CN110935974A

CN110935974A - Efficient wire winding soldering tin machine

Info

Publication number: CN110935974A
Application number: CN201911396400.8A
Authority: CN
Inventors: 黎洪; 曾伯坚
Original assignee: Zhongshan Ugee Automation Equipment Technology Co Ltd
Current assignee: Zhongshan Youji Intelligent Manufacturing Co ltd
Priority date: 2019-12-30
Filing date: 2019-12-30
Publication date: 2020-03-31
Anticipated expiration: 2039-12-30
Also published as: CN110935974B

Abstract

The invention discloses a high-efficiency winding and tin soldering machine, which is used for winding operation and tin soldering fixation of a three-leg inductance magnetic core and comprises a material placing mechanism, a winding mechanism, a tin soldering mechanism, a material feeding and taking mechanism and a control device, wherein the material placing mechanism, the winding mechanism, the tin soldering mechanism and the material feeding and taking mechanism are connected with the control device; the material placing mechanism comprises a vibrating disc, a blanking guide rail and a feeding assembly; the winding mechanism comprises a main shaft device, a residual wire clamp device and a winding device; the tin soldering mechanism comprises a lifting moving device, a distance reducing clamp, a soldering flux box, a tin furnace, a recovery transmission device and a material receiving box. According to the winding and tin soldering machine, the vibration disc, the blanking guide rail and the feeding assembly are used for automatically completing feeding, material placing and feeding operations, the whole process of feeding, winding, tin soldering and blanking is completed automatically, the technical problem that time and labor are wasted due to the traditional single-person single-machine operation is solved, the production efficiency is high, and the production cost is low.

Description

Efficient wire winding soldering tin machine

Technical Field

The invention relates to the technical field of soldering equipment, in particular to a high-efficiency winding and soldering machine.

Background

The inductor is a common electronic component in a circuit, and mainly plays roles of filtering, oscillating, delaying, trapping and the like in the circuit, and also plays roles of screening signals, filtering noise, stabilizing current, suppressing electromagnetic wave interference and the like, so the inductor is widely applied. Most of the h-inductors are two-pin h-inductors or three-pin h-inductors, and the induction coil is usually wound around a magnetic core. Traditional three-legged I-shaped inductance, at the wire winding, the in-process of soldering tin, adopt artifical material loading, artifical soldering tin, and current spooling equipment can only carry out semi-automatic wire winding to three-legged I-shaped inductance, can only accomplish two feet wire winding operations, need artifical continuation winding after the unloading, high labor strength, low work efficiency, the scale production of unsuitable enterprise, and the wire winding effect can not be guaranteed, still need material loading again to carry out soldering tin after accomplishing the wire winding, manufacturing procedure is complicated, the steps are many, the production cycle is long, waste time and energy, finally, lead to manufacturing cost high at present, be unfavorable for the long-term development of enterprise.

Therefore, how to solve the above technical problems is a technical problem to be solved urgently in the industry.

Disclosure of Invention

The invention mainly aims to provide a winding and soldering machine with high efficiency, and aims to realize the winding and soldering machine with high automation degree, low labor intensity, high winding efficiency, good soldering effect and low production cost.

The invention provides an efficient winding and tin soldering machine, which is used for winding operation and tin soldering fixation of a three-leg inductance magnetic core and comprises a material placing mechanism, a winding mechanism, a tin soldering mechanism, a material feeding and taking mechanism and a control device, wherein the material placing mechanism, the winding mechanism, the tin soldering mechanism and the material feeding and taking mechanism are connected with the control device; the material placing mechanism comprises a bracket, a vibrating disc, a blanking guide rail, a support column and a feeding assembly arranged on the support column; the winding mechanism comprises a frame, a wire frame, a main shaft device, a residual wire clamp device and a winding device, wherein the main shaft device, the residual wire clamp device and the winding device are arranged on the frame; the tin soldering mechanism comprises a base, an outer cover arranged on the base, a lifting moving device arranged on the base, a pitch reducing clamp arranged on the lifting moving device, a welding assistant box arranged on the base, a tin furnace, a recovery and transmission device and a material receiving box.

