CN218482509U - Automatic material machine of rolling over of Type-C connector - Google Patents

Abstract

The utility model discloses an automatic material folding machine for a Type-C connector, which comprises a feeding mechanism, a material folding mechanism and a conveying track, wherein the feeding mechanism is used for conveying a material belt to the material folding mechanism, and the material folding mechanism is used for folding materials on the material belt; the feeding mechanism comprises a feeding cam and a feeding driving unit for driving the feeding cam to rotate, and the feeding cam is used for driving the material belt to move; the material folding mechanism comprises a material folding part and a material folding driving unit for driving the material folding part to fold the material on the material belt; the feeding mechanism and the material folding mechanism are sequentially arranged on one side of the conveying track according to the process sequence, the feeding cam is positioned above the conveying track, and the material folding part is positioned on one side of the conveying track; borrow this, it has realized the autoloading and roll over the material to the material area that carries Type-C connector material to improve degree of automation, reduced the manual work, improved production efficiency, reduced manufacturing cost.

Description

Automatic material machine of rolling over of Type-C connector

Technical Field

The utility model belongs to the technical field of the connector production facility and specifically relates to indicate an automatic material machine of rolling over of Type-C connector.

Background

With the popularization of various electronic products, the product price is more and more popular, great challenges are caused to the production cost of the connector product which is developed by labor intensity, and the automatic development of the connector product is a trend. For example, in the production and assembly process of a Type-c connector, the material strip carrying the Type-c connector terminals needs to be subjected to manufacturing such as feeding, material folding, and assembly, wherein the feeding is to convey the material strip carrying the Type-c connector terminals to the next processing procedure, and since the material strip carrying the Type-c connector terminals is accompanied by a waste part during molding, the waste part on the material strip carrying the Type-c connector terminals needs to be broken by material folding to remove the waste material and then perform the next processing procedure manufacturing.

Therefore, a new technology needs to be developed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses to the disappearance that prior art exists, its main objective provides an automatic material machine of rolling over of Type-C connector, and it has realized the autoloading and the book material to the material area that carries Type-C connector material to improve degree of automation, reduced the manual work, improved production efficiency, reduced manufacturing cost.

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

the automatic material folding machine for the Type-C connector comprises a feeding mechanism and a material folding mechanism, wherein the feeding mechanism is used for conveying a material belt to the material folding mechanism, and the material folding mechanism is used for folding materials on the material belt; the feeding mechanism comprises a feeding cam and a feeding driving unit for driving the feeding cam to rotate, and the feeding cam is used for driving the material belt to move; the material folding mechanism comprises a material folding part and a material folding driving unit for driving the material folding part to fold the material on the material belt; the feeding mechanism and the material folding mechanism are sequentially arranged on one side of the conveying track according to the manufacturing procedure sequence, the feeding cam is located above the conveying track, and the material folding part is located on one side of the conveying track.

As a preferred scheme, the feeding cam comprises a plurality of salient points, the salient points are sequentially and evenly arranged on the peripheral side wall of the feeding cam along the circumferential direction of the feeding cam at intervals, and the salient points are used for being matched with through holes in the material belt.

As a preferred scheme, the delivery track has the conveyer trough that is used for placing the material area that extends along delivery track direction of delivery, the delivery track is provided with the location platform that extends along delivery track direction of delivery, the location platform is provided with the groove of stepping down that extends along location platform extending direction, the groove of stepping down communicates in the conveyer trough, the part of pay-off cam passes the groove of stepping down and stretches into in the conveyer trough.

As a preferred scheme, feeding mechanism still includes pay-off base, drive shaft and two mounting panels, pay-off drive unit installs on the pay-off base, the one end of drive shaft is connected in pay-off drive unit, and both sides around the locating station are installed respectively to two mounting panels, the pay-off base is located the rear side of the mounting panel of rear side, the pay-off cam is provided with two, and interval arrangement around two pay-off cams, the other end of drive shaft passes the mounting panel of rear side, the pay-off cam of front side, the mounting panel of front side in proper order, correspondingly, conveyer trough, locating station, the groove of stepping down all have two, and symmetrical formula interval sets up around two conveyer troughs, symmetrical formula interval sets up around two locating stations.

As an optimal scheme, roll over material mechanism still including rolling over the material base, it has two to roll over the material spare, roll over the material base and be located delivery track's front side, roll over material drive unit and install on rolling over the material base, two roll over material spare front and back symmetry formula intervals and set up, logical groove has all been seted up to the opposite side of two conveyer troughs, two roll over the material spare and be located one side in corresponding logical groove respectively, roll over material drive unit and drive two simultaneously and roll over material spare displacement from top to bottom.

