CN219705468U - Full-automatic high-speed paper carrier tape puncher - Google Patents

Abstract

The utility model relates to the technical field of paper carrier tape punchers, and in particular discloses a full-automatic high-speed paper carrier tape puncher, which comprises a punching part, a material pulling part and a feather burning part, and further comprises the following components: the unreeling assembly is arranged on one side of the punching frame and is used for installing two paper carrier tapes and driving the paper carrier tapes to move; the automatic tape connecting device is arranged on the punching rack and used for connecting the heads and the tails of the two roll paper carrier tapes together; the automatic detection unit is arranged on the winding rack and used for judging the punching quality by collecting image information; the guide assembly is arranged on the winding rack and used for guiding the punched paper carrier tape to be wound; the automatic winding, coating and blanking assembly comprises a winding part and a film winding part, and the winding part and the film winding part are respectively arranged on a winding rack and are respectively used for automatically winding and coating the wound paper carrier tape; the empty paper shaft automatic replacement assembly is arranged on the winding rack and matched with the winding part to realize automatic replacement of the empty paper shaft.

Description

Full-automatic high-speed paper carrier tape puncher

Technical Field

The utility model relates to the technical field of paper carrier tape punches, in particular to a full-automatic high-speed paper carrier tape punch.

Background

In the field of chip component packaging, a paper carrier tape is mainly used for packaging at present, and the production process of the paper carrier tape is as follows: firstly, the raw materials are cut and processed into disc windings, the disc windings are arranged on a raw material disc, then the disc windings are perforated by a perforating device, and the disc windings can be used for packaging the chip components after the filth is removed by a singeing device. The full-automatic high-speed paper carrier tape puncher is characterized in that the existing paper carrier tape puncher is provided with a manual receiving part, a manual upper paper shaft, manual in-line detection, manual auxiliary winding, manual coating and manual winding, and production efficiency is insufficient due to excessive manual intervention, so that the production efficiency is improved.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a full-automatic high-speed paper carrier tape puncher, which has the advantage of improving the production efficiency and solves the problems in the background art.

The utility model relates to a full-automatic high-speed paper carrier tape puncher, which comprises a punching part, a material pulling part and a feather burning part, and also comprises the following components:

the device comprises a punching machine frame and a rolling machine frame, wherein the punching machine frame is used for placing punching components, pulling materials and burning feather components, and a shearing component used for shearing paper carrier tapes is arranged on the rolling machine frame;

the unreeling assembly is arranged on one side of the punching frame and is used for installing two paper carrier tapes and driving the paper carrier tapes to move;

the automatic tape connecting device is arranged on the punching rack and used for connecting the heads and the tails of the two roll paper carrier tapes together;

the automatic detection unit is arranged on the winding rack and used for judging the punching quality by collecting image information;

the guide assembly is arranged on the winding rack and used for guiding the punched paper carrier tape to be wound;

the automatic winding, coating and blanking assembly comprises a winding part and a film winding part, and the winding part and the film winding part are respectively arranged on a winding rack and are respectively used for automatically winding and coating the wound paper carrier tape;

the empty paper shaft automatic replacement assembly is arranged on the winding rack and matched with the winding part to realize automatic replacement of the empty paper shaft.

As a further improvement of the utility model, the unreeling assembly comprises an unreeling rack and an unreeling mounting rack, wherein the upper part of the unreeling rack is in sliding connection with the bottom of the unreeling mounting rack through a first sliding rail;

the bottom of the unreeling rack is provided with a driving unit for driving the unreeling mounting rack to move;

the driving unit comprises a first driving motor, a screw rod is arranged on an output shaft of the first driving motor, a sliding block is arranged on the screw rod, and the sliding block is fixedly connected with the bottom of the unreeling mounting frame through a connecting rod;

the bottom of the unreeling rack is provided with a movable hole for connecting rod movement.

As a further improvement of the utility model, the paper tape driving mechanisms for driving the paper tapes are arranged on the two sides of the unreeling mounting frame, the driving unit comprises a mounting shaft for mounting two paper carrier tape raw materials, a plurality of first rollers for guiding the paper carrier tapes, and a limit rail horizontally arranged on the unreeling mounting frame, a paper tape driving part for driving the paper tapes to move in the limit rail is arranged above the limit rail, and the driving unit further comprises a tensioning structure for tensioning the paper tapes.