Preferably, the material loading subassembly is including locating the guide way that is the I shape setting on the pillar, locating the spacer in the guide way, pushing the tripod inductance magnetic core one by one and pushing the push-in device in the first clamp tool subassembly, to pushing the tripod inductance magnetic core that presss from both sides in the first clamp tool subassembly and having the cylinder that flattens of effect of flattening.

Preferably, send reclaiming mechanism still including driving first slider and second slider along the belt, a plurality of gears, driving motor that transverse guide removed.

Preferably, the first clamp jig assembly comprises a first bottom plate arranged on the first sliding block, a first longitudinal guide rail arranged on the first bottom plate, a first lifting assembly arranged on the first longitudinal guide rail through a third sliding block, a first driving cylinder driving the third sliding block to move along the first longitudinal guide rail, and a first clamp jig base arranged on the first lifting assembly, wherein a plurality of first clamp jigs are distributed on the first clamp jig base.

Preferably, the second presss from both sides the tool subassembly including locating the second bottom plate on the second slider, locating the second longitudinal rail on the second bottom plate, locating the second on the second longitudinal rail through the fourth slider and pressing from both sides the tool seat, drive the second that the fourth slider removed along second longitudinal rail and drive actuating cylinder, it has a plurality of second to press from both sides the tool, the third drives actuating cylinder to distribute on the second presss from both sides the tool seat.

Preferably, the control device comprises a first control panel and a second control panel.

Preferably, the winding device can move along the up-down direction, the left-right direction and the front-back direction of the rack, and the winding device comprises a creel stand.

Preferably, the wire winding soldering machine further comprises a protective cover arranged on the workbench.

Preferably, the housing is provided with an exhaust assembly.

According to the winding and tin soldering machine, the vibration disc, the blanking guide rail and the feeding assembly are used for automatically completing feeding, material placing and feeding operations, the whole processes of feeding, winding, tin soldering and discharging are completed in a full-automatic mode, the technical problem that time and labor are wasted due to the traditional single-person single-machine operation is solved, the winding operation and tin soldering fixation of the three-pin inductance magnetic core are completed in a full-automatic mode, the integration level and the automation degree are high, the labor intensity is low, the production efficiency is greatly improved, the production cost is reduced, and the consistency of the yield and the quality of finished products is ensured.

Drawings

FIG. 1 is a schematic perspective view of an efficient wire-winding soldering machine according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the material placing mechanism in an embodiment of the efficient wire winding and soldering machine of the present invention, wherein the frame is not shown;

FIG. 3 is a schematic perspective view of a feeding and reclaiming mechanism of an embodiment of a high-efficiency wire-winding soldering machine according to the present invention, which includes a portion A;

FIG. 4 is an enlarged schematic view of portion A of FIG. 3;

FIG. 5 is a schematic perspective view of a winding mechanism in an embodiment of an efficient winding and soldering machine according to the present invention;

FIG. 6 is a schematic perspective view of a soldering mechanism in an embodiment of an efficient wire-winding soldering machine according to the present invention;

fig. 7 is an enlarged perspective view of a soldering mechanism in an embodiment of an efficient wire-wound soldering machine according to the present invention, wherein the base and the housing are not shown.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1 to 7, an embodiment of a high-efficiency winding and soldering machine according to the present invention is provided, which is used for winding operation and soldering fixation of a three-legged inductor core 600, and includes a material placing mechanism 100, a winding mechanism 200, a soldering mechanism 300, a material feeding and taking mechanism, and a control device, wherein the material placing mechanism 100, the winding mechanism 200, the soldering mechanism 300, and the material feeding and taking mechanism are connected to the control device, the control device includes a first control panel 501 and a second control panel 502, and a user can set parameters on the first control panel 501 and the second control panel 502.