As a preferable scheme, the material folding piece comprises a first material folding block and a second material folding block which are arranged at an interval from top to bottom, and a material folding groove extending along the conveying direction is formed between the first material folding block and the second material folding block; the material folding driving unit drives the first material folding block to move up and down, so that the first material folding block moves towards or away from the second material folding block.

As a preferred scheme, the device further comprises a control device, and the control device is respectively connected to the feeding mechanism and the material folding mechanism.

As a preferred scheme, the device also comprises a machine table, wherein the feeding mechanism, the material folding mechanism and the conveying track are all arranged on a supporting plate at the upper end of the machine table.

As a preferred scheme, an input receiving table and an output receiving table are arranged on the machine table, the input receiving table and the output receiving table are respectively installed on the left side and the right side of the supporting plate, the left side of the input receiving table and the right side of the output receiving table respectively extend out of the left side and the right side of the supporting plate, the output side of the input receiving table is connected to the input side of the conveying track, and the output side of the conveying track is connected to the input side of the output receiving table.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, concretely speaking, according to the technical scheme, the automatic feeding and material folding of the material belt loaded with the Type-C connector material can be realized mainly through the combined design of the feeding mechanism and the material folding mechanism, thereby improving the automation degree, reducing the labor force and improving the production efficiency; secondly, the plurality of bumps which are sequentially and uniformly arranged at intervals are arranged on the peripheral side wall of the feeding cam, so that the feeding cam can be matched with a material belt to use, the automatic feeding of the material belt is realized, and the intermittent feeding can be realized by the bumps arranged at intervals, so that the feeding speed is controlled; and, through the setting that two pay-off cams combine two conveyer troughs, can make it once only carry two material areas simultaneously to through the setting of two book material spares, can make it once only roll over the material to two material areas simultaneously, so, improve productivity and work efficiency, reduction in production cost.

To more clearly illustrate the structural features and technical means of the present invention and the specific objects and functions achieved thereby, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a perspective view of the overall structure of the embodiment of the present invention;

fig. 2 is a front view of an embodiment of the present invention;

fig. 3 is a top view of an embodiment of the present invention;

FIG. 4 is a schematic view of a part of the structure of the embodiment of the present invention;

fig. 5 is another partial structural schematic diagram of the embodiment of the present invention.

The attached drawings indicate the following:

10. machine table 11 and supporting plate

20. Feeding mechanism 21 and feeding cam

211. Salient point 22 and feeding driving unit

23. Feeding base 24 and driving shaft

25. Mounting plate 30 and material folding mechanism

31. Fold material drive unit 32, fold material base

33. A first material folding block 34 and a second material folding block

35. Material folding groove

40. Conveying rail 41 and conveying trough

411. Through groove 42 and positioning table

421. Abdicating groove 50, material belt

51. Through hole 60, input receiving table

70. And (4) outputting a receiving platform.

Detailed Description

Fig. 1 to 5 show specific structures of embodiments of the present invention.

The automatic material folding machine for the Type-C connector comprises a control device, a machine table 10, a feeding mechanism 20, a material folding mechanism 30 and a conveying rail 40, wherein the feeding mechanism 20, the material folding mechanism 30 and the conveying rail 40 are arranged on the machine table 10, the feeding mechanism 20 is used for conveying a material belt 50 to the material folding mechanism 30, and the material folding mechanism 30 is used for folding materials on the material belt 50; the feeding mechanism 20, the material folding mechanism 30 and the conveying track 40 are all arranged on a supporting plate 11 at the upper end of the machine table 10, the control device is arranged on the machine table 10, and the control device is respectively connected with the feeding mechanism 20 and the material folding mechanism 30; the feeding mechanism 20 and the material folding mechanism 30 are sequentially arranged on one side of the conveying track 40 according to the process sequence. So, through the combined design of feeding mechanism 20 and book material mechanism 30, can make it realize carrying the autoloading and the book material of material area 50 of Type-C connector material to improve degree of automation, reduced the manual work, improved production efficiency.

In this embodiment, the machine 10 is provided with an input receiving platform 60 and an output receiving platform 70, the input receiving platform 60 and the output receiving platform 70 are respectively installed on the left and right upper sides of the supporting plate 11, the left side of the input receiving platform 60 and the right side of the output receiving platform 70 respectively extend out of the left and right sides of the supporting plate 11, the output side of the input receiving platform 60 is connected to the input side of the conveying track 40, and the output side of the conveying track 40 is connected to the input side of the output receiving platform 70. In this way, the combined design of the input receiving station 60 and the output receiving station 70 can receive and guide the tape 50, so as to facilitate the input and output of the tape 50.

