CN209775921U - automatic forming machine for inner page of name card book - Google Patents

Abstract

The utility model relates to the stationery manufacturing equipment field, in particular to a business card book inner page automatic forming machine, which comprises a material placing frame and a film conveying line, and also comprises a material pulling mechanism, two bag opening die cutting mechanisms, a primary forming mechanism, a bag bottom die cutting mechanism, an ultrasonic welding mechanism, a cutting mechanism and a material receiving mechanism, wherein the two bag opening die cutting mechanisms are symmetrically arranged at the two sides of the top of the film conveying line, the two ultrasonic welding mechanisms are respectively arranged at the two sides of the top of the film conveying line, the primary forming mechanism comprises a flanging wheel set and a flanging wheel set, and discharging automatic slideways for receiving waste materials are arranged below the bag opening die cutting mechanisms, the bag bottom die cutting mechanisms and the cutting mechanism, the production efficiency is greatly improved, and meanwhile, the labor cost is effectively reduced.

Description

automatic forming machine for inner page of name card book

Technical Field

The invention relates to the field of stationery manufacturing equipment, in particular to an automatic forming machine for inner pages of business card books.

Background

The business card book, it includes front cover, back cover, business card inner page, is equipped with the business card inner page between front cover and back cover, the system has perspective window on the front cover, perspective window paste the outside at the front cover for transparent material pad pasting, perspective window can be circular, oval, square, rectangle, is equipped with the advertisement page or leaf in the front cover the inside, can be as required with in the fixed perspective window of individual or enterprise information propaganda card, play the effect of propaganda, be equipped with the advertisement page or leaf in front cover the inside in addition, make the business card book as a new advertising media, the intention is novel, pleasing to the eye, promotes the price value of business card book, has good commercial promotion prospect.

At present, when the inner page of the business card book is produced in batches, the raw material of the inner page of the business card book needs to be processed, and through cutting, forming, breaking and other multiple processes of finished products, the traditional production process often needs to be equipped with multiple workers to carry out auxiliary processing, the production cost is increased, the production efficiency is not high, and along with the gradual popularization of the automation of the manufacturing industry, the equipment capable of producing the inner page of the business card book in a full-automatic mode is urgently needed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an automatic forming machine for inner pages of a business card book.

an automatic forming machine for inner pages of business card books comprises a material placing frame, a film conveying line, a material pulling mechanism, a bag opening die-cutting mechanism, a primary forming mechanism, a bag bottom die-cutting mechanism, an ultrasonic welding mechanism, a cutting mechanism and a material receiving mechanism, wherein the material placing frame and the material receiving mechanism are respectively positioned at the initial end and the tail end of the film conveying line, the bag opening die-cutting mechanism, the primary forming mechanism, the bag bottom die-cutting mechanism, the ultrasonic welding mechanism, the material pulling mechanism and the cutting mechanism are sequentially arranged on the film conveying line along the running direction of the film conveying line, the number of the bag opening die-cutting mechanisms is two, the two bag opening die-cutting mechanisms are symmetrically arranged at two sides of the top of the film conveying line, the two ultrasonic welding mechanisms are respectively arranged at two sides of the top of the film conveying line, the primary forming mechanism comprises a flanging wheel set and a flanging wheel set, the flanging wheel set and the flanging, and discharge slideways for receiving waste materials are arranged below the bag opening die-cutting mechanism, the bag bottom die-cutting mechanism and the cutting mechanism.

preferably, every sack cross cutting mechanism all includes sack mould, sack cutting die and first cylinder, the top both ends of sack mould all are vertical first optical axis that is provided with, the top of sack mould still is provided with a horizontally first backup pad, the bottom both ends of first backup pad respectively with the top fixed connection of two first optical axes, the both ends of sack cutting die slide respectively the slip cover establish on two first optical axes, the vertical top that sets up at first backup pad of first cylinder, and the output shaft of first cylinder vertically pass first backup pad downwards and with sack cutting die fixed connection of below, the top of sack mould is provided with the sack die punching hole identical with sack cutting die, one side of every sack mould all is provided with the first feeding clearance that supplies the film edge to get into.

Preferably, the primary forming mechanism further comprises two vertical supporting plates and two horizontal supporting rods, the two vertical supporting plates are respectively and fixedly installed on the two sides of the top of the film conveying line, the two horizontal supporting rods are parallel to each other, the two ends of each horizontal supporting rod are respectively connected with the two vertical supporting plates, and the edge folding wheel set are respectively arranged in the middle of the two horizontal supporting rods.

Preferably, the hem wheelset includes two first aluminium guide wheels and a bar connecting plate, the length direction of the length direction perpendicular to horizontal support rod of bar connecting plate, the middle part fixed connection of the one end of bar connecting plate and horizontal support rod, the other end extends to the below of this horizontal support rod, two first aluminium guide wheel symmetries set up the both sides at the bar connecting plate, and two first aluminium guide wheels all rotate with the bar connecting plate and are connected, the axis coincidence of two first aluminium guide wheels, the axis direction of first aluminium guide wheel is on a parallel with the length direction of horizontal support rod.

