CN111979507B

CN111979507B - Superfine twisted wire tinning device and tinning process

Info

Publication number: CN111979507B
Application number: CN202010883615.9A
Authority: CN
Inventors: 徐杰城
Original assignee: Hangzhou Yuanhong Technology Co ltd
Current assignee: Hangzhou Yuanhong Technology Co ltd
Priority date: 2020-08-28
Filing date: 2020-08-28
Publication date: 2022-09-30
Anticipated expiration: 2040-08-28
Also published as: CN111979507A

Abstract

The invention discloses a superfine stranded wire tinning device and a tinning process, wherein the superfine stranded wire tinning device comprises a tinning furnace frame, a tinning furnace arranged on the tinning furnace frame, a control cabinet, a tinning die and a mounting frame; the tin scraping device is characterized in that the mounting rack is provided with a camera and a tin scraping device; and the tinning furnace frame is also provided with a plurality of fans and a tin liquor recovery device. The invention is convenient to use, can automatically recover the oxide and the tin liquid concretion on the tin liquid, and prevents the oxide and the tin liquid concretion from adhering to the stranded wire and breaking the stranded wire, thereby replacing manual treatment, improving the safety performance and the production efficiency.

Description

Superfine stranded wire tinning device and tinning process

Technical Field

The invention relates to the technical field of tinning devices, in particular to a superfine stranded wire tinning device and a tinning process.

Background

In the production of wire and cable, the most commonly used plated wire is tinned copper wire, which is mainly used for conductive cores of rubber-insulated mining cables, locomotive cables, marine cables, and the like. After the copper wire is tinned, the problems of oxidation of the copper wire, rubber stickiness caused by contact of the copper wire and the rubber, blackening of the copper wire and the like can be effectively prevented, and meanwhile, the service life of the cable is prolonged and the weldability of a wire core is improved. The hot tin plating process has the advantages of low equipment investment, high working efficiency, simple operation and the like, and is widely applied to the wire and cable industry.

The publication number is CN204237856U, discloses a tinning furnace for tinned copper wires, and describes a tinning furnace for tinned copper wires, which comprises a frame, a tinning bath, an air nozzle, an inert gas storage tank, an air pump, a tinning cover, an air outlet pipe, a tinning die and a U-shaped air nozzle, wherein the tinning bath is arranged on the frame, the tinning cover is arranged on the tinning bath, the air outlet pipe is arranged on the tinning cover, the tinning die is arranged in the tinning bath and extends out of the tinning cover, the air nozzle is arranged at the upper part of the tinning bath in a bilateral symmetry manner by taking the tinning die as the center, the U-shaped air nozzle is arranged at the left side of the tinning bath, the inert gas storage tank is connected with the air pump, the air nozzle and the U-shaped air nozzle are both connected with the air pump, and the air nozzle is uniformly arranged on the air nozzle and the U-shaped air nozzle at intervals; however, the tin plating furnace is not provided with a device for treating the solidified substances on the surface of the tin liquid, the temperature difference between the upper surface of the tin liquid and the middle of the tin liquid is generated, the upper surface of the tin liquid can be solidified due to low temperature, the solidified substances are adhered to the stranded wire during the tin plating of the stranded wire, the diameter of the stranded wire can be enlarged, and the stranded wire can be broken when the stranded wire passes through a tin plating die, so that the production efficiency is reduced.

Adopt artificial mode to use the strainer to scoop out the coagulum on tin liquor surface among the prior art and place alone and retrieve, nevertheless adopt such mode, the peripheral temperature of tin-plating furnace converges very high use manual going to scoop out and can make the arm scald or spatter the tin liquor carelessly on the health, causes harm to the health, has reduced the security performance, and the manual work can not go in real time in addition to pay attention to the state of tin liquor. Therefore, the superfine stranded wire tinning device and the tinning process are provided.

Disclosure of Invention

The invention aims to solve the problems and provides a tinning device and a tinning process for ultrafine stranded wires.

