CN107492775B - Automatic flattening and trimming device for wiring terminal and processing method thereof - Google Patents

Abstract

The invention designs an automatic flattening and trimming device for a wiring terminal, which comprises a main body support, wherein a numerical control module, an operation platform, a material tray, a feeding pipeline, a punching machine and a discharging groove are arranged on the main body support, a feeding slide block, a pushing groove and a swinging module are arranged on the operation platform, one end of the feeding pipeline is connected with the material tray, the other end of the feeding pipeline is connected with the feeding slide block, a material hole is arranged on the feeding slide block, the feeding slide block is connected with a first pneumatic device through a first pneumatic rod, a pushing gas rod is arranged in the pushing groove, two film cavities are arranged on the swinging module, the film cavity size is matched with the terminal size, one side of the swinging module is connected with the pushing groove, the other side of the swinging module is connected with a trimming film cavity and a punching platform which are arranged on the operation platform, the punching platform is positioned at the extension line position of the pushing groove, the two trimming film cavities are arranged at the middle position of the trimming film cavity; stamping parts and cutters are respectively designed at corresponding positions right above the stamping platform and the trimming film cavity.

Description

Automatic flattening and trimming device for wiring terminal and processing method thereof

Technical Field

The invention relates to a production and processing device for a wiring terminal, in particular to an automatic flattening and trimming device for the wiring terminal and a processing method thereof.

Background

The processing of the wiring terminal comprises the following steps: the four steps of punching, chamfering, flattening and trimming are respectively finished on different processing devices, the company performs technical updating and upgrading on processing equipment of the wiring terminal, such as a wiring terminal punching chamfering device applied for the month 10 and the month 26, and the two processing processes of punching and chamfering are combined on one device to finish the processing, after feeding, the operation is automatically finished by the equipment, so that the manual operation cost is saved; the semi-finished product processed by the punching chamfering device is required to be flattened and cut, as described above, in the prior art, flattening and cutting operations are required to be completed on different device equipment, feeding and processing are performed on the flattening device equipment, then discharging is performed, and the material for completing the flattening process is required to be transferred to the cutting device for cutting, then discharging is performed; the semi-finished terminal is flattened, the trimming processing process is complex in operation, and the production and processing efficiency is limited to a certain extent.

Disclosure of Invention

In order to overcome the defects pointed out by the prior art, the invention designs the automatic flattening and trimming device for the wiring terminal, which can be used for flattening and trimming the punched and chamfered semi-finished terminal on one device, effectively saves the processing procedure and the processing cost, improves the processing efficiency, automatically completes the follow-up processing operation after feeding the semi-finished terminal to the material tray, does not need manual operation, and is simple and convenient to operate.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the utility model provides an automatic side cut device that flattens of binding post, includes the main part support, has numerical control module, operation platform, charging tray, feeding pipeline, punching machine and blown down tank on the main part support, has feeding slider, propelling movement groove and swing module on the operation platform design.

The feeding pipeline one end is connected with the charging tray, the other end is connected with the feeding slide block, the feeding slide block is provided with a material hole, the lower end of the material hole is provided with a slot, the slot size is not smaller than the terminal size, the feeding slide block is connected with the first pneumatic device through the first pneumatic rod, the feeding slide block can swing back and forth on the operation platform under the action of the first pneumatic rod, when the feeding slide block swings to one end, the material hole is aligned with the feeding pipeline, when the feeding slide block swings to the other end, the material hole is aligned with the pushing groove, and when the material hole is aligned with the pushing groove, the terminal in the material hole falls into the pushing groove under the action of self gravity.

The length of the material hole is the same as that of the terminal, the end of the material hole, which is far away from the feeding pipeline, is a closed end, and the adoption of the size structural design can effectively ensure that each time feeding is just in time accommodating one terminal in the material hole, so that the next terminal to be fed is prevented from entering the material hole at the same time, and the feeding work of the feeding sliding block is influenced.

For more stable feeding effect, the feeding pipeline is connected with a limiting piece near the end of the feeding sliding block, a limiting hole is formed in the limiting piece, the size of the limiting hole is consistent with that of the terminal, and when the feeding sliding block swings to be near one end of the limiting piece, the feeding hole is in butt joint with the limiting hole.

The pushing groove is internally provided with a pushing air rod which is connected with a third pneumatic device.