Preferably, the overlap edge wheelset includes the second aluminium guide pulley that two symmetries set up, the one side of hem wheelset is kept away from at the horizontal support pole of being connected with it to the overlap edge wheelset setting, the symmetry is provided with two bar slide openings on the horizontal support pole of being connected with the overlap edge wheelset, the length direction of two bar slide openings all is parallel with the length direction of this horizontal support pole, the one end of every second aluminium guide pulley all is provided with a connecting block, the one end and the connecting block of second aluminium guide pulley rotate to be connected, the axis direction of second aluminium guide pulley is angle setting with the axis direction of horizontal support pole, and the one end slope that the connecting block was kept away from to the second aluminium guide pulley sets up downwards, every connecting block all is connected with the bar slide opening that corresponds through locking bolt, locking bolt passes bar slide opening and the.

Preferably, the bag bottom die cutting mechanism comprises a bag bottom die, a bag bottom cutting die and a second cylinder, wherein the two ends of the top of the bag bottom die are vertically provided with second optical axes, a horizontal second supporting plate is further arranged above the bag bottom die, the two ends of the bottom of the second supporting plate are respectively fixedly connected with the tops of the two second optical axes, the two ends of the bag bottom cutting die are respectively in sliding connection with the two second optical axes, the second cylinder is arranged at the top of the second supporting plate, an output shaft of the second cylinder vertically penetrates through the second supporting plate and is fixedly connected with the bag bottom cutting die, a bag bottom die cutting hole matched with the bag bottom cutting die is formed in the top of the bag bottom die, and a second feeding gap for a film edge to enter is formed in one side of the bag bottom die.

Preferably, each ultrasonic welding mechanism comprises an ultrasonic electric box and an ultrasonic vibrator, mould on ultrasonic wave lower mould and the ultrasonic wave, the ultrasonic wave oscillator passes through the inboard of horizontal mounting bracket setting at the film transfer chain, the ultrasonic wave oscillator is vertical state and is connected with horizontal mounting bracket, the fixed top output that sets up at the ultrasonic wave oscillator of ultrasonic wave lower mould, the ultrasonic wave is gone up the mould and is set up directly over the mould on the ultrasonic wave that corresponds through horizontal support frame, the top level of horizontal support frame erects an installation crossbeam, the top of installation crossbeam is provided with a third cylinder, the output of third cylinder is vertical to pass the installation crossbeam downwards and go up mould fixed connection with the ultrasonic wave of below, two ultrasonic wave electronic boxes are connected with two ultrasonic wave oscillator electricity respectively, two ultrasonic wave electronic boxes pass through the electronic box support frame and pile up the top that sets up at the film transfer chain, two ultrasonic wave.

Preferably, the end of film transfer chain is equipped with a discharge frame, draw the one end that material mechanism set up and be close to the film transfer chain at the discharge frame, draw material mechanism to include servo motor, servo planetary reducer and two and glue the pinch roller, servo motor is connected with servo planetary reducer, servo planetary reducer is fixed to be set up on the inside wall of discharge frame, two are glued the pinch roller and all are the horizontality and can the pivoted setting at the inboard top of discharge frame, two are glued the pinch roller and laminate mutually and lie in the one end that the discharge frame is close to the film transfer chain, the tip of two gluey pinch rollers is connected through first gear drive, servo planetary reducer's output shaft is connected through the tip transmission of first drive belt and one of them gluey pinch roller.

Preferably, the cutting mechanism is located one side, away from the film conveying line, of the two rubber pressing wheels and comprises a punching and cutting die, a punching and cutting knife die and a fourth cylinder, the punching and cutting die is horizontally arranged at the top of the inner side of the discharging frame, vertical third optical axes are arranged at four corners of the top of the punching and cutting die, a horizontal third supporting plate is fixedly connected to the tops of the four third optical axes, the punching and cutting knife die is horizontally arranged, the four corners of the punching and cutting knife die are respectively in sliding connection with the four third optical axes, the fourth cylinder is arranged at the top of the third supporting plate, an output shaft of the fourth cylinder vertically penetrates through the third supporting plate downwards and is fixedly connected with the punching and cutting knife die below, and punching and cutting holes matched with the punching and cutting knife die are formed in the punching and cutting die.

Preferably, the receiving mechanism comprises a lifting cylinder and two receiving basins, the two receiving basins are horizontally arranged and are arranged at intervals in the vertical direction, two sides of the two receiving basins are fixedly connected with each other through a connecting sliding plate which is vertically arranged, the inner side of one end, away from the film conveying line, of the discharging frame is provided with an upper supporting beam and a lower supporting beam, the upper supporting beam and the lower supporting beam are horizontally arranged and are located between the upper supporting beam and the lower supporting beam, two vertical fourth optical axes are arranged between the upper supporting beam and the lower supporting beam at intervals, the two connecting sliding plates are slidably connected with the two fourth optical axes respectively, the lifting cylinder is vertically arranged at the bottom of the lower supporting beam, an output shaft of the lifting cylinder vertically upwards penetrates through the lower supporting beam to be fixedly connected with the bottom of the receiving basin above, and two first roller shafts are sequentially arranged between the cutting mechanism and the receiving basins, A second roll shaft and two third roll shafts, two first roll shafts, a second roller and two third rollers all are the level and can pivoted setting in unloading the frame inboardly, two first rollers and two third rollers all set up along vertical direction interval, the tip of two third rollers passes through second gear drive and connects, the inboard of unloading the frame still is provided with DC motor, DC motor's output shaft passes through the second drive belt and is connected with the tip transmission of one of them third roller, be located between the first roller of top and the third roller and connect through the transmission of a plurality of parallel last ejection of compact drive belt of each other, be located and connect through the transmission of a plurality of parallel lower ejection of compact drive belt of each other between the first roller of below and the third roller, the bottom of second roller contacts with the inboard bottom of all last ejection of compact drive belts simultaneously, the bottom of second roller contacts with the outside top of all lower ejection of compact drive belts simultaneously.

