CN215870154U - USB moves cuts out bonding wire machine - Google Patents

Abstract

The utility model discloses a USB wire moving and cutting welding machine, which belongs to the technical field of welding wire equipment and comprises a welding installation cabinet, a pay-off rack, a rotary tin-sticking mechanism, a wire stripping knife rest, a rotary wire feeding mechanism and a welding mechanism, wherein the pay-off rack, the rotary tin-sticking mechanism, the wire stripping knife rest, the rotary wire feeding mechanism and the welding mechanism are sequentially arranged on the welding installation cabinet, a data wire is transmitted to the wire stripping knife rest through the rotary tin-sticking mechanism to be stripped, then the rotary tin-sticking mechanism sticks tin to the part exposing a battery core, and the processed data wire is pulled to the welding mechanism through the rotary wire feeding mechanism to be welded, so that the assembly line welding is realized, and the automation degree and the working efficiency are high.

Description

USB moves cuts out bonding wire machine

Technical Field

The utility model relates to the technical field of wire welding equipment, in particular to a USB wire moving and cutting machine.

Background

USB is a common interface, and the most common welding device for welding a USB connector to a data line is an automatic soldering machine, which mainly uses a manipulator motion function to complete soldering. The core part of the automatic tin soldering machine is a tin soldering system which mainly comprises an automatic tin feeding mechanism, a temperature control, a heating body and a soldering iron head.

An automatic soldering tin machine for welding a USB interface in the prior art only adopts traditional soldering tin equipment, does not have the automatic feeding and discharging function, needs manual operation to carry out feeding and discharging, and manual operation directly adopts soldering tin equipment to realize soldering tin after putting neatly, can not realize assembly line welding, leads to work efficiency low.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a USB wire moving and cutting welding machine, which aims to solve the technical problems that the traditional automatic soldering machine cannot realize automatic feeding and discharging and is poor in automation degree.

The embodiment of the utility model adopts the following technical scheme: the welding device comprises a welding installation cabinet, a pay-off rack, a rotary tin-sticking mechanism, a wire stripping knife rest, a rotary wire feeding mechanism and a welding mechanism, wherein the pay-off rack, the rotary tin-sticking mechanism, the wire stripping knife rest, the rotary wire feeding mechanism and the welding mechanism are sequentially arranged on the welding installation cabinet.

Furthermore, the rotary tin-sticking mechanism comprises a shelling part, the shelling part comprises a shelling rail, a shelling sliding block, a pressing driving electric cylinder and a shelling driving electric cylinder, the shelling part is arranged on one side of the wire stripping knife rest, the shelling sliding block is arranged on the shelling rail and is in sliding connection with the shelling rail, the pressing block is arranged at the output end of the pressing driving electric cylinder, the pressing driving electric cylinder is fixedly arranged on the shelling sliding block, the shelling driving electric cylinder is fixedly arranged on the shelling rail, and the shelling sliding block is arranged at the output end of the shelling driving electric cylinder.

Furthermore, the rotary tin-sticking mechanism further comprises a rotary driving motor and a solder storage component, wherein the output end of the rotary driving motor is connected with the shelling rail, the solder storage component is arranged below the shelling component, and the solder storage component comprises a soldering flux storage box and a molten tin material storage box.

Furthermore, rotatory tin mechanism that glues still includes line length control unit, line length control unit includes line length control track, line length control slider and line length control electric cylinder, line length control slider sets up on line length control track and with line length control track sliding connection, line length control electric cylinder is fixed to be set up in the orbital one end of line length control, line length control slider locates on the output end of line length control electric cylinder, the rotatory driving motor is fixed to be set up on line length control slider.

Further, the wire stripping tool rest comprises a tool mounting frame, two tool mounting blocks and two tool driving devices, the tool mounting blocks are connected with the tool mounting frame in a sliding mode, the tool driving devices are connected with the tool mounting blocks in a transmission mode, each tool mounting block is fixedly provided with a cutting blade and a shell cutting blade, the shell cutting blades on each tool mounting block are arranged between the two shell cutting blades, the two cutting blades are arranged correspondingly, the shell cutting blades on each tool mounting block correspond to the shell cutting blades on the other tool mounting block, and the length of each cutting blade is larger than that of each shell cutting tool.

