CN220873978U - Double-end processing equipment for two-core data line - Google Patents

Abstract

The utility model discloses a double-end processing device for a two-core data wire, which comprises an organism, a wire feeding mechanism, a first peeling mechanism, a feeding mechanism, a jig, a conveying mechanism, a first grabbing mechanism, a second peeling mechanism, a joint feeding mechanism and a welding mechanism, wherein the first peeling mechanism is connected with the first grabbing mechanism; the wire feeding mechanism is provided with a grabbing rotating mechanism for grabbing wires and horizontally rotating the wires by 180 degrees, the grabbing rotating mechanism is positioned above the feeding mechanism, and the rotating mechanism is connected with a first lifting device for controlling the grabbing rotating mechanism to lift; so, through the design of each mechanism, utilize snatch rotary mechanism snatch the wire rod and place on feeding mechanism after rotatory, the setting of cooperation each mechanism to realize the both ends of wire rod and simultaneously on the automated production of equipment, improved the production efficiency of data line, processingquality is stable unanimous, structural design is ingenious reasonable, easy operation, convenient to use, process time is short, has reduced the manufacturing cost of data line.

Description

Double-end processing equipment for two-core data line

Technical Field

The utility model relates to the technical field of data line processing equipment, in particular to two-core data line double-head processing equipment.

Background

At present, in the processing process of the data wire, the working procedures of stripping, cutting and flattening the nonmetallic outer layer of the connecting end of each branching body, butting with an interface, welding after butting and the like are generally needed, and when the working procedures are completed, the wire is clamped and arranged into a plurality of wire arranging clamps one by one, and then the wire is realized on different working platforms, so that the wire stripping precision is influenced by the easy operation deviation due to the limitation of manual operation, meanwhile, the efficiency is low, and the danger is easy to generate during the manual operation; traditional data line welding equipment that peels, it is through fixing the one end that the data line was fixed a position at the tool and place it on each process and carry out work, but its degree of automation is low, and the pretreatment of data line still needs through manual intervention to change the processing on the equipment of each process after locating the data line, the line change time is long, and the product quality of processing is not high, and simultaneously, the both ends of this data line are separately processing, have reduced the machining efficiency of product.

Later, a double-end processing device for data wires appears in the market, wherein two ends of the data wires are respectively placed and positioned on two devices through two data wire peeling and welding devices which are arranged at intervals and are simultaneously processed, so that the processing efficiency of products is improved; however, the existing double-end processing equipment for data wires is poor in structural design, a wire grabbing and transferring mechanism needs to be arranged between two processing equipment, so that wires are grabbed and transferred from one processing equipment to the other processing equipment, the equipment is high in configuration cost, meanwhile, the two processing equipment needs a plurality of operators to operate, the labor intensity is high, the production efficiency is low, the use requirements of users cannot be met, and the application range is small.

Therefore, a new technical solution is needed to solve the above problems.

Disclosure of utility model

In view of the above, the present utility model aims at overcoming the defects of the prior art, and its main purpose is to provide a dual-core data line dual-head processing device, which is designed by each mechanism to realize the automatic production of both ends of a wire on the device at the same time, so as to improve the production efficiency of the data line, stabilize and agree the processing quality, facilitate the use, shorten the processing time, and reduce the production cost of the data line.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

The double-end processing equipment for the two-core data wire comprises an organism, a wire feeding mechanism for conveying and cutting wires, a first peeling mechanism for peeling the wires, a feeding mechanism for clamping the wires and transferring the wires, a jig for clamping the wires, a conveying mechanism for conveying the displacement of the jig, a first grabbing mechanism for grabbing and transferring the wires, a second peeling mechanism for peeling the core wires, a joint feeding mechanism for conveying joints and a welding mechanism for welding the joints and the core wires; wherein:

Wire rod feed mechanism, first grabbing mechanism, second mechanism and the welding mechanism of skinning arrange in proper order from the front to the back, feeding mechanism and conveying mechanism interval arrangement around, wire rod feed mechanism, first mechanism of skinning set up in one side of feeding mechanism, second mechanism and welding mechanism set up in one side of conveying mechanism, first grabbing mechanism links up between feeding mechanism, conveying mechanism, be provided with on the wire rod feed mechanism and be used for grabbing the wire rod and with the wire rod horizontal rotation 180 degrees snatch rotary mechanism, snatch rotary mechanism and be located feeding mechanism's top, rotary mechanism is connected with the first elevating gear that is used for controlling snatch rotary mechanism to go up and down.

