CN110341169B - Cutter all-in-one that punches for blister pack - Google Patents

Abstract

The invention discloses a cutter punching integrated machine for blister packaging, which belongs to the technical field of blister packaging processing equipment and comprises a processing and mounting device, a processing driving device, a cutter punching device and a positioning and conveying device, wherein the processing driving device comprises a processing driving part, a linkage driving part, a position transmission part and a horizontal moving part, the position transmission part and the linkage driving part are arranged at the output end of the linkage driving part, the linkage driving part is in transmission connection with the position transmission part, the stress end of the horizontal moving part is in transmission connection with the output end of the linkage driving part, and the output end of the horizontal moving part is in sliding fit with the moving end of the position transmission part. The invention can continuously and stably output in the driving process, continuously transmit power, stably control the cutter punching device to normally operate, complete the processing operation of the blister packages to be processed and improve the processing precision and efficiency.

Description

Cutter all-in-one that punches for blister pack

Technical Field

The invention relates to the technical field of blister packaging processing equipment, in particular to a cutter and punching integrated machine for blister packaging.

Background

The blister package is a general name for producing plastic products by adopting a blister process and packaging the products by using corresponding equipment. The plastic uptake product is mainly made of various plastic materials such as high-quality PVC, PET, PP, PS, GAG, flocking and the like, and is used for producing high-grade and various specifications of electronic plastic uptake packages, stationery plastic uptake packages, toy plastic uptake packages, hardware plastic uptake packages, food plastic uptake packages and daily chemical gift handicraft plastic uptake packages. The blister pack aims at displaying and protecting products, and most of the packaged products are small commodities and can be placed or hung on a shelf of a supermarket, so that the products are perfectly displayed in front of customers, and the sales of the products are promoted. Meanwhile, the blister package aims at separation, shock resistance and accompanying lining, and most of packaged products are electronic, IT and industrial parts, toys, stationery, food, artware, cosmetics and the like, and can be used for packaging more and smaller products, so that the products are more integrally attractive. In the production process of blister packs, the blister packs need to be cut and perforated.

In the prior art, when the cutter and the punching operation can be performed on a blister-packaged product, firstly, when the cutter and the punching equipment are driven, the provided driving force is poor in continuous and stable output on one hand, and the phenomenon of jamming can occur on the other hand; second, because the cutter among the prior art and the position of punching are not convenient for adjust, can't carry out quick regulation according to the processing needs of difference, then can influence machining efficiency and preparation precision.

Disclosure of Invention

The invention aims to provide a cutter and punching integrated machine for blister packaging, which aims to solve the technical problem in the prior art.

The invention provides a cutter punching integrated machine for blister packaging, which comprises a processing and mounting device, a processing driving device, a cutter punching device and a positioning and conveying device, wherein the positioning and conveying device is arranged below the processing and mounting device, the processing driving device is arranged on the processing and mounting device and is positioned above the positioning and conveying device, the cutter punching device is arranged on the processing and mounting device and is in transmission connection with the processing driving device, the processing driving device comprises a processing driving part, a linkage driving part, a position transmission part and a horizontal moving part, the linkage driving part is arranged below the processing driving part, the linkage driving part is in transmission connection with the processing driving part, the position transmission part and the linkage driving part are arranged at the output end of the linkage driving part, and the linkage driving part is in transmission connection with the position transmission part, the force bearing end of the horizontal moving component is in transmission connection with the output end of the linkage driving component, and the output end of the horizontal moving component is in sliding fit with the moving end of the position transmission component.

Further, processing installation device includes frame type support frame, two symmetric distribution at the braced frame of frame type support frame bottom and two fixed support boards that set up respectively on two braced frame lateral walls, the top of frame type support frame is equipped with the rectangular channel that a plurality of intervals set up, every the rectangular channel all runs through frame type support frame, every along vertical direction fixed support board's both ends are connected with the both sides of braced frame inside wall respectively, location conveyer includes horizontal conveying platform and two symmetric distribution at the supporting leg of horizontal conveying platform bottom, horizontal conveying platform sets up between two braced frames, the direction of transfer of horizontal drive platform is the same with the width direction of frame type support frame.

Further, processing drive disk assembly includes drive locating plate, processing driving motor, first locating piece, first gear, first transmission shaft, second locating piece and second gear, processing driving motor installs the middle part at drive locating plate top, first locating piece sets up the middle part in drive locating plate bottom, first gear is installed in the bottom of first locating piece, first transmission shaft one end upwards runs through first locating piece and drive locating plate along vertical direction, final and processing driving motor's main shaft fixed connection, the other end of first transmission shaft links drive disk assembly and second locating piece downwards in proper order along vertical direction, final and the middle part fixed connection of second gear.