has the advantages that: when the automatic forming machine works, a film raw material is put down from a material placing rack and is connected with a material pulling mechanism at the other end of a film conveying line, the film raw material is gradually pulled out and moves forwards through the material pulling mechanism, the film raw material passes through a bag opening die-cutting mechanism, a primary forming mechanism, a bag bottom die-cutting mechanism and an ultrasonic welding mechanism in sequence to complete a forming process when moving on the film conveying line, finally, the formed inner pages of the business card book are cut section by section through a cutting mechanism, finally, the cut and formed finished products of the inner pages of the business card book are stacked one by one and fall into a material receiving mechanism, so that a complete production process is completed, a discharging slideway is used for collecting punched film waste materials, and when the bag opening die-cutting mechanism, the primary forming mechanism, the bag bottom die-cutting mechanism and the ultrasonic welding mechanism work, the material pulling mechanism stops conveying the film raw material, the automatic forming machine for the inner pages, the production process from raw material processing and forming to a final product can be realized in a full-automatic manner, so that the production efficiency is greatly improved, and meanwhile, the labor cost is effectively reduced.

drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

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

FIG. 2 is a schematic perspective view I of a bag opening die-cutting mechanism;

FIG. 3 is a schematic perspective view of a second die-cutting mechanism for a bag opening;

FIG. 4 is a first schematic perspective view of the primary forming mechanism;

FIG. 5 is a schematic perspective view of a second forming mechanism;

FIG. 6 is a first schematic perspective view of a bag bottom die-cutting mechanism;

FIG. 7 is a second schematic perspective view of the bag bottom die cutting mechanism;

FIG. 8 is a schematic perspective view of an ultrasonic welding mechanism;

FIG. 9 is a schematic view of the positional distribution of two ultrasonic welding mechanisms;

FIG. 10 is a first perspective view of a discharge frame;

FIG. 11 is a schematic perspective view of a second discharge frame;

FIG. 12 is a first perspective view of the cutting mechanism;

FIG. 13 is a second perspective view of the cutting mechanism;

Figure 14 is a schematic plan view of the three-dimensional structure of the discharge frame portion;

FIG. 15 is a finished schematic view of the inner pages of the business card book;

Description of reference numerals: the device comprises a material placing frame 1, a thin film conveying line 2, a material pulling mechanism 3, a bag opening die-cutting mechanism 4, a primary forming mechanism 5, a bag bottom die-cutting mechanism 6, an ultrasonic welding mechanism 7, a cutting mechanism 8, a material receiving mechanism 9, a material discharging slideway 10, a bag opening die 11, a bag opening cutting die 12, a first air cylinder 13, a first optical axis 14, a first supporting plate 15, a bag opening cutting hole 16, a first feeding gap 17, a vertical supporting plate 18, a horizontal supporting rod 19, a first aluminum guide wheel 20, a strip-shaped connecting plate 21, a second aluminum guide wheel 22, a strip-shaped sliding hole 23, a connecting block 24, a bag bottom die 25, a bag bottom cutting die 26, a second air cylinder 27, a second optical axis 28, a second supporting plate 29, a bag bottom cutting hole 30, a second feeding gap 31, an ultrasonic electric box 32, an ultrasonic vibrator 33, an ultrasonic lower die 34, an ultrasonic upper die 35, a transverse mounting frame 36, a transverse supporting frame 37, a mounting beam, the electric box comprises an electric box supporting frame 40, a discharging frame 41, a servo motor 42, a servo planetary speed reducer 43, a rubber pressing wheel 44, a first gear 45, a first transmission belt 46, a punching and cutting die 47, a punching and cutting die 48, a fourth cylinder 49, a third optical axis 50, a third supporting plate 51, a punching and cutting knife hole 52, a lifting cylinder 53, a receiving basin 54, a connecting sliding plate 55, an upper supporting beam 56, a lower supporting beam 57, a fourth optical axis 58, a first roller shaft 59, a second roller shaft 60, a third roller shaft 61, a second gear 62, a direct current motor 63, a second transmission belt 64, an upper discharging transmission belt 65, a lower discharging transmission belt 66 and a film 67.