As a preferred scheme, wire rod feed mechanism has first base, snatch rotary mechanism and set up in the left end of first base, snatch rotary mechanism including first grabbing the first rotary device that first grabbing the head of control was rotatory, be provided with the mounting panel on the first rotary device, the one end of mounting panel is connected in the output of first rotary device, first grabbing the head setting in the lower extreme of the mounting panel other end, first elevating gear sets up on first base.

As a preferred scheme, wire rod feed mechanism is including the transport wheelset that is used for carrying the wire rod and be used for cutting the cutting device of wire rod, the transport wheelset sets up in the right section position of first base, the left end of first base is provided with first elevating socket, cutting device sets up on first elevating socket and is located the right side of snatching rotary mechanism, first elevating gear drive connection is in first elevating socket.

As a preferable scheme, the first grabbing mechanism comprises a second base, a second lifting seat, a second grabbing head, a second lifting device, a first translation device and a second translation device, wherein the second lifting seat, the second grabbing head, the first translation device and the second translation device are arranged on the second lifting seat at intervals, the second lifting device is in driving connection with the second lifting seat, the first translation device is in driving connection with the second lifting seat so as to be used for controlling the second grabbing head to move left and right, and the second translation device is in driving connection with the second lifting seat so as to be used for controlling the second grabbing head to move back and forth.

As a preferred scheme, still be provided with the heart yearn positioning mechanism that is used for fixing a position the heart yearn and straighten on the second base, heart yearn positioning mechanism is located the below that the second snatched the head, heart yearn positioning mechanism is including card line board, first line ball board, third elevating platform and third elevating gear, card line board, first line ball board all are provided with two and the interval arrangement is on the third elevating platform and correspond two second respectively and snatch the head setting around, first line ball board is located the below of card line board, the lower extreme of card line board is provided with the draw-in groove that supplies the heart yearn card to go into, third elevating gear is provided with four, and four third elevating gear drive respectively connect in two card line boards, two first line ball boards and set up on the third elevating platform.

As a preferred scheme, be provided with the position recognition mechanism that is used for discernment heart yearn position between first snatch mechanism, the second peeling mechanism, position recognition mechanism is including third base, identification module, second line ball board, first briquetting, third snatch head, fourth elevating gear and second rotary device, the fourth elevating gear is provided with three, and wherein two fourth elevating gear arrange in the left end of third base from top to bottom at the interval, and another fourth elevating gear sets up in the right-hand member of third base, the second line ball board sets up on the fourth elevating gear that is located the left end downside, first briquetting sets up on the fourth elevating gear that is located the left end upside, the third snatch head is provided with two and arranges on the fourth elevating gear that is located the right-hand member at the interval, the fourth elevating gear is provided with three, and three fourth elevating gear is connected on three fourth elevating gear respectively in a driving way, identification module is provided with two and arranges in the first briquetting and arranges in a left end, two and is connected with the second elevating gear in a two rotation device respectively in a two-way, two first elevating gear sets up in the fourth elevating gear.

As a preferred scheme, still be provided with the testing mechanism who is used for testing the data line on the organism, testing mechanism is located welding mechanism's rear, testing mechanism is including fourth base, test machine, test head, removal seat and third translation device, but remove the seat left and right sides activity and set up in the upper end of fourth base, the test head is provided with two and the interval arrangement around on removing the seat, and two test heads all are connected on the test machine, all have the grafting mouth that is used for being connected with the data line joint on two test heads, third translation device drive is connected in removing the seat.