As a further improvement of the utility model, the paper tape driving component comprises a positioning cylinder arranged in the unreeling mounting rack, wherein the top of the positioning cylinder is provided with a paper tape driving motor through a connecting frame, and the output shaft of the paper tape driving motor is provided with a rolling wheel;

and the unreeling mounting rack is provided with a through hole for the up-and-down movement of the rolling wheel.

As a further improvement of the present utility model, the automatic tape splicing device includes:

the paper loading guide rails are arranged at the tops of two sides of the support frame, and a bonding station is formed between the two paper loading guide rails;

the adhesive tape attaching assembly comprises an installing frame which is arranged on the front surface of the vertical supporting frame, and two groups of adhesive tape stripping units are arranged on the installing frame and are used for respectively enabling stripped adhesive tapes to be positioned on the upper surface and the lower surface of the paper carrier tape on the station;

the lifting frame is arranged on the back surface of the supporting frame, and a lifting cylinder for lifting the lifting frame is arranged at the bottom of the lifting frame;

and the two pressing cylinders are used for pressing the adhesive tape positioned on the paper carrier tape towards the stations.

As a further improvement of the present utility model, the automatic detection unit includes:

a limiting component for positioning the paper carrier tape is arranged;

the camera is vertically arranged on the winding rack and is positioned right above the detection station, and a lens is arranged on the camera;

and the light source is arranged on the winding rack right below the detection station and is used for irradiating the paper carrier tape.

As a further improvement of the utility model, the guide assembly comprises a buffer part, a paper tape pulling part, a tension controller and a wire arranging part, wherein the buffer part comprises a buffer frame, an installation groove is formed in the buffer frame, and a turning buffer wheel is arranged in the installation groove;

the paper tape pulling component comprises a rotating disc, and the rotating disc is driven by a second driving motor positioned in the winding rack;

the width of the tension controller is larger than that of the hollow paper shaft;

the winding displacement part comprises a movable frame and an electromagnetic sliding rail used for driving the movable frame to move back and forth outside the winding rack, a winding displacement motor is connected to the electromagnetic sliding rail in a sliding manner, a guide rail is fixedly connected to the movable frame, a guide motor used for being provided with a driving wheel and used for driving the driving wheel to rotate is arranged on the guide rail, and a second roller used for guiding the paper carrier tape is arranged on the movable frame.

As a further improvement of the utility model, the rolling component comprises a second sliding rail arranged in the rolling frame, a rolling motor and a rotating sleeve are arranged on the second sliding rail through a mounting plate, the rotating sleeve partially extends out of the rolling frame and is positioned on a station, the rotating sleeve is in transmission connection with the rolling motor through a chain and a chain wheel, and the rolling component also comprises a telescopic cylinder for driving the mounting plate to slide on the second sliding rail.

As a further improvement of the utility model, the film winding component comprises a mounting roller, a guide roller frame, a drawing unit, a laminating roller, a limiting frame and an electric heating wire, wherein the guide roller frame is arranged below the mounting roller and used for guiding the film to be clamped by the drawing unit, the laminating roller and the limiting frame are arranged near the winding component and used for enabling the coating film to be laminated with the paper carrier tape roll, and the limiting frame is adjusted by an adjusting cylinder;

the heating wire is arranged below the guide roller frame and driven by the cutting cylinder, the drawing unit comprises a finger cylinder in sliding connection with the winding rack and a driving cylinder for driving the finger cylinder to slide, and the finger cylinder is used for clamping the film.

As a further improvement of the utility model, the empty paper shaft automatic replacement assembly comprises an empty paper shaft guiding part and an empty paper shaft clamping part;

the empty paper shaft guide part comprises a guide frame obliquely arranged in the winding frame, a feeding cylinder is arranged at the lower end of the guide frame, and a through hole for the empty paper shaft to enter the guide frame and to exit the guide frame is formed in the winding frame;

the empty paper shaft clamping part comprises a clamping cylinder which is used for clamping an empty paper shaft, the driving clamping cylinder is fixedly connected with a connecting rod through a rotating rod, and the tail end of the connecting rod is arranged on the outer side of the double-head cylinder.

The winding machine is characterized in that a lower winding part is further arranged in the winding machine frame and comprises a blanking cylinder, the blanking cylinder is connected with a swing arm through a transmission rod and a rotating shaft, a material receiving frame which is obliquely arranged is fixedly connected to the outer side of the winding machine frame, and the material receiving frame is located under a station.