Further, the linkage driving part comprises a circular toothed ring, a third gear, a fourth gear, a gear linkage plate, a cross fixing frame and a plurality of sliding supporting columns, the bottom of the driving positioning plate is provided with an annular sliding groove, the opening of the annular sliding groove faces downwards, a plurality of sliding support columns are uniformly distributed around the axis of the circular toothed ring, the top end of each sliding support column is in sliding fit with the annular sliding groove, the bottom end of each sliding support column is fixedly connected with the top of the circular toothed ring, the circular toothed ring is of a double-sided ring tooth structure, the outer side wall and the inner side wall of the circular toothed ring are both provided with tooth sockets, the third gear and the fourth gear are respectively arranged at two sides of the first gear, the third gear and the fourth gear are both meshed with the first gear and the tooth grooves at the inner sides of the circular gear rings, the gear linkage plate is arranged at the bottom of the first gear, and two ends of the gear linkage plate are fixedly connected with the middle parts of the third gear and the fourth gear respectively.

Further, the position transmission component comprises a positioning sliding plate, a horizontal sliding toothed plate, an L-shaped moving plate and two L-shaped positioning plates, the positioning sliding plate is arranged below the second gear, the side wall of the positioning sliding plate is provided with a sliding groove, the sliding groove penetrates through the positioning sliding plate along the horizontal direction, the two L-shaped positioning plates are symmetrically arranged on the side portion of the positioning sliding plate, the top end of each L-shaped positioning plate is fixedly connected with the bottom of the driving positioning plate, the other end of each L-shaped positioning plate is fixedly connected with the side wall of the positioning sliding plate, the horizontal sliding toothed plate can be slidably arranged in the sliding groove, the transverse end of each L-shaped moving plate is fixedly connected with the end portion of the horizontal sliding toothed plate, the top of the longitudinal end of each L-shaped moving plate is provided with a U-shaped moving groove with an upward opening, and in a working state, the second gear is meshed with the tooth grooves of the horizontal sliding toothed plate,

further, horizontal migration part includes second transmission shaft, fifth gear, horizontal drive board and third transmission shaft, the top of second transmission shaft and the bottom fixed connection of drive locating plate, the second gear is half section fixed connection with the second transmission shaft down, the one end of horizontal drive board and the bottom fixed connection of second transmission shaft, the bottom fixed connection of second transmission shaft is kept away from to the top of third transmission shaft and horizontal drive board, the third transmission shaft can slide in the U-shaped shifting chute along the horizontal direction.

Further, the cutter perforating device comprises a positioning installation part, a positioning perforating part and a positioning cutter part, the positioning installation part is arranged at the bottom end of the third transmission shaft, the positioning perforating part and the positioning cutter part are respectively arranged on two sides of the positioning installation part, and the output ends of the positioning perforating part and the positioning cutter part are downward along the vertical direction.

Further, the location installation part is including bearing disc, two triangle locating plates and four rectangle locating plates, two triangle locating plate and four rectangle locating plates all set up at the top of bearing the disc, two the triangle locating plate sets up respectively in the both sides of third transmission shaft, every the vertical limit of triangle locating plate closely laminates with the third transmission shaft, four the rectangle locating plate sets up respectively in the both sides of two triangle locating plates.

Further, the location part of punching is including the driving electric jar that punches, the loading board that punches, two extension rods and a plurality of head of punching, the driving electric jar that punches is installed at the top that bears the disc, two the extension rod that punches sets up respectively in the both sides of the driving electric jar that punches, the output and two of the driving electric jar that punches the tip of extension rod all runs through the top fixed connection who bears disc and the loading board that punches, and is a plurality of the head of punching all sets up along the length direction interval of the loading board that punches.

Further, location cutter part includes cutter drive electricity jar, cutter loading board, two cutter extension bars and a plurality of location cutters, cutter drive electricity jar is installed at the top of bearing the disc, two the cutter extension bar sets up the both sides at cutter drive electricity jar respectively, the output and two of cutter drive electricity jar the tip of cutter extension bar all runs through the top fixed connection who bears disc and cutter loading board, what the location cutter can be dismantled installs the top at the cutter loading board.