Detailed Description

In the following description, for purposes of explanation, numerous implementation details are set forth in order to provide a thorough understanding of the various embodiments of the present invention. It should be understood, however, that these implementation details are not to be interpreted as limiting the invention. That is, in some embodiments of the invention, such implementation details are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.

in addition, the descriptions related to the first, the second, etc. in the present invention are only used for description purposes, do not particularly refer to an order or sequence, and do not limit the present invention, but only distinguish components or operations described in the same technical terms, and are not understood to indicate or imply relative importance or implicitly indicate the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions between various embodiments may be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1 to 15, an automatic forming machine for inner pages of business card books comprises a material placing frame 1, a film conveying line 2, a material pulling mechanism 3, a bag opening die-cutting mechanism 4, a primary forming mechanism 5, a bag bottom die-cutting mechanism 6, an ultrasonic welding mechanism 7, a cutting mechanism 8 and a material receiving mechanism 9, wherein the material placing frame 1 and the material receiving mechanism 9 are respectively positioned at the initial end and the tail end of the film conveying line 2, the bag opening die-cutting mechanism 4, the primary forming mechanism 5, the bag bottom die-cutting mechanism 6, the ultrasonic welding mechanism 7, the material pulling mechanism 3 and the cutting mechanism 8 are sequentially arranged on the film conveying line 2 along the running direction of the film conveying line 2, the number of the bag opening die-cutting mechanisms 4 is two, the two bag opening die-cutting mechanisms 4 are symmetrically arranged at two sides of the top of the film conveying line 2, the number of the ultrasonic welding mechanisms 7 is two and is respectively arranged at two, the primary forming mechanism 5 comprises a folding wheel set and a folding wheel set, the folding wheel set and the folding wheel set are arranged at intervals along the running direction of the film conveying line 2, and the discharging slide ways 10 for bearing waste materials are arranged below the bag opening die-cutting mechanism 4, the bag bottom die-cutting mechanism 6 and the cutting mechanism 8. When in work, the raw material of the film 67 is put down from the material placing rack 1 and is connected with the material pulling mechanism 3 at the other end of the film conveying line 2, the film 67 raw material is continuously pulled out and moved forwards by the material pulling mechanism 3, when the film 67 raw material moves on the film conveying line 2, the forming process is completed by a bag opening die-cutting mechanism 4, a primary forming mechanism 5, a bag bottom die-cutting mechanism 6 and an ultrasonic welding mechanism 7 in sequence, finally, the formed inner pages of the business card book are cut section by a cutting mechanism 8, finally, the finished products of the cut inner pages of the business card book are stacked one by one and fall into a material receiving mechanism 9, therefore, the complete production process is completed, the discharging slide way 10 is used for collecting the punched waste materials of the film 67, and in the process, when the bag opening die-cutting mechanism 4, the primary forming mechanism 5, the bag bottom die-cutting mechanism 6 and the ultrasonic welding mechanism 7 work, the material pulling mechanism 3 stops conveying the raw materials of the film 67.

Every sack cross cutting mechanism 4 all includes sack mould 11, sack cutting die 12 and first cylinder 13, the top both ends of sack mould 11 all are vertical first optical axis 14 that is provided with, the top of sack mould 11 still is provided with a horizontally first backup pad 15, the bottom both ends of first backup pad 15 respectively with two first optical axis 14's top fixed connection, the both ends of sack cutting die 12 slide respectively the slip cover establish on two first optical axes 14, the vertical top that sets up at first backup pad 15 of first cylinder 13, and the vertical first backup pad 15 of passing downwards of output shaft of first cylinder 13 and sack cutting die 12 fixed connection with the below, the top of sack mould 11 is provided with the sack die 16 that punches into with sack cutting die 12 is identical, one side of every sack mould 11 all is provided with the first feeding clearance 17 that supplies the marginal entering of film 67. When the film 67 passes through the bag mouth die-cutting mechanism 4, the edges of two sides of the film 67 respectively enter the bag mouth die 11 through the first feeding gaps 17 on two sides, and the first air cylinder 13 drives the bag mouth cutting die 12 to descend until the film is completely inserted into the bag mouth die-cutting hole 16 below to complete the shape die-cutting of the bag mouth.

The primary forming mechanism 5 further comprises two vertical supporting plates 18 and two horizontal supporting rods 19, the two vertical supporting plates 18 are respectively and fixedly installed on two sides of the top of the film conveying line 2, the two horizontal supporting rods 19 are parallel to each other, two ends of each horizontal supporting rod 19 are respectively connected with the two vertical supporting plates 18, and the edge folding wheel set are respectively arranged in the middle of the two horizontal supporting rods 19. After the film 67 passes through the hemming roller set and the folding roller set in sequence, both sides of the film 67 are changed from a flat extending state to an upturned folded state.

The hem wheelset includes two first aluminium guide wheels 20 and a bar connecting plate 21, the length direction of the length direction perpendicular to horizontal support bar 19 of bar connecting plate 21, the middle part fixed connection of one end and horizontal support bar 19 of bar connecting plate 21, the other end extends to the below of this horizontal support bar 19, two first aluminium guide wheels 20 symmetry set up the both sides at bar connecting plate 21, and two first aluminium guide wheels 20 all rotate with bar connecting plate 21 to be connected, the coincidence of the axis of two first aluminium guide wheels 20, the axis direction of first aluminium guide wheel 20 is on a parallel with the length direction of horizontal support bar 19.