Compared with the prior art, the utility model has the following beneficial effects:

1. the automatic tape splicing replaces manual tape splicing, and is automatically completed by a machine;

2. the utility model automatically connects the belt, automatically detects on line, realizes the on line detection of the paper belt, and does not need to stop off line detection;

3. the utility model automatically connects the belt and automatically winds up, and replaces workers to wind up semi-automatically.

Drawings

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

FIG. 1 is a schematic elevational view of the present utility model;

FIG. 2 is a schematic top view of the present utility model;

FIG. 3 is a schematic view of the bottom structure of the unwind stand;

FIG. 4 is a schematic elevational view of a tape drive mechanism;

FIG. 5 is a schematic view of the tape drive assembly;

FIG. 6 is a schematic view of an automatic tape splicing apparatus;

FIG. 7 is a schematic diagram of an automatic detection unit;

FIG. 8 is a schematic view of a winding frame structure;

FIG. 9 is a schematic view of the winding member structure;

FIG. 10 is a schematic view of a film wrapping member;

FIG. 11 is a schematic view of a flat cable assembly;

FIG. 12 is a schematic view of an empty spool automatic change assembly;

fig. 13 is a schematic view of the structure of the lower roll member.

In the figure:

1. unreeling the frame; 101. a movable hole; 102. a first slide rail;

2. a driving unit; 21. a first driving motor; 22. a screw rod; 23. a slide block;

3. unreeling mounting rack;

4. a paper tape driving mechanism; 41. a mounting shaft; 42. a first roller; 43. a tensioning structure; 44. a limit rail; 45. a tape drive component; 451. a positioning cylinder; 452. a connecting frame; 453. a paper tape driving motor; 454. a rolling wheel;

5. an automatic tape splicing device; 51. a support frame; 52. a paper carrying guide rail; 53. a frame is installed; 54. an adhesive tape peeling unit; 55. an adhesive tape; 56. a lifting frame; 57. a compacting cylinder; 58. a lifting cylinder;

6. a punching part;

7. a material pulling and feather burning component;

8. a winding frame;

9. a buffer section; 91. a cache rack; 92. a mounting groove; 93. a turning buffer wheel;

10. a paper carrier tape;

11. an automatic detection unit; 111. a camera; 112. a lens; 113. a light source; 114. a limiting member;

12. a tape pulling member; 121. a rotating disc; 122. a second driving motor;

13. a wire arrangement part; 131. a movable frame; 132. a second roller; 133. a winding displacement motor; 134. an electromagnetic slide rail; 135. a guide rail; 136. guiding the motor; 137. a driving wheel;

14. a shearing member;

15. a film winding component; 151. installing a roller; 152. a guide roller frame; 153. heating wires; 154. a finger cylinder; 155. a driving cylinder; 156. a limiting frame; 157. a laminating roller; 158. a cutting cylinder; 159. adjusting a cylinder;

16. a tension controller;

17. a winding part; 171. a second slide rail; 172. a mounting plate; 173. a winding motor; 174. rotating the sleeve; 175. a telescopic cylinder;

18. a lower roll part; 181. a blanking cylinder; 182. a transmission rod; 183. a rotating shaft; 184. swing arms; 185. a material receiving frame;

19. an empty paper shaft automatic replacement assembly; 191. clamping an air cylinder; 192. a rotating lever; 193. a connecting rod; 194. a double-headed cylinder; 195. a guide frame; 196. a feeding cylinder;

20. and a punching frame.

Detailed Description

Various embodiments of the present utility model are disclosed in the following drawings, in which details are set forth in the following description for the sake of clarity. However, it should be understood that these physical details should not be used to limit the utility model. That is, in some embodiments of the present utility model, these physical details are not necessary. Moreover, for the purpose of simplifying the drawings, some conventional structures and components are shown in the drawings in a simplified schematic manner.

In addition, the descriptions of the "first," "second," and the like, herein are for descriptive purposes only and are not intended to be specifically construed as order or sequence, nor are they intended to limit the utility model solely for distinguishing between components or operations described in the same technical term, but are not to be construed as indicating or implying any relative importance or order of such features. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