In order to achieve the purpose, the invention provides the following technical scheme: a superfine stranded wire tinning device comprises a tinning furnace frame, a tinning furnace arranged on the tinning furnace frame, a control cabinet, a tinning die and a mounting frame; the tin scraping device is characterized in that the mounting rack is provided with a camera and a tin scraping device; the tinning furnace frame is also provided with a plurality of fans, a tin liquid recovery device, a liquid level sensor and a temperature sensor; the tin liquor recovery device comprises a recovery box, a tin liquor recovery pipeline, a cooling fan, a visual mirror and a sliding drawer cabinet, wherein the tin liquor recovery pipeline, the cooling fan, the visual mirror and the sliding drawer cabinet are arranged on the recovery box; (ii) a A recovery tank is also arranged on the tinning furnace frame; the tin liquid recovery pipeline is connected with the recovery tank; a heating coil is wound on the tin liquid recovery pipeline; a guide boss is arranged in the recovery box; the sliding drawer cabinet is provided with a handle and a guide groove matched with the guide boss.

Preferably, the tin scraping device comprises a liquid scraping motor and a liquid scraping cylinder; a lead screw is arranged on the liquid scraping motor; the screw rod is provided with a sliding plate; the sliding plate is provided with a liquid scraping cylinder; a scraper plate is arranged on the liquid scraping cylinder; the liquid scraping motor is fixed on the tinning furnace frame; the tin plating furnace frame is also provided with a tin liquor baffle; the sliding plate is matched with a sliding rail; the slide rail is fixedly installed on the installation frame.

Preferably, the mounting frame is provided with a baffle and a plurality of wire pressing rods; the wire pressing rod is provided with a wire pressing groove; and the line pressing groove is provided with a fillet.

Preferably, the tin plating furnace arranged on the tin plating furnace frame is provided with insulating cloth; a molten tin heating pipe and a cooling pipe are wound on the insulating cloth; the tinning furnace frame is also provided with a telescopic oil cylinder; a push plate is arranged on the telescopic oil cylinder; the push plate is connected with the tinning furnace.

Preferably, a tinning die fixing frame is further mounted on the tinning furnace frame; an angle adjusting plate is arranged on the tinning die fixing frame; and an angle adjusting groove is formed in the angle adjusting plate.

Preferably, the camera comprises an outer mirror and an inner mirror arranged in the outer mirror; a driven gear is arranged on the endoscope; the driven gear is engaged with a driving gear; the driving gear is provided with a rotating shaft; the rotating shaft is connected with a motor; the motor is fixed on the outer mirror.

A tin plating process of an ultrafine micro-stranded wire tin plating device is characterized by comprising the following steps:

the first step is as follows: putting the stranded wire into a tinning furnace, pressing the stranded wire in tin liquor through a wire pressing rod, and then penetrating the stranded wire through a tinning die;

the second step: shooting the condition of the tin liquor in the tinning furnace by a camera, transmitting a shot picture to a control cabinet for comparison, and controlling a fan to rotate by the control cabinet to blow oxides and tin liquor concretions on the surface of the tin liquor to one side;

the third step: the control cabinet controls the tin liquid scraping device to move, the liquid scraping cylinder drives the scraping plate to move downwards, the liquid scraping motor drives the sliding plate to slide along the sliding rail, and oxides and tin liquid concretions which are not blown by the fan are scraped to one side through the scraping plate;

the fourth step: the oxide and tin liquid concretion scraped to one side enter a recovery pipeline from a recovery tank on the tinning furnace frame, then flow into a recovery box through the recovery pipeline, the recovered tin liquid is cooled by a supercooling fan, and then the fixed tin liquid is taken out through a sliding drawer for heating and reusing.

The invention has the beneficial effects that: this tinning stack, convenient to use can retrieve oxide and tin liquor coagulum on the tin liquor automatically, prevents the adhesion on the stranded conductor, makes the stranded conductor fracture to replace the manual work to handle, improve the security performance, improve production efficiency.