As a preferred scheme, still be provided with the line ball module that is used for pressing the wire rod location, line ball module is located the left end of accredited testing organization, line ball module is including second briquetting and the fifth elevating gear of control second briquetting displacement, the left end of fourth base is provided with the locating plate, the second briquetting is located the top of locating plate.

As a preferable scheme, the machine body is also provided with a second grabbing mechanism for transferring the finished wire rods.

As a preferred scheme, the wire cutting machine further comprises a core wire conduction testing mechanism for conducting the two ends of the wire, the core wire conduction testing mechanism is arranged at the rear of the first grabbing mechanism and comprises a fifth base, cutters, a conduction testing device and a sixth lifting device, the cutters are arranged at intervals and located above the jig, the sixth lifting device is connected with the two cutters in a driving mode and is arranged on the fifth base, and the conduction testing device is connected with the two cutters through wires.

Compared with the prior art, the wire rod grabbing and rotating device has obvious advantages and beneficial effects, and particularly, the technical scheme mainly comprises the steps that through the design of each mechanism, the wire rod is grabbed and rotated by the grabbing and rotating mechanism and then placed on the feeding mechanism, and the arrangement of each mechanism is matched, so that the automatic production of two ends of the wire rod on equipment is realized, the production efficiency of a data wire is improved, the processing quality is stable and consistent, the structural design is ingenious and reasonable, the operation is simple, the use is convenient, the processing time is short, and the production cost of the data wire is reduced;

In addition, the core wire positioning mechanism is arranged to flatten and straighten the core wires, so that the peeling of the subsequent core wires and the welding positioning of the joints are facilitated, the production efficiency of the data wires is effectively improved, meanwhile, the position recognition mechanism is arranged to control the two core wires to rotate by the feedback of the recognition module, so that the positions of the two core wires are ensured to be correct, the phenomenon that the welding positions of the core wires and the joints are incorrect in the subsequent welding process is avoided, the data wires cannot be used, the stable and consistent processing quality of the data wires is ensured, and the grooves are arranged, so that the assembly and positioning of the recognition module are facilitated;

And the setting of the testing mechanism so as to enable the wire rod welded with the connector to carry out testing operation, so that a user can conveniently screen according to the testing result of the product, the qualification rate of the product production is ensured, and meanwhile, the setting of the wire pressing module is beneficial to the connection stability between the connectors at two ends of the wire rod and the two testing heads, and the normal running of the testing procedure is ensured.

In order to more clearly illustrate the structural features and efficacy of the present utility model, the present utility model will be described in detail below with reference to the accompanying drawings and examples.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of the present utility model;

FIG. 2 is another angular perspective view of an embodiment of the present utility model;

FIG. 3 is a schematic perspective view of a wire feeding mechanism and a grabbing and rotating mechanism according to an embodiment of the present utility model;

FIG. 4 is another perspective view of a wire feeding mechanism and a grabbing and rotating mechanism according to an embodiment of the present utility model;

FIG. 5 is a schematic perspective view of a first grasping mechanism, a core wire positioning mechanism according to an embodiment of the utility model;

FIG. 6 is a perspective view of a position recognition mechanism according to an embodiment of the present utility model;

FIG. 7 is another perspective view of a position recognition mechanism according to an embodiment of the present utility model;

FIG. 8 is a schematic diagram of a testing mechanism (the testing machine is not shown) according to an embodiment of the utility model;

FIG. 9 is a schematic diagram of a wire pressing module according to an embodiment of the utility model;

fig. 10 is a schematic structural view of a fifth base, a cutter and a sixth lifting device according to an embodiment of the present utility model.

