CN213033838U - Automatic peeling and tin soldering machine for data lines - Google Patents

Abstract

The utility model relates to an automatic peeling and tin soldering machine for data lines, which solves the technical problems of low processing efficiency, high labor cost and low product percent of pass of the traditional data line tin soldering, and comprises a workbench, wherein the foremost end of the workbench is provided with a transmission mechanism, the rear side of the transmission mechanism is sequentially provided with a line clamping mechanism, a cutting and peeling mechanism, a tin soldering mechanism, a material pushing mechanism and a tin feeding mechanism from the initial end to the tail end of the transmission mechanism, and a line pressing mechanism for pressing and positioning the data lines processed by the line clamping mechanism, the cutting and peeling mechanism and the tin soldering mechanism is also arranged above the transmission mechanism; still be equipped with on the workstation with the last vibration dish of the feedstock channel intercommunication that is equipped with of pushing equipment and with aforementioned mechanism electric connection's controller, but this equipment wide application in soldering tin machine technical field.

Description

Automatic peeling and tin soldering machine for data lines

Technical Field

The utility model belongs to the technical field of the soldering tin machine, concretely relates to automatic soldering tin machine of skinning of data line.

Background

With the popularization of mobile phones, people have more and more demands on data lines. In the production process of the receipt line, the conductive terminal and the wire material need to be soldered. The traditional data line soldering processing is generally finished by a semi-automatic method, so that the efficiency is low, the labor cost is high, and the product percent of pass is low.

Disclosure of Invention

The utility model discloses shortcoming and not enough to exist among the prior art, provided an automatic soldering tin machine of skinning of data line that degree of automation is high, product yield is high, low in production cost.

The utility model provides an automatic peeling and tin soldering machine for data wires, which comprises a workbench, wherein the foremost end of the workbench is provided with a transmission mechanism, the rear side of the transmission mechanism is sequentially provided with a wire clamping mechanism, a cutting and peeling mechanism, a tin soldering mechanism, a material pushing mechanism and a tin feeding mechanism from the beginning to the end of the transmission mechanism, and a wire pressing mechanism for pressing and positioning the data wires processed by the wire clamping mechanism, the cutting and peeling mechanism and the tin soldering mechanism is also arranged above the transmission mechanism; the workbench is also provided with a vibration disc communicated with a feeding channel arranged on the pushing mechanism and a controller electrically connected with the mechanism.

Preferably, the transmission mechanism is provided with a transmission motor, the transmission motor drives a transmission chain meshed and connected with a gear to transmit forwards through the gear, a plurality of wire clamping carriers for placing data wires are uniformly arranged on the transmission chain along the transmission direction of the transmission chain, and a front mounting plate is arranged on the front side of the transmission chain; a rear mounting plate is arranged on the rear side of the transmission chain, and an operating platform is arranged at the upper end of the front mounting plate; transport mechanism sets firmly on the workstation through the support column of locating on the back mounting panel, transmission motor passes through the motor fixed plate and installs on the workstation, and the upper end of motor fixed plate is equipped with blows tin solenoid valve.

Preferably, the wire clamping mechanism includes wire clamping cylinder, and the spout that wire clamping cylinder lower extreme was equipped with, the spout erects on the guide rail of mounting bracket up end, and the rear end face of mounting bracket is equipped with wire clamping telescopic cylinder, and wire clamping telescopic cylinder's telescopic link front end is fixed at wire clamping cylinder's rear end face, wire clamping cylinder's two indicate the front end to be equipped with and to be used for carrying out the wire clamping blade of flare-outing to the data line on the card line carrier, and wire clamping mechanism sets firmly on the workstation through the mounting bracket.

