CN219470136U - Annealing device for producing micro tin-plated copper wire - Google Patents
Annealing device for producing micro tin-plated copper wire Download PDFInfo
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- CN219470136U CN219470136U CN202320390025.1U CN202320390025U CN219470136U CN 219470136 U CN219470136 U CN 219470136U CN 202320390025 U CN202320390025 U CN 202320390025U CN 219470136 U CN219470136 U CN 219470136U
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- annealing
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- plated copper
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P10/00—Technologies related to metal processing
- Y02P10/20—Recycling
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Abstract
The utility model discloses an annealing device for producing a micro tin-plated copper wire, which comprises: the device comprises an annealing box, a first annealing pipe, a second annealing pipe, a vibration generator and a dust collector, wherein the first annealing pipe and the second annealing pipe are arranged in the annealing box at intervals, a first electric heating pipe located below the first annealing pipe is arranged in the annealing box, the vibration generator is arranged in the annealing box and located above a gap between the first annealing pipe and the second annealing pipe, a gas collecting hood located below the vibration generator is arranged in the annealing box, and a gas pipe is arranged between the gas collecting hood and a gas inlet of the dust collector. According to the annealing device for producing the micro tin-plated copper wire, the micro copper wire is heated and annealed when passing through the first annealing pipe and the second annealing pipe, high-frequency vibration is carried out when passing through the vibration generator, pollutants and impurities on the surface are shaken off, and the air flow containing the pollutants and the impurities is led into the dust collector by utilizing the gas collecting hood.
Description
Technical Field
The utility model relates to the technical field of tin-plated copper wire production, in particular to an annealing device for producing a micro tin-plated copper wire.
Background
In order to improve the antioxidation effect and the welding performance of the copper wire, tinning treatment can be performed on the surface of the copper wire to obtain a tinned copper wire. The tinned wire has good durability, is convenient for welding construction, and is widely used in the fields of communication and power supply.
In the production of copper wire tinning, it is generally necessary to first anneal and acid wash and then to carry out the tinning process. In the copper wire annealing process, the temperature is higher, pollutants or impurities adhere to the surface of the copper wire, then the copper wire enters the pickling tank for pickling, the pollutants or impurities pollute pickling solution in the pickling tank, the service life and the pickling effect of the pickling solution are reduced, the pickling solution needs to be replaced frequently, the production efficiency is reduced, the maintenance cost is high, and improvement is needed.
Disclosure of Invention
The utility model aims to provide an annealing device for producing a micro tin-plated copper wire, which is used for carrying out heating annealing on the micro copper wire and removing pollutants or impurities on the surface of the micro copper wire.
To achieve the purpose, the utility model adopts the following technical scheme:
an annealing device for the production of micro tin-plated copper wires, comprising: the device comprises an annealing box, a first annealing pipe, a second annealing pipe, a vibration generator and a dust collector, wherein the first annealing pipe and the second annealing pipe are arranged in the annealing box at intervals, a first electric heating pipe located below the first annealing pipe is arranged in the annealing box, the vibration generator is arranged in the annealing box and located above a gap between the first annealing pipe and the second annealing pipe, a gas collecting hood located below the vibration generator is arranged in the annealing box, and a gas pipe is arranged between the gas collecting hood and a gas inlet of the dust collector.
The vibration generator comprises a motor and a core rod, and the core rod is eccentrically arranged on an output shaft of the motor.
Wherein, be provided with the second electrothermal tube that is located the second annealing pipe below in the annealing case.
Wherein the dust collector is positioned at the outer side of the annealing box.
The front end of the annealing box is provided with a copper wire inlet corresponding to the first annealing pipe, and the outer side of the copper wire inlet is provided with a first guide wheel.
The annealing box is characterized in that a copper wire outlet corresponding to the second annealing pipe is arranged at the rear end of the annealing box, and a second guide wheel is arranged at the outer side of the copper wire outlet.
The utility model has the beneficial effects that: an annealing device for producing a micro tin-plated copper wire is characterized in that the micro copper wire is heated and annealed when passing through a first annealing pipe and a second annealing pipe, high-frequency vibration is carried out when passing through a vibration generator, pollutants and impurities on the surface are shaken off, air flow containing the pollutants and the impurities is guided into a dust collector by utilizing a gas collecting hood, the pollutants and the impurities are collected, the residues of the pollutants and the impurities on the surface of the copper wire are reduced, the follow-up pickling is facilitated, and the service life of pickling solution is prolonged.
Drawings
Fig. 1 is a schematic structural view of the present utility model.
Detailed Description
The technical solution of the present utility model is further described below with reference to fig. 1 by means of a specific embodiment.