Referring to fig. 1-2, the full-automatic high-speed paper carrier tape puncher of the present utility model includes a punching part 6, a material pulling and burning part 7, and further includes:

the punching machine frame 20 and the rolling machine frame 8 are used for placing the punching component 6, the material pulling and burning component 7, and the rolling machine frame 8 is provided with a shearing component 14 used for shearing the paper carrier tape 10;

an unreeling assembly installed at one side of the punching frame 20 for installing the paper carrier tape 10 and driving the paper carrier tape 10 to move;

an automatic tape splicing device 5 mounted on the punching frame 20 for splicing together the heads and tails of the two roll paper carrier tapes 10;

an automatic detection unit 11 mounted on the winding frame 8 for judging punching quality by collecting image information;

the guiding assembly is arranged on the winding frame 8 and used for guiding the punched paper carrier tape 10 to be wound;

the automatic winding and coating blanking assembly comprises a winding part 17 and a film winding part 15, which are respectively arranged on a winding frame 8 and used for automatically winding the paper carrier tape 10 and automatically coating the wound paper carrier tape 10;

the empty paper shaft automatic replacement assembly 19 is arranged on the winding rack 8 and matched with the winding part 17 to realize automatic replacement of the empty paper shaft.

Referring to fig. 3-5, the unreeling assembly comprises an unreeling rack 1 and an unreeling mounting rack 3, wherein the upper part of the unreeling rack 1 is slidably connected with the bottom of the unreeling mounting rack 3 through a first sliding rail 102; the bottom of the unreeling rack 1 is provided with a driving unit 2 for driving the unreeling mounting frame 3 to move; the driving unit 2 comprises a first driving motor 21, a screw rod 22 is arranged on an output shaft of the first driving motor 21, a sliding block 23 is arranged on the screw rod 22, and the sliding block 23 is fixedly connected with the bottom of the unreeling mounting frame 3 through a connecting rod; the bottom of the unreeling rack 1 is provided with a movable hole 101 for connecting the rod to move.

The paper tape driving mechanism 4 for driving paper tape is arranged on two sides of the unreeling mounting frame 3, the driving unit 2 comprises a mounting shaft 41 for mounting raw materials of two paper carrier tapes 10, a plurality of first rollers 42 for guiding the paper carrier tapes 10, and a limit rail 44 horizontally arranged on the unreeling mounting frame 3, a paper tape driving part 45 for driving the paper tape to move in the limit rail 44 is arranged above the limit rail 44, and the driving unit 2 further comprises a tensioning structure 43 for tensioning the paper tape.

The paper tape driving part 45 comprises a positioning air cylinder 451 arranged in the unreeling mounting frame 3, a paper tape driving motor 453 is arranged at the top of the positioning air cylinder 451 through a connecting frame 452, and a rolling wheel 454 is arranged on the output shaft of the paper tape driving motor 453; the unreeling mounting frame 3 is provided with a through hole for the rolling wheel 454 to move up and down.

According to the technical scheme, in the using process, the raw materials of the two paper carrier tapes 10 can be installed, so that the raw materials of the paper carrier tapes 10 can be automatically replaced, the dead time of equipment is saved, and the production is accelerated.

Referring to fig. 6, the automatic tape splicing apparatus 5 includes: the paper carrying guide rails 52 are arranged at the tops of two sides of the support frame 51, and a bonding station is formed between the two paper carrying guide rails 52; the adhesive tape 55 attaching assembly comprises a mounting frame 53 which is arranged on the front surface of the vertical supporting frame 51, and two groups of adhesive tape stripping units 54 are arranged on the mounting frame 53 and are used for respectively enabling the stripped adhesive tape 55 to be positioned on the upper surface and the lower surface of the paper carrier tape 10 on the station; a lifting frame 56 installed at the back of the supporting frame 51, and a lifting cylinder 58 installed at the bottom for lifting the lifting frame 56; two pressing cylinders 57 for pressing the adhesive tape 55 on the paper carrier tape 10 toward the work station.

According to the technical scheme, the new paper carrier tape 10 and the old paper carrier tape 10 can be automatically abutted, and the structure of automatically replacing the raw materials of the spare paper carrier tape 10 is matched, so that the production is further quickened, the raw materials of the paper carrier tape 10 are not required to be manually led into the punching part 6, namely, the efficiency is improved, and meanwhile, the safety is improved.

Referring to fig. 7, the automatic detection unit 11 includes a limiting member 114 for positioning the paper carrier tape 10; the camera 111 is vertically arranged on the winding frame 8 and is positioned right above the detection station, and the camera 111 is provided with a lens 112; a light source 113 is mounted on the take-up housing 8 directly below the inspection station for illuminating the paper carrier tape 10.

According to the technical scheme, the paper carrier tape 10 can be limited and positioned, and the image information of the paper carrier tape 10 can be effectively collected, so that whether the punching of the paper carrier tape 10 is qualified or not can be judged through the image information of the paper carrier tape 10, and the paper carrier tape 10 can be automatically detected in the equipment, so that manual offline detection procedures are reduced, and the efficiency is improved.

