 is pressed against the end face of toroidal shell 14 forms the second annular relief 143, and ball 16 is in first annular Between lug boss 142, the second annular relief 143 and annular arc groove 141.

Further, the top of the left plate of the cooling tank body 30 forms charging through slot 32, cooling tank body 30 The top of right side plate forms discharging through slot 33.

Further, annular guide groove is formed in the middle part of the side wall of the transmission directive wheel 31, copper wire or copper bar are defeated When sending in annular guide groove.

When the present embodiment is in use, copper wire or copper bar protrude into thermally conductive protective sleeve 12, and pass through two toroidal shells 14 With ring cover 15 run through through-hole 17, finally from the other end of thermally conductive protective sleeve 12 stretch out, then, into charging through slot 32, Enter cooling in coolant liquid further along transmission directive wheel 31, then transported out from discharging through slot 33, wherein is in toroidal shell 14 And the copper wire or copper bar of ring cover 15 are between multiple balls 16, it is possible to reduce copper wire or copper bar and thermally conductive protective sleeve 12 Contact area improves the effect and quality of processing conveying to reduce abrasion when copper wire or the conveying of copper bar.

Claims

1. a kind of heating cooling body of cable copper wire annealing device, including heating cylinder (10), firm banking (20) and cooling Groove body (30), it is characterised in that: the left part top surface of the firm banking (20) is fixed with multiple support plates (21), heating cylinder (10) it is fixed on the top surface of all support plates (21), the right part top surface of firm banking (20) is fixed with cooling tank body (30), cold But the middle part on the top of groove body (30) is equipped with transmission directive wheel (31), and the both ends for being driven the middle part shaft of directive wheel (31) pass through axis It holds and is hinged on former and later two side plates of cooling tank body (30), coolant liquid is placed in cooling tank body (30), be driven directive wheel (31) lower part is immersed in coolant liquid；

The interior of heating cylinder (10) is fixed with electric heating wire (11)；

Thermally conductive protective sleeve (12) are fixed on the inner sidewall of the heating cylinder (10)；

It is formed annular slot (13) on the left part and right part inner sidewall of the thermally conductive protective sleeve (12), annular slot (13) In toroidal shell (14) and ring cover (15) are installed, between toroidal shell (14) and ring cover (15) be equipped with multiple balls (16), formed in the middle part of toroidal shell (14) and ring cover (15) be mutually aligned and communicate through through-hole (17).

2. a kind of heating cooling body of cable copper wire annealing device according to claim 1, it is characterised in that: described thermally conductive It is formed on the left end of protective sleeve (12) and right end inner sidewall inner groovy (121), inner groovy (121) and annular slot (13) phase Logical, the diameter of annular slot (13) is less than the diameter of inner groovy (121), forms internal screw thread on the inner sidewall of inner groovy (121), Positioning sleeve (18) is in inner groovy (121), and the external thread bolt connection on the lateral wall of positioning sleeve (18) is on internal screw thread, positioning sleeve (18) inner face is pressed against on corresponding ring cover (15).

3. a kind of heating cooling body of cable copper wire annealing device according to claim 1, it is characterised in that: the annular The edge sleeve of shell (14) and ring cover (15) is in annular slot (13), the side wall of toroidal shell (14) and ring cover (15) It is close to the inner wall of annular slot (13), the end face edge of toroidal shell (14) is pressed against on the inner sidewall of annular slot (13).

4. a kind of heating cooling body of cable copper wire annealing device according to claim 1, it is characterised in that: the annular The edge of shell (14) and ring cover (15) is mutually pressed against.

5. a kind of heating cooling body of cable copper wire annealing device according to claim 1, it is characterised in that: the annular The inner sidewall of shell (14) forms annular arc groove (141), and multiple ball (16) sleeves are in annular arc groove (141) In, the edge of the inner face of the end plate of toroidal shell (14) forms first annular lug boss (142), and ring cover (15) is pressed against The edge of the end face of toroidal shell (14) forms the second annular relief (143), and ball (16) is in first annular lug boss (142), between the second annular relief (143) and annular arc groove (141).

6. a kind of heating cooling body of cable copper wire annealing device according to claim 1, it is characterised in that: the cooling The top of the left plate of groove body (30) forms charging through slot (32), and the top of the right side plate of cooling tank body (30) forms discharging Through slot (33).

7. a kind of heating cooling body of cable copper wire annealing device according to claim 1, it is characterised in that: the transmission Annular guide groove is formed in the middle part of the side wall of directive wheel (31).