The annealing device for producing a fine tin-plated copper wire as shown in fig. 1 comprises: the annealing box 1, first annealing pipe 2, second annealing pipe 6, vibration generator and dust catcher 10, interval sets up around first annealing pipe 2 and the second annealing pipe 6 in annealing box 1, in this embodiment, annealing box 1 front end is provided with the copper line import that corresponds with first annealing pipe 2, the copper line import outside is provided with first guide pulley 11, and fine copper line passes through first guide pulley 11 and gets into first annealing pipe 2.
In this embodiment, the first electric heating tube 8 located below the first annealing tube 2 is disposed in the annealing box 1, so as to heat the first annealing tube 2, and heat the fine copper wire once through the first annealing tube 2. The annealing box 1 is internally provided with a second electric heating tube 7 positioned below the second annealing tube 6, so as to heat the second annealing tube 6 and heat and preserve heat of the micro copper wires through the annealing tube 6.
The back end of the annealing box 1 is provided with a copper wire outlet corresponding to the second annealing pipe 6, the outer side of the copper wire outlet is provided with a second guide wheel 12, and the heated and insulated fine copper wire is led out of the annealing box 1 through the second guide wheel 12, and is cooled to finish annealing.
The diameter of the fine copper wire adopted by the fine tin-plated copper wire is small, about 0.3mm, and the surface cleaning is difficult. In this embodiment, the vibration generator sets up in annealing case 1 and is located the clearance top of first annealing pipe 2 and second annealing pipe 6, the vibration generator includes motor 3 and plug 5, the plug 5 eccentric arrangement is on the output shaft of motor 3, produces high-frequency vibration when driving plug 5 through motor 3 for fine copper line way plug 5 produces high-frequency vibration, shakes off pollutant and impurity on surface, reduces copper line surface pollutant and impurity's residue, is favorable to subsequent pickling and tinning treatment, prolongs the life of pickling solution.
In order to collect the pollutants and the impurities, a gas collecting hood 4 positioned below the vibration generator is arranged in the annealing box 1, a gas pipe 9 is arranged between the gas collecting hood 4 and a gas inlet of the dust collector 10, and after the dust collector 10 is opened, the gas flow containing the pollutants and the impurities is guided into the dust collector 10 by the gas collecting hood 4 to collect the pollutants and the impurities. As shown in fig. 1, the dust collector 10 is positioned outside the annealing box 1, and uses a longer air pipe 9 to carry out air flow transmission, so that the flexibility is good.
The foregoing is merely exemplary of the present utility model, and those skilled in the art should not be considered as limiting the utility model, since modifications may be made in the specific embodiments and application scope of the utility model in light of the teachings of the present utility model.
Claims (6)
1. An annealing device for the production of micro tin-plated copper wires, comprising: the device comprises an annealing box, a first annealing pipe, a second annealing pipe, a vibration generator and a dust collector, wherein the first annealing pipe and the second annealing pipe are arranged in the annealing box at intervals, a first electric heating pipe located below the first annealing pipe is arranged in the annealing box, the vibration generator is arranged in the annealing box and located above a gap between the first annealing pipe and the second annealing pipe, a gas collecting hood located below the vibration generator is arranged in the annealing box, and a gas pipe is arranged between the gas collecting hood and a gas inlet of the dust collector.
2. The annealing device for producing fine tin-plated copper wire according to claim 1, wherein the vibration generator comprises a motor and a core rod eccentrically disposed on an output shaft of the motor.
3. The annealing apparatus for producing fine tin-plated copper wire as claimed in claim 1, wherein a second electric heating tube is provided in the annealing chamber below the second annealing tube.
4. The annealing apparatus for producing fine tin-plated copper wire as claimed in claim 1, wherein said dust collector is located outside of the annealing chamber.
5. The annealing device for producing fine tin-plated copper wires according to claim 1, wherein a copper wire inlet corresponding to the first annealing tube is provided at a front end of the annealing box, and a first guide wheel is provided at an outer side of the copper wire inlet.
6. The annealing device for producing fine tin-plated copper wires according to claim 1, wherein a copper wire outlet corresponding to the second annealing tube is provided at the rear end of the annealing box, and a second guide wheel is provided at the outer side of the copper wire outlet.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202320390025.1U CN219470136U (en) | 2023-03-06 | 2023-03-06 | Annealing device for producing micro tin-plated copper wire |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202320390025.1U CN219470136U (en) | 2023-03-06 | 2023-03-06 | Annealing device for producing micro tin-plated copper wire |
Publications (1)
Publication Number | Publication Date |
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CN219470136U true CN219470136U (en) | 2023-08-04 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202320390025.1U Active CN219470136U (en) | 2023-03-06 | 2023-03-06 | Annealing device for producing micro tin-plated copper wire |
Country Status (1)
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CN (1) | CN219470136U (en) |
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2023
- 2023-03-06 CN CN202320390025.1U patent/CN219470136U/en active Active
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