Referring to fig. 1, 8 and 11, the guiding assembly includes a buffer unit 9, a paper tape pulling unit 12, a tension controller 16 and a wire arranging unit 13, the buffer unit 9 includes a buffer frame 91, a mounting groove 92 is provided on the buffer frame 91, and a turning buffer wheel 93 is provided in the mounting groove 92; the paper tape pulling part 12 comprises a rotating disc 121, and the rotating disc 121 is driven by a second driving motor 122 positioned inside the winding frame 8; the width of the tension controller 16 is greater than the width of the hollow paper shaft; the winding displacement part 13 comprises a movable frame 131 and an electromagnetic sliding rail 134 for driving the movable frame 131 to move back and forth outside the winding frame 8, a winding displacement motor 133 is connected to the electromagnetic sliding rail 134 in a sliding manner, a guide rail 135 is fixedly connected to the movable frame 131, a guide motor 136 for driving a driving wheel 137 and for driving the driving wheel 137 to rotate is arranged on the guide rail 135, and a second roller 132 for guiding the paper carrier tape 10 is arranged on the movable frame 131.

Referring to fig. 9, the winding member 17 includes a second sliding rail 171 installed inside the winding frame 8, a winding motor 173 and a rotating sleeve 174 are installed on the second sliding rail 171 through a mounting plate 172, the rotating sleeve 174 partially extends out of the winding frame 8 and is located at a station, the rotating sleeve 174 is connected with the winding motor 173 through a chain and a sprocket, and the winding member 17 further includes a telescopic cylinder 175 for driving the mounting plate 172 to slide on the second sliding rail 171.

Referring to fig. 10, the film winding member 15 includes a mounting roller 151, a guide roller frame 152, a drawing unit, a laminating roller 157, a limiting frame 156 and an electric heating wire 153, wherein the guide roller frame 152 is mounted below the mounting roller 151 for guiding the film to be clamped by the drawing unit, the laminating roller 157 and the limiting frame 156 are both mounted near the winding member 17 for laminating the film on the paper carrier tape 10, and the limiting frame 156 is adjusted by an adjusting cylinder 159; the heating wire 153 is disposed below the guide roller frame 152 and driven by a cutting cylinder 158, and the drawing unit includes a finger cylinder 154 slidably connected to the winding frame 8 and a driving cylinder 155 for driving the finger cylinder 154 to slide, the finger cylinder 154 being used for clamping the film.

According to the technical scheme, the detected paper carrier tape 10 can be effectively guided to be wound by the winding component 17 and coated by the film winding component 15.

Referring to fig. 8 and 12, the empty shaft automatic replacement assembly 19 includes an empty shaft guide portion and an empty shaft gripping portion; the empty paper shaft guide part comprises a guide frame 195 obliquely arranged in the winding frame 8, a feeding cylinder 196 is arranged at the lower end of the guide frame 195, and through holes for the empty paper shaft to enter the guide frame 195 and to exit the guide frame 195 are formed in the winding frame 8; the empty paper shaft clamping part comprises a clamping cylinder 191 which is used for clamping an empty paper shaft, the driving clamping cylinder 191 is fixedly connected with a connecting rod 193 through a rotating rod 192, and the tail end of the connecting rod 193 is arranged on the outer side of the double-head cylinder 194.

According to the technical scheme, a new empty paper shaft can be automatically replaced.

Referring to fig. 8 and 13, a lower roll component 18 is further installed in the winding frame 8, the lower roll component 18 includes a lower roll cylinder 181, the lower roll cylinder 181 is connected with a swing arm 184 through a transmission rod 182 and a rotation shaft 183, a material receiving frame 185 is fixedly connected with the outer side of the winding frame 8 and is obliquely arranged, and the material receiving frame 185 is located under a station.

According to the technical scheme, blanking can be automatically performed.