In this embodiment, the feeding mechanism 20 includes a feeding cam 21 and a feeding driving unit 22 for driving the feeding cam 21 to rotate, the feeding driving unit 22 is preferably a driving motor, and the feeding cam 21 is used for driving the material tape 50 to move; the feeding cam 21 is located above the conveying track 40, the feeding cam 21 comprises a plurality of salient points 211, the salient points 211 are sequentially and evenly arranged on the peripheral side wall of the feeding cam 21 along the circumferential direction of the feeding cam 21, and the salient points 211 are used for being matched with the through holes 51 on the material belt 50. Therefore, the plurality of convex points 211 which are sequentially and uniformly arranged at intervals are arranged on the peripheral side wall of the feeding cam 21, so that the feeding cam can be matched with the material belt 50 for use, the automatic feeding of the material belt 50 is realized, and the convex points 211 arranged at intervals can realize the intermittent feeding, so that the feeding speed is controlled.

In this embodiment, the conveying track 40 has the conveyer trough 41 that is used for placing material belt 50 that extends along the conveying track 40 direction of delivery, the conveying track 40 is provided with the location platform 42 that extends along the conveying track 40 direction of delivery, the location platform 42 is provided with the groove 421 of stepping down that extends along the location platform 42 direction of extension, the groove 421 of stepping down communicates in the conveyer trough 41, the part of pay-off cam 21 passes the groove 421 of stepping down and stretches into in the conveyer trough 41, along with the rotation of pay-off cam 21, stretches into a plurality of through-holes 51 of bump 211 on the pay-off cam 21 on the conveyer trough 41 adaptation on material belt 50 in proper order to drive the whole translation of material belt 50. In this embodiment, the conveying troughs 41, the positioning tables 42 and the avoiding troughs 421 are two, the two conveying troughs 41 are arranged at a front-back symmetrical interval, and the two positioning tables 42 are arranged at a front-back symmetrical interval.

In this embodiment, feeding mechanism 20 still includes pay-off base 23, drive shaft 24 and two mounting panels 25, pay-off drive unit 22 is installed on pay-off base 23, the one end of drive shaft 24 is connected in pay-off drive unit 22, and both sides around positioning table 42 are installed respectively to two mounting panels 25, pay-off base 23 is located the rear side of the mounting panel 25 of rear side, pay-off cam 21 is provided with two, and two pay-off cams 21 are arranged at the front-back interval, the other end of drive shaft 24 passes through the pay-off cam 21 of the mounting panel 25 of rear side, the pay-off cam 21 of front side, the mounting panel 25 of front side in proper order, and two pay-off cams 21 correspond the setting of corresponding groove 421. Therefore, the two feeding cams 21 are combined with the two conveying grooves 41, so that the two material belts 50 can be simultaneously conveyed at one time, the productivity and the working efficiency are improved, and the production cost is reduced.

In this embodiment, the material folding mechanism 30 includes a material folding member and a material folding driving unit 31 for driving the material folding member to fold the material portion on the material tape 50, the material folding driving unit 31 is preferably a driving motor, and the material folding member is located on one side of the conveying track 40; roll over material mechanism 30 and still include and roll over material base 32, it has two to roll over the material piece, roll over the front side that material base 32 is located transfer track 40, roll over material drive unit 31 and install on roll over material base 32, two roll over material piece front and back symmetry formula intervals and set up, logical groove 411 has all been seted up to the opposite side of two conveyer troughs 41, and two roll over the material piece and are located one side of corresponding logical groove 411 respectively, roll over material drive unit 31 and drive two simultaneously and roll over material piece upper and lower displacements. So, through the setting of two material pieces of rolling over, can make it once only roll over the material to two material strips 50 simultaneously to improve productivity and work efficiency, reduction in production cost.

In this embodiment, the material folding member includes a first material folding block 33 and a second material folding block 34 which are arranged at an interval from top to bottom, and a material folding groove 35 extending along the conveying direction is formed between the first material folding block 33 and the second material folding block 34; the material folding driving unit 31 drives the first material folding block 33 to be displaced up and down to displace the first material folding block 33 toward or away from the second material folding block 34. Here, in the conveying process of the material belt 50, the waste material portions of the material on the material belt 50 sequentially enter the material folding groove 35 along the conveying direction, then the material folding driving unit 31 drives the first material folding block 33 to move downwards until the first material folding block 33 and the second material folding block 34 jointly pinch off the waste material portions, then the material folding driving unit 31 drives the first material folding block 33 to move upwards, and the material belt 50 continues to be conveyed, and so on. Here, the material folding driving unit 31 may be connected to a cam link mechanism through a rotating shaft to link the first material folding block 33 to move up and down, and of course, the material folding driving unit 31 may also be connected to the first material folding block 33 to move up and down through other mechanisms, so long as the material folding driving unit 31 drives the first material folding block 33 to move up and down, which is not described herein again.