Preferably, the cutting and peeling mechanism comprises a cutting cylinder and a peeling cylinder, the lower ends of the cutting cylinder and the peeling cylinder are respectively provided with a chute fixing plate, a chute matched with a slide rail fixed on the support frame is arranged below the chute fixing plate, the rear end of the support frame is provided with a cutting displacement cylinder and a peeling displacement cylinder, and the front ends of push rods of the cutting displacement cylinder and the peeling displacement cylinder are respectively connected with the chute fixing plates at the lower ends of the cutting cylinder and the peeling cylinder; the front ends of the two claws of the cutting cylinder and the peeling cylinder are respectively provided with a cutting blade and a peeling blade in pairs; the cutting and peeling mechanism is fixedly arranged on the workbench through a support frame.

Preferably, the tin soldering mechanism comprises a supporting table, a sliding rail is arranged on the upper surface of the supporting table, a sliding groove matched with the sliding rail is erected on the sliding rail, a sliding groove positioning plate is fixedly arranged on the upper surface of the sliding groove, a tin soldering displacement cylinder is fixedly arranged on the rear side of the upper surface of the supporting table, the front end of a push rod of the tin soldering displacement cylinder is fixedly connected with the rear end face of the sliding groove positioning plate, a tin soldering lifting cylinder fixing plate is arranged on the upper end face of the sliding groove positioning plate, a rail is arranged on the front side of the tin soldering lifting cylinder fixing plate, a sliding groove displacement plate matched with the rail is arranged on the rail, a tin soldering lifting cylinder is further arranged at the upper end of the front side of the tin soldering lifting cylinder fixing plate, the front; one side of spout locating plate is equipped with the suspension, is equipped with the liftout subassembly on the suspension, the liftout subassembly includes the liftout cylinder, the cylinder body up end of liftout cylinder sets firmly in the lower terminal surface of ejector pin slide, the up end of ejector pin slide is equipped with conductive terminal mounting groove, the push rod front end of liftout cylinder is equipped with the liftout pole, the front end of liftout pole is equipped with the ladder groove, the liftout pole can go up and down in the ejector pin slide under the flexible drive of push rod of liftout cylinder, the ladder groove of the front end of the liftout pole that rises just in time can withstand the conductive terminal in the conductive terminal mounting groove.

Preferably, the pushing mechanism comprises a fixed table which is fixedly arranged on the workbench; a feeding channel is arranged at the upper end of the fixed table, and a material distributing assembly is arranged at the front end of the feeding channel; the material distributing assembly comprises a material distributing cylinder fixing plate, the bottom end of the material distributing cylinder fixing plate is fixedly arranged on a workbench, a material distributing cylinder and a material distributing rod slide way are fixedly arranged on the side face of the material distributing cylinder fixing plate, a material distributing rod is arranged at the front end of a push rod of the material distributing cylinder, the material distributing rod is lifted in the material distributing rod slide way, a conductive terminal through groove in butt joint with the front end of a feeding channel is formed in the front end of the material distributing rod, a material pushing cylinder is fixedly arranged on one side of the material distributing cylinder fixing plate, a connecting arm is arranged at the push rod of the material pushing cylinder, a material pushing plate is arranged on the connecting arm, the height of the material pushing plate is the same as that of the conductive terminal through groove at the top end of the material distributing rod driven to rise by the material distributing cylinder.

Preferably, the tin feeding mechanism comprises a tin feeding support frame, the bottom end of the tin feeding support frame is fixedly arranged on the workbench, and a tin coil is arranged at the top end of the tin feeding support frame; one side of the tin feeding support frame is provided with a tin feeding motor, the opposite side is provided with a tin feeding device, and the tin feeding device is connected with the motor.

Preferably, the line pressing mechanism comprises a transverse plate, the transverse plate is fixedly arranged on a rear mounting plate of the conveying mechanism through a supporting plate, a line pressing plate stretching across the line clamping mechanism, the cutting and peeling mechanism, the tin soldering mechanism and the material pushing mechanism is further arranged at the front end of the supporting plate, a line pressing block is arranged above a line clamping carrier corresponding to a peeling blade of the cutting and peeling mechanism, and the line pressing block is directly driven by a line pressing cylinder fixedly arranged at the upper end of the transverse plate. And an auxiliary cylinder is arranged on the transverse plate and at the position matched with the soldering mechanism, a fixing frame is arranged on a push rod of the auxiliary cylinder, and a tin feeding pipe and a pressing line upper claw are arranged on the fixing frame.