Drawings

Fig. 1 is a schematic structural view of the present invention.

FIG. 2 is a schematic structural diagram of the tin scraping liquid device of the invention.

Fig. 3 is a schematic structural view of the wire pressing rod of the present invention.

FIG. 4 is a schematic view of the structure of the tin plating furnace of the present invention.

Fig. 5 is a partial structural schematic diagram of the present invention.

FIG. 6 is a schematic view of a tin liquid recovery apparatus according to the present invention.

Fig. 7 is a schematic view of the structure of the camera of the present invention.

Illustration of the drawings: 1, a tinning furnace frame; 101 a recovery tank; 2, a tin plating furnace; 201 insulating cloth; 202 a molten tin heating tube; 203 a cooling tube; 3, a control cabinet; 4, tin plating of the die; 5, mounting a frame; 501, sliding rails; 502 a baffle plate; 503 a wire pressing rod; 504 wire pressing grooves; 505 rounded corners; 6, a camera; 601 an external mirror; 602, an endoscope; 603 a driven gear; 604 a drive gear; 605 a rotating shaft; 606 motor; 7 a tin scraping liquid device; 701 a liquid scraping motor; 702 a liquid scraping cylinder; 703 lead screw; 704 a sliding plate; 705 a scraper; 8, a fan; 9 a tin liquid recovery device; 901 a recovery box; 902, a tin liquor recovery pipeline; 903 heating coil; 904 cooling the fan; 905 visual mirror; 906 sliding drawer cabinets; 907 a guide boss; 908 a handle; 909 guide groove 10 tin melt stop; 11, a telescopic oil cylinder; 12, pushing a plate; 13, fixing a tin plating die; 1301, adjusting an angle; 1302 an angle adjustment slot; 14 a liquid level sensor; 15 temperature sensor

Detailed Description

The following will further describe an ultra-fine stranded wire tinning device and a tinning process according to the present invention with reference to the accompanying drawings.

Referring to the attached drawing 1, the superfine stranded wire tinning device in the embodiment comprises a tinning furnace frame 1, a tinning furnace 2 mounted on the tinning furnace frame 1, a control cabinet 3, a tinning die 4 and a mounting frame 5; the tin scraping device is characterized in that a camera 6 and a tin scraping device 7 are arranged on the mounting rack 5; the tinning furnace frame 1 is also provided with a plurality of fans 8, a tin liquid recovery device 9, a liquid level sensor 14 and a temperature sensor 15; the camera 6 and the tin scraping liquid device 7 are installed on the installation frame 5, the plurality of fans 8 are further installed on the tin plating furnace frame 1, the camera 6 is used for paying attention to the situation of tin liquid in real time, the shot pictures are conveyed to the control cabinet 3, the control cabinet 3 is convenient to control the fans 8 and the tin scraping liquid device 7 to move, oxides on the surface of the tin liquid and tin liquid concretions are removed, and therefore the quality of stranded wires is guaranteed, and breakage is prevented; the tin liquor recovery device 9 is arranged on the tin plating furnace frame 1, so that the tin liquor can be recovered for reuse, resources can be saved, and the production cost can be reduced; through installing liquid level sensor 14 and temperature sensor 15 on tin-plating furnace frame 1 to can real time monitoring tin liquid's temperature and water level, and send the model and give switch board 3, the switch board 3 of being convenient for in time adjusts.