To sum up, the utility model is mainly designed by combining the feeding mechanism and the material folding mechanism, so that the automatic feeding and material folding of the material belt carrying the Type-C connector material can be realized, the automation degree is improved, the labor is reduced, and the production efficiency is improved; secondly, the plurality of bumps which are sequentially and uniformly arranged at intervals are arranged on the peripheral side wall of the feeding cam, so that the feeding cam can be matched with a material belt to use, the automatic feeding of the material belt is realized, and the intermittent feeding can be realized by the bumps arranged at intervals, so that the feeding speed is controlled; and, through the setting that two pay-off cams combine two conveyer troughs, can make it once only carry two material areas simultaneously to through the setting of two book material spares, can make it once only roll over the material to two material areas simultaneously, so, improve productivity and work efficiency, reduction in production cost.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention are all within the scope of the technical solution of the present invention.

Claims (9)

1. The automatic material folding machine for the Type-C connector comprises a feeding mechanism and a material folding mechanism, wherein the feeding mechanism is used for conveying a material belt to the material folding mechanism, and the material folding mechanism is used for folding materials on the material belt; the method is characterized in that: the feeding mechanism comprises a feeding cam and a feeding driving unit for driving the feeding cam to rotate, and the feeding cam is used for driving the material belt to move; the material folding mechanism comprises a material folding part and a material folding driving unit for driving the material folding part to fold the material on the material belt; the feeding mechanism and the material folding mechanism are sequentially arranged on one side of the conveying track according to the manufacturing procedure sequence, the feeding cam is located above the conveying track, and the material folding part is located on one side of the conveying track.

2. The automatic material machine of rolling over of Type-C connector of claim 1, characterized in that: the feeding cam comprises a plurality of salient points, the salient points are sequentially and evenly arranged on the peripheral side wall of the feeding cam along the circumferential direction of the feeding cam, and the salient points are used for being matched with through holes in the material belt.

3. The automatic material machine of rolling over of Type-C connector of claim 1, characterized in that: the delivery track has the conveyer trough that is used for placing the material area that extends along delivery track direction of delivery, the delivery track is provided with the location platform that extends along delivery track direction of delivery, the location platform is provided with the groove of stepping down that extends along location platform extending direction, the groove of stepping down communicates in the conveyer trough, the part of pay-off cam passes the groove of stepping down and stretches into in the conveyer trough.

4. The automatic material machine of rolling over of Type-C connector of claim 3, characterized in that: feeding mechanism still includes pay-off base, drive shaft and two mounting panels, pay-off drive unit installs on the pay-off base, the one end of drive shaft is connected in pay-off drive unit, and both sides around the platform are installed respectively to two mounting panels, the pay-off base is located the rear side of the mounting panel of rear side, the pay-off cam is provided with two, and two pay-off cams are arranged at a distance from beginning to end, the other end of drive shaft passes the mounting panel of rear side, the pay-off cam of front side, the mounting panel of front side in proper order, correspondingly, conveyer trough, location platform, the groove of stepping down all have two, and symmetrical formula interval sets up around two conveyer troughs, symmetrical formula interval sets up around two location platforms.

5. The automatic material machine of rolling over of Type-C connector of claim 4, characterized in that: roll over material mechanism still including rolling over the material base, roll over the material spare and have two, roll over the material base and be located delivery track's front side, roll over material drive unit and install on rolling over the material base, two roll over symmetrical formula intervals around the material spare and set up, and logical groove has all been seted up to the opposite side of two conveyer troughs, and two roll over the material spare and be located one side in corresponding logical groove respectively, roll over material drive unit and drive two simultaneously and roll over material spare displacement from top to bottom.

6. The automatic material machine of rolling over of Type-C connector of claim 5, characterized in that: the material folding piece comprises a first material folding block and a second material folding block which are arranged at an upper-lower interval, and a material folding groove extending along the conveying direction is formed between the first material folding block and the second material folding block; the material folding driving unit drives the first material folding block to move up and down so that the first material folding block moves towards or away from the second material folding block.

7. The automatic material machine of rolling over of Type-C connector of claim 1, characterized in that: the material folding device is characterized by further comprising a control device, wherein the control device is respectively connected to the feeding mechanism and the material folding mechanism.

8. The automatic material machine of rolling over of Type-C connector of claim 1 characterized in that: the material folding machine further comprises a machine table, wherein the feeding mechanism, the material folding mechanism and the conveying track are all arranged on a supporting plate at the upper end of the machine table.

9. The automatic material machine of rolling over of Type-C connector of claim 8, characterized in that: the machine table is provided with an input bearing table and an output bearing table, the input bearing table and the output bearing table are respectively arranged on the left side and the right side of the supporting plate, the left side of the input bearing table and the right side of the output bearing table respectively extend out of the left side and the right side of the supporting plate, the output side of the input bearing table is connected with the input side of the conveying track, and the output side of the conveying track is connected with the input side of the output bearing table.

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