The feeding and taking mechanism is arranged at the front end of the winding soldering machine and comprises a workbench 401, a transverse guide rail 403 arranged on the workbench 401, a first clamping jig assembly arranged on the transverse guide rail 403 through a first sliding block 407, and a second clamping jig assembly arranged on the transverse guide rail 403 through a second sliding block 415. The feeding and taking mechanism further comprises a belt 404, a plurality of gears 405 and a driving motor 406, wherein the belt 404 drives the first sliding block 407 and the second sliding block 415 to move along the transverse guide rail 403, the output end of the driving motor 406 is connected with the gears 405 and drives the gears 405 to rotate, so that the belt 404 is driven to move, and finally the first clamping jig assembly and the second clamping jig assembly move along the transverse guide rail 403 to complete automatic feeding and taking operations.

The first clamping jig assembly comprises a first bottom plate 408 arranged on a first sliding block 407, a first longitudinal guide rail 409 arranged on the first bottom plate 408, a first lifting assembly 411 arranged on the first longitudinal guide rail 409 through a third sliding block 410, a first driving cylinder 412 driving the third sliding block 410 to move along the first longitudinal guide rail 409, and a first clamping jig base 413 arranged on the first lifting assembly 411, wherein a plurality of first clamping jigs 414 are distributed on the first clamping jig base 413. The first clamping jig base 413 moves left and right, up and down, and back and forth through the driving motor 406, the first lifting assembly 411, and the first driving cylinder 412, a plurality of first clamping jigs 414 are distributed on the first clamping jig base 413, and the first clamping jigs 414 are used for clamping the three-pin inductor core 600.

The second clamping jig assembly comprises a second base plate 416 arranged on the second sliding block 415, a second longitudinal guide rail 417 arranged on the second base plate 416, a second clamping jig seat 419 arranged on the second longitudinal guide rail 417 through the fourth sliding block 418, and a second driving cylinder driving the fourth sliding block 418 to move along the second longitudinal guide rail 417, wherein a plurality of second clamping jigs 420 and a plurality of third driving cylinders 421 are distributed on the second clamping jig seat 419. During operation, the driving motor 406 drives the second chassis to move left and right along the transverse guide rail 403, and the second driving cylinder drives the fourth slider 418 to move back and forth along the second longitudinal guide rail 417, so as to drive the second clamp jig seat 419 to move back and forth to facilitate material taking and feeding. In this embodiment, the third driving cylinder 421 is used to drive the second clamping fixture 420 to open and clamp so as to clamp and place the three-pin inductor core 600 conveniently.

The material placing mechanism 100 is disposed on the left side of the material feeding and taking mechanism, and is used for separating the three-legged inductance core 600 into directions and pushing the three-legged inductance core into the first clamping jig 414 one by one. The material placing mechanism 100 comprises a support, a vibration disc 101, a blanking guide rail 102, a support column 103 and a material loading assembly arranged on the support column 103, wherein the vibration disc 101 is photoelectric controlled, and the vibration disc 101 is used for distributing the three-pin inductance magnetic core 600 in the direction and pushing the three-pin inductance magnetic core into the blanking guide rail 102 one by one. The feeding assembly comprises a guide groove 104 arranged on the support post 103 and in an I-shaped arrangement, a pushing device 106 for pushing the three-leg inductive magnetic core 600 into the first clamping jig assembly one by one, and a flattening cylinder 107 for flattening the three-leg inductive magnetic core 600 pushed into the first clamping jig assembly. The three-leg inductance magnetic core 600 moves along the blanking guide rail 102 and enters the feeding assembly, namely the three-leg inductance magnetic core 600 enters the guide groove 104 from the blanking guide rail 102, the guide groove 104 is vertically arranged, so that the three-leg inductance magnetic core 600 freely falls and stays on the pushing-in device 106, the pushing-in device 106 moves left and right, the three-leg inductance magnetic core 600 freely falls into the first clamping jig 414 one by one, and then the three-leg inductance magnetic core 600 is flattened and compressed by the flattening cylinder 107. According to the automatic feeding device, the vibration disc 101, the blanking guide rail 102 and the feeding assembly are used for automatically completing feeding, material placing and feeding operations, the whole process of feeding, material placing and feeding is completed automatically, the technical problem that labor intensity is high due to traditional manual feeding is solved, time and labor are saved, manpower is greatly saved, production efficiency is improved, and production cost is reduced.