The attached drawings are used for identifying and describing:

10. Machine body 20 and wire feeding mechanism

21. First base 211, guide rail

22. Conveying wheel set 23 and cutting device

24. First lifting seat 241 and guide groove

25. First lifting device 30 and first peeling mechanism

40. Feeding mechanism 50 and conveying mechanism

51. Jig 60 and first grabbing mechanism

61. Second base 62, second lifting seat

63. Second gripper head 64, second lifting device

65. First translation device 66, second translation device

67. Core wire positioning mechanism 671 and wire clamping plate

672. First line pressing plate 673 and third lifting seat

674. Third lifting device 70, second peeling mechanism

80. Welding mechanism 81 and joint feeding mechanism

90. Snatch rotary mechanism 91, first snatch head

92. First rotating device 921, mounting plate

100. Position recognition mechanism 101, third base

102. Identification module 103, second line ball board

104. First pressing block 105, third grabbing head

106. Fourth lifting seat 107 and fourth lifting device

108. Second rotating means 109, groove

110. Test mechanism 111, fourth base

112. Test head 113 and movable seat

114. Plug-in port 115 and positioning plate

120. Wire pressing module 121 and second pressing block

122. Fifth lifting device 130, second grabbing mechanism

140. Core wire conduction testing mechanism 141 and fifth base

142. Tool apron 143 and cutter

144. And a sixth lifting device.

Detailed Description

Referring to fig. 1 to 10, specific structures of embodiments of the present utility model are shown.

The double-end processing equipment for the two-core data wire comprises an organism 10, a wire feeding mechanism 20 for conveying and cutting wires, a first peeling mechanism 30 for peeling the wires, a feeding mechanism 40 for clamping and transferring the wires, a jig 51 for clamping the wires, a conveying mechanism 50 for conveying clamp displacement, a first grabbing mechanism 60 for grabbing and transferring the wires, a second peeling mechanism 70 for peeling the core wires, a joint feeding mechanism 81 for conveying joints and a welding mechanism 80 for welding the joints and the core wires; wherein:

The wire feeding mechanism 20, the first peeling mechanism 30, the first grabbing mechanism 60, the second peeling mechanism 70 and the welding mechanism 80 are sequentially arranged from front to back, the feeding mechanism 40 and the conveying mechanism 50 are arranged at intervals from front to back, the wire feeding mechanism 20 and the first peeling mechanism 30 are arranged on one side of the feeding mechanism 40, the second peeling mechanism 70 and the welding mechanism 80 are arranged on one side of the conveying mechanism 50, the first grabbing mechanism 60 is connected between the feeding mechanism 40 and the conveying mechanism 50, the wire feeding mechanism 20 is provided with a grabbing rotating mechanism 90 for grabbing wires and horizontally rotating the wires by 180 degrees, the grabbing rotating mechanism 90 is positioned above the feeding mechanism 40, and the grabbing rotating mechanism 90 is connected with a first lifting device 25 for controlling the grabbing rotating mechanism to lift; so, through the design of each mechanism, utilize snatch rotary mechanism snatch the wire rod and place on feeding mechanism after rotatory, the setting of cooperation each mechanism to realize the both ends of wire rod and simultaneously on the automated production of equipment, improved the production efficiency of data line, processingquality is stable unanimous, structural design is ingenious reasonable, easy operation, convenient to use, process time is short, has reduced the manufacturing cost of data line.

The wire feeding mechanism 20 has a first base 21, the grabbing and rotating mechanism 90 is disposed at a left end of the first base 21, the grabbing and rotating mechanism 90 includes a first grabbing head 91 and a first rotating device 92 for controlling the first grabbing head to rotate, a mounting plate 921 is disposed on the first rotating device 92, one end of the mounting plate 921 is connected to an output end of the first rotating device 92, the first grabbing head 91 is disposed at a lower end of the other end of the mounting plate 921, and the first lifting device 25 is disposed on the first base 21;

Here, the wire feeding mechanism 20 includes a conveying wheel set 22 for conveying wires and a cutting device 23 for cutting wires, the conveying wheel set 22 is disposed at a right section of the first base 21, a first lifting seat 24 is disposed at a left end of the first base 21, the cutting device 23 is disposed on the first lifting seat 24 and located at a right side of the grabbing rotation mechanism 90, the first lifting device 25 is in driving connection with the first lifting seat 24, two guide rails 211 disposed in a left-right spacing manner are disposed on the first base 21, two guide grooves 241 matching the guide rails are disposed on the first lifting seat 24, the two guide grooves 241 are respectively and adaptively located on the corresponding two guide rails 211, and the first lifting seat 24 reciprocates up and down along with control of the first lifting device 25, so that the arrangement of the guide rails and the guide grooves is beneficial to displacement stability of the first lifting seat on the first base.