Preferably, a blanking slide way for blanking the data line after soldering is further arranged at the conveying tail end of the conveying mechanism on the workbench.

Preferably, a waste material groove for collecting the waste materials after cutting and peeling is arranged between the cutting and peeling mechanism and the conveying mechanism.

The utility model has the advantages that:

the utility model discloses an automatic soldering tin machine of skinning of data line, it has solved the traditional data line soldering tin machining efficiency of problem low, the human cost is high, and the technical problem that the product percent of pass is low.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the front structure of the transfer mechanism;

FIG. 3 is a schematic view of the back side of the transport mechanism;

FIG. 4 is a schematic structural view of the wire clamping mechanism;

FIG. 5 is a schematic view of a cutting and peeling mechanism;

FIG. 6 is a schematic structural view of a soldering mechanism;

FIG. 7 is a schematic structural view of a topping assembly;

FIG. 8 is a schematic view of the construction of the ejector pin;

FIG. 9 is a view of the dispensing lever of the pusher mechanism moving to a lower end point;

FIG. 10 is a state diagram of the discharge chute of the pusher mechanism moving to an upper end point;

FIG. 11 is a view of the pusher mechanism interfacing with the ejector assembly of the soldering mechanism;

FIG. 12 is a schematic structural view of a tin feeding mechanism;

fig. 13 is a schematic structural view of the wire pressing mechanism.

The labels in the figure are: 1. a work table; 2. a transport mechanism; 3. a wire clamping mechanism; 4. a cutting and peeling mechanism; 5. a soldering mechanism; 6. a material pushing mechanism; 7. a tin feeding mechanism; 8. a wire pressing mechanism; 9. a vibrating pan; 10. a controller; 11. a blanking slideway; 21. a drive motor; 22. a drive chain; 23. a wire clamping carrier; 24. a front mounting plate; 25. a rear mounting plate; 26. an operating platform; 27. a support pillar; 28. a motor fixing plate; 29. a tin blowing electromagnetic valve; 31. a wire clamping cylinder; 32. a mounting frame; 33. a guide rail; 34. a wire clamping telescopic cylinder; 35. a wire clamping blade; 41. a cutting cylinder; 42. a peeling cylinder; 43. a chute fixing plate; 44. a support frame; 45. a slideway; 46. a cutting displacement cylinder; 47. a peeling displacement cylinder; 48. cutting a blade; 49. a peeling blade; 50. a material ejecting component; 51. a support table; 52. a slide rail; 53. a chute positioning plate; 54. a tin soldering displacement cylinder; 55. soldering a tin lifting cylinder fixing plate; 56. a track; 57. a chute displacement plate; 58. a tin soldering lifting cylinder; 59. a cantilever; 510. soldering iron; 511. a suspension; 501. a material ejection cylinder; 502. a push rod slideway; 503. a conductive terminal mounting groove; 504. a lifter bar; 505. a stepped groove; 506. a conductive terminal; 61. a fixed table; 62. a feed channel; 63. a material distributing cylinder fixing plate; 64. a material distributing cylinder; 65. a feed bar chute; 66. a material distributing rod; 67. a conductive terminal through groove; 68. a material pushing cylinder; 69. a connecting arm; 610. a material pushing plate; 71. feeding a tin support frame; 72. tin rolling; 73. a tin feeding motor; 74. a tin feeder; 81. a transverse plate; 82. a support plate; 83. a wire pressing plate; 84. a line pressing block; 85. a wire pressing cylinder; 86. an auxiliary cylinder; 87. a fixed mount; 88. feeding a tin tube; 89. and pressing the wire to form a claw.