the overlap edge wheel set comprises two second aluminum guide wheels 22 which are symmetrically arranged, the overlap edge wheel set is arranged on one side, far away from the flanging wheel set, of a horizontal support rod 19 connected with the overlap edge wheel set, two strip-shaped sliding holes 23 are symmetrically arranged on the horizontal support rod 19 connected with the overlap edge wheel set, the length directions of the two strip-shaped sliding holes 23 are parallel to the length direction of the horizontal support rod 19, one end of each second aluminum guide wheel 22 is provided with a connecting block 24, one end of each second aluminum guide wheel 22 is rotatably connected with the connecting block 24, the axis direction of each second aluminum guide wheel 22 is in angle arrangement with the axis direction of the horizontal support rod 19, one end, far away from the connecting block 24, of each second aluminum guide wheel 22 is obliquely and downwards arranged, each connecting block 24 is connected with the corresponding strip-shaped sliding hole 23 through a locking bolt, and the locking bolt penetrates through the strip-shaped. When a roll of film 67 passes through the primary forming mechanism 5 for the first time, the bottoms of the two first aluminum guide wheels 20 are in contact with the top of the film 67, the part of the film 67, which is wider than the first aluminum guide wheels 20, is manually turned over, the folded part of the film 67 passes through the bottoms of the two second aluminum guide wheels 22, and finally the primary end of the roll of film 67 is sent to the material pulling mechanism 3 for automatic material pulling, the process is a preparation work before the equipment operation, so that when the subsequent film 67 is conveyed along with the pulling of the material pulling mechanism 3, the film 67 sequentially passes through the edge folding wheel set and the edge folding wheel set, and then the two sides of the film 67 are changed into an upward turning and folding state from a straight extending state.

The bag bottom die-cutting mechanism 6 comprises a bag bottom die 25, a bag bottom cutting die 26 and a second air cylinder 27, wherein the two ends of the top of the bag bottom die 25 are vertically provided with second optical axes 28, a horizontal second support plate 29 is further arranged above the bag bottom die 25, the two ends of the bottom of the second support plate 29 are respectively fixedly connected with the tops of the two second optical axes 28, the two ends of the bag bottom cutting die 26 are respectively connected with the two second optical axes 28 in a sliding manner, the second air cylinder 27 is arranged at the top of the second support plate 29, an output shaft of the second air cylinder 27 vertically penetrates through the second support plate 29 downwards and is fixedly connected with the bag bottom cutting die 26, the top of the bag bottom die 25 is provided with a bag bottom die-cutting hole 30 matched with the bag bottom cutting die 26, and one side of the bag bottom die 25 is provided with a second feeding gap 31 for the edge of the film 67 to enter. When the folded and turned film 67 comes to the bag bottom die cutting mechanism 6, one side of the folded film 67 enters the bag bottom die 25 through the second feeding gap 31, and the second cylinder 27 drives the bag bottom cutting die 26 to descend until the bag bottom cutting die 26 is completely inserted into the bag bottom die cutting hole 30 to complete the shape die cutting of the bag bottom.

Each ultrasonic welding mechanism comprises an ultrasonic electric box 32, an ultrasonic vibrator 33, an ultrasonic lower die 34 and an ultrasonic upper die 35, wherein the ultrasonic vibrator 33 is arranged on the inner side of the film conveying line 2 through a transverse mounting frame 36, the ultrasonic vibrator 33 is connected with the transverse mounting frame 36 in a vertical state, the ultrasonic lower die 34 is fixedly arranged at the top output end of the ultrasonic vibrator 33, the ultrasonic upper die 35 is arranged right above the corresponding ultrasonic upper die 35 through a transverse supporting frame 37, a mounting cross beam 38 is horizontally erected at the top of the transverse supporting frame 37, a third air cylinder 39 is arranged at the top of the mounting cross beam 38, the output end of the third air cylinder 39 vertically penetrates through the mounting cross beam 38 downwards and is fixedly connected with the ultrasonic upper die 35 below, the two ultrasonic electric boxes 32 are respectively electrically connected with the two ultrasonic vibrators 33, the two ultrasonic electric boxes 32 are stacked above the film conveying line 2 through electric box supporting frames, the two ultrasonic lower dies 34 are respectively distributed on two sides of the film conveying line 2 in the conveying direction. When the film 67 after completing bag bottom punching comes to pass through two ultrasonic welding mechanisms 7 in sequence, the bottom of the film 67 is attached to the ultrasonic lower die 34, the third cylinder 39 drives the ultrasonic lower die 34 to descend until the film 67 is pressed together with the ultrasonic lower die 34, the ultrasonic vibrator 33 conducts transduction, the electric energy of the ultrasonic electric box 32 is converted into mechanical vibration, the ultrasonic welding forming of the folded part of the film 67 is completed, the ultrasonic welding is realized by utilizing high-frequency vibration waves to transmit the surfaces of two objects to be welded, and under the condition of pressurization, the surfaces of the two objects are mutually rubbed to form fusion between molecular layers.

The end of film transfer chain 2 is equipped with one and unloads frame 41, draw material mechanism 3 to set up the one end that is close to film transfer chain 2 at unloading frame 41, draw material mechanism 3 to include servo motor 42, servo planetary reducer 43 and two gluey pinch rollers 44, servo motor 42 is connected with servo planetary reducer 43, servo planetary reducer 43 is fixed to be set up on the inside wall of unloading frame 41, two gluey pinch rollers 44 all are horizontal state and can the pivoted setting at the inboard top of unloading frame 41, two gluey pinch rollers 44 laminate mutually and lie in the one end that unloads frame 41 and be close to film transfer chain 2, the tip of two gluey pinch rollers 44 is connected through first gear 45 transmission, servo planetary reducer 43's output shaft passes through first drive belt 46 and one of them gluey pinch roller 44's end transmission connection. The film 67 after the ultrasonic welding is continuously conveyed forward by the pulling mechanism 3, the servo motor 42 drives one of the glue pressing wheels 44 to rotate through the first transmission belt 46, and the glue pressing wheel 44 drives the other glue pressing wheel 44 engaged with the glue pressing wheel to move and rotate through the first gear 45, so that the film 67 between the two glue pressing wheels 44 is fed and conveyed.