Furthermore, the rotary wire feeding mechanism comprises a wire feeding track, a wire feeding sliding block, a wire feeding driving electric cylinder, a rotary wire feeding motor and a mechanical clamp, wherein the wire feeding sliding block is arranged on the wire feeding track and is in sliding connection with the wire feeding track, the wire feeding sliding block is arranged at the output end of the wire feeding driving electric cylinder, the rotary wire feeding motor is fixedly arranged on the wire feeding sliding block, and the mechanical clamp is connected with the output end of the rotary wire feeding motor.

Furthermore, the welding mechanism comprises a welding head, a welding operation table, a USB vibration disc, a sucker, an unloading driving electric cylinder and an unloading slide way, wherein the welding operation table is arranged below the welding head, a discharge hole of the USB vibration disc is arranged on the welding operation table, the unloading slide way is arranged on one side of the welding operation table, and the sucker is in transmission connection with the unloading driving electric cylinder.

The embodiment of the utility model adopts at least one technical scheme which can achieve the following beneficial effects:

firstly, the data wire is automatically fed through the pay-off rack, the data wire is conveyed to the wire stripping knife rest through the rotary tin adhering mechanism to be cut and stripped, then the part of the exposed battery core is adhered with tin through the rotary tin adhering mechanism, the processed data wire is pulled to the welding mechanism through the rotary wire conveying mechanism to be welded, and then the welded data wire is automatically blanked through arranging the sucking disc and the blanking slideway in the welding mechanism, so that the flow line welding is realized, the automation degree of the data wire welding is improved, and the working efficiency is improved.

Secondly, the shell cutting blade and the cutting blade are arranged on one cutter mounting block, the two cutter mounting blocks are driven to mutually approach through the cutter driving device to finish cutting the wire and cutting the rubber shell, and one driving action is used for finishing two working procedures, so that the wire processing action is simplified, and the wire processing efficiency is improved.

Thirdly, the embodiment of the utility model drives the wire rod to move by matching the rotary driving motor with the unshelling driving electric cylinder, so that one end of the wire rod, which is exposed out of the electric core, is sequentially stained with the soldering flux and the molten tin material, when the USB head needs to be connected to the wire rod subsequently, the exposed electric core on the wire rod is heated and touches the corresponding soldering point of the USB head, so that the USB head is soldered on the wire rod, additional solder is not needed, the time for preparing the solder is saved, the subsequent soldering process is facilitated, and the soldering efficiency is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is a schematic view of a first angular structure of the rotary tin-coating mechanism according to the present invention;

FIG. 4 is a second angular structure diagram of the rotary tin-coating mechanism according to the present invention;

FIG. 5 is a schematic perspective view of a hulling unit according to the present invention;

fig. 6 is a schematic perspective view of a wire stripping tool holder according to the present invention;

FIG. 7 is a perspective view of the rotary wire feeding mechanism of the present invention;

fig. 8 is a perspective view of the welding mechanism of the present invention.

Reference numerals

The welding installation cabinet 1, a pay-off rack 2, a rotary tin-sticking mechanism 3, a shelling part 31, a shelling rail 311, a shelling slider 312, a pressing block 313, a pressing driving electric cylinder 314, a shelling driving electric cylinder 315, a rotary driving motor 32, a solder storage part 33, a soldering flux storage box 331, a molten tin material storage box 332, a wire length control part 34, a wire length control rail 341, a wire length control slider 342, a wire length control electric cylinder 343, a wire stripping tool holder 4, a tool mounting frame 41, a tool mounting block 42, a cutting blade 421, a shell cutting blade 422, a tool driving device 43, a rotary wire feeding mechanism 5, a wire feeding rail 51, a wire feeding slider 52, a wire feeding driving electric cylinder 53, a rotary wire feeding motor 54, a mechanical clamp 55, a welding mechanism 6, a welding head 61, a welding operation table 62, a USB vibrating disk 63, a suction cup 64, a blanking driving electric cylinder 65 and a blanking slideway 66.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the utility model, and not restrictive of the full scope of the utility model. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

The embodiment of the utility model provides a USB wire moving and cutting welding machine which comprises a welding installation cabinet 1, a pay-off rack 2, a rotary tin adhering mechanism 3, a wire stripping knife rest 4, a rotary wire feeding mechanism 5 and a welding mechanism 6, wherein the pay-off rack 2, the rotary tin adhering mechanism 3, the wire stripping knife rest 4, the rotary wire feeding mechanism 5 and the welding mechanism 6 are sequentially arranged on the welding installation cabinet 1, a data wire extends out of the pay-off rack 2 in use and sequentially passes through the rotary tin adhering mechanism 3, the wire stripping knife rest 4, the rotary wire feeding mechanism 5 and the welding mechanism 6, the data wire is conveyed to the wire stripping knife rest 4 through the rotary tin adhering mechanism 3 to be stripped, then the rotary tin adhering mechanism 3 adheres tin to the part where a battery core is exposed, and the processed data wire is pulled to the welding mechanism 6 through the rotary wire feeding mechanism 5 to be welded.