The swinging module is connected with a second pneumatic device through a second pneumatic rod, can swing back and forth on the operation platform under the action of the second pneumatic rod, is provided with two film cavities, the size of each film cavity is matched with that of a terminal, one side of the swinging module is connected with the pushing groove, the other side of the swinging module is connected with the trimming film cavity and the punching platform which are arranged on the operation platform, the punching platform is positioned at the extending line position of the pushing groove, two trimming film cavities are arranged, the punching platform is positioned at the middle position of the trimming film cavity, the distance between the two film cavities on the swinging module is equal to the distance between the punching platform and the trimming film cavity, and when the swinging module swings to any one end of each end, one of the two film cavities is aligned with the punching platform, and the other film cavity is aligned with the trimming film cavity; the punching platform is connected with a discharge chute along the direction of the extension line of the pushing chute.

The stamping machine is respectively designed with a stamping part and a cutter at the corresponding positions right above the stamping platform and the trimming film cavity, namely, the stamping part is located right above the stamping platform, and the cutter is located right above the trimming film cavity.

The trimming membrane cavity below is the through-hole design, and the through-hole below is designed with the waste recovery structure, and this structural design can concentrate recycle with the trimming waste.

The numerical control module is connected with the first pneumatic device, the second pneumatic device and the third pneumatic device at different positions, and the first pneumatic rod, the second pneumatic rod, the pushing pneumatic rod movement stroke and the frequency of the first pneumatic rod, the second pneumatic rod and the pushing pneumatic rod at different positions are subjected to corresponding parameter design through the numerical control module and are used for being consistent with the action frequency of the punching machine.

The automatic flattening and trimming processing method for the wiring terminal comprises the following steps:

feeding;

flattening and trimming;

discharging;

semi-manufactured goods terminal in the charging tray is carried to the material hole on the pay-off slider through the pay-off pipeline in, and first pneumatic means pushes the pay-off slider to the propelling movement inslot through first pneumatic lever, and semi-manufactured goods terminal whereabouts is to the propelling movement inslot, and the propelling movement gas lever is with semi-manufactured goods terminal propelling movement to the membrane intracavity of swing module, accomplishes the pay-off operation, and the one end that the terminal needs to flatten is pushed to the outside punching press platform of membrane chamber by the propelling movement gas lever.

The punching machine works, the stamping part and the cutter move downwards, the stamping part punches the terminal on the stamping platform to finish the flattening process, the stamping part and the cutter reset, the second pneumatic device drives the swing module to swing through the second pneumatic rod, the terminal which finishes the flattening process swings to the trimming film cavity position along with the swing module, the punching machine works, the stamping part and the cutter move downwards, the cutter performs trimming operation on the terminal positioned at the trimming film cavity position to finish the trimming process, the stamping part and the cutter reset, the second pneumatic device drives the swing module to reset through the second pneumatic rod, and the trimming process terminal resets to the stamping platform position along with the swing module to finish flattening and trimming operations.

The next semi-finished terminal to be processed is pushed into the film cavity by the pushing air rod, the processed terminal is ejected out into a discharging groove which is formed by connecting the stamping platform along the extending line direction of the pushing groove, and discharging operation is completed.

In the same way, when the other film cavity on the swinging module performs corresponding actions on the inner end of the film cavity, because the stamping part and the cutter move synchronously, the terminal in the other film cavity also performs synchronous flattening or trimming operation, specifically, when one film cavity is fed with materials and finishes flattening operation and swings to the position of the trimming film cavity, the other film cavity is positioned at the stamping platform position, the pushing rod pushes the unprocessed terminal into the film cavity, at the moment, the stamping part moves downwards with the cutter, the stamping part performs flattening operation on the terminal positioned at the stamping platform, the cutter performs trimming operation on the terminal positioned at the position of the trimming film cavity, after the swinging module resets, the flattened terminal moves to the position of the other trimming film cavity along with the swinging module, the terminal after trimming returns to the position of the stamping platform, the pushing rod pushes the finished terminal after trimming to the position of the next semi-finished terminal to be processed into the film cavity, the punching part works on the punching machine, the terminal performs trimming processing on the terminal positioned at the trimming film cavity, after the stamping part is finished, the stamping part performs trimming processing on the terminal positioned at the position, the stamping part and the swinging module and the resetting module is reset, namely, the swinging module and the swinging module correspond to the swinging module simultaneously perform the actions.