The cutting mechanism 8 is located on one side, away from the film conveying line 2, of the two adhesive pressing wheels 44, the cutting mechanism 8 comprises a punching and cutting die 47, a punching and cutting die 48 and a fourth cylinder 49, the punching and cutting die 47 is horizontally arranged at the top of the inner side of the discharging frame 41, vertical third optical axes 50 are arranged at four corners of the top of the punching and cutting die 47, a horizontal third supporting plate 51 is fixedly connected to the tops of the four third optical axes 50, the punching and cutting die 48 is horizontally arranged, the four corners of the punching and cutting die 48 are respectively in sliding connection with the four third optical axes 50, the fourth cylinder 49 is arranged at the top of the third supporting plate 51, an output shaft of the fourth cylinder vertically penetrates through the third supporting plate 51 downwards and is fixedly connected with the punching and cutting die 48 below, and punching and cutting holes 52 matched with the punching and cutting die 48 are formed in the punching and cutting die 47. When the film 67 after passing through the drawing mechanism 3 comes to the cutting mechanism 8, the film 67 is located on the top of the die-cutting die 47, and the fourth cylinder 49 drives the die-cutting die 48 to descend until the die-cutting die 48 is inserted into the die-cutting hole 52, so that the formed film 67 with a certain length is cut.

The material receiving mechanism 9 comprises a lifting cylinder 53 and two material receiving basins 54, wherein the two material receiving basins 54 are horizontally arranged, the two material receiving basins 54 are arranged at intervals in the vertical direction, two sides of the two material receiving basins 54 are fixedly connected through a vertically arranged connecting sliding plate 55 respectively, an upper supporting beam 56 and a lower supporting beam 57 are arranged on the inner side of one end, away from the film conveying line 2, of the discharging frame 41, the upper supporting beam 56 and the lower supporting beam 57 are horizontally arranged, the two material receiving basins 54 are located between the upper supporting beam 56 and the lower supporting beam 57, two vertical fourth optical axes 58 are arranged between the upper supporting beam 56 and the lower supporting beam 57 at intervals, the two connecting sliding plates 55 are respectively in sliding connection with the two fourth optical axes 58, the lifting cylinder 53 is vertically arranged at the bottom of the lower supporting beam 57, and an output shaft of the lifting cylinder 53 vertically penetrates through the lower supporting beam 57 to be fixedly connected with the bottom of, two first roll shafts 59, one second roll shaft 60 and two third roll shafts 61 are sequentially arranged between the cutting mechanism 8 and the material receiving basin 54, the two first roll shafts 59, the one second roll shaft 60 and the two third roll shafts 61 are all horizontally arranged at the inner side of the material discharging frame 41 and can rotate, the two first roll shafts 59 and the two third roll shafts 61 are arranged at intervals along the vertical direction, the end parts of the two third roll shafts 61 are in transmission connection through a second gear 62, the inner side of the material discharging frame 41 is also provided with a direct current motor 63, an output shaft of the direct current motor 63 is in transmission connection with the end part of one third roll shaft 61 through a second transmission belt 64, the first roll shaft 59 and the third roll shaft 61 positioned above are in transmission connection through a plurality of upper discharging transmission belts 65 which are parallel to each other, the first roll shaft 59 and the third roll shaft 61 positioned below are in transmission connection through a plurality of lower discharging transmission belts 66 which are parallel to each other, the bottom of the secondary roller 60 is in contact with the inside bottom of all the upper exit conveyors 65 at the same time and the bottom of the secondary roller 60 is in contact with the outside top of all the lower exit conveyors 66 at the same time. The cut film 67 is the finished product of the inner page of the name card book, the direct current motor 63 drives one of the third roller shafts 61 to rotate at high speed through the second transmission belt 64, the third roller shaft 61 drives the other third roller shaft 61 to rotate together through the second gear 62, so that all the upper discharge transmission belt 65 and the lower discharge transmission belt 66 rotate at high speed simultaneously, the bottom of the front end of the finished product of the inner page of the name card book is firstly contacted with the top belt of all the lower discharge transmission, along with the rotation of the lower discharge transmission belt 66, the finished product of the inner page of the name card book gradually moves forward and approaches the position of the second roller 60, when the finished product of the inner page of the name card book comes to the position of the second roller shaft 60, namely the upper discharge transmission belt 65 and the lower discharge transmission belt 66 at the position can simultaneously contact the upper side and the lower side of the finished product of the inner page of the name card book, and then the finished product of the, the finished inner pages of the name card book finally fall into the material receiving basin 54 at the rear part from between the two third roller shafts 61, and the two material receiving basins 54 are driven to integrally lift through the lifting air cylinder 53, so that after one material receiving basin 54 is filled with the finished inner pages of the name card book, the material receiving basin 54 is switched to the other material receiving basin 54 to continuously receive materials in a rising or falling mode.

