CN113399878A

CN113399878A - Data line afterbody welding set

Info

Publication number: CN113399878A
Application number: CN202110686214.9A
Authority: CN
Inventors: 刘永军; 陈国财; 庞伟庆; 郑祖兴
Original assignee: Huizhou Best Power Technology Co ltd
Current assignee: Huizhou Best Power Technology Co ltd
Priority date: 2021-06-21
Filing date: 2021-06-21
Publication date: 2021-09-17
Anticipated expiration: 2041-06-21
Also published as: CN113399878B

Abstract

The invention discloses a data line tail welding device, which relates to the technical field of data line welding and comprises a feeding mechanism, a linkage mechanism and a processing mechanism, wherein the linkage mechanism is arranged on one side of the feeding mechanism and one side of the processing mechanism; the problems that in the prior art, data line feeding, USB interface feeding and welding equipment are required to be adjusted correspondingly through different data, errors can occur after the equipment is used for a period of time, repeated adjustment is required, and the equipment is complex are solved, and compared with complex data line welding equipment in a large-scale factory, the equipment is simple in structure and low in cost.

Description

Data line afterbody welding set

Technical Field

The invention relates to the technical field of data line welding, in particular to a data line tail welding device

Background

With the popularization of various digital devices, especially MP3, digital cameras, computers, and USB disks, USB devices around us are gradually increasing, and USB interfaces are conveniently plugged and used, so that the USB devices are widely applied, and a large amount of USB interfaces need to be welded in batch.

Among the prior art, the welded equipment of USB interface and data line need carry out the data line material loading mostly, USB interface material loading and welding equipment, and among the prior art these three equipment all drive through different equipment and make and cooperate the welding between the three, need carry out different data conditioning to three equipment like this and make it corresponding, and can the error take place for a while after using, need repeated regulation, it is more loaded down with trivial details, and the data line welding equipment among the prior art is all more complicated, equipment cost is also higher, general small-size enterprise mostly still can adopt the manual work to weld, not only inefficiency and fault-tolerant rate are higher, also can have certain danger.

Disclosure of Invention

The embodiment of the invention provides a welding device for the tail part of a data wire, which aims to solve the problems in the background technology.

The embodiment of the invention adopts the following technical scheme: the utility model provides a data line afterbody welding set, includes feed mechanism, link gear and processing agency, feed mechanism sets up with the processing agency side by side, link gear sets up the one side at feed mechanism and processing agency, feed mechanism all is connected with link gear with the processing agency, processing agency is including processing driver part, pushing material part and welding parts, processing driver part is connected with the link part, processing driver part's one end is corresponding with pushing material part, processing driver part's the other end is connected with welding parts, pushing material part and feed mechanism level correspond.

Furthermore, the feeding mechanism comprises a feeding driving part and a feeding bearing part, the feeding driving part is arranged on one side of the processing mechanism, the feeding bearing part is arranged inside the feeding driving part, and the feeding driving part is connected with the feeding bearing part.

Furthermore, the feeding driving component comprises a feeding platform, feeding chains, two tooth blocks, a fixed gear, a first driving gear, a feeding transmission rod and a driving motor, the driving motor is arranged on one side of the feeding platform, two placing grooves are symmetrically formed in the feeding platform, a plurality of first matching grooves are formed in one side, located on the machining mechanism, of the feeding platform, the first matching grooves correspond to the machining mechanism, two feeding chains are arranged, each feeding chain is located in one placing groove, two tooth blocks, two fixed gears and two first driving gears are arranged, each first driving gear and each fixed gear are respectively located at two ends of one feeding chain, each first driving gear and each fixed gear are meshed with one feeding chain, each tooth block is arranged in one feeding chain, and each tooth block is positioned between one corresponding fixed gear and the first driving gear, the two tooth blocks are connected with the feeding bearing part, one end of the feeding transmission rod is connected with the output end of the driving motor, and the other end of the feeding transmission rod penetrates through the feeding platform and is connected with the two first driving gears.