When the utility model is used, firstly, raw materials of the paper carrier tape 10 are required to be installed on the installation shaft 41 of the paper tape driving mechanism 4, the paper carrier tape 10 is put into the limit rail 44 after passing through the first roller 42 and the tensioning structure 43, then the positioning cylinder 451 is started, so that the rolling wheel 454 presses the paper carrier tape 10 positioned in the limit rail 44, and then the paper carrier tape 10 is driven by the paper tape driving motor 453 to enter the paper carrier rail 52 of the automatic tape receiving device 5;

when the tail end of the old paper carrier tape 10 is positioned on one paper carrier guide rail 52 and the new paper tape is positioned on the other paper carrier guide rail 52, the lifting cylinder 58 can enable the driving roller to ascend through the lifting frame 56, so that the new paper tape is positioned below the driving roller, then the lifting cylinder 58 is retracted, namely, the two driving rollers can be respectively contacted with the new and old paper carrier tapes 10, then the driving roller is rotated, and the head end of the new paper carrier tape 10 and the tail end of the old paper carrier tape 10 can be butted at the bonding station; then the winding motor 173 in the two tape stripping units 54 is started to enable the tape 55 to be positioned at the joint of the new and old paper carrier tapes 10, then the two compacting cylinders 57 are started, and the compacting cylinders 57 carry the compacting blocks to clamp the tape 55, so that the tape 55 is firmly attached to the joint of the new and old paper carrier tapes 10, automatic paper receiving is realized, and the production efficiency is improved;

the paper carrier tape 10 passing through the automatic tape splicing device 5 enters the automatic detection unit 11 after passing through the punching part 6 and the material pulling and burning part 7, and the camera 111 photographs the paper carrier tape 10 at the same time, so that the image information of the paper carrier tape 10 is acquired, and the data analysis and the processing are convenient, and the detection of item data such as tolerance of holes of the paper carrier tape 10 is further completed, namely, the device can automatically detect the paper carrier tape 10, so that the manual offline detection procedure is reduced, and the efficiency is improved;

after passing through the turning buffer wheel 93 of the buffer part 9, the paper carrier tape 10 detected by the automatic tape splicing device 5 is subjected to preliminary tension control by the dead weight of the turning buffer wheel 93, then turned by the rotating disc 121 in the paper tape pulling part 12, turned by the tension controller 16 and then passed through the second roller 132 and the guide rail 135 on the wire arranging part 13;

when the device is started, the rotating disc 121 rotates and drives the paper carrier tape 10 to move towards the tension controller 16 through the second driving motor 122, meanwhile, the wire arranging motor 133 in the wire arranging part 13 rotates, then the guiding motor 136 in the wire arranging part 13 is synchronously started, namely, the paper carrier tape 10 can be close to an empty paper shaft arranged on the rotating sleeve 174, so that the paper carrier tape 10 is convenient to wind, when the empty paper shaft winds the paper carrier tape 10 under the rotation of the rotating sleeve 174, the shearing part 14 shears the paper carrier tape 10, and the electromagnetic sliding rail 134 and the wire arranging motor 133 are synchronously started in the winding process to guide the paper carrier tape 10 to be wound;

then, the driving cylinder 155 in the film winding part 15 drives the finger cylinder 154 to move to the outer side of the film in the winding frame 8, then the finger cylinder 154 is started, namely the film can be clamped to move downwards, and then the adjusting cylinder 159 can enable the film which moves downwards to be close to the rolled paper carrier tape 10 and then to be wound by the rolled paper carrier tape 10 in a rolling way, so that film coating is completed;

then the telescopic cylinder 175 in the winding part 17 is retracted, so that the rotating sleeve 174 is retracted into the winding frame 8, namely, the rolled paper carrier tape 10 can fall into the material receiving frame 185 in the winding part 18, then the blanking cylinder 181 is started, the transmission rod 182 is driven by the blanking cylinder 181 to enable the rotating shaft 183 to carry the swing arm 184 to rotate, namely, the material receiving frame 185 can automatically slide down through the inclination of the material receiving frame 185 after being far away from the winding frame 8;

then, the clamping cylinder 191 in the empty paper shaft automatic replacement assembly 19 rotates the rotating rod 192 to carry the connecting rod 193 through the connecting rod, so that the double-end cylinder 194 clamping the empty paper shaft rotates to a station, namely the empty paper shaft is positioned outside the rotating sleeve 174, then the telescopic cylinder 175 in the rolling part 17 carries the rotating sleeve 174 to clamp the empty paper shaft into the empty paper shaft, meanwhile, the double-end cylinder 194 loosens the empty paper shaft and resets to the outer side of the guide frame 195 under the retraction of the clamping cylinder 191, and then the feeding cylinder 196 enables a new empty paper shaft positioned in the guide frame 195 to extend out of the rolling frame 8 and be clamped by the double-end cylinder 194;

the device can realize automatic material receiving, automatic paper feeding and winding, automatic line lower detection, automatic auxiliary winding, automatic film coating and automatic lower winding.