The semi-finished terminal flattening and trimming device has the advantages that by adopting the structural design, the semi-finished terminal flattening and trimming operation is carried out, the swinging module is matched with the stamping platform and the trimming film cavity, the stamping machine carries out twice actions in the swinging action and resetting process of the swinging module, the flattening and trimming operation is finished after the twice actions of one semi-finished terminal, the finished terminal which completes the flattening and trimming operation is ejected into the discharging groove by the semi-finished terminal pushed by the pushing air rod along with the resetting of the swinging module, the processing from the semi-finished terminal to the finished terminal is finished, and the terminal processing actions are repeated in the two film cavities by the semi-finished terminal which is fed subsequently; the through hole below the trimming film cavity is designed to facilitate the recycling of trimming scraps after trimming operation; in summary, by adopting the automatic flattening and trimming device for the wiring terminal, provided by the invention, the semi-finished terminal is fed into the tray, the device is started, the semi-finished terminal moves into the feed hole of the feed sliding block along the feed pipeline, the first pneumatic rod pushes the feed sliding block to the position of the push groove, the semi-finished terminal falls into the push groove under the action of gravity, the push rod pushes the semi-finished terminal in the push groove into the film cavity of the swinging module, the punching machine acts once, the punching part moves downwards with the cutter, the punching part is positioned at the punching platform part for flattening operation, after the flattening operation is finished, the punching part and the cutter reset, the swinging module swings under the driving of the second pneumatic device, the terminal after the flattening operation is finished, the punching machine and the cutter move downwards, the trimming operation is performed on the flattened terminal part positioned at the position of the trimming film cavity, after the operation is finished, the swinging module resets, the next semi-finished terminal is pushed into the film cavity by the push rod to push the film cavity, the processed terminal is ejected to the discharging groove, the pressing part does not need manual work, and the pressing part and the first pneumatic device, the first pneumatic device and the third pneumatic device can be arranged in a full-stroke mode, and the numerical control device can be used for automatically.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is an enlarged view of a portion of the work platform of the present invention;

in the figure: 1. a numerical control module; 2. an operation platform; 3. a material tray; 4. a feed pipe; 5. a feeding slide block; 51. a material hole; 61. a first pneumatic device; 611. a first pneumatic lever; 62. a second pneumatic device; 621. a second pneumatic lever; 63. a third pneumatic device; 7. A pushing groove; 8. pushing the air bar; 9. a swing module; 91. a membrane cavity; 10. a stamping platform; 11. trimming the membrane cavity; 12. a cutter; 13. stamping parts; 14. a punching machine; 15. a discharge chute; 16. and a limiting piece.

Description of the embodiments

In order to more clearly and in detail express the technical solution of the present invention, the following specific examples are described below with reference to fig. 1 and 2.

The automatic flattening and trimming device for the binding post shown in fig. 1 comprises a main body support, wherein a numerical control module 1, an operation platform 2, a material tray 3, a feeding pipeline 4, a punching machine 14 and a discharge chute 15 are arranged on the main body support, a feeding slide block 5, a pushing chute 7 and a swinging module 9 are arranged on the operation platform 2, one end of the feeding pipeline 6 is connected with the material tray 3, the other end of the feeding pipeline is connected with the feeding slide block 5, a material hole 51 is arranged on the feeding slide block, a slot is arranged at the lower end of the material hole 51, the slot size is not smaller than the terminal size, the feeding slide block 5 is connected with a first pneumatic device 61 through a first pneumatic rod 611, the feeding slide block 5 can swing back and forth on the operation platform under the action of the first pneumatic rod 611, when the feeding slide block 5 swings to one end, the material hole 51 is aligned with the feeding pipeline 4, when the material hole 51 swings to the other end, the terminal in the material hole 51 falls down into the pushing chute 7 under the action of self gravity; the pushing tank 7 is internally provided with a pushing air bar 8, and the pushing air bar 8 is connected with a third pneumatic device 63.

The swinging module 9 is also connected with the second pneumatic device 62 through a second pneumatic rod 621, the swinging module 9 can swing back and forth on the operation platform 2 under the action of the second pneumatic rod 621, two film cavities 91 are designed on the swinging module 9, the size of the film cavities 91 is matched with that of terminals, one side of the swinging module 9 is connected with the pushing groove 7, the other side of the swinging module 9 is connected with the trimming film cavity 11 designed on the operation platform 2 and the stamping platform 10, the stamping platform 10 is positioned at the extending line position of the pushing groove 7, two trimming film cavities 11 are designed, the stamping platform 10 is positioned at the middle position of the trimming film cavity 11, and when the swinging module 9 swings to any one end at two ends, one of the two film cavities 91 is aligned with the stamping platform 10, and the other film cavity 11 is aligned with the trimming film cavity 11; the punching platform 10 is provided with a discharge chute 15 along the extension line direction of the push chute 7.