Further, the loading and carrying component comprises two first limiting guide rails, two first limiting guide rails symmetrically arranged in the loading platform, the loading jig is arranged on the two first limiting guide rails, two sides of the loading jig are respectively connected with a tooth block, a plurality of second matching grooves are formed in the loading jig, each second matching groove corresponds to one first matching groove, the USB interface limiting frames are provided with a plurality of USB interface limiting frames, the USB interface limiting frames are sequentially distributed in the loading jig, each USB interface limiting frame is provided with a USB interface loading groove, the data line placing frame is arranged in the loading jig, and the data line placing frame is arranged on one side of the USB interface limiting frames at intervals, a plurality of data line feeding grooves are formed in the data line placing frame, and each data line feeding groove corresponds to one USB interface limiting frame.

Furthermore, the linkage mechanism comprises a first bevel gear set, a first linkage rod, a second bevel gear set and a second linkage rod, one end of the first bevel gear set is arranged on the first transmission rod, one end of the first linkage rod is connected with the other end of the first bevel gear set, the other end of the first linkage rod is connected with one end of the second bevel gear set, the other end of the second bevel gear set is connected with one end of the second linkage rod, and the other end of the second linkage rod is connected with the processing driving part.

Furthermore, the processing driving part comprises a placing box, a driving frame, two second limit guide rails, two driving rods, a second driving gear, a third driving gear, a gear fixing rod and a third bevel gear group, the placing box is arranged on one side of the feeding platform, a plurality of third matching grooves are formed in one side, located on the feeding platform, of the placing box, the driving frame is arranged in the placing box, the number of the second limit guide rails is two, the two second limit guide rails are symmetrically arranged in the driving frame and correspond to the two second limit guide rails up and down, the number of the driving rods is two, each driving rod is movably arranged in one second limit guide rail, a tooth socket is formed in each driving rod, the driving rod located at the top end in the driving frame corresponds to the material pushing part, the second driving gear is arranged in the driving frame, and the second driving gear is located between the two driving rods, and two the actuating lever all meshes with second drive gear, second drive gear and second linkage rod connection, the one end activity of gear fixing pole sets up on one side in the drive frame, third drive gear sets up in the drive frame, just third drive gear is located one side of second drive gear, third drive gear cover is established on the gear fixing pole, third drive gear meshes with the actuating lever that is located the drive frame bottom, the one end setting of third bevel gear group is on the other end of gear fixing pole, the other end and the welding part of third bevel gear group are connected.

Further, the material pushing component comprises a limiting frame, a top plate, a material pushing rod and a material pushing plate, the limiting frame is arranged on one side of the driving frame, the limiting frame is located on one side of the material loading platform, the material pushing rod is provided with a plurality of groups, the material pushing rod is arranged in the limiting frame, the material pushing rod is arranged in the groups, the material pushing plate is arranged on one end of the material pushing rod, the material pushing plate is connected with the driving rod, the groups are arranged, the other end of the material pushing rod penetrates through a third matching groove formed in the material loading platform and is located in a second matching groove formed in the material loading platform, the material pushing plate is provided with a plurality of material pushing plates, each material pushing plate is arranged at the other end of one group of material pushing rods, and each material pushing plate corresponds to one first matching groove.

Furthermore, the welding part comprises a protective frame, a threaded rod, a transmission column, a connecting rod, a welding moving frame, a welding limiting frame and a welding head, wherein the protective frame is arranged above the placing box, a moving groove is formed in the protective frame, the threaded rod is arranged in the protective frame, the bottom end of the threaded rod is connected with the other end of the third bevel gear set, the top end of the threaded rod is movably connected with the protective frame, the transmission column is sleeved on the threaded rod, the transmission column is in threaded connection with the threaded rod, the connecting rod is arranged on the transmission column, the connecting rod is positioned in the moving groove, one end of the welding moving frame is connected with the connecting rod, the other end of the welding moving frame is positioned above the bearing jig, two limiting frames are arranged, the two welding limiting frames are arranged above the placing box in parallel, and the top ends of the two welding limiting frames are movably connected with the welding moving frame, the welding head is arranged at the other end of the welding movable frame and corresponds to the joint of the data line and the USB interface.

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

the invention can solve the problems that the data wire feeding, the USB interface feeding and the welding equipment in the prior art need to be corresponding through different data adjustment, errors can occur after the data wire feeding, the USB interface feeding and the welding equipment are used for a period of time, the data wire feeding and the USB interface feeding need to be adjusted repeatedly, and the problems are complex, compared with the complex data line welding equipment in a large-scale factory, the invention has the advantages of simple structure and low cost, and is more suitable for the use of a small-scale factory.