The working principle is as follows: when the automatic cutting machine works, a film 67 raw material is put down from the material placing frame 1 and is connected with the material pulling mechanism 3 at the other end of the film conveying line 2, the film 67 raw material is gradually pulled out and moves forwards through the material pulling mechanism 3, when the film 67 raw material moves on the film conveying line 2, the forming process is completed through the bag opening die-cutting mechanism 4, the primary forming mechanism 5, the bag bottom die-cutting mechanism 6 and the ultrasonic welding mechanism 7 in sequence, finally, the formed inner pages of the business card book are cut section by section through the cutting mechanism 8, finally, the finished products of the cut inner pages of the business card book are stacked one by one and fall into the material receiving mechanism 9, so that the complete production process is completed, the discharging slide way 10 is used for collecting the cut waste materials of the film 67, and when the bag opening die-cutting mechanism 4, the primary forming mechanism 5, the bag bottom die-cutting mechanism 6 and the ultrasonic welding mechanism 7 work in the process, the material pulling mechanism 3, when a film 67 passes through the bag mouth die-cutting mechanism 4, the edges of two sides of the film 67 respectively enter the bag mouth die 11 through the first feeding gaps 17 on two sides, the first air cylinder 13 drives the bag mouth cutting die 12 to descend until the edges are completely inserted into the bag mouth die-cutting holes 16 below to complete the bag mouth shape die-cutting, when a roll of the film 67 passes through the primary forming mechanism 5 for the first time, the bottoms of the two first aluminum guide wheels 20 are contacted with the top of the film 67, the part of the film 67, which is wider than the first aluminum guide wheel 20, is manually turned over, the folded part of the film 67 passes through the bottoms of the two second aluminum guide wheels 22, and finally the primary end of the roll of the film 67 is sent to the material pulling mechanism 3 to be automatically pulled, the process is a preparation work before the operation of the equipment, so that the film 67 sequentially passes through the hemming wheel set and the edge folding wheel set while the material pulling mechanism 3 pulls the subsequent film 67, two sides of the film 67 are changed from a flat extending state to an upward turning and folding state, when the folded and folded film 67 comes to the bag bottom die cutting mechanism 6, one side of the folded film 67 enters the bag bottom die 25 through the second feeding gap 31, the second air cylinder 27 drives the bag bottom cutting die 26 to descend until the bag bottom cutting die 26 is completely inserted into the bag bottom die cutting hole 30 to complete the shape die cutting of the bag bottom, when the film 67 after the bag bottom die cutting comes to pass through the two ultrasonic welding mechanisms 7 in sequence, the bottom of the film 67 is attached to the ultrasonic lower die 34, the third air cylinder 39 drives the ultrasonic lower die 34 to descend until the film 67 is pressed together with the ultrasonic lower die 34, the ultrasonic vibrator 33 performs transduction to convert the electric energy of the ultrasonic electric box 32 into mechanical vibration, thereby completing the ultrasonic welding and forming of the folded part of the film 67, the ultrasonic welding utilizes high-frequency vibration waves to transmit to the surfaces of two objects to be welded, under the condition of pressurization, the surfaces of two objects are mutually rubbed to form fusion between molecular layers, the film 67 after ultrasonic welding is continuously conveyed forwards by the material drawing mechanism 3, the servo motor 42 drives one of the glue pressing wheels 44 to rotate through the first conveying belt 46, the glue pressing wheel 44 drives the other glue pressing wheel 44 meshed with the glue pressing wheel 44 to move and rotate through the first gear 45, so as to feed and convey the film 67 between the two glue pressing wheels 44, when the film 67 after passing through the material drawing mechanism 3 reaches the cutting mechanism 8, the film 67 is positioned at the top of the punching and cutting die 47, the fourth air cylinder 49 drives the punching and cutting die 48 to descend until the punching and cutting die 48 is inserted into the punching and cutting hole 52, so as to cut off the formed film 67 with a certain length, the cut film 67 is a finished product of the inner page of the business card book, the direct current motor 63 drives one of the third roller 61 to rotate at a high speed through the second conveying belt 64, the third roller 61 drives another third roller 61 to rotate together through the second gear 62, so that all the upper discharging transmission belt 65 and the lower discharging transmission belt 66 rotate at high speed simultaneously, the bottom of the front end of the finished inner page product of the business card book is firstly contacted with all the top belts of the lower discharging transmission, along with the rotation of the lower discharging transmission belt 66, the finished inner page product of the business card book gradually moves forwards and is close to the position of the second roller 60, when the finished inner page product of the business card book comes to the position of the second roller 60, namely, the upper discharging transmission belt 65 and the lower discharging transmission belt 66 at the position can be contacted with the upper side and the lower side of the finished inner page product of the business card book simultaneously, and along with the high-speed rotation of the direct current motor 63, so that the finished inner page product of the business card book is rapidly conveyed backwards, the finished inner page product of the business card book finally falls into the receiving basin 54 at the rear side between the two third rollers 61, after one of the material receiving basins 54 is filled with the finished product of the inner page of the business card book, the material receiving basins 54 are switched to another material receiving basin 54 to continue to receive the material after ascending or descending.