Detailed Description

As shown in fig. 1, the utility model provides an automatic peeling and soldering machine for data lines, which comprises a workbench 1, wherein the foremost end of the workbench 1 is provided with a transmission mechanism 2, the rear side of the transmission mechanism 2 is sequentially provided with a wire clamping mechanism 3, a cutting and peeling mechanism 4, a soldering mechanism 5, a material pushing mechanism 6 and a tin feeding mechanism 7 from the transmission starting end to the transmission tail end of the transmission mechanism 2, and a wire pressing mechanism 8 for pressing and positioning the data lines processed by the wire clamping mechanism 3, the cutting and peeling mechanism 4 and the soldering mechanism 5 is also arranged above the transmission mechanism 2; the worktable 1 is also provided with a vibration disc 9 communicated with a feeding channel 62 arranged on the pushing mechanism 6 and a controller 10 electrically connected with the mechanisms.

As shown in fig. 2-3, the transmission mechanism 2 includes a transmission motor 21, the transmission motor 21 drives a transmission chain 22 engaged with a gear to transmit forward through the gear, a plurality of wire-clamping carriers 23 for placing data wires are uniformly arranged on the transmission chain 22 along the transmission direction, and a front mounting plate 24 is arranged on the front side of the transmission chain 22; the rear side of the transmission chain 22 is provided with a rear mounting plate 25, and the upper end of the front mounting plate 24 is provided with an operating platform 26. The operation platform 26 can make the long data line placed on the card line carrier 23 more stable to prevent the long data line from falling.

Transport mechanism 2 sets firmly on workstation 1 through locating support column 27 on the back mounting panel 25, driving motor 21 passes through motor fixing plate 28 and installs on workstation 1, and motor fixing plate 28's upper end is equipped with blows tin solenoid valve 29, blows tin solenoid valve 29 and can make the soldering tin fast drying on the data line after the welding.

As shown in fig. 4, the wire clamping mechanism 3 includes a wire clamping cylinder 31, a sliding groove is provided at a lower end of the wire clamping cylinder 31, the sliding groove is erected on a guide rail 33 at an upper end surface of the mounting frame 32, a wire clamping telescopic cylinder 34 is provided at a rear end surface of the mounting frame 32, a front end of a telescopic rod of the wire clamping telescopic cylinder 34 is fixedly provided at a rear end surface of the wire clamping cylinder 31, and a wire clamping blade 35 for straightening a data wire on the wire clamping carrier 23 is provided at a front end of two fingers of the wire clamping cylinder 31. The thread clamping mechanism 3 is fixedly arranged on the workbench 1 through a mounting frame 32.

As shown in fig. 5, the cutting and peeling mechanism 4 includes a cutting cylinder 41 and a peeling cylinder 42, the lower ends of the cutting cylinder 41 and the peeling cylinder 42 are respectively provided with a chute fixing plate 43, a chute matched with a chute 45 fixedly arranged on a supporting frame 44 is arranged below the chute fixing plate 43, the rear end of the supporting frame 44 is provided with a cutting displacement cylinder 46 and a peeling displacement cylinder 47, and the front ends of push rods of the cutting displacement cylinder 46 and the peeling displacement cylinder 47 are respectively connected with the chute fixing plates 43 arranged at the lower ends of the cutting cylinder 41 and the peeling cylinder 42; the front ends of the two claws of the cutting cylinder 41 and the peeling cylinder 42 are respectively provided with a cutting blade 48 and a peeling blade 49 in pairs. The cutting and peeling mechanism 4 is fixedly arranged on the workbench 1 through a support frame 44. The cutting and peeling mechanism 4 is used for performing end trimming processing on the data wire on the wire clamping carrier 23 transmitted by the transmission mechanism 2 and peeling processing on the trimmed data wire end to expose the wire part.