Drawings

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

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

FIG. 2 is a partial schematic view of the present invention;

FIG. 3 is a schematic view of a holding box according to the present invention;

FIG. 4 is a schematic view of a feeding drive mechanism according to the present invention;

FIG. 5 is a schematic view of a loading mechanism according to the present invention;

FIG. 6 is a schematic view of a processing mechanism according to the present invention;

FIG. 7 is a partial schematic view of a machine drive mechanism according to the present invention;

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

Reference numerals:the feeding mechanism 1, the feeding driving part 11, the feeding platform 111, the feeding chain 112, the tooth block 113, the fixed gear 114, the first driving gear 115, the feeding transmission rod 116, the driving motor 117, the placing groove 118, the first matching groove 119, the feeding bearing part 12, the first limit guide rail 121, the bearing jig 122, the USB interface limit frame 123, the data line placing frame 124, the second matching groove 125, the USB interface feeding groove 126, the feeding mechanism and the feeding mechanism are arranged in sequence, and the feeding mechanism is arranged on the feeding mechanism,The device comprises a data line feeding groove 127, a linkage mechanism 2, a first bevel gear set 21, a first linkage rod 22, a second bevel gear set 23, a second linkage rod 24, a machining mechanism 3, a machining driving part 31, a placing box 311, a driving frame 312, a second limit guide rail 313, a driving rod 314, a second driving gear 315, a third driving gear 317, a gear fixing rod 318, a third bevel gear set 319, a third matching groove 3110, a material pushing part 32, a limit frame 321, a top plate 322, a material pushing rod 323, a material pushing plate 324, a welding part 33, a protection frame 331, a threaded rod 332, a transmission column 333, a connecting rod 334, a welding moving frame 335, a welding limit frame 336, a welding head 337 and a moving groove 338.

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 invention, and not restrictive of the full scope of the invention. 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.

Referring to fig. 1 to 8, an embodiment of the present invention provides a data line tail welding device, including a feeding mechanism 1, a linkage mechanism 2 and a processing mechanism 3, where the feeding mechanism 1 and the processing mechanism 3 are arranged in parallel, the linkage mechanism 2 is arranged on one side of the feeding mechanism 1 and one side of the processing mechanism 3, both the feeding mechanism 1 and the processing mechanism 3 are connected to the linkage mechanism 2, the processing mechanism 3 includes a processing driving component 31, a pushing component 32 and a welding component 33, the processing driving component 31 is connected to the linkage component, one end of the processing driving component 31 corresponds to the pushing component 32, the other end of the processing driving component 31 is connected to the welding component 33, and the pushing component 32 horizontally corresponds to the feeding mechanism 1; when the invention is operated, the data line and the USB interface are placed on the feeding mechanism 1, the feeding mechanism 1 can move the data line to one side of the USB interface when in operation, the feeding mechanism 1 can also drive the linkage mechanism 2 to operate, the linkage mechanism 2 can drive the processing driving part 31 to operate when in operation, the processing driving part 31 can simultaneously drive the material pushing part 32 and the welding part 33 to synchronously operate, the material pushing part 32 can push the USB interface to move when in operation, so that the USB interface corresponds to the data line, and the welding part 33 can move downwards at the same time, thereby welding the data line and the USB interface, solving the problems that the data line feeding, the USB interface feeding and the welding equipment in the prior art need to be adjusted to correspond through different data, and errors can be generated after the equipment is used for a period of time, the invention has the problems of repeated adjustment and complexity, and compared with complex data line welding equipment in a large-scale factory, the invention has simple structure and low cost and is more suitable for the use of a small-scale factory.

Specifically, referring to fig. 4 to 5, the feeding mechanism 1 includes a feeding driving part 11 and a feeding bearing part 12, the feeding driving part 11 is disposed at one side of the processing mechanism 3, the feeding bearing part 12 is disposed inside the feeding driving part 11, and the feeding driving part 11 is connected to the feeding bearing part 12.