Compared with the prior art, the invention has the beneficial effects that:

firstly, when the blister pack to be cut and punched is continuously transported to a position to be processed by the positioning and conveying device, the processing driving part drives the linkage driving part to work, because the linkage driving part is in transmission connection with the position transmission part, the position transmission part can be driven to move along the horizontal direction, and because the horizontal moving part is arranged at the output end of the position transmission part, the horizontal moving part can change the position in the horizontal direction under the driving of the position transmission part, because the cutter punching device is arranged at the output end of the horizontal moving part, the cutting and punching operation of the blister pack to be processed can be realized by the cutter punching device, because the driving mode of the linkage driving part in the application is precise driving, the blister pack can continuously and stably output in the driving process, and power can be continuously transmitted, the cutter punching device can be stably controlled to normally operate, the processing operation of the blister package to be processed is completed, and the processing precision and efficiency can be improved.

Secondly, when the processing driving motor transmits power to the first transmission shaft, the first gear and the second gear are sleeved on the first transmission shaft, the first positioning block and the second positioning block are sleeved on the first transmission shaft, the first gear and the second gear are respectively arranged at the bottoms of the first positioning block and the second positioning block, the first gear is meshed with the third gear and the fourth gear, the third gear and the fourth gear are meshed with the circular toothed ring, the third gear and the fourth gear can be driven to rotate, the third gear and the fourth gear can be formed in a linkage manner because two ends of the gear linkage plate are respectively fixedly connected with the third gear and the fourth gear, the power can be continuously transmitted, the plurality of sliding support columns are distributed at the top of the circular toothed ring, the top of each sliding support column is fixedly connected with the annular sliding groove, and the bottom of each sliding support column is fixedly connected with the top of the circular toothed ring, then can drive circular ring gear and rotate, because second gear and horizontal slip pinion rack meshing, then can drive horizontal slip pinion rack along the horizontal direction slides on the location sliding plate, then power can transmit to L shape movable plate, L shape movable plate can remove at the horizontal direction, drive cutter perforating device and carry out the position and remove, through so accurate gear drive mode, can be with stable output to the horizontal migration part that lasts of power, through the horizontal migration part with power transmission to cutter punching part on, the plastic uptake packing product is treated to rethread cutter punching part and is processed the operation, stable power take off, can solve the problem of continuous stable output, can solve the phenomenon that the power card pauses.

Thirdly, the punching bearing plate is driven to move downwards along the vertical direction by the punching driving electric cylinder and the two punching extension rods, the plurality of punching heads are arranged at the bottom of the punching bearing plate and can be driven to move downwards, so that the punching operation of the blister packaging product to be processed is realized, and when the punching operation is performed, the positioning cutter part does not work, so that the stable and accurate operation of the punching process can be ensured, and the punching operation is performed; when the cutting operation, the location part that punches is out of work, and setting that can be stable is on bearing the disc, cuts the operation through location cutter part to inhaling plastic packaging product, and both do not disturb each other when the independent operation, improve machining efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

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

FIG. 2 is a top view of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is a cross-sectional view taken along line B-B of FIG. 3;

FIG. 5 is a partial perspective view of the present invention;

FIG. 6 is a schematic perspective view of the processing driving device and the cutter punching device according to the present invention;

FIG. 7 is a first perspective view of the first processing driving device according to the present invention;

fig. 8 is a schematic perspective view of a second embodiment of the present invention;

FIG. 9 is a schematic view of an assembled structure of the process driving apparatus of the present invention;

FIG. 10 is a first perspective view of the cutter punching device according to the present invention;

fig. 11 is a schematic perspective view of a cutter punching device according to the present invention.

Reference numerals:

a processing and mounting device 1, a frame-shaped supporting frame 1a, a rectangular groove 1a1, a supporting frame 1b, a fixed supporting plate 1c, a processing driving device 2, a processing driving component 2a, a driving positioning plate 2a1, a processing driving motor 2a2, a first positioning block 2a3, a first gear 2a4, a first transmission shaft 2a5, a second positioning block 2a6, a second gear 2a7, an annular sliding groove 2a8, a linkage driving component 2b, a circular toothed ring 2b1, a third gear 2b2, a fourth gear 2b3, a gear linkage plate 2b4, a cross fixing frame 2b5, a sliding supporting column 2b6, a position transmission component 2c, a positioning sliding plate 2c1, a horizontal sliding toothed plate 2c2, an L-shaped moving plate 2c3, an L-shaped 2c4, a sliding groove 2c5, a U-shaped moving groove 2c6, a horizontal moving component 2d, a second transmission shaft 2d1, a fifth gear 862 d 82 2, a horizontal positioning plate 8653, third transmission shaft 2d4, cutter perforating device 3, location installation part 3a, bear disc 3a1, triangle locating plate 3a2, rectangle locating plate 3a3, location punching part 3b, punch drive electric cylinder 3b1, punch loading board 3b2, the extension rod 3b3 that punches, punch head 3b4, location cutter part 3c, cutter drive electric cylinder 3c1, cutter loading board 3c2, cutter extension rod 3c3, location cutter 3c4, location conveyer 4, horizontal transfer platform 4a, supporting leg 4 b.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 11, an embodiment of the present invention provides a cutter punching integrated machine for blister packaging, including a processing and mounting device 1, a processing driving device 2, a cutter punching device 3, and a positioning and conveying device 4, where the positioning and conveying device 4 is disposed below the processing and mounting device 1, the processing driving device 2 is mounted on the processing and mounting device 1 and located above the positioning and conveying device 4, the cutter punching device 3 is mounted on the processing and mounting device 1 and connected to the processing driving device 2 in a transmission manner, the processing driving device 2 includes a processing driving part 2a, a linkage driving part 2b, a position transmission part 2c, and a horizontal moving part 2d, the linkage driving part 2b is disposed below the processing driving part 2a, the linkage driving part 2b is connected to the processing driving part 2a in a transmission manner, and the position transmission part 2c and the linkage driving part 2b are disposed at an output of the linkage driving part 2b The end, the linkage driving part 2b and the position transmission part 2c are connected in a transmission way, the stress end of the horizontal moving part 2d is connected with the output end of the linkage driving part 2b in a transmission way, the output end of the horizontal moving part 2d is matched with the moving end of the position transmission part 2c in a sliding way, when the blister pack to be cut and punched is continuously transported to the position to be processed by the positioning and conveying device 4, the linkage driving part 2b is driven by the processing driving part 2a to work, the position transmission part 2c can be driven to move along the horizontal direction because the linkage driving part 2b is connected with the position transmission part 2c in a transmission way, and the horizontal moving part 2d can change the position in the horizontal direction under the driving of the position transmission part 2c because the horizontal moving part 2d is arranged at the output end of the position transmission part 2c, because cutter perforating device 3 installs on the output of horizontal migration part 2d, then can realize treating processing plastic uptake packing article through cutter perforating device 3 and cut and punch the operation, because the drive mode of linkage drive part 2b in this application is the precision drive, at the driven in-process, can continuously stabilize the output, with the continuous transmission of power, then can stable control cutter perforating device 3 carry out normal operation, the completion is treated the processing operation of the plastic uptake packing article of processing, then can improve the precision and the efficiency of processing.

The processing and mounting device 1 comprises a frame-shaped support frame 1a, two support frames 1b which are symmetrically distributed at the bottom of the frame-shaped support frame 1a and two fixed support plates 1c which are respectively arranged on the side walls of the two support frames 1b, the top of the frame-shaped support frame 1a is provided with a plurality of rectangular grooves 1a1 which are arranged at intervals, each rectangular groove 1a1 penetrates through the frame-shaped support frame 1a along the vertical direction, the two ends of each fixed support plate 1c are respectively connected with the two sides of the inner side wall of the support frame 1b, the positioning and conveying device 4 comprises a horizontal conveying table 4a and two support legs 4b which are symmetrically distributed at the bottom of the horizontal conveying table 4a, the horizontal conveying table 4a is arranged between the two support frames 1b, the conveying direction of the horizontal conveying table is the same as the width direction of the frame-shaped support frame 1a, and the two support frames 1b are arranged at the bottom of the frame-shaped support frame 1a, then can realize fixing operation to frame type support frame 1a, improve the steady support operation to frame type support frame 1a, provide stable processing environment for the cutting and the operation of punching in later stage.