And the first grabbing mechanism 60 includes a second base 61, a second lifting seat 62 disposed on the second base 61, a second grabbing head 63, a second lifting device 64, a first translating device 65, and a second translating device 66, where the second grabbing head 63 is disposed on the second lifting seat 62 at a front-back distance, the second lifting device 64 is in driving connection with the second lifting seat 62, the first translating device 65 is in driving connection with the second lifting seat 62 to control the second grabbing head 63 to move left and right, and the second translating device is in driving connection with the second lifting seat 62 to control the second grabbing head to move back and forth.

Here, the second base 61 is further provided with a core positioning mechanism 67 for positioning and straightening a core, the core positioning mechanism 67 is located below the second grabbing head 63, the core positioning mechanism 67 includes a wire clamping plate 671, a first wire pressing plate 672, a third lifting seat 673 and a third lifting device 674, the wire clamping plate 671 and the first wire pressing plate 672 are respectively provided with two wire clamping plates 671, two wire pressing plates 672 are arranged on the third lifting seat 673 at a front-back interval and are respectively arranged corresponding to the two second grabbing heads 63, the first wire pressing plate 672 is located below the wire clamping plate 671, the lower end of the wire clamping plate 671 is provided with a clamping groove for clamping the core, the third lifting device 674 is provided with four wire clamping plates, and the four third lifting devices 674 are respectively connected to the two wire clamping plates 671, the two first wire pressing plates 672 and the wire pressing plates 674 are respectively arranged on the third lifting seat 674;

When the wire rod clamping device is used, the core wires of the wire rod are grabbed and transferred along with the first grabbing mechanism, the upper and lower pressing operation is performed under the control of the third lifting devices of the wire clamping plate and the first wire pressing plate, the core wires are clamped into the clamping grooves of the wire clamping plate and pass through the pressing of the first wire pressing plate, and the positioned core wires are straightened along with the control of the first translation device; therefore, the core wire positioning mechanism is arranged to flatten and straighten the core wire for positioning, so that the peeling of the follow-up core wire and the welding positioning of the joint are facilitated, and the production efficiency of the data wire is effectively improved.

The position identifying mechanism 100 for identifying whether the position of the core wire is correct is arranged between the first grabbing mechanism 60 and the second peeling mechanism 70, the position identifying mechanism 100 comprises a third base 101, an identifying module 102, a second pressing plate 103, a first pressing block 104, a third grabbing head 105, a fourth lifting seat 106, a fourth lifting device 107 and a second rotating device 108, the fourth lifting seat 106 is provided with three, two fourth lifting seats 106 are arranged at the left end of the third base 101 at an up-down interval, the other fourth lifting seat 106 is arranged at the right end of the third base 101, the second pressing plate 103 is arranged on the fourth lifting seat 106 at the lower side of the left end, the first pressing block 104 is arranged on the fourth lifting seat 106 at the upper side of the left end, the third grabbing head 105 is provided with two fourth lifting seats 106 at the right end at a front-back interval, the third lifting device 107 is provided with three fourth lifting devices 107 respectively connected with the third lifting seats 106 at the front-back interval, the two fourth pressing blocks 102 are respectively connected with the two fourth lifting seats 102 at the front-back ends, and the two pressing blocks 108 are respectively arranged at the front-back ends of the third lifting seats 102 are respectively connected with the fourth lifting seats 108;

When the wire rod peeling device is used, the wire rod peeled off is moved between the wire pressing plate and the first pressing block along with the control of the conveying mechanism, the two recognition modules respectively recognize core wires at two ends of the wire rod, the wire pressing plate and the first pressing block carry out pressing operation on the two ends of the wire rod along with the feedback of the two recognition modules and move upwards, meanwhile, the two third grabbing heads grab the core wires at two ends of the wire rod and synchronously move upwards, the third grabbing heads rotate the core wires along with the feedback of the recognition modules so as to interchange the positions of the two core wires, the position recognition mechanism is arranged, the two core wires are rotated by the feedback control of the recognition modules so as to ensure the positions of the two core wires to be correct, the phenomenon that the positions of the core wires and the welding positions of joints are incorrect in the subsequent welding process is avoided, the data wire cannot be used, and the stable and consistent processing quality of the data wire is ensured.