Specifically, referring to fig. 4, the feeding driving component 11 includes a feeding platform 111, a feeding chain 112, a tooth block 113, a fixed gear 114, a first driving gear 115, a feeding transmission rod 116 and a driving motor 117, the driving motor 117 is disposed at one side of the feeding platform 111, two placing grooves 118 are symmetrically disposed in the feeding platform 111, a plurality of first matching grooves 119 are disposed at one side of the processing mechanism 3 of the feeding platform 111, the plurality of first matching grooves 119 correspond to the processing mechanism 3, two feeding chains 112 are disposed, each feeding chain 112 is disposed in one placing groove 118, two tooth blocks 113, two fixed gears 114 and two first driving gears 115 are disposed, each first driving gear 115 and each fixed gear 114 are disposed at two ends of one feeding chain 112, and each first driving gear 115 and each fixed gear 114 are engaged with one feeding chain 112, each gear block 113 is arranged in one feeding chain 112, each gear block 113 is located between one corresponding fixed gear 114 and the first driving gear 115, the two gear blocks 113 are connected with the feeding bearing part 12, one end of the feeding transmission rod 116 is connected with the output end of the driving motor 117, and the other end of the feeding transmission rod 116 penetrates through the feeding platform 111 and is connected with the two first driving gears 115; when the operation is performed, the driving motor 117 drives the first transmission rod to rotate, the first transmission rod can respectively drive the two feeding chains 112 to rotate through the two first driving gears 115 when rotating, the two feeding chains 112 can drive the two tooth blocks 113 to move in the same direction when rotating, and the two tooth blocks 113 can drive the feeding bearing part 12 to move synchronously when moving.

Specifically, referring to fig. 5, the loading and carrying component 12 includes two first limiting rails 121, two carrying jigs 122, USB interface limiting frames 123 and a data line placing frame 124, the two first limiting rails 121 are symmetrically disposed in the loading platform 111, the carrying jig 122 is disposed on the two first limiting rails 121, two sides of the carrying jig 122 are respectively connected with a tooth block 113, the carrying jig 122 is disposed with a plurality of second matching grooves 125, each second matching groove 125 corresponds to one first matching groove 119, the USB interface limiting frames 123 are disposed with a plurality of USB interface limiting frames 123, the USB interface limiting frames 123 are sequentially disposed in the carrying jig 122, each USB interface limiting frame 123 is disposed with a USB interface feeding groove 126, the data line placing frame 124 is arranged in the bearing jig 122, the data line placing frame 124 is arranged at one side of the plurality of USB interface limiting frames 123 at intervals, a plurality of data line feeding grooves 127 are formed in the data line placing frame 124, and each data line feeding groove 127 corresponds to one USB interface limiting frame 123; when carrying out the operation, bear tool 122 and can follow tooth piece 113 and carry out horizontal migration in material loading platform 111 to can make and bear tool 122 and carry out material loading or welding, be used for placing a plurality of data lines on the data line rack 124, and can carry out spacingly with the data line through silo 127 on the data line, the position between data line and the USB interface produces the skew when preventing to weld, and the work or material rest is used for placing the USB interface on the USB interface, and the USB interface can be followed silo 126 and placed in the USB interface rack on the USB interface.

Specifically, referring to fig. 2, the linkage mechanism 2 includes a first bevel gear set 21, a first linkage rod 22, a second bevel gear set 23 and a second linkage rod 24, one end of the first bevel gear set 21 is disposed on the first transmission rod, one end of the first linkage rod 22 is connected to the other end of the first bevel gear set 21, the other end of the first linkage rod 22 is connected to one end of the second bevel gear set 23, the other end of the second bevel gear set 23 is connected to one end of the second linkage rod 24, and the other end of the second linkage rod 24 is connected to the machining driving component 31; during operation, when the first transmission rod rotates, the first bevel gear set 21 is driven to synchronously rotate, the first bevel gear set 21 drives the second bevel gear set 23 through the first linkage rod 22 to enable the second linkage rod 24 to reversely rotate, and therefore the second linkage rod 24 can drive the machining driving part 31 to synchronously rotate.