As shown in fig. 6, the soldering mechanism 5 includes a supporting platform 51, a slide rail 52 is disposed on an upper surface of the supporting platform 51, a slide slot matching with the slide rail 52 is mounted on the slide rail 52, a slide slot positioning plate 53 is fixedly disposed on the upper surface of the slide slot, a soldering tin displacement cylinder 54 is fixedly disposed on a rear side of the upper surface of the supporting platform 51, a front end of a push rod of the soldering tin displacement cylinder 54 is fixedly connected with a rear end surface of the slide slot positioning plate 53, and a soldering tin lifting cylinder fixing plate 55 is disposed on an upper end surface; the front side of soldering tin lift cylinder fixed plate 55 is equipped with track 56, is equipped with rather than matched with spout displacement plate 57 on the track 56, and the front side upper end of soldering tin lift cylinder 58 fixed plate still is equipped with soldering tin lift cylinder 58, and the push rod front end and the spout displacement plate 57 fixed connection of soldering tin lift cylinder 58, and one side of spout displacement plate 57 is equipped with cantilever 59, has set firmly flatiron 510 on the cantilever 59.

In addition, a suspension 511 is arranged on one side of the chute positioning plate 53, and a material ejecting assembly 50 is arranged on the suspension 511, as shown in fig. 6-7, the material ejecting assembly 50 includes a material ejecting cylinder 501, an upper end surface of a cylinder body of the material ejecting cylinder 501 is fixedly arranged on a lower end surface of the ejector rod slideway 502, an electrically conductive terminal mounting groove 503 is arranged on an upper end surface of the ejector rod slideway 502, and an ejecting rod 504 is arranged at a front end of a pushing rod of the material ejecting cylinder 501. As shown in fig. 8, a stepped groove 505 is provided at the front end of the ejector rod 504, and the ejector rod 504 can be driven by the extension and contraction of the push rod of the ejector cylinder 501 to lift in the ejector rod slideway 502; after the ejector rod 504 is lifted, the stepped groove 505 at the front end just can abut against the conductive terminals 506 in the conductive terminal mounting groove 503 to position the conductive terminals 506. The soldering mechanism 5 is used for soldering the exposed conductor portion of the data wire in the wire clamping carrier 23 and the conductive terminal 506 in the conductive terminal mounting groove 503.

As shown in fig. 9, the pushing mechanism 6 includes a fixing table 61, and the fixing table 61 is fixed on the work table 1; the upper end of the fixed table 61 is provided with a feeding channel 62, and conductive terminals 506 waiting for welding are sequentially arranged in the groove of the feeding channel 62. The front end of the feeding channel 62 is provided with a material distributing component; the material distributing assembly comprises a material distributing cylinder fixing plate 63, the bottom end of the material distributing cylinder fixing plate 63 is fixedly arranged on the workbench 1, a material distributing cylinder 64 and a material distributing rod slide way 65 are fixedly arranged on the side surface of the material distributing cylinder fixing plate 63, a material distributing rod 66 is arranged at the front end of a push rod of the material distributing cylinder 64, a conductive terminal through groove 67 is dug at the front end of the material distributing rod 66, and the material distributing rod 66 can be driven by the push rod of the material distributing cylinder 64 to lift in the material distributing rod slide way 65; when the distributing rod 66 moves to the lower end point, the conductive terminal through groove 67 at the front end of the distributing rod 66 is just butted with the front end of the feeding channel 62, i.e. the conductive terminal 506 at the foremost end in the groove of the feeding channel 62 can directly enter the conductive terminal through groove 67.