Preferably, the first pressing block 104 is provided with a groove 109 for installing and positioning the identification modules, the groove 109 is provided with two grooves and is arranged on the first pressing block 104 at intervals from front to back, the upper end and the lower end of the groove 109 are all communicated with the first pressing block 104, and the two identification modules 102 are respectively arranged in the two grooves 109, so that the identification modules can be assembled and positioned conveniently.

The machine body 10 is further provided with a testing mechanism 110 for testing the data line, the testing mechanism 110 is located at the rear of the welding mechanism 80, the testing mechanism 110 comprises a fourth base 111, a testing machine (not shown in the figure), a testing head 112, a movable seat 113 and a third translation device (not shown in the figure), the movable seat 113 can be movably arranged at the upper end of the fourth base 111 left and right, the testing head 112 is provided with two testing heads 112 which are arranged on the movable seat 113 in a front-back interval manner, the two testing heads 112 are connected to the testing machine, the two testing heads 112 are provided with plug-in interfaces 114 for connecting with the data line connectors, and the third translation device is in driving connection with the movable seat 113;

When the wire rod that both ends welding has the joint is transferred to testing mechanism department along with conveying mechanism, and the both ends joint of wire rod all corresponds two test head settings, and the displacement is connected towards the both ends joint of wire rod to the two test heads of third translation device control movable seat to make the interface of two test heads be connected with the both ends joint of wire rod, and utilize the test machine to test it, so, testing mechanism's setting, so that the wire rod that the welding has the joint carries out test operation, so that the user screens according to the test result of product, ensures the qualification rate of product production.

Still be provided with the line ball module 120 that is used for pressing the wire rod location, line ball module 120 is located the left end of testing mechanism 110, line ball module 120 is including second briquetting 121 and the fifth elevating gear 122 of control second briquetting displacement, the left end of fourth base 111 is provided with locating plate 115, second briquetting 121 is located the top of locating plate 115, so, is favorable to connecting stability between wire rod both ends joint and the two test heads, ensures the normal clear of test procedure.

Preferably, the machine body 10 is further provided with a second grabbing mechanism 130 for transferring the finished wire, the second grabbing mechanism 130 is disposed at the rear of the testing mechanism 110, a qualified product placement box and a unqualified product placement box are disposed at the rear end of the machine body 10, the second grabbing mechanism 130 is connected to the testing mechanism 110, and the second grabbing mechanism 130 grabs and transfers the tested data wires to the qualified product placement box or the unqualified product placement box along with feedback of the testing mechanism 110.

The wire rod is provided with a wire rod guide mechanism, a first grabbing mechanism 60 and a second grabbing mechanism 60, wherein the wire rod guide mechanism is used for grabbing wires at two ends of the wire rod, the wire rod guide mechanism 140 is arranged at the rear of the first grabbing mechanism 60, the wire rod guide mechanism 140 comprises a fifth base 141, a cutter seat 142, cutters 143, a guide testing device (not shown in the figure) and a sixth lifting device 144, the cutters 143 are arranged on the cutter seat 142 at intervals, the two cutters 143 are positioned above the jig 51, the sixth lifting device 144 is in driving connection with the cutter seat 142 and is arranged on the fifth base 141, and the guide testing device is respectively connected with the two cutters 143 through wires;

When the wire is used, the two ends of the wire are moved below the two cutters, the two cutters move downwards along with the control of the sixth lifting device so that the two cutters cut into the core wires at the two ends of the wire respectively, and a test loop is formed for the core wires at the two ends of the wire by using the conduction test device; so, through heart yearn conduction testing mechanism setting for carry out the welding operation that connects again after the return circuit is carried out at wire rod both ends, reduced the fault rate of product, guaranteed the quality stability of product, improved the yield of product, the practicality is strong.