Preferably, the rotary tin-sticking mechanism 3 includes a shelling part 31, the shelling part 31 includes a shelling rail 311, a shelling slider 312, a pressing block 313, a pressing driving electric cylinder 314 and a shelling driving electric cylinder 315, the shelling part 31 is disposed on one side of the stripping tool rest 4, the shelling slider 312 is disposed on the shelling rail 311 and is slidably connected with the shelling rail 311, the pressing block 313 is disposed at an output end of the pressing driving electric cylinder 314, the pressing driving electric cylinder 314 is fixedly disposed on the shelling slider 312, the shelling driving electric cylinder 315 is fixedly disposed on the shelling rail 311, the shelling slider 312 is disposed at an output end of the shelling driving electric cylinder 315, in the usage of the patent, a wire is located between the pressing block 313 and the shelling slider 312, the pressing block 313 is driven by the pressing driving electric cylinder 314 to move toward the shelling slider 312 so that the pressing block 313 and the shelling slider 312 are pressed and fixed, one end of the wire rod extends out of the wire stripping knife rest 4, the wire stripping knife rest 4 cuts the rubber shell at one end of the wire rod, then the shelling driving electric cylinder 315 drives the shelling sliding block 312 to move, so that the cut rubber shell is separated from the wire rod, the automation degree is high, and manual shelling of the wire rod is not needed.

Preferably, the rotary tin-sticking mechanism 3 further comprises a rotary driving motor 32 and a solder storage part 33, an output end of the rotary driving motor 32 is connected to the shelling rail 311, the solder storage part 33 is arranged below the shelling part 31, the solder storage part 33 comprises a soldering flux storage box 331 and a molten tin material storage box 332, the soldering flux storage box 331 contains soldering flux, the molten tin material storage box 332 contains molten tin material, after shelling is completed on one end of the wire, the rotary driving motor 32 drives the shelling rail 311 to rotate, so that the shelling rail 311 drives one end of the wire compressed by the compression block 313 to rotate to the soldering flux storage box 331, the shelling driving cylinder 315 drives the shelling slider 312 to move towards the soldering flux storage box 331, the shelling slider 312 drives one end of the wire to dip the soldering flux in the flux storage box 331, then the shelling driving cylinder 315 drives one end of the wire rod exposed out of the electric core to leave the soldering flux storage box 331, the rotary driving motor 32 continuously drives the shelling rail 311 to rotate so that one end of the wire rod exposed out of the electric core comes to a position corresponding to the molten tin material storage box 332, then the shelling driving cylinder 315 drives the shelling sliding block 312 to move, the shelling sliding block 312 drives one end of the wire rod exposed out of the electric core to be dipped in the molten tin material storage box 332, the shelling driving cylinder 315 drives the wire rod to leave the molten tin material storage box 332, the rotary driving motor 32 drives the shelling part 31 to return to the position where the wire rod is shelled, thus the rotary driving motor 32 is matched with the shelling driving cylinder 315 to drive the wire rod to move, so that one end of the wire rod exposed out of the electric core is sequentially dipped in the soldering flux and the molten tin material, when the USB head is required to be connected to the wire rod subsequently, the exposed electric core on the wire rod is heated and the welding point corresponding to the USB head, the USB head is welded on the wire rod without additionally using welding flux, so that the time for preparing the welding flux is saved, the subsequent welding process is facilitated, and the welding efficiency is improved.

Preferably, the rotary tin-sticking mechanism 3 further comprises a wire length control component 34, the wire length control component 34 comprises a wire length control track 341, a wire length control slider 342 and a wire length control electric cylinder 343, the wire length control slider 342 is disposed on the wire length control track 341 and is slidably connected with the wire length control track 341, the wire length control electric cylinder 343 is fixedly disposed at one end of the wire length control track 341, the wire length control slider 342 is disposed on an output end of the wire length control electric cylinder 343, the rotary driving motor 32 is fixedly disposed on the wire length control slider 342, during the use of the patent, the wire length control slider 342 is driven by the wire length control electric cylinder 343 to move on the wire length control track 341, the wire length control slider 342 moves to drive the rotary driving motor 32 to move, the rotary driving motor 32 moves to drive the shelling length track 311 to move, the shelling length track 311 moves to drive the wire clamped by the shelling length slider 312 and the pressing block 313 to move, thereby controlling the length of wire extending into the wire stripping blade holder 4.