The machining driving part 2a comprises a driving positioning plate 2a1, a machining driving motor 2a2, a first positioning block 2a3, a first gear 2a4, a first transmission shaft 2a5, a second positioning block 2a6 and a second gear 2a7, the machining driving motor 2a2 is mounted in the middle of the top of the driving positioning plate 2a1, the first positioning block 2a3 is arranged in the middle of the bottom of the driving positioning plate 2a1, the first gear 2a4 is mounted at the bottom of the first positioning block 2a3, one end of the first transmission shaft 2a5 penetrates through the first positioning block 2a3 and the driving positioning plate 2a1 in the vertical direction and is finally fixedly connected with the main shaft of the machining driving motor 2a2, the other end of the first transmission shaft 2a5 is sequentially linked with the driving part 2b and the second positioning block 2a6 in the vertical direction and is finally fixedly connected with the middle of the second gear 2a7, when the processing driving motor 2a2 transmits power to the first transmission shaft 2a5, the first gear 2a4 and the second gear 2a7 are sleeved on the first transmission shaft 2a5, and the first positioning block 2a3 and the second positioning block 2a6 are sleeved on the first transmission shaft 2a5, and the first gear 2a4 and the second gear 2a7 are respectively arranged at the bottoms of the first positioning block 2a3 and the second positioning block 2a6, so that the power transmission operation is realized.

The linkage driving component 2b comprises a circular toothed ring 2b1, a third gear 2b2, a fourth gear 2b3, a gear linkage plate 2b4, a cross-shaped fixed frame 2b5 and a plurality of sliding support columns 2b6, the bottom of the driving positioning plate 2a1 is provided with an annular sliding groove 2a8, the annular sliding groove 2a8 is open downwards, a plurality of sliding support columns 2b6 are uniformly distributed around the axis of the circular toothed ring 2b1, the top end of each sliding support column 2b6 is in sliding fit with an annular sliding groove 2a8, the bottom end of each sliding support column 2b6 is fixedly connected with the top of the circular toothed ring 2b1, the circular toothed ring 2b1 is in a double-sided ring tooth structure, the outer side wall and the inner side wall of the circular toothed ring 2b1 are both provided with tooth grooves, the third gear 2b2 and the fourth gear 2b3 are respectively arranged on both sides of the first gear 4, and the third gear 2b 56 and the fourth gear 862 b 8653 are both meshed with the circular toothed ring 862 b1, the gear linkage plate 2b4 is arranged at the bottom of the first gear 2a4, two ends of the gear linkage plate 2b4 are fixedly connected with the middle parts of the third gear 2b2 and the fourth gear 2b3 respectively, because the first gear 2a4 is meshed with the third gear 2b2 and the fourth gear 2b3, and the third gear 2b2 and the fourth gear 2b3 are both meshed with the circular toothed ring 2b1, the third gear 2b2 and the fourth gear 2b3 can be driven to rotate, because two ends of the gear plate 2b4 are fixedly connected with the third gear 2b2 and the fourth gear 2b3 respectively, the third gear 2b2 and the fourth gear 2b3 can be linked and molded, power can be continuously transmitted, a plurality of sliding support columns 2b6 are distributed at the top of the circular toothed ring 2b1, the top of each sliding support column 2b 632 b 2b is connected with the circular sliding groove 56 a of the top of the circular supporting column 82 6, the circular ring gear 2b1 can be driven to rotate.

The position transmission component 2c comprises a positioning sliding plate 2c1, a horizontal sliding toothed plate 2c2, an L-shaped moving plate 2c3 and two L-shaped positioning plates 2c4, the positioning sliding plate 2c1 is disposed below the second gear 2a7, the side wall of the positioning sliding plate 2c1 is provided with a sliding groove 2c5, the sliding groove 2c5 penetrates through the positioning sliding plate 2c1 along the horizontal direction, the two L-shaped positioning plates 2c4 are symmetrically disposed at the side of the positioning sliding plate 2c1, the top end of each L-shaped positioning plate 2c4 is fixedly connected with the bottom of the driving positioning plate 2a1, the other end of the L-shaped positioning plate 2c4 is fixedly connected with the side wall of the positioning sliding plate 2c1, the horizontal sliding toothed plate 2c2 is slidably disposed in the sliding groove 2c5, the transverse end of the L-shaped moving plate 2c3 is fixedly connected with the end of the horizontal sliding toothed plate 2c2, the top of the L-shaped moving plate 2c3 is provided with a U-shaped slot 6 towards the top, under the working condition, the second gear 2a7 is meshed with the tooth socket of the horizontal sliding toothed plate 2c2, because the second gear 2a7 is meshed with the horizontal sliding toothed plate 2c2, the horizontal sliding toothed plate 2c2 can be driven to slide on the positioning sliding plate 2c1 along the horizontal direction, power can be transmitted to the L-shaped moving plate 2c3, the L-shaped moving plate 2c3 can move in the horizontal direction, and the cutter punching device 3 is driven to move in position.