In this embodiment, be equipped with the spacer 105 in the guide way 104, the tripod inductance core 600 that falls into guide way 104 is under the positioning action of spacer 105, and the long foot of each tripod inductance core 600 is unified to be divided in the left side of spacer 105, and two remaining short feet are located the right side of spacer 105, and the direction is divided to the accuracy, simple structure, and the location is effectual, divides the material accuracy height, and the practicality is strong.

The winding mechanism 200 includes a frame 201, a bobbin 202 disposed at the rear end of the frame 201, a spindle device 203 disposed on the frame 201, a residual wire clamp device 204, and a winding device 205. In this embodiment, the bobbin 202 is used for supplying the wire to the winding device 205. The main shaft device 203 is arranged on the frame 201, the residual wire clamping device 204 is arranged on the main shaft device 203, the wire winding device 205 is arranged on the residual wire clamping device 204, the wire winding device 205 can move along the vertical, left-right and front-back directions of the frame 201, and the wire winding device 205 comprises a creel stand 206. Controlling means control spindle unit 203, surplus fastener device 204 and the cooperation action of winding device 205, automatic reason line, high-speed wire winding, and neatly put, can effectively avoid the number of winding turns unparallel because of the manual work is made and appear, the solenoid unevenness, the fingernail hinders the line, defective products such as operation irregularity, promote the quality of product and ensure the uniformity of quality, and through setting up the parameter on first control panel 501, by the intelligent software in the controlling means, automatically, carry out work according to the requirement that the product set for after the programming, convenient operation, need not workman's on duty, effectively improve degree of automation, further practice thrift the manpower, the wire winding is efficient, the wire winding is of high quality.

The winding and soldering machine further comprises a soldering mechanism 300, and the soldering mechanism 300 is arranged on the right side of the winding mechanism 200. The soldering mechanism 300 includes a base 301, a housing 302 disposed on the base 301, a lifting and moving device 303 disposed on the base 301, a distance-reducing fixture 304 disposed on the lifting and moving device 303, a soldering assistant box 305 disposed on the base 301, a solder furnace 306, a recovery and transmission device 307, and a material receiving box. The distance reducing fixture 304 moves up and down and back and forth under the assistance of the lifting and moving device 303, so that the tripod inductive magnetic core 600 is clamped from the second clamping fixture 420, the tripod inductive magnetic core 600 is sent to the soldering flux box 305 to be dipped in soldering flux, the tripod inductive magnetic core 600 is sent to the tin furnace 306 to be dipped in tin and soldered, the tripod inductive magnetic core 600 is conveyed to the recycling and conveying device 307 after the soldering is finished, a finished product is conveyed to the soldering flux box by the recycling and conveying device 307, the soldering and blanking are finished automatically, the soldering efficiency is high, and the product quality is stable.

In this embodiment, the wire-winding soldering machine further includes a shield 402 disposed on the worktable 401.

In this embodiment, the housing 302 is provided with an exhaust assembly 308.

When the winding and soldering machine works, the vibration disc 101 divides materials, the three-leg inductance magnetic cores 600 are divided into directions and pushed to the blanking guide rail 102 one by one, the guide groove 104 and the pushing device 106 work in a matched mode, the three-leg inductance magnetic cores 600 fall into the first clamping jig 414 one by one, and then the three-leg inductance magnetic cores are flattened and compressed by the flattening air cylinder 107; after the feeding is completed, the driving motor 406 drives the belt 404 to move, and the first fixture clamping assembly moves to the winding mechanism 200 along the transverse guide rail 403, the first lifting assembly 411 and the first driving cylinder 412 move up and down and back and forth, so that the first fixture clamping seat 413 conveys the three-pin inductive magnetic core 600 clamped in the first fixture clamping 414 to the spindle device 203, and the spindle device 203, the surplus wire fixture device 204 and the winding device 205 cooperate to automatically arrange and wind wires; after the winding is completed, the second clamp jig assembly moves and clamps the tripod inductance magnetic core 600 on the main shaft device 203, the tripod inductance magnetic core 600 is conveyed to the soldering tin mechanism 300, the tripod inductance magnetic core 600 is clamped by the shrinkage clamp 304, the tin immersion operation is automatically completed, finally, the blanking is conveyed to the recovery and transmission device 307, the finished product is conveyed to the material receiving box by the recovery and transmission device 307, the first clamp jig assembly and the second clamp jig assembly synchronously work, and the winding and soldering tin machine continuously works in a circulating mode.