And because the two sides of the unreeling mounting frame 3 are both provided with the paper tape driving mechanisms 4, the unreeling mounting frame 3 can be moved by the first driving motor 21 to realize quick replacement of the raw materials of the paper carrier tape 10, thereby facilitating quick butt joint of the subsequent paper carrier tape 10.

The foregoing description is only illustrative of the utility model and is not to be construed as limiting the utility model. Various modifications and variations of the present utility model will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, or the like, which is within the spirit and principles of the present utility model, should be included in the scope of the claims of the present utility model.

Claims (10)

1. The utility model provides a full-automatic high-speed paper carrier tape puncher, includes punching part (6) and draws material, burns feather part (7), its characterized in that still includes:

the punching machine comprises a punching machine frame (20) and a rolling machine frame (8) which are used for placing a punching component (6) and a material pulling and hairing component (7), wherein a shearing component (14) used for shearing a paper carrier tape (10) is arranged on the rolling machine frame (8);

the unreeling assembly is arranged on one side of the punching frame (20) and is used for installing a paper carrier tape (10) disc and driving the paper carrier tape (10) to move;

an automatic tape connecting device (5) which is arranged on the punching frame (20) and is used for connecting the heads and the tails of the two roll paper carrier tapes (10) together;

an automatic detection unit (11) which is arranged on the winding rack (8) and judges the punching quality by collecting image information;

the guide assembly is arranged on the winding frame (8) and used for guiding the punched paper carrier tape (10) to be wound;

the automatic winding and coating blanking assembly comprises a winding part (17), a film winding part (15) and a lower winding part (18), and is respectively arranged on a winding frame (8) and used for automatically winding a paper carrier tape (10) and automatically coating the wound paper carrier tape (10);

the empty paper shaft automatic replacement assembly (19) is arranged on the winding rack (8) and matched with the winding part (17) to realize automatic replacement of the empty paper shaft.

2. The fully automatic high speed paper carrier tape punch of claim 1, wherein: the unreeling assembly comprises an unreeling rack (1) and an unreeling mounting rack (3), wherein the upper part of the unreeling rack (1) is in sliding connection with the bottom of the unreeling mounting rack (3) through a first sliding rail (102);

the bottom of the unreeling rack (1) is provided with a driving unit (2) for driving the unreeling mounting rack (3) to move;

the driving unit (2) comprises a first driving motor (21), a screw rod (22) is arranged on an output shaft of the first driving motor (21), a sliding block (23) is arranged on the screw rod (22), and the sliding block (23) is fixedly connected with the bottom of the unreeling mounting frame (3) through a connecting rod;

the bottom of the unreeling rack (1) is provided with a movable hole (101) for connecting the rod to move.

3. The fully automatic high speed paper carrier tape punch of claim 2, wherein: the utility model provides a paper tape drive mechanism (4) that are used for driving the paper tape are all installed to the both sides of unreeling mounting bracket (3), and its drive unit (2) is including being used for installing installation axle (41) of two stock of paper carrier tape (10), a plurality of first gyro wheel (42) that are used for guiding paper carrier tape (10), a horizontal spacing rail (44) of installing on unreeling mounting bracket (3), the top of spacing rail (44) is equipped with paper tape drive part (45) that are used for driving the paper tape and remove in spacing rail (44), drive unit (2) are still including tensioning structure (43) that are used for tensioning the paper tape.

4. A fully automatic high speed paper carrier tape punch as claimed in claim 3, wherein: the paper tape driving component (45) comprises a positioning air cylinder (451) arranged in the unreeling installation frame (3), a paper tape driving motor (453) is arranged at the top of the positioning air cylinder (451) through a connecting frame (452), and a rolling wheel (454) is arranged on an output shaft of the paper tape driving motor (453);

the unreeling mounting frame (3) is provided with a through hole for the up-and-down movement of the rolling wheel (454).

5. The fully automatic high speed paper carrier tape punch of claim 1, wherein: the automatic tape splicing device (5) comprises:

the paper conveying device comprises a supporting frame (51), wherein paper carrying guide rails (52) are arranged at the tops of two sides of the supporting frame (51), and a bonding station is formed between the two paper carrying guide rails (52);

the adhesive tape (55) attaching assembly comprises a mounting rack (53) which is arranged on the front surface of the vertical supporting frame (51), wherein two groups of adhesive tape stripping units (54) are arranged on the mounting rack (53) and are used for respectively enabling the stripped adhesive tape (55) to be positioned on the upper surface and the lower surface of the paper carrier tape (10) on the station;

a lifting frame (56) which is installed on the back of the supporting frame (51), and the bottom of which is provided with a lifting cylinder (58) for lifting the lifting frame (56);

and two pressing cylinders (57) are used for pressing the adhesive tape (55) positioned on the paper carrier tape (10) towards the station.