Referring to fig. 2, the tin scraping device 7 includes a scraping motor 701 and a scraping cylinder 702; a screw rod 703 is arranged on the liquid scraping motor 701; a sliding plate 704 is arranged on the screw rod 703; a liquid scraping cylinder 702 is installed on the sliding plate 704; a scraper 705 is arranged on the liquid scraping cylinder 702; the liquid scraping motor 701 is fixed on the tinning furnace frame 1; the tin plating furnace frame 1 is also provided with a tin liquor baffle 10; the sliding plate 704 is matched with a sliding rail 501; the slide rail 501 is fixedly arranged on the mounting rack 5; the lead screw 703 is driven to move by the liquid scraping motor 701, the lead screw 703 drives the sliding plate 704 to slide along the sliding rail 501, the sliding plate 701 drives the liquid scraping cylinder 702 and the scraping plate 705 to move along the sliding rail 501, and the liquid scraping cylinder 702 drives the scraping plate 705 to move downwards, so that the oxide and tin liquid concretion on the surface of tin liquid can be cleaned more cleanly instead of manually, the quality of stranded wires is further ensured, and the safety and the production efficiency are improved; the tin liquor baffle 10 is arranged on the tin plating furnace frame 1, so that the fan 8 is prevented from blowing the tin liquor to the outside of the tin plating furnace 2 or the body of a worker when blowing, and the safety of the using process is ensured.

Referring to fig. 1 and 3, a baffle 502 and a plurality of wire pressing rods 503 are mounted on the mounting frame 5; a wire pressing groove 504 is formed in the wire pressing rod 503; a fillet 505 is arranged on the line pressing groove 504; the wire pressing groove 504 is formed in the wire pressing rod 503, so that a stranded wire can conveniently penetrate through the wire pressing groove, and the threading time is saved; by arranging the round angle 505 on the wire pressing groove 504, the phenomenon that the twisted wire is broken due to the sharp periphery of the wire pressing groove 504 when the twisted wire passes through the position for a long time can be avoided.

Referring to fig. 4, the tin plating furnace 2 mounted on the tin plating furnace frame 1 is provided with an insulating cloth 201; a molten tin heating pipe 202 and a cooling pipe 203 are wound on the insulating cloth 201; the tinning furnace frame 1 is also provided with a telescopic oil cylinder 11; a push plate 12 is arranged on the telescopic oil cylinder 11; the push plate 12 is connected with the tinning furnace 1; through installation insulating cloth 201 on tinning furnace 2, twine tin liquid heating pipe 202 and cooling tube 203 on insulating cloth 201 to can be convenient for heat and cool off tinning furnace 2, and then can also play insulating effect.

Referring to fig. 5, a tin plating mould fixing frame 13 is further mounted on the tin plating furnace frame 1; an angle adjusting plate 1301 is arranged on the tin plating die fixing frame 13; an angle adjusting groove 1302 is formed in the angle adjusting plate 1301; by installing the angle adjusting plate 1301 on the tin plating mold fixing frame 13 and arranging the angle adjusting groove 1302 on the angle adjusting plate 1301, the angle adjusting groove 1302 is used to facilitate corresponding angle adjustment of the tin plating mold 4, and further adjustment is convenient.

Referring to fig. 6, the molten tin recycling device 9 includes a recycling bin 901, a molten tin recycling pipeline 902 installed on the recycling bin 901, a cooling fan 904, a visible mirror 905, and a sliding drawer 906; (ii) a The tin plating furnace frame 1 is also provided with a recovery tank 101; the tin liquid recovery pipeline 902 is connected with the recovery tank 101; a heating coil 903 is wound on the molten tin recovery pipeline 902; a guide boss 907 is arranged in the recovery box 901; the sliding drawer cabinet 906 is provided with a handle 908 and a guide groove 909 matched with the guide boss 907; the tin liquor can be prevented from being cooled and fixed inside the tin liquor recovery pipeline 902 when flowing through the tin liquor recovery pipeline 902 by winding the heating coil 903 on the tin liquor recovery pipeline 902, and the tin liquor in the tin liquor recovery pipeline 902 can be heated and flows into the recovery box; the sliding drawer cabinet 906 is installed in the recovery box 901 in a matched mode through the guide boss 907 and the guide groove 909, so that the sliding drawer cabinet 906 can be taken and replaced by a new sliding drawer cabinet 906 after tin liquid is solidified; the cooling fan 904 is arranged on the recovery box 901, so that the solidification of the tin liquid stored in the sliding drawer 906 can be accelerated; by installing the visible mirror 905 on the recycling bin 901, the solidification condition and the storage amount of the tin liquor in the sliding drawer cabinet 906 can be observed conveniently in real time.