In conclusion, the winding and soldering machine disclosed by the invention automatically finishes the feeding, material placing and feeding operations through the vibrating disc 101, the blanking guide rail 102 and the feeding assembly, and the whole processes of the feeding, the winding, the soldering and the blanking are fully automatically finished, so that the technical problem that the time and the labor are wasted due to the traditional single-person single-machine operation is solved, the winding operation and the soldering fixation of the three-pin inductance magnetic core 600 are fully automatically finished, the automation degree is high, the labor intensity is low, the winding efficiency is high, the soldering effect is good, the production efficiency is greatly improved, the production cost is reduced, the consistency of the yield and the quality of finished products is ensured, and the large-scale production of enterprises is facilitated.

The above description is only for the preferred embodiment of the present invention and is not intended to limit the scope of the present invention, and all equivalent structural changes made by using the contents of the present specification and the drawings, or any other related technical fields, are included in the scope of the present invention.

Claims

1. A high-efficiency winding and tin soldering machine is used for winding operation and tin soldering fixation of a three-leg inductance magnetic core and is characterized by comprising a material placing mechanism, a winding mechanism, a tin soldering mechanism, a material feeding and taking mechanism and a control device, wherein the material placing mechanism, the winding mechanism, the tin soldering mechanism and the material feeding and taking mechanism are connected with the control device; the material placing mechanism comprises a bracket, a vibrating disc, a blanking guide rail, a support column and a feeding assembly arranged on the support column; the winding mechanism comprises a frame, a wire frame, a main shaft device, a residual wire clamp device and a winding device, wherein the main shaft device, the residual wire clamp device and the winding device are arranged on the frame; the tin soldering mechanism comprises a base, an outer cover arranged on the base, a lifting moving device arranged on the base, a pitch reducing clamp arranged on the lifting moving device, a welding assistant box arranged on the base, a tin furnace, a recovery and transmission device and a material receiving box.

2. The winding and soldering machine according to claim 1, wherein the feeding assembly includes an i-shaped guide groove formed in the support, a positioning piece formed in the guide groove, a pushing device for pushing the three-leg inductor cores one by one into the first clamping assembly, and a flattening cylinder for flattening the three-leg inductor cores pushed into the first clamping assembly.

3. A winding and soldering machine according to claim 1, wherein the feeding and taking mechanism further comprises a belt, a plurality of gears and a driving motor for driving the first and second sliders to move along the transverse guide rail.

4. The winding and soldering machine according to claim 3, wherein the first clamping jig assembly includes a first bottom plate disposed on the first slider, a first longitudinal rail disposed on the first bottom plate, a first lifting assembly disposed on the first longitudinal rail via a third slider, a first driving cylinder for driving the third slider to move along the first longitudinal rail, and a first clamping jig base disposed on the first lifting assembly, and a plurality of first clamping jigs are distributed on the first clamping jig base.

5. The winding and soldering machine according to claim 3, wherein the second clamping jig assembly includes a second bottom plate disposed on the second slider, a second longitudinal rail disposed on the second bottom plate, a second clamping jig base disposed on the second longitudinal rail via a fourth slider, and a second driving cylinder for driving the fourth slider to move along the second longitudinal rail, and a plurality of second clamping jigs and third driving cylinders are distributed on the second clamping jig base.

6. A wire winding soldering machine according to claim 4 or 5, characterized in that the control device comprises a first control panel and a second control panel.

7. The winding and soldering machine according to claim 6, wherein the winding device is movable up and down, right and left, and back and forth along the frame, and the winding device includes a creel stand.

8. The wire-wound soldering machine according to claim 7, further comprising a shield disposed on the table.

9. The wire-wound soldering tin machine according to claim 8, wherein the housing is provided with an exhaust assembly.