A material pushing cylinder 68 is fixedly arranged on one side of the material separating cylinder fixing plate 63, a connecting arm 69 is arranged at a push rod of the material pushing cylinder 68, a material pushing plate 610 is arranged on the connecting arm 69, the height of the material pushing plate 610 is the same as that of a conductive terminal through groove 67 at the top end of a material separating rod 66 which is driven to rise by a material separating cylinder 64, as shown in fig. 10, when the material separating rod 66 moves to an upper end point, the front end of the material pushing plate 610 pushes a conductive terminal 506 in the raised conductive terminal through groove 67, as shown in fig. 11, and then the conductive terminal 506 enters a conductive terminal placing groove 503 which is in butt joint with the conductive terminal through groove 67 under the. As shown in fig. 7, at this time, the push rod of the ejecting cylinder 501 drives the ejecting rod 504 to rise to the top point, and since the front end of the ejecting rod 504 is provided with the stepped groove 505, the material pushing plate 610 can be prevented from pushing the conductive terminals 506 out of the conductive terminal mounting groove 503, and the conductive terminals 506 in the conductive terminal mounting groove 503 can be positioned at the same time. Then, under the pushing of the push rod of the solder displacement cylinder 54 of the solder mechanism 5, the chute positioning plate 53 moves forward to the front end point, so as to drive the liftout component 50 on the solder mechanism 5 to separate from the material distributing component on the material pushing mechanism 6, and the conductive terminal 506 on the liftout component 50 is butted with the data wire end on the corresponding wire clamping carrier 23, thereby realizing the welding. After welding, the ejection cylinder 501 on the ejection assembly 50 drives the ejection rod 504 to return to the lower end point, and the soldered data line is conveyed forward along with the conveying mechanism 2. The ejector cylinder 501 on the ejector assembly 50 drives the ejector rod 504 to move to the upper end point, the solder displacement cylinder 54 of the solder mechanism 5 drives the chute positioning plate 53 to move backwards to the rear end point, and further drives the ejector assembly 50 to return to the butt joint of the conductive terminal through grooves 67 of the material distribution assembly, and the material pushing plate 610 pushes the conductive terminal 506 to the conductive terminal placing groove 503 when the next material distribution rod 66 drives the conductive terminal 506 in the conductive terminal through groove 67 to move to the upper end point.

As shown in fig. 12, the tin feeding mechanism 7 includes a tin feeding support frame 71, the bottom end of the tin feeding support frame 71 is fixedly arranged on the workbench 1, and a tin roll 72 is arranged at the top end of the tin feeding support frame 71; one side of the tin feeding support frame 71 is provided with a tin feeding motor 73, the opposite side is provided with a tin feeding device 74, and the tin feeding device 74 is connected with the tin feeding motor 73.

As shown in fig. 13, the wire pressing mechanism 8 includes a horizontal plate 81, the horizontal plate 81 is fixedly disposed on the rear mounting plate 25 of the conveying mechanism 2 through a supporting plate 82, a wire pressing plate 83 spanning the wire clamping mechanism 3, the cutting and peeling mechanism 4, the soldering mechanism 5 and the material pushing mechanism 6 is further disposed at the front end of the supporting plate 82, a wire pressing block 84 is disposed above the wire clamping carrier 23 corresponding to the peeling blade 49 of the cutting and peeling mechanism 4, and the wire pressing block 84 is directly driven by a wire pressing cylinder 85 fixedly disposed at the upper end of the horizontal plate 81. An auxiliary cylinder 86 is arranged on the transverse plate 81 and at a position matched with the soldering mechanism 5, a fixing frame 87 is arranged on a push rod of the auxiliary cylinder 86, and a tin feeding pipe 88 and a pressing line upper claw 89 are arranged on the fixing frame 87. The front end of the tin feeding tube 88 is positioned at the position to be welded of the conductive terminal 506, and the tin wire conveyed by the tin feeding mechanism 7 passes through the tin feeding tube 88. The upper claw 89 of the wire pressing is used for fixing a wire to be welded, and the wire of the data wire and the conductive terminal 506 are prevented from being dislocated at the welding position to influence the welding quality.

In addition, a blanking slide 11 for blanking the data line after soldering is finished is further arranged at the conveying tail end of the conveying mechanism 2, the blanking slide 11 is fixedly arranged on the workbench 1 through a support, and the arrangement of the blanking slide 11 is convenient for arranging and collecting the data line after soldering is finished.