The stamping machine 14 is respectively provided with a stamping part 13 and a cutter 12 at the corresponding positions right above the stamping platform 10 and the trimming film cavity 11, namely, the stamping part 13 is located right above the stamping platform 10, and the cutter 12 is located right above the trimming film cavity 11.

The lower part of the trimming film cavity 11 is provided with a through hole, and the lower part of the through hole is provided with a waste recycling structure which can concentrate and recycle trimming waste.

The numerical control module 1 is connected with the first, second and third pneumatic devices 63 at different positions, and the first, second pneumatic rods 621 and the pushing pneumatic rods, which are correspondingly connected with the first, second and third pneumatic devices 63 at different positions, are used for carrying out corresponding parameter design on the motion stroke and the frequency of the pushing pneumatic rods through the numerical control module 1, so as to coordinate and agree with the motion frequency of the punching machine 14.

During operation, semi-manufactured goods terminals in the tray 3 are conveyed into the material holes 51 on the material feeding slide block 5 through the material feeding pipeline 4, the first pneumatic device 61 connected with the material feeding slide block 5 pushes the material feeding slide block 5 to the position of the pushing groove 7 through the first pneumatic rod 611, the semi-manufactured goods terminals fall into the pushing groove 7, the pushing rod 8 pushes the semi-manufactured goods terminals into the film cavity 91 of the swinging module 9, one end of the semi-manufactured goods terminals needing to be flattened is pushed onto the punching platform 10 outside the film cavity 91 by the second pneumatic rod, the punching machine 14 works, the punching part 13 moves downwards with the cutter 12, the punching part 13 punches the terminal part on the punching platform 10 to finish flattening process, the punching part 13 resets with the cutter 12, the second pneumatic device 62 connected with the swinging module 9 drives the swinging module 9 to swing along with the swinging module 9, the punching part 13 moves downwards along with the swinging module 9 to the position of the trimming film cavity 11, the punching part 13 moves downwards with the cutter 12 performs trimming operation on the terminal positioned at the trimming film cavity 11, the trimming process is finished, the punching part 13 and the reset terminal is pushed out of the position of the reset terminal is pushed by the reset device 62 along with the direction of the second pneumatic rod 621 along with the direction of the pushing rod 9 to finish the punching process, and the trimming process is finished product is finished in the position of the trimming film cavity 11 along with the position of the swinging of the trimming film cavity 11.

Similarly, when the other film cavity 91 on the swinging module 9 performs corresponding actions on the inner end of the film cavity 91, two trimming film cavities 11 are matched with the stamping platform 10 positioned between the two trimming film cavities 11, and the two film cavities 91 are matched, when the swinging module 9 swings and resets to alternate back and forth, one film cavity 91 is always positioned at the stamping platform 10, and the other film cavity 91 is positioned at the trimming film cavity 11; because the stamping 13 and the cutter 12 on the stamping machine 14 move synchronously, the corresponding flattening or trimming operation is performed on the terminal in the other film cavity 91, specifically, when one film cavity 91 is fed and the flattening operation swings to the position of the trimming film cavity 11, the other film cavity 91 is positioned in the stamping platform 10, the pushing air rod 8 pushes the unprocessed terminal into the film cavity 91, at this time, the stamping 13 moves downwards with the cutter 12, the stamping 13 performs the flattening operation on the terminal positioned in the stamping platform 10, the cutter 12 performs the trimming operation on the terminal positioned in the position of the trimming film cavity 11, after the swinging module 9 is reset, the flattened terminal returns to the position of the other trimming film cavity 11 along with the movement of the swinging module 9, the pushing air rod 8 pushes the next semi-finished terminal to be processed into the film cavity 91 and ejects the trimmed finished terminal into the discharge chute 15, the stamping 13 performs the processing on the terminal of the punching platform 10, at this time, the stamping 12 performs the trimming operation on the terminal positioned in the trimming film cavity 11, namely, after the stamping 12 performs the swinging operation on the other film cavity 9 and the resetting module 9, namely, the swinging module 9 and the other film cavity 9 are reset and the swinging module 9 are reset, and the swinging operation is performed simultaneously.

In embodiment 2, for a more stable feeding effect, on the basis of embodiment 1, a limiting part 16 is connected to the end of the feeding pipeline 4, which is close to the feeding sliding block 5, and a limiting hole is designed on the limiting part 16, the size of the limiting hole is consistent with that of the semi-finished terminal, and when the feeding sliding block 5 swings to the end, which is close to the limiting part 16, the material hole 51 is in butt joint with the limiting hole.