Specifically, referring to fig. 6 to 7, the processing driving component 31 includes a placing box 311, a driving rack 312, a second limiting guide rail 313, a driving rod 314, a second driving gear 315, a third driving gear 317, a gear fixing rod 318, and a third bevel gear set 319, the placing box 311 is disposed at one side of the loading platform 111, a plurality of third matching grooves 3110 are disposed at one side of the loading platform 111 on the placing box 311, the driving rack 312 is disposed in the placing box 311, two second limiting guide rails 313 are disposed, the two second limiting guide rails 313 are symmetrically disposed in the driving rack 312, the two second limiting guide rails 313 correspond to each other up and down, two driving rods 314 are disposed, each driving rod 314 is movably disposed in one second limiting guide rail 313, each driving rod 314 is disposed with a gear slot, the driving rod 314 disposed at the top end of the driving rack 312 corresponds to the pushing component 32, the second driving gear 315 is disposed in the driving rack 312, the second driving gear 315 is located between two driving rods 314, both the two driving rods 314 are engaged with the second driving gear 315, the second driving gear 315 is connected with the second linkage rod 24, one end of the gear fixing rod 318 is movably disposed on one side in the driving rack 312, the third driving gear 317 is disposed in the driving rack 312, the third driving gear 317 is located on one side of the second driving gear 315, the third driving gear 317 is sleeved on the gear fixing rod 318, the third driving gear 317 is engaged with the driving rod 314 located at the bottom end of the driving rack 312, one end of the third bevel gear set 319 is disposed on the other end of the gear fixing rod 318, and the other end of the third bevel gear set 319 is connected with the welding component 33;

specifically, referring to fig. 6, the pushing component 32 includes a limiting frame 321, a top plate 322, pushing rods 323 and pushing plates 324, the limiting frame 321 is disposed on one side of the driving frame 312, the limiting frame 321 is disposed on one side of the feeding platform 111, the pushing rods 323 are provided with a plurality of groups, the pushing rods 323 are disposed in the limiting frame 321, the pushing rods are disposed on one ends of the pushing rods 323, the pushing plates are connected to the driving rod 314, the other ends of the pushing rods 323 penetrate through a third matching groove 3110 disposed on the placing box 311 and are disposed in a second matching groove 125 disposed on the feeding platform 111, the pushing plates 324 are provided with a plurality of pushing plates 324, each pushing plate 324 is disposed on the other end of one group of the pushing rods 323, and each pushing plate 324 corresponds to one first matching groove 119; roof 322 can remove through the drive of actuating lever 314, can drive a plurality of groups ejector pin 323 and remove when the top removes, and every group ejector pin 323 all can drive a ejector plate 324 and remove to the USB interface rack when removing in to can make the USB interface remove in USB interface spacing 123, the USB interface can correspond with the data line at last and weld.

Specifically, referring to fig. 8, the welding part 33 includes a protection frame 331, a threaded rod 332, two transmission columns 333, two connection rods 334, a welding moving frame 335, a welding limiting frame 336 and two welding heads 337, the protection frame 331 is disposed above the placing box 311, a moving groove 338 is formed in the protection frame 331, the threaded rod 332 is disposed in the protection frame, the bottom end of the threaded rod 332 is connected to the other end of the third bevel gear set 319, the top end of the threaded rod 332 is movably connected to the protection frame 331, the transmission columns 333 are sleeved on the threaded rod 332, the transmission columns 333 are screwed to the threaded rod 332, the connection rods 334 are disposed on the transmission columns 333, the connection rods 334 are disposed in the moving groove 338, one end of the welding moving frame 335 is connected to the connection rods 334, the other end of the welding moving frame 335 is disposed above the bearing jig 122, and the two welding limiting frames 336 are disposed, the two welding limiting frames 336 are arranged above the placing box 311 in parallel, the top ends of the two welding limiting frames 336 are movably connected with the welding moving frame 335, the welding head 337 is arranged at the other end of the welding moving frame 335, and the welding head 337 corresponds to the joint of the data line and the USB interface.

The working principle is as follows: when the invention is operated, firstly, a plurality of data lines are placed on the data line placing rack 124, each data line is sequentially placed in a data line trough 127, then a plurality of USB interfaces are sequentially placed in the USB placing rack, the first transmission rod can drive the feeding driving part 11 to move by the driving of the driving motor 117, the feeding driving part 11 can drive the bearing jig 122 to move in the feeding platform 111, and the first transmission rod can also drive the linkage part to operate when rotating, the linkage part can drive the driving processing part to operate, the driving processing part can drive the ejector plate to move by the driving rod 314 above when operating, the ejector plate can drive the USB interface 324 to drive the ejector plate to move after moving, and the driving rod 314 above can drive the third driving gear 317 to rotate while the driving rod 314 below moves, when the third driving gear 317 rotates, the gear fixing rod 318 drives the third bevel gear set 319 to rotate the threaded rod 332, the threaded rod 332 rotates to enable the transmission column 333 to move vertically, and when the transmission column 333 moves vertically, the transmission column 333 drives the welding connection frame to move synchronously, so that the welding head 337 can weld the USB interface and the data line.