Be equipped with a dirty tank between cutting peeling mechanism 4 and transport mechanism 2, the dirty tank is used for collecting the waste material of cutting the skin, prevents that the waste material from piling up on equipment, influences the normal use of knife rest. The manpower and financial resources wasted by manually cleaning the waste materials can be saved.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

However, the above description is only an embodiment of the present invention, and the scope of the present invention should not be limited thereto, so that the replacement of the equivalent components or the equivalent changes and modifications made according to the protection scope of the present invention should be covered by the claims of the present invention.

Claims (10)

1. The automatic peeling and tin soldering machine for the data wire comprises a workbench and is characterized in that a conveying mechanism is arranged at the foremost end of the workbench, a wire clamping mechanism, a cutting and peeling mechanism, a tin soldering mechanism, a material pushing mechanism and a tin feeding mechanism are sequentially arranged on the rear side of the conveying mechanism from the beginning end to the tail end of the conveying mechanism, and a wire pressing mechanism for pressing and positioning the data wire processed by the wire clamping mechanism, the cutting and peeling mechanism and the tin soldering mechanism is further arranged above the conveying mechanism; the workbench is also provided with a vibration disc communicated with a feeding channel arranged on the pushing mechanism and a controller electrically connected with the mechanism.

2. The automatic peeling and tin soldering machine for the data wire as claimed in claim 1, wherein the transmission mechanism is provided with a transmission motor, the transmission motor drives a transmission chain meshed with a gear to transmit forwards through the gear, a plurality of wire clamping carriers for placing the data wire are uniformly arranged on the transmission chain along the transmission direction, and a front mounting plate is arranged on the front side of the transmission chain; a rear mounting plate is arranged on the rear side of the transmission chain, and an operating platform is arranged at the upper end of the front mounting plate; transport mechanism sets firmly on the workstation through the support column of locating on the back mounting panel, transmission motor passes through the motor fixed plate and installs on the workstation, and the upper end of motor fixed plate is equipped with blows tin solenoid valve.

3. The automatic peeling and tin soldering machine for the data line according to claim 2, wherein the line clamping mechanism comprises a line clamping cylinder, a sliding groove is formed in the lower end of the line clamping cylinder, the sliding groove is erected on a guide rail on the upper end face of the mounting frame, a line clamping telescopic cylinder is arranged on the rear end face of the mounting frame, the front end of a telescopic rod of the line clamping telescopic cylinder is fixedly arranged on the rear end face of the line clamping cylinder, line clamping blades used for straightening the data line on the line clamping carrier are arranged at the front ends of two fingers of the line clamping cylinder, and the line clamping mechanism is fixedly arranged on the workbench through the mounting frame.

4. The automatic peeling and tin soldering machine for the data wire according to claim 3, wherein the cutting and peeling mechanism comprises a cutting cylinder and a peeling cylinder, the lower ends of the cutting cylinder and the peeling cylinder are respectively provided with a chute fixing plate, a chute matched with a chute fixed on a support frame is arranged below the chute fixing plate, the rear end of the support frame is provided with a cutting displacement cylinder and a peeling displacement cylinder, and the front ends of push rods of the cutting displacement cylinder and the peeling displacement cylinder are respectively connected with the chute fixing plates at the lower ends of the cutting cylinder and the peeling cylinder; the front ends of the two claws of the cutting cylinder and the peeling cylinder are respectively provided with a cutting blade and a peeling blade in pairs; the cutting and peeling mechanism is fixedly arranged on the workbench through a support frame.