The utility model mainly uses the grabbing and rotating mechanism to grab and rotate the wire rod and then place the wire rod on the feeding mechanism, and the wire rod is matched with the arrangement of the mechanisms, so that the automatic production of the two ends of the wire rod on the equipment is realized, the production efficiency of the data wire is improved, the processing quality is stable and consistent, the structural design is ingenious and reasonable, the operation is simple, the use is convenient, the processing time is short, and the production cost of the data wire is reduced;

In addition, the core wire positioning mechanism is arranged to flatten and straighten the core wires, so that the peeling of the subsequent core wires and the welding positioning of the joints are facilitated, the production efficiency of the data wires is effectively improved, meanwhile, the position recognition mechanism is arranged to control the two core wires to rotate by the feedback of the recognition module, so that the positions of the two core wires are ensured to be correct, the phenomenon that the welding positions of the core wires and the joints are incorrect in the subsequent welding process is avoided, the data wires cannot be used, the stable and consistent processing quality of the data wires is ensured, and the grooves are arranged, so that the assembly and positioning of the recognition module are facilitated;

And the setting of the testing mechanism so as to enable the wire rod welded with the connector to carry out testing operation, so that a user can conveniently screen according to the testing result of the product, the qualification rate of the product production is ensured, and meanwhile, the setting of the wire pressing module is beneficial to the connection stability between the connectors at two ends of the wire rod and the two testing heads, and the normal running of the testing procedure is ensured.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the technical scope of the present utility model, so any minor modifications, equivalent changes and modifications made to the above embodiments according to the technical principles of the present utility model are still within the scope of the technical solutions of the present utility model.

Claims (10)

1. The utility model provides a two core data line double-end processing equipment which characterized in that: the wire feeder comprises an organism, a wire feeding mechanism for conveying and cutting wires, a first peeling mechanism for peeling wires, a feeding mechanism for clamping wires and transferring, a jig for clamping wires, a conveying mechanism for conveying jig displacement, a first grabbing mechanism for grabbing and transferring wires, a second peeling mechanism for peeling core wires, a joint feeding mechanism for conveying joints and a welding mechanism for welding the joints and the core wires; wherein:

Wire rod feed mechanism, first grabbing mechanism, second mechanism and the welding mechanism of skinning arrange in proper order from the front to the back, feeding mechanism and conveying mechanism interval arrangement around, wire rod feed mechanism, first mechanism of skinning set up in one side of feeding mechanism, second mechanism and welding mechanism set up in one side of conveying mechanism, first grabbing mechanism links up between feeding mechanism, conveying mechanism, be provided with on the wire rod feed mechanism and be used for grabbing the wire rod and with the wire rod horizontal rotation 180 degrees snatch rotary mechanism, snatch rotary mechanism and be located feeding mechanism's top, rotary mechanism is connected with the first elevating gear that is used for controlling snatch rotary mechanism to go up and down.

2. The two-core data line double-head processing apparatus of claim 1, wherein: wire rod feed mechanism has first base, snatch rotary mechanism and set up in the left end of first base, snatch rotary mechanism including first grabbing the first rotary device that the first grabbing of head was rotatory with control, be provided with the mounting panel on the first rotary device, the one end of mounting panel is connected in the output of first rotary device, first grabbing the head setting in the lower extreme of the mounting panel other end, first elevating gear sets up on first base.

3. The two-core data line double-ended processing apparatus of claim 2, wherein: wire rod feed mechanism is including the conveyor wheel group that is used for carrying the wire rod and the cutting device that is used for cutting the wire rod, the conveyor wheel group sets up in the right section position of first base, the left end of first base is provided with first elevating socket, cutting device sets up on first elevating socket and is located grabbing rotary mechanism's right side, first elevating gear drive is connected in first elevating socket.