Preferably, the wire stripping blade holder 4 includes a blade mounting frame 41, two blade mounting blocks 42 and two blade driving devices 43, the blade mounting block 42 is slidably connected to the blade mounting frame 41, the blade driving devices 43 are in transmission connection with the blade mounting block 42, two blade mounting blocks 42 are provided, each blade mounting block 42 is fixedly provided with a cutting blade 421 and a shell cutting blade 422, two shell cutting blades 422 are provided on each blade mounting block 42, the cutting blade 421 on each blade mounting block 42 is provided between the two shell cutting blades 422, the two cutting blades 421 are correspondingly provided, the shell cutting blade 422 on each blade mounting block 42 is corresponding to the shell cutting blade 422 on the other blade mounting block 42, the length of the cutting blade 421 is greater than that of the shell cutting blade, when the wire stripping blade holder 4 works, the wire stripping part 31 extends one end of the wire into the wire stripping blade holder 4, the cutter driving device 43 drives the two cutter mounting blocks 42 to fold each other, so that the cutting blades 421 and the shell cutting blades 422 on the two cutter mounting blocks 42 are close to each other, the pair of cutting blades 421 fold each other to cut off the wire firstly, then the two pairs of shell cutting blades 422 cut the plastic shell at one end of the wire, the shell removing part 31 peels the cut plastic shell of the wire, so that one end of the wire is exposed out of the battery cell, the cutter driving device 43 drives the two cutter mounting blocks 42 to separate from each other, the two shell cutting blades 422 and the one cutting blade 421 are fixed on one cutter mounting block 42 at the same time, the two cutter mounting blocks 42 are driven to approach each other by the cutter driving device 43 to finish the cutting of the wire and the cutting of the plastic shell, one driving action finishes two processes, the wire processing action is simplified, and the processing efficiency of the wire is improved.

Preferably, the rotary wire feeding mechanism 5 includes a wire feeding rail 51, a wire feeding slider 52, a wire feeding driving electric cylinder 53, a rotary wire feeding motor 54 and a mechanical clamp 55, the wire feeding slider 52 is disposed on the wire feeding rail 51 and slidably connected to the wire feeding rail 51, the wire feeding slider 52 is disposed at an output end of the wire feeding driving electric cylinder 53, the rotary wire feeding motor 54 is fixedly disposed on the wire feeding slider 52, the mechanical clamp 55 is connected to an output end of the rotary wire feeding motor 54, the wire feeding driving electric cylinder 53 drives the wire feeding slider 52 to move on the wire feeding rail 51, the wire feeding slider 52 moves with the rotary wire feeding motor 54 and the mechanical clamp 55, the mechanical clamp 55 is provided at the wire stripping blade holder 4, the mechanical clamp 55 clamps one end of the wire rod of the electric core, the wire feeding driving electric cylinder 53 drives the mechanical clamp 55 to move so that the mechanical clamp 55 leaves the wire stripping blade holder 4, and pulls out the wire rod to a required distance, the wire stripping blade 4 is operated to cut the wire, the rotary wire feeding motor 54 drives the mechanical clamp 55 to rotate with the cut wire, and then the wire feeding driving cylinder 53 continues to drive the mechanical clamp 55 to move so that the wire is fed to the welding mechanism 6 to perform the welding process.

Preferably, the welding mechanism 6 comprises a welding head 61, a welding operation table 62, a USB vibration disc 63, a suction cup 64, a blanking driving electric cylinder 65 and a blanking slideway 66, the welding operation table 62 is arranged below the welding head 61, a discharge port of the USB vibration disc 63 is arranged on the welding operation table 62, the blanking slideway 66 is arranged at one side of the welding operation table 62, the suction cup 64 is in transmission connection with the blanking driving electric cylinder 65, before the wire comes to the welding operation table 62, the blanking driving electric cylinder 65 drives the suction cup 64 to come to an outlet end of the USB vibration disc 63 to suck the USB connector and place the USB connector right below the welding head 61, then the wire feeding driving electric cylinder 53 drives the mechanical clamp 55 to come to the welding operation table 62, after the wire and the USB connector are welded together by the welding head 61, the blanking driving electric cylinder 65 drives the suction cup 64 to come to a position of the USB connector, the suction cup 64 sucks the welded wire and the USB connector, the blanking driving electric cylinder 65 continues to drive the suction cup 64 to drive the welded wire and the welded USB connector to come to the blanking slideway 66, then the suction cup 64 is loosened, and the welded wire and the welded USB connector fall on the blanking slideway 66 to collect materials.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (7)

1. The utility model provides a USB moves sanction bonding machine which characterized in that includes: the welding installation cabinet (1), the pay-off rack (2), the rotary tin sticking mechanism (3), the wire stripping knife rest (4), the rotary wire feeding mechanism (5) and the welding mechanism (6) are sequentially arranged on the welding installation cabinet (1).