Referring to fig. 7, the camera 6 includes an outer mirror 601 and an inner mirror 602 installed inside the outer mirror 601; a driven gear 603 is arranged on the endoscope 602; a driving gear 604 is meshed with the driven gear 603; the driving gear 604 is provided with a rotating shaft 605; the rotating shaft 605 is connected with a motor 606; the motor 606 is fixed on the outer mirror 601; drive pivot 605 through motor 606 and rotate, pivot 605 drives driving gear 604 and rotates, and driving gear 604 drives driven gear 603 and rotates, and driven gear 603 drives scope 602 and rotates to can realize the function of focusing of appearance 3 of making a video recording, make the more clear of the photo of its shooting, the switch board 3 of being convenient for more is to the control of each device.

The using process of the invention comprises the steps of putting a stranded wire into a tin plating furnace 2, penetrating the stranded wire through a wire pressing groove 504 below a wire pressing rod 503, penetrating through a small hole on a tin plating mould 4, taking a picture of the surface of tin liquor in the tin plating furnace 2 by a camera 6, transmitting the taken picture to a control cabinet 3 for comparison, when oxide or tin liquor concretion is found on the picture, firstly controlling a fan 8 to rotate by the control cabinet 3, blowing the oxide or tin liquor concretion on the surface of the tin liquor to one side, then controlling a liquid scraping motor 701 to move by the control cabinet 3, driving a screw rod 703 to rotate by the liquid scraping motor 701, driving a sliding plate 704 to slide along a sliding rail 501 by the screw rod 703, driving a liquid scraping cylinder 702 and a scraping plate 705 to move along the sliding rail 501 by the sliding plate 704, driving the scraping cylinder 702 to move the scraping plate 705 downwards, scraping the oxide or tin liquor concretion which can not be blown to one side by the tin liquor surface fan 8, the method comprises the steps that oxide or tin liquid concretion flows into a tin liquid recovery pipeline 902 from a recovery tank 101, a heating coil 903 on the tin liquid recovery pipeline 902 heats the tin liquid recovery pipeline 902, the oxide or tin liquid concretion flows into a sliding drawer 906 in a recovery tank 901 from the tin liquid recovery pipeline 902 to be stored, when a liquid level sensor 14 senses that the liquid level of tin liquid is lowered, a control cabinet 3 controls a telescopic oil cylinder 11 to move, the telescopic oil cylinder 11 drives a push plate 12 to move upwards, the push plate 12 drives a tin plating furnace 2 to move upwards, the liquid level of the tin liquid is kept unchanged, the tin liquid stored in the sliding drawer 906 is cooled by starting a cooling fan 904, the solidification condition and the storage amount of the tin liquid can be observed in a visual mirror 905, and when the storage amount is too large, a handle 908 is pulled to draw out the sliding drawer 906 along a guide boss 907 and replace and install the new sliding drawer 906.

The above embodiments are illustrative of the present invention, and are not intended to limit the present invention, and any simple modifications of the present invention are within the scope of the present invention.

Claims

1. A superfine stranded wire tinning device comprises a tinning furnace frame (1), a tinning furnace (2) arranged on the tinning furnace frame (1), a control cabinet (3), a tinning die (4) and a mounting frame (5); the tin scraping device is characterized in that a camera (6) and a tin scraping device (7) are arranged on the mounting rack (5); the tin plating furnace frame (1) is also provided with a plurality of fans (8), a tin liquid recovery device (9), a liquid level sensor (14) and a temperature sensor (15); the tin liquid recovery device (9) comprises a recovery box (901), a tin liquid recovery pipeline (902) arranged on the recovery box (901), a cooling fan (904), a visible mirror (905) and a sliding drawer cabinet (906); a recovery tank (101) is also arranged on the tinning furnace frame (1); the tin liquid recovery pipeline (902) is connected with the recovery tank (101); a heating coil (903) is wound on the molten tin recovery pipeline (902); a guide boss (907) is arranged in the recovery box (901); the sliding drawer cabinet (906) is provided with a handle (908) and a guide groove (909) matched with the guide boss (907).