The above description is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. The utility model provides a page automatic molding machine in business card book, includes blowing frame (1) and film transfer chain (2), its characterized in that: the automatic bag-bottom die-cutting machine is characterized by further comprising a material pulling mechanism (3), bag opening die-cutting mechanisms (4), a primary forming mechanism (5), a bag bottom die-cutting mechanism (6), an ultrasonic welding mechanism (7), a cutting mechanism (8) and a material receiving mechanism (9), wherein the material placing frame (1) and the material receiving mechanism (9) are respectively located at the initial end and the tail end of the film conveying line (2), the bag opening die-cutting mechanisms (4), the primary forming mechanism (5), the bag bottom die-cutting mechanism (6), the ultrasonic welding mechanism (7), the material pulling mechanism (3) and the cutting mechanism (8) are sequentially arranged on the film conveying line (2) along the running direction of the film conveying line (2), the number of the bag opening die-cutting mechanisms (4) is two, the two bag opening die-cutting mechanisms (4) are symmetrically arranged on two sides of the top of the film conveying line (2), the number of the ultrasonic welding mechanisms (7) is two and is respectively arranged on, the primary forming mechanism (5) comprises a folding wheel set and a folding wheel set, the folding wheel set and the folding wheel set are arranged at intervals along the running direction of the film conveying line (2), and the discharging slide ways (10) for receiving waste materials are arranged below the bag opening die-cutting mechanism (4), the bag bottom die-cutting mechanism (6) and the cutting-off mechanism (8).

2. The automatic forming machine for inner pages of business card books as claimed in claim 1, wherein: each bag mouth die-cutting mechanism (4) comprises a bag mouth die (11), bag mouth cutting dies (12) and a first air cylinder (13), first optical axes (14) are vertically arranged at two ends of the top of the bag mouth die (11), a horizontal first supporting plate (15) is further arranged above the bag mouth die (11), two ends of the bottom of the first supporting plate (15) are respectively and fixedly connected with the tops of the two first optical axes (14), two ends of the bag mouth cutting dies (12) are respectively and slidably sleeved on the two first optical axes (14), the first air cylinder (13) is vertically arranged at the top of the first supporting plate (15), an output shaft of the first air cylinder (13) vertically downwards penetrates through the first supporting plate (15) and is fixedly connected with the bag mouth cutting dies (12) below, a bag mouth die-cutting hole (16) matched with the bag mouth cutting dies (12) is arranged at the top of the bag mouth die (11), one side of each bag mouth die (11) is provided with a first feeding gap (17) for the edge of the film (67) to enter.

3. The automatic forming machine for inner pages of business card books as claimed in claim 1, wherein: the primary forming mechanism (5) further comprises two vertical supporting plates (18) and two horizontal supporting rods (19), the two vertical supporting plates (18) are fixedly mounted on the two sides of the top of the film conveying line (2) respectively, the two horizontal supporting rods (19) are parallel to each other, the two ends of each horizontal supporting rod (19) are connected with the two vertical supporting plates (18) respectively, and the edge folding wheel set are arranged in the middle of the two horizontal supporting rods (19) respectively.

4. the automatic forming machine for inner pages of business card books as claimed in claim 3, wherein: the hem wheelset includes two first aluminium guide wheels (20) and a bar connecting plate (21), the length direction of the length direction perpendicular to horizontal support pole (19) of bar connecting plate (21), the middle part fixed connection of the one end of bar connecting plate (21) and horizontal support pole (19), the other end extends to the below of this horizontal support pole (19), two first aluminium guide wheels (20) symmetry set up the both sides at bar connecting plate (21), and two first aluminium guide wheels (20) all rotate with bar connecting plate (21) and are connected, the axis coincidence of two first aluminium guide wheels (20), the axis direction of first aluminium guide wheel (20) is on a parallel with the length direction of horizontal support pole (19).

5. The automatic forming machine for inner pages of business card books as claimed in claim 4, wherein: the edge folding wheel set comprises two second aluminum guide wheels (22) which are symmetrically arranged, the edge folding wheel set is arranged on one side, away from the edge folding wheel set, of a horizontal support rod (19) connected with the edge folding wheel set, two strip-shaped sliding holes (23) are symmetrically arranged on the horizontal support rod (19) connected with the edge folding wheel set, the length directions of the two strip-shaped sliding holes (23) are parallel to the length direction of the horizontal support rod (19), one end of each second aluminum guide wheel (22) is provided with a connecting block (24), one end of each second aluminum guide wheel (22) is rotatably connected with the connecting block (24), the axial direction of each second aluminum guide wheel (22) and the axial direction of the horizontal support rod (19) are arranged in an angle mode, one end, away from the connecting block (24), of each second aluminum guide wheel (22) is obliquely and downwards arranged, and each connecting block (24) is connected with the corresponding strip-shaped sliding hole (23, the locking bolt penetrates through the strip-shaped sliding hole (23) and is in threaded connection with the corresponding connecting block (24).

6. The automatic forming machine for inner pages of business card books as claimed in claim 1, wherein: the bag bottom die-cutting mechanism (6) comprises a bag bottom die (25), the bag bottom die comprises a bag bottom die (26) and a second cylinder (27), wherein the two ends of the top of the bag bottom die (25) are vertically provided with second optical axes (28), a horizontal second supporting plate (29) is further arranged above the bag bottom die (25), the two ends of the bottom of the second supporting plate (29) are respectively fixedly connected with the tops of the two second optical axes (28), the two ends of the bag bottom die (26) are respectively in sliding connection with the two second optical axes (