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

1. A data line tail welding device is characterized by comprising a feeding mechanism (1), a linkage mechanism (2) and a processing mechanism (3), the feeding mechanism (1) and the processing mechanism (3) are arranged in parallel, the linkage mechanism (2) is arranged at one side of the feeding mechanism (1) and the processing mechanism (3), the feeding mechanism (1) and the processing mechanism (3) are both connected with the linkage mechanism (2), the processing mechanism (3) comprises a processing driving part (31), a material pushing part (32) and a welding part (33), the processing driving part (31) is connected with the linkage part, one end of the processing driving part (31) corresponds to the material pushing part (32), the other end of the processing driving part (31) is connected with the welding part (33), and the material pushing part (32) horizontally corresponds to the feeding mechanism (1).

2. The data line tail welding device according to claim 1, characterized in that the feeding mechanism (1) comprises a feeding driving part (11) and a feeding bearing part (12), the feeding driving part (11) is arranged at one side of the processing mechanism (3), the feeding bearing part (12) is arranged inside the feeding driving part (11), and the feeding driving part (11) is connected with the feeding bearing part (12).

3. The data line tail welding device according to claim 2, characterized in that the feeding driving component (11) comprises a feeding platform (111), two feeding chains (112), two tooth blocks (113), a fixed gear (114), a first driving gear (115), a feeding transmission rod (116) and a driving motor (117), the driving motor (117) is arranged on one side of the feeding platform (111), two placing grooves (118) are symmetrically formed in the feeding platform (111), a plurality of first matching grooves (119) are formed in one side of the processing mechanism (3) of the feeding platform (111), the plurality of first matching grooves (119) correspond to the processing mechanism (3), two feeding chains (112) are arranged, each feeding chain (112) is arranged in one placing groove (118), two tooth blocks (113), two fixed gears (114) and two first driving gears (115) are arranged, each first driving gear (115) and each fixed gear (114) are respectively located at two ends of one feeding chain (112), each first driving gear (115) and each fixed gear (114) are meshed with one feeding chain (112), each tooth block (113) is arranged in one feeding chain (112), each tooth block (113) is located between one corresponding fixed gear (114) and the first driving gear (115), the two tooth blocks (113) are connected with a feeding bearing part (12), one end of each feeding transmission rod (116) is connected with an output end of a driving motor (117), and the other end of each feeding transmission rod (116) penetrates through the feeding platform (111) to be connected with the two first driving gears (115).

4. The data line tail welding device according to claim 3, wherein the loading bearing part (12) comprises two first limit guide rails (121), two bearing jigs (122), two USB interface limit frames (123) and two data line placing frames (124), the two first limit guide rails (121) are symmetrically arranged in the loading platform (111), the bearing jig (122) is positioned in the loading platform (111), the bearing jigs (122) are arranged on the two first limit guide rails (121), two sides of the bearing jig (122) are respectively connected with one tooth block (113), the bearing jig (122) is provided with a plurality of second matching grooves (125), each second matching groove (125) corresponds to one first matching groove (119), the USB interface limit frames (123) are provided with a plurality of second matching grooves (125), a plurality of the USB interface limiting frame (123) are sequentially distributed in the bearing jig (122), each USB interface upper trough (126) is arranged on the USB interface limiting frame (123), the data line placing frame (124) is arranged in the bearing jig (122), the data line placing frame (124) is arranged at intervals and is arranged at one side of the USB interface limiting frame (123), a plurality of data line upper troughs (127) are arranged on the data line placing frame (124), and each data line upper trough (127) corresponds to one USB interface limiting frame (123).