Finally, it should be noted that the above specific embodiments with reference to the drawings are only specific examples of the present invention, and are only for the purpose of more intuitively expressing the technical solution of the present invention, and not as a basis for limiting the scope of the claims of the present invention, and any technical solution based on the technical solution of the present invention is replaced by a simple technical solution or not creatively improved, which falls within the scope of the claims of the present invention.

Claims (6)

1. Binding post automatic flattening side cut device, including the main part support, the last design of main part support has numerical control module, operation platform, charging tray, pipeline, punching machine and blown down tank, and the last design of operation platform has feeding slider, propelling movement groove and swing module, pipeline one end is connected its characterized in that with the charging tray: the other end of the feeding pipeline is connected with a feeding sliding block, a material hole is designed on the feeding sliding block, a slot is designed at the lower end of the material hole, the slot size is not smaller than the terminal size, the feeding sliding block is connected with a first pneumatic device through a first pneumatic rod, the feeding sliding block can swing back and forth on an operation platform under the action of the first pneumatic rod, when the feeding sliding block swings to one end, the material hole is aligned with the feeding pipeline, when the feeding sliding block swings to the other end, the material hole is aligned with a pushing groove, a pushing air rod is designed in the pushing groove, the pushing air rod is connected with a third pneumatic device, a swinging module is connected with a second pneumatic device through a second pneumatic rod, the swinging module can swing back and forth on the operation platform under the action of the second pneumatic rod, two membrane cavities are designed on the swinging module, the membrane cavity size is matched with the terminal size, one side of the swinging module is connected with the pushing groove, the other side of the swinging module is connected with a trimming membrane cavity and a punching platform, the trimming membrane cavity is positioned at the extending line position of the pushing groove, the two trimming membrane cavities are designed to be aligned with the punching platform, when the distance between the two membrane cavities on the swinging module and the punching platform is aligned with one end of the other side of the two membrane cavities, and the distance between the two membrane cavities on the swinging module and the punching platform is aligned with the other end; stamping parts and cutters are respectively designed at corresponding positions right above the stamping platform and the trimming film cavity of the stamping machine, and the numerical control module is connected with the first pneumatic device, the second pneumatic device and the third pneumatic device at different positions.

2. The automatic terminal crimping and trimming device of claim 1, wherein: the length of the material hole is the same as that of the terminal, and the end, far away from the feeding pipeline, of the material hole is a closed end.

3. The automatic terminal crimping and trimming device of claim 1, wherein: the end, close to the feeding sliding block, of the feeding pipeline is connected with a limiting piece, a limiting hole is formed in the limiting piece, and the size of the limiting hole is consistent with that of the terminal.

4. The automatic terminal crimping and trimming device of claim 1, wherein: the punching platform is connected with a discharge chute along the direction of the extension line of the pushing chute.

5. The automatic terminal crimping and trimming device of claim 1, wherein: the lower part of the trimming film cavity is provided with a through hole, and the lower part of the through hole is provided with a waste recycling structure.

6. The automatic flattening and trimming processing method for the wiring terminal comprises the following steps:

feeding;

flattening and trimming;

discharging;

the method is characterized in that the specific flow of the step 1 is as follows: the semi-finished product terminals in the material tray are conveyed into a material hole on the material feeding sliding block through a material feeding pipeline, the material feeding sliding block is pushed to a pushing groove position through a first pneumatic rod by the first pneumatic device, the semi-finished product terminals fall into the pushing groove, the semi-finished product terminals are pushed into a film cavity of the swinging module by the pushing rod, and one end of each terminal needing to be flattened is pushed onto a stamping platform outside the film cavity by the pushing rod to finish material feeding;

the specific processing flow of the step 2 is that after the feeding of the step 1 is completed, the stamping part and the cutter move downwards, the stamping part punches the terminal on the stamping platform to complete the flattening process, the stamping part and the cutter reset, the second pneumatic device drives the swinging module to swing through the second pneumatic rod, the terminal which completes the flattening process swings to the position of the trimming film cavity along with the swinging module, the stamping part and the cutter move downwards, the cutter performs trimming operation on the terminal positioned at the position of the trimming film cavity to complete the trimming process, the stamping part and the cutter reset, the second pneumatic device drives the swinging module to reset through the second pneumatic rod, the trimming process terminal resets to the position of the stamping platform along with the swinging module, and the flattening and trimming operation is completed;

and 3, pushing the next semi-finished terminal to be processed into the film cavity by a pushing air rod on the basis of the step 2, ejecting the processed terminal to a punching platform and connecting the processed terminal to a discharging groove designed along the extending line direction of the pushing groove, and completing discharging operation.

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