The horizontal moving part 2d comprises a second transmission shaft 2d1, a fifth gear 2d2, a horizontal transmission plate 2d3 and a third transmission shaft 2d4, the top end of the second transmission shaft 2d1 is fixedly connected with the bottom of the driving positioning plate 2a1, the fifth gear 2d2 is fixedly connected with the lower half section of the second transmission shaft 2d1, one end of the horizontal transmission plate 2d3 is fixedly connected with the bottom end of the second transmission shaft 2d1, the top end of the third transmission shaft 2d4 is fixedly connected with the bottom of the horizontal transmission plate 2d3 far away from the second transmission shaft 2d1, the third transmission shaft 2d4 can slide in the U-shaped moving groove 2c6 along the horizontal direction, the fifth gear 2d2 is sleeved on the second transmission shaft 2d1, because the fifth gear 2d2 is engaged with the outer side wall of the circular gear ring 2b1, the fifth gear 2d 365 can be driven to rotate, because the top end of the horizontal transmission plate 2d3 is fixedly connected with the bottom end of the second transmission plate 1 d 57324, the top end of the third transmission shaft 2d4 is connected with the horizontal transmission plate 2d3, so that the third transmission shaft 2d4 can be driven to move, the driving operation of the cutter punching device 3 is completed, the cutter punching device 3 can move along the horizontal direction, the positions of the cutter punching device 3 and the positioning and conveying device 4 can be conveniently adjusted, and the processing operation of products is realized.

Cutter perforating device 3 is including location installation component 3a, location punching component 3b and location cutter unit 3c, location installation component 3a sets up the bottom at third transmission shaft 2d4, location punching component 3b and location cutter unit 3c set up respectively in location installation component 3a both sides, the location punching component 3b and the output of location cutter unit 3c are downward along vertical direction, because location punching component 3b and location cutter unit 3c all install on location installation component 3a, location punching component 3b and location cutter unit 3c all can treat the product of processing and carry out the processing operation along vertical direction downstream.

Location installing component 3a is including bearing disc 3a1, two triangle locating plates 3a2 and four rectangle locating plates 3a3, two triangle locating plate 3a2 and four rectangle locating plates 3a3 all set up at the top that bears disc 3a1, two triangle locating plate 3a2 sets up respectively in the both sides of third transmission shaft 2d4, every the vertical limit of triangle locating plate 3a2 closely laminates with third transmission shaft 2d4, four rectangle locating plate 3a3 sets up respectively in the both sides of two triangle locating plates 3a2, and the installation operation to location punching part 3b and location cutter part 3c can be realized to the setting of bearing disc 3a1, realizes putting into the processing operation to the plastic-absorbing package.

Location punching part 3b is including punching drive electricity jar 3b1, the loading board 3b2 that punches, two extension rod 3b3 and a plurality of head of punching 3b4 that punch, it installs at the top that bears disc 3a1 to punch drive electricity jar 3b1, two extension rod 3b3 that punches sets up respectively in the both sides of punching drive electricity jar 3b1, the output and two of punching drive electricity jar 3b1 the tip of punching extension rod 3b3 all runs through the top fixed connection who bears disc 3a1 and punching loading board 3b2, and is a plurality of head of punching 3b4 all sets up along the length direction interval of loading board 3b2 that punches, treats through punching drive electricity jar 3b1 and two extension rod 3b3 that punch loading board 3b2 and a plurality of head of punching 3b4 that punch along vertical direction downstream, realizes that the product of processing accomplishes the processing operation.

The positioning cutter component 3c comprises a cutter driving electric cylinder 3c1, a cutter bearing plate 3c2, two cutter extension rods 3c3 and a plurality of positioning cutters 3c4, the cutter driving electric cylinder 3c1 is arranged on the top of the bearing disc 3a1, two cutter extending rods 3c3 are respectively arranged on two sides of the cutter driving electric cylinder 3c1, the output end of the cutter driving electric cylinder 3c1 and the end parts of the two cutter extension rods 3c3 penetrate through the bearing disc 3a1 and are fixedly connected with the top of the cutter bearing plate 3c2, the positioning cutter 3c4 can be detachably arranged on the top of the cutter bearing plate 3c2, the cutter carrier plate 3c2 is moved downward in the vertical direction by the cutter driving electric cylinder 3c1 and the two cutter extension rods 3c3, because the positioning cutter 3c4 is installed at the bottom of the cutter bearing plate 3c2, the product can be processed by the positioning cutter 3c 4.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (2)