2. The ultrafine stranded wire tinning device according to claim 1, characterized in that: the tin scraping device (7) comprises a liquid scraping motor (701) and a liquid scraping cylinder (702); a screw rod (703) is arranged on the liquid scraping motor (701); a sliding plate (704) is arranged on the lead screw (703); a liquid scraping cylinder (702) is arranged on the sliding plate (704); a scraper (705) is arranged on the liquid scraping cylinder (702); the liquid scraping motor (701) is fixed on the tinning furnace frame (1); the tin plating furnace frame (1) is also provided with a tin liquor baffle (10); a sliding rail (501) is matched on the sliding plate (704); the sliding rail (501) is fixedly installed on the installation frame (5).

3. The ultrafine stranded wire tinning device according to claim 2, characterized in that: the mounting rack (5) is provided with a baffle (502) and a plurality of wire pressing rods (503); a wire pressing groove (504) is formed in the wire pressing rod (503); and a fillet (505) is arranged on the line pressing groove (504).

4. The tinning device for the ultrafine stranded wire according to claim 1, characterized in that: the tin plating furnace (2) arranged on the tin plating furnace frame (1) is provided with insulating cloth (201); a molten tin heating pipe (202) and a cooling pipe (203) are wound on the insulating cloth (201); the tin plating furnace frame (1) is also provided with a telescopic oil cylinder (11); a push plate (12) is arranged on the telescopic oil cylinder (11); the push plate (12) is connected with the tin plating furnace (2).

5. The tinning device for the ultrafine stranded wire according to claim 4, characterized in that: a tinning die fixing frame (13) is also arranged on the tinning furnace frame (1); an angle adjusting plate (1301) is mounted on the tin plating die fixing frame (13); an angle adjusting groove (1302) is formed in the angle adjusting plate (1301).

6. The ultrafine stranded wire tinning device according to claim 1, characterized in that: the camera (6) comprises an outer mirror (601) and an inner mirror (602) arranged in the outer mirror (601); a driven gear (603) is arranged on the inner mirror (602); a driving gear (604) is meshed with the driven gear (603); a rotating shaft (605) is arranged on the driving gear (604); the rotating shaft (605) is connected with a motor (606); the motor (606) is fixed on the outer mirror (601).

7. The tin plating process of the ultrafine stranded wire tin plating device according to any one of claims 1 to 6, wherein the tin plating process comprises the following steps:

the first step is as follows: putting the stranded wire into a tinning furnace (2), pressing the stranded wire in a tin liquid through a wire pressing rod (503), and then penetrating the stranded wire through a tinning die (4);

the second step is that: shooting the condition of the tin liquor in the tin plating furnace (2) through a camera (6), transmitting a shot picture to a control cabinet (3) for comparison, controlling a fan (8) to rotate by the control cabinet (3), and blowing oxides and tin liquor concretions on the surface of the tin liquor to one side;

the third step: the control cabinet (3) controls the tin liquid scraping device (7) to move, the liquid scraping cylinder (702) drives the scraper (705) to move downwards, the liquid scraping motor (701) drives the sliding plate (704) to slide along the sliding rail (501), and oxides and tin liquid concretions which are not blown by the fan (8) are scraped to one side through the scraper (705);

the fourth step: the oxide and tin liquid concretion scraped to one side enter a tin liquid recovery pipeline (902) from a recovery tank (101) on the tinning furnace frame (1), then flow into a recovery box (901) through the tin liquid recovery pipeline (902), are cooled by a cooling fan (904), and then are taken out for heating and reuse through a sliding drawer (906).