2. A USB wire transfer and cutting machine according to claim 1, characterized in that the rotary tin-sticking mechanism (3) comprises a peel-off part (31), the shelling part (31) comprises a shelling rail (311), a shelling slide block (312), a pressing block (313), a pressing driving electric cylinder (314) and a shelling driving electric cylinder (315), the shelling part (31) is arranged on one side of the stripping knife rest (4), the shelling slide block (312) is arranged on the shelling rail (311) and is connected with the shelling rail (311) in a sliding manner, the pressing block (313) is arranged at the output end of the pressing driving electric cylinder (314), the pressing driving electric cylinder (314) is fixedly arranged on the hulling slide block (312), the shelling driving electric cylinder (315) is fixedly arranged on the shelling rail (311), the shelling slide block (312) is arranged at the output end of the shelling driving electric cylinder (315).

3. A USB wire transfer machine according to claim 2, wherein the rotary tin-sticking mechanism (3) further comprises a rotary driving motor (32) and a solder storage member (33), an output end of the rotary driving motor (32) is connected to the shelling rail (311), the solder storage member (33) is disposed below the shelling member (31), and the solder storage member (33) comprises a flux storage box (331) and a molten tin storage box (332).

4. The USB wire transfer-cutting welding machine according to claim 3, characterized in that the rotary tin-sticking mechanism (3) further comprises a wire length control member (34), the wire length control member (34) comprises a wire length control track (341), a wire length control slider (342) and a wire length control electric cylinder (343), the wire length control slider (342) is arranged on the wire length control track (341) and is slidably connected with the wire length control track (341), the wire length control electric cylinder (343) is fixedly arranged at one end of the wire length control track (341), the wire length control slider (342) is arranged at the output end of the wire length control electric cylinder (343), and the rotary driving motor (32) is fixedly arranged on the wire length control slider (342).

5. A USB wire cutting and welding machine according to claim 1, wherein the wire stripping blade holder (4) comprises a blade mounting bracket (41), two blade mounting blocks (42) and a blade driving device (43), the blade mounting block (42) is slidably connected to the blade mounting bracket (41), the blade driving device (43) is drivingly connected to the blade mounting block (42), two blade mounting blocks (42) are provided, each blade mounting block (42) is fixedly provided with a cutting blade (421) and a casing cutting blade (422), two casing cutting blades (422) are provided on each blade mounting block (42), the cutting blade (421) on each blade mounting block (42) is provided between the two casing cutting blades (422), the two cutting blades (421) are provided corresponding to each other, and the casing cutting blade (422) on each blade mounting block (42) is opposite to the casing cutting blade (422) on the other blade mounting block (42) The length of the cutting blade (421) is larger than that of the shell cutting tool.

6. The USB wire transfer and cutting machine according to claim 1, wherein the rotary wire feeding mechanism (5) comprises a wire feeding rail (51), a wire feeding slider (52), a wire feeding driving electric cylinder (53), a rotary wire feeding motor (54) and a mechanical clamp (55), the wire feeding slider (52) is arranged on the wire feeding rail (51) and is connected with the wire feeding rail (51) in a sliding manner, the wire feeding slider (52) is arranged at the output end of the wire feeding driving electric cylinder (53), the rotary wire feeding motor (54) is fixedly arranged on the wire feeding slider (52), and the mechanical clamp (55) is connected with the output end of the rotary wire feeding motor (54).

7. The USB wire moving and cutting machine according to claim 1, wherein the welding mechanism (6) comprises a welding head (61), a welding operation table (62), a USB vibrating disc (63), a suction disc (64), a blanking driving electric cylinder (65) and a blanking slide way (66), the welding operation table (62) is arranged below the welding head (61), a discharge hole of the USB vibrating disc (63) is arranged on the welding operation table (62), the blanking slide way (66) is arranged on one side of the welding operation table (62), and the suction disc (64) is in transmission connection with the blanking driving electric cylinder (65).

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