1. A cutter punching all-in-one machine for blister packaging is characterized by comprising a processing and mounting device (1), a processing driving device (2), a cutter punching device (3) and a positioning and conveying device (4), wherein the positioning and conveying device (4) is arranged below the processing and mounting device (1), the processing driving device (2) is arranged on the processing and mounting device (1) and is positioned above the positioning and conveying device (4), the cutter punching device (3) is arranged on the processing and mounting device (1) and is in transmission connection with the processing driving device (2), the processing driving device (2) comprises a processing driving part (2a), a linkage driving part (2b), a position transmission part (2c) and a horizontal moving part (2d), and the linkage driving part (2b) is arranged below the processing driving part (2a), the linkage driving part (2b) is in transmission connection with the machining driving part (2a), the position transmission part (2c) and the linkage driving part (2b) are arranged at the output end of the linkage driving part (2b), the linkage driving part (2b) is in transmission connection with the position transmission part (2c), the stress end of the horizontal moving part (2d) is in transmission connection with the output end of the linkage driving part (2b), the output end of the horizontal moving part (2d) is in sliding fit with the moving end of the position transmission part (2c), the machining driving part (2a) comprises a driving positioning plate (2a1), a machining driving motor (2a2), a first positioning block (2a3), a first gear (2a4), a first transmission shaft (2a5), a second positioning block (2a6) and a second gear (2a7), the machining driving motor (2a2) is arranged in the middle of the top of the driving positioning plate (2a1), the first positioning block (2a3) is arranged at the middle part of the bottom of the driving positioning plate (2a1), the first gear (2a4) is arranged at the bottom of the first positioning block (2a3), one end of the first transmission shaft (2a5) penetrates through the first positioning block (2a3) and the driving positioning plate (2a1) upwards along the vertical direction and is finally fixedly connected with a main shaft of the processing driving motor (2a2), the other end of the first transmission shaft (2a5) sequentially links the driving part (2b) and the second positioning block (2a6) downwards along the vertical direction and is finally fixedly connected with the middle part of the second gear (2a7), and the linkage driving part (2b) comprises a circular gear ring (2b1), a third gear (2b2), a fourth gear (2b3), a gear linkage plate (2b4), a cross fixing frame (2b5) and a plurality of sliding supporting columns (2b6), the bottom of the driving positioning plate (2a1) is provided with an annular sliding groove (2a8), the annular sliding groove (2a8) is open downwards, a plurality of sliding supporting columns (2b6) are uniformly distributed around the axis of a circular toothed ring (2b1), the top end of each sliding supporting column (2b6) is in sliding fit with the annular sliding groove (2a8), the bottom end of each sliding supporting column (2b6) is fixedly connected with the top of the circular toothed ring (2b1), the circular toothed ring (2b1) is of a double-sided ring tooth structure, the outer side wall and the inner side wall of the circular toothed ring (2b1) are provided with tooth grooves, the third gear (2b2) and the fourth gear (2b3) are respectively arranged on two sides of the first gear (2a4), the third gear (2b2) and the fourth gear (2b3) are respectively meshed with the inner sides of the first gear (2a4) and the circular toothed ring (1), the gear linkage plate (2b4) is arranged at the bottom of the first gear (2a4), two ends of the gear linkage plate (2b4) are respectively and fixedly connected with the middle parts of the third gear (2b2) and the fourth gear (2b3), the position transmission component (2c) comprises a positioning sliding plate (2c1), a horizontal sliding toothed plate (2c2), an L-shaped moving plate (2c3) and two L-shaped positioning plates (2c4), the positioning sliding plate (2c1) is arranged below the second gear (2a7), the side wall of the positioning sliding plate (2c1) is provided with a sliding groove (2c5), the sliding groove (2c5) penetrates through the positioning sliding plate (2c1) along the horizontal direction, the two L-shaped positioning plates (2c4) are symmetrically arranged at the side parts of the positioning sliding plate (2c1), the top end of each L-shaped positioning plate (2c4) is fixedly connected with the bottom of the driving positioning plate (2a1), the other end of the L-shaped positioning plate (2c4) is fixedly connected with the side wall of the positioning sliding plate (2c1), the horizontal sliding toothed plate (2c2) is slidably arranged in the sliding groove (2c5), the transverse end of the L-shaped moving plate (2c3) is fixedly connected with the end of