5. The data line tail welding device according to claim 4, characterized in that the linkage mechanism (2) comprises a first bevel gear set (21), a first linkage rod (22), a second bevel gear set (23) and a second linkage rod (24), one end of the first bevel gear set (21) is arranged on the first linkage rod, one end of the first linkage rod (22) is connected with the other end of the first bevel gear set (21), the other end of the first linkage rod (22) is connected with one end of the second bevel gear set (23), the other end of the second bevel gear set (23) is connected with one end of the second linkage rod (24), and the other end of the second linkage rod (24) is connected with the machining driving part (31).

6. The data line tail welding device according to claim 5, characterized in that the processing driving component (31) comprises a placing box (311), a driving frame (312), a second limit guide rail (313), a driving rod (314), a second driving gear (315), a third driving gear (317), a gear fixing rod (318) and a third bevel gear set (319), the placing box (311) is arranged at one side of the feeding platform (111), a plurality of third matching grooves (3110) are formed in one side, located at the feeding platform (111), of the placing box (311), the driving frame (312) is arranged in the placing box (311), the number of the second limit guide rails (313) is two, the two second limit guide rails (313) are symmetrically arranged in the driving frame (312), the two second limit guide rails (313) correspond up and down, and the number of the driving rod (314) is two, each driving rod (314) is movably arranged in a second limiting guide rail (313), each driving rod (314) is provided with a tooth groove, the driving rod (314) positioned at the top end in the driving frame (312) corresponds to the pushing component (32), the second driving gear (315) is arranged in the driving frame (312), the second driving gear (315) is positioned between the two driving rods (314), the two driving rods (314) are respectively meshed with the second driving gear (315), the second driving gear (315) is connected with the second linkage rod (24), one end of the gear fixing rod (318) is movably arranged on one side in the driving frame (312), the third driving gear (317) is arranged in the driving frame (312), the third driving gear (317) is positioned on one side of the second driving gear (315), and the third driving gear (317) is sleeved on the gear fixing rod (318), the third driving gear (317) is meshed with a driving rod (314) at the inner bottom end of the driving frame (312), one end of the third bevel gear set (319) is arranged at the other end of the gear fixing rod (318), and the other end of the third bevel gear set (319) is connected with the welding component (33).

7. The data line tail welding device according to claim 6, wherein the pushing component (32) comprises a limiting frame (321), a top plate (322), a pushing rod (323) and a pushing plate (324), the limiting frame (321) is arranged on one side of the driving frame (312), the limiting frame (321) is arranged on one side of the feeding platform (111), the pushing rod (323) is provided with a plurality of groups, the pushing rods (323) are arranged in the limiting frame (321), the pushing rod is arranged on one end of the pushing rods (323) in the groups, the pushing plate is connected with the driving rod (314), the other ends of the pushing rods (323) in the groups penetrate through a third matching groove (3110) arranged on the placing box (311) and are arranged in a second matching groove (125) arranged on the feeding platform (111), and the pushing plate (324) is provided with a plurality of pushing plates, each material pushing plate (324) is arranged at the other end of one group of material pushing rods (323), and each material pushing plate (324) corresponds to one first matching groove (119).

8. The data line tail welding device according to claim 7, wherein the welding part (33) comprises a protective frame (331), a threaded rod (332), a transmission column (333), a connecting rod (334), a welding moving frame (335), a welding limiting frame (336) and a welding head (337), the protective frame (331) is arranged above the placing box (311), a moving groove (338) is formed in the protective frame (331), the threaded rod (332) is arranged in the protective frame, the bottom end of the threaded rod (332) is connected with the other end of the third bevel gear set (319), the top end of the threaded rod (332) is movably connected with the protective frame (331), the transmission column (333) is sleeved on the threaded rod (332), the transmission column (333) is in threaded connection with the threaded rod (332), the connecting rod (334) is arranged on the transmission column (333), and the connecting rod (334) is located in the moving groove (338), one end of the welding moving frame (335) is connected with the connecting rod (334), the other end of the welding moving frame (335) is located above the bearing jig (122), the limiting frame (321) is provided with two, two the welding limiting frame (336) is arranged above the placing box (311) side by side, two the top end of the welding limiting frame (336) is movably connected with the welding moving frame (335), the welding head (337) is arranged at the other end of the welding moving frame (335), and the welding head (337) corresponds to the joint of the data line and the USB interface.