5. The automatic peeling and tin soldering machine for the data wire according to claim 4, wherein the tin soldering mechanism comprises a support table, a slide rail is arranged on the upper surface of the support table, a slide groove matched with the slide rail is erected on the slide rail, a slide groove positioning plate is fixedly arranged on the upper surface of the slide groove, a tin soldering displacement cylinder is fixedly arranged on the rear side of the upper surface of the support table, the front end of a push rod of the tin soldering displacement cylinder is fixedly connected with the rear end face of the slide groove positioning plate, a tin soldering lifting cylinder fixing plate is arranged on the upper end face of the slide groove positioning plate, a track is arranged on the front side of the tin soldering lifting cylinder fixing plate, a slide groove displacement plate matched with the track is arranged on the track, a tin soldering lifting cylinder is further arranged on the upper end of the front side of the tin soldering lifting cylinder, the front end of the push; one side of spout locating plate is equipped with the suspension, is equipped with the liftout subassembly on the suspension, the liftout subassembly includes the liftout cylinder, the cylinder body up end of liftout cylinder sets firmly in the lower terminal surface of ejector pin slide, the up end of ejector pin slide is equipped with conductive terminal mounting groove, the push rod front end of liftout cylinder is equipped with the liftout pole, the front end of liftout pole is equipped with the ladder groove, the liftout pole can go up and down in the ejector pin slide under the flexible drive of push rod of liftout cylinder, the ladder groove of the front end of the liftout pole that rises just in time can withstand the conductive terminal in the conductive terminal mounting groove.

6. The automatic peeling and tin soldering machine for the data wire as claimed in claim 5, wherein the pushing mechanism comprises a fixed table, and the fixed table is fixedly arranged on the workbench; a feeding channel is arranged at the upper end of the fixed table, and a material distributing assembly is arranged at the front end of the feeding channel; the material distributing assembly comprises a material distributing cylinder fixing plate, the bottom end of the material distributing cylinder fixing plate is fixedly arranged on a workbench, a material distributing cylinder and a material distributing rod slide way are fixedly arranged on the side face of the material distributing cylinder fixing plate, a material distributing rod is arranged at the front end of a push rod of the material distributing cylinder, the material distributing rod is lifted in the material distributing rod slide way, a conductive terminal through groove in butt joint with the front end of a feeding channel is formed in the front end of the material distributing rod, a material pushing cylinder is fixedly arranged on one side of the material distributing cylinder fixing plate, a connecting arm is arranged at the push rod of the material pushing cylinder, a material pushing plate is arranged on the connecting arm, the height of the material pushing plate is the same as that of the conductive terminal through groove at the top end of the material distributing rod driven to rise by the material distributing cylinder.

7. The automatic peeling and soldering machine for the data wire according to claim 6, wherein the tin feeding mechanism comprises a tin feeding support frame, the bottom end of the tin feeding support frame is fixedly arranged on the workbench, and a tin roll is arranged at the top end of the tin feeding support frame; one side of the tin feeding support frame is provided with a tin feeding motor, the opposite side is provided with a tin feeding device, and the tin feeding device is connected with the motor.

8. The automatic peeling and tin soldering machine for the data wire according to claim 7, wherein the wire pressing mechanism comprises a transverse plate, the transverse plate is fixedly arranged on a rear mounting plate of the conveying mechanism through a supporting plate, a wire pressing plate spanning the wire clamping mechanism, the cutting and peeling mechanism, the tin soldering mechanism and the material pushing mechanism is further arranged at the front end of the supporting plate, a wire pressing block is arranged above a wire clamping carrier corresponding to a peeling blade of the cutting and peeling mechanism, the wire pressing block is directly driven by a wire pressing cylinder fixedly arranged at the upper end of the transverse plate, an auxiliary cylinder is arranged on the transverse plate and at a position matched with the tin soldering mechanism, a fixing frame is arranged on a push rod of the auxiliary cylinder, and a tin feeding pipe and a wire pressing upper claw are arranged on the.

9. The automatic peeling and soldering machine for data wires according to claim 8, wherein a blanking chute for blanking the soldered data wires is further provided at the end of the conveying mechanism.

10. The automatic data line stripping and soldering machine as claimed in claim 9, wherein a waste bin for collecting the stripped waste is disposed between the cutting and stripping mechanism and the conveying mechanism.

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