the horizontal sliding toothed plate (2c2), the top of the longitudinal end of the L-shaped moving plate (2c3) is provided with an open upward U-shaped moving groove (2c6), in an operating state, the second gear (2a7) is engaged with the toothed groove of the horizontal sliding toothed plate (2c2), the horizontal moving component (2d) comprises a second transmission shaft (2d1), a fifth gear (2d2), a horizontal transmission plate (2d3) and a third transmission shaft (2d4), the top end of the second transmission shaft (2d1) is fixedly connected with the bottom of the driving positioning plate (2a1), and the fifth gear (2d2) is fixedly connected with the lower half transmission shaft (1) of the second gear (2d2), one end of the horizontal transmission plate (2d3) is fixedly connected with the bottom end of the second transmission shaft (2d1), the top end of the third transmission shaft (2d4) is fixedly connected with the bottom of the horizontal transmission plate (2d3) far away from the second transmission shaft (2d1), the third transmission shaft (2d4) can slide in a U-shaped moving groove (2c6) along the horizontal direction, the cutter punching device (3) comprises a positioning installation part (3a), a positioning punching part (3b) and a positioning cutter part (3c), the positioning installation part (3a) is arranged at the bottom end of the third transmission shaft (2d4), the positioning punching part (3b) and the positioning cutter part (3c) are respectively arranged at two sides of the positioning installation part (3a), the output ends of the positioning punching part (3b) and the positioning cutter part (3c) are downward along the vertical direction, the positioning and mounting component (3a) comprises a bearing disc (3a1), two triangular positioning plates (3a2) and four rectangular positioning plates (3a3), two triangular positioning plates (3a2) and four rectangular positioning plates (3a3) are arranged at the top of the bearing disc (3a1), two triangular positioning plates (3a2) are respectively arranged at two sides of a third transmission shaft (2d4), each vertical side of the triangular positioning plates (3a2) is tightly attached to the third transmission shaft (2d4), four rectangular positioning plates (3a3) are respectively arranged at two sides of the two triangular positioning plates (3a2), the positioning and punching component (3b) comprises a punching driving electric cylinder (3b1), a punching bearing plate (3b2), two punching extension rods (3b3) and a plurality of punching heads (3b4), and the punching driving electric cylinder (3b1) is arranged at the top of the bearing disc (3a1), two punch extension rod (3b3) and set up respectively in the both sides of punching drive electric cylinder (3b1), punch drive electric cylinder (3b1) the output and two punch the tip of extension rod (3b3) and all run through the top fixed connection who bears disc (3a1) and punch loading board (3b2), it is a plurality of punch head (3b4) and all set up along the length direction interval of punching loading board (3b2), location cutter part (3c) includes cutter drive electric cylinder (3c1), cutter loading board (3c2), two cutter extension rod (3c3) and a plurality of location cutter (3c4), install at the top of bearing disc (3a1) cutter drive electric cylinder (3c1), two extension rod (3c3) sets up respectively in the both sides of cutter drive electric cylinder (3c1), the output and two of cutter drive electric cylinder 1 the cutter extension rod (3c 68692) all run through the tip (3a) and bear cutter extension rod (3c1) and bear the both sides of cutter 638), cutter 638 The top of the cutter bearing plate (3c2) is fixedly connected, and the positioning cutter (3c4) can be detachably arranged on the top of the cutter bearing plate (3c 2).

2. The cutting and punching integrated machine for blister packaging according to claim 1, wherein the processing and mounting device (1) comprises a frame-shaped support frame (1a), two support frames (1b) symmetrically distributed at the bottom of the frame-shaped support frame (1a), and two fixed support plates (1c) respectively arranged on the side walls of the two support frames (1b), the top of the frame-shaped support frame (1a) is provided with a plurality of rectangular grooves (1a1) arranged at intervals, each rectangular groove (1a1) penetrates through the frame-shaped support frame (1a) along the vertical direction, both ends of each fixed support plate (1c) are respectively connected with both sides of the inner side wall of the support frame (1b), the positioning and conveying device (4) comprises a horizontal conveying platform (4a) and two support legs (4b) symmetrically distributed at the bottom of the horizontal conveying platform (4a), the horizontal conveying table (4a) is arranged between the two supporting frames (1b), and the conveying direction of the horizontal conveying table (4a) is the same as the width direction of the frame-shaped supporting frame (1 a).

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