6. The fully automatic high speed paper carrier tape punch of claim 1, wherein: the automatic detection unit (11) includes:

a limiting component (114) for positioning the paper carrier tape (10) is arranged;

a camera (111) vertically mounted on the winding frame (8) and located right above the detection station, wherein a lens (112) is mounted on the camera (111);

and the light source (113) is arranged on the winding rack (8) right below the detection station and is used for irradiating the paper carrier tape (10).

7. The fully automatic high speed paper carrier tape punch of claim 1, wherein: the guide assembly comprises a buffer part (9), a paper tape pulling part (12), a tension controller (16) and a wire arranging part (13), wherein the buffer part (9) comprises a buffer frame (91), an installation groove (92) is formed in the buffer frame (91), and a turning buffer wheel (93) is arranged in the installation groove (92);

the paper tape pulling component (12) comprises a rotating disc (121), and the rotating disc (121) is driven by a second driving motor (122) positioned in the winding rack (8);

the width of the tension controller (16) is larger than the width of the hollow paper shaft;

the winding displacement part (13) is including movable frame (131) and be used for driving movable frame (131) in the electromagnetism slide rail (134) of rolling frame (8) outside back and forth movement, sliding connection has winding displacement motor (133) on electromagnetism slide rail (134), fixedly connected with guide rail (135) on movable frame (131), be equipped with on guide rail (135) and be used for driving wheel (137) pivoted guide motor (136) be equipped with drive wheel (137), install second gyro wheel (132) of guiding paper carrier tape (10) on movable frame (131).

8. The fully automatic high speed paper carrier tape punch of claim 1, wherein:

the winding part (17) comprises a second sliding rail (171) arranged inside the winding frame (8), a winding motor (173) and a rotating sleeve (174) are arranged on the second sliding rail (171) through a mounting plate (172), the rotating sleeve (174) locally extends out of the winding frame (8) and is positioned on a station, the rotating sleeve (174) and the winding motor (173) are connected through a chain and a chain wheel, and the winding part (17) further comprises a telescopic cylinder (175) for driving the mounting plate (172) to slide on the second sliding rail (171).

9. The fully automatic high speed paper carrier tape punch of claim 1, wherein: the film winding component (15) comprises a mounting roller (151), a guide roller frame (152), a drawing unit, a laminating roller (157), a limiting frame (156) and an electric heating wire (153), wherein the guide roller frame (152) is mounted below the mounting roller (151) and used for guiding a film to be clamped by the drawing unit, the laminating roller (157) and the limiting frame (156) are both mounted near the winding component (17) and used for enabling a film to be laminated on a paper carrier tape (10) to be wound, and the limiting frame (156) is adjusted through an adjusting cylinder (159);

the heating wire (153) is arranged below the guide roller frame (152) and driven by the cutting cylinder (158), the drawing unit comprises a finger cylinder (154) which is in sliding connection with the winding rack (8) and a driving cylinder (155) which is used for driving the finger cylinder (154) to slide, and the finger cylinder (154) is used for clamping a film;

the lower roll part (18) comprises a blanking cylinder (181), the blanking cylinder (181) is connected with a swing arm (184) through a transmission rod (182) and a rotating shaft (183), a material receiving frame (185) which is obliquely arranged is fixedly connected to the outer side of the rolling frame (8), and the material receiving frame (185) is located under a station.

10. The fully automatic high speed paper carrier tape punch of claim 1, wherein: the empty paper shaft automatic replacement assembly (19) comprises an empty paper shaft guide part and an empty paper shaft clamping part;

the empty paper shaft guide part comprises a guide frame (195) obliquely arranged in the winding frame (8), a feeding cylinder (196) is arranged at the lower end of the guide frame (195), and through holes for the empty paper shaft to enter the guide frame (195) and to exit the guide frame (195) are formed in the winding frame (8);

the empty paper shaft clamping part comprises a clamping cylinder (191) which is used for clamping an empty paper shaft, the clamping cylinder (191) is fixedly connected with a connecting rod (193) through a rotating rod (192), and the tail end of the connecting rod (193) is arranged on the outer side of the double-head cylinder (194).