4. The two-core data line double-head processing apparatus of claim 1, wherein: the first grabbing mechanism comprises a second base, a second lifting seat, a second grabbing head, a second lifting device, a first translation device and a second translation device, wherein the second lifting seat, the second grabbing head, the second lifting head, the first translation device and the second translation device are arranged on the second lifting seat in a front-back interval mode, the second lifting device is in driving connection with the second lifting seat, the first translation device is in driving connection with the second lifting seat so as to be used for controlling the second grabbing head to move left and right, and the second translation device is in driving connection with the second lifting seat so as to be used for controlling the second grabbing head to move front and back.

5. The two-core data line double-ended processing apparatus of claim 4, wherein: the second base is further provided with a core wire positioning mechanism for positioning and straightening the core wires, the core wire positioning mechanism is located below the second grabbing heads, the core wire positioning mechanism comprises a wire clamping plate, a first wire pressing plate, a third lifting seat and a third lifting device, the wire clamping plate and the first wire pressing plate are respectively provided with two wire clamping plates, are arranged on the third lifting seat at intervals from front to back and respectively correspond to the two second grabbing heads, the first wire pressing plate is located below the wire clamping plate, the lower end of the wire clamping plate is provided with clamping grooves for clamping the core wires, the third lifting devices are provided with four wire clamping plates, and the four third lifting devices are respectively connected to the two wire clamping plates, the two first wire pressing plates and are arranged on the third lifting seat in a driving mode.

6. The two-core data line double-head processing apparatus of claim 1, wherein: the device comprises a first grabbing mechanism and a second grabbing mechanism, wherein a position identification mechanism for identifying whether the position of a core wire is correct is arranged between the first grabbing mechanism and the second grabbing mechanism, the position identification mechanism comprises a third base, an identification module, a second pressing plate, a first pressing block, a third grabbing head, fourth lifting seats, fourth lifting devices and a second rotating device, the fourth lifting seats are provided with three, two fourth lifting seats are arranged at the left end of the third base at intervals up and down, the other fourth lifting seat is arranged at the right end of the third base, the second pressing plate is arranged on the fourth lifting seat at the lower side of the left end, the first pressing block is arranged on the fourth lifting seat at the upper side of the left end, the third grabbing head is provided with two fourth lifting seats at intervals up and down, the fourth lifting devices are respectively connected to the three fourth lifting seats in a driving mode, the identification module is provided with two fourth lifting devices at intervals up and down, the second pressing block is arranged at intervals up and down on the first pressing block, and the second grabbing head is respectively connected to the two fourth lifting devices.

7. The two-core data line double-head processing apparatus of claim 1, wherein: the machine body is further provided with a testing mechanism for testing the data line, the testing mechanism is located at the rear of the welding mechanism and comprises a fourth base, a testing machine, a testing head, a movable seat and a third translation device, the movable seat can be arranged at the upper end of the fourth base in a left-right movable mode, the testing heads are arranged on the movable seat in a front-back interval mode, the two testing heads are connected to the testing machine, the two testing heads are provided with plug interfaces for being connected with the data line connector, and the third translation device is connected to the movable seat in a driving mode.

8. The dual-core data line dual-head tooling device of claim 7, wherein: still be provided with the line ball module that is used for pressing the wire rod location, line ball module is located the left end of accredited testing organization, line ball module is including second briquetting and the fifth elevating gear of control second briquetting displacement, the left end of fourth base is provided with the locating plate, the second briquetting is located the top of locating plate.

9. The two-core data line double-head processing apparatus of claim 1, wherein: the machine body is also provided with a second grabbing mechanism for transferring the finished wire rods.

10. The two-core data line double-head processing apparatus of claim 1, wherein: the wire cutting device comprises a wire rod, and is characterized by further comprising a core wire conduction testing mechanism for conducting testing on two ends of the wire rod, wherein the core wire conduction testing mechanism is arranged at the rear of the first grabbing mechanism and comprises a fifth base, cutters, a conduction testing device and a sixth lifting device, the cutters are arranged at intervals and located above the jig, the sixth lifting device is connected with the two cutters in a driving mode and is arranged on the fifth base, and the conduction testing device is connected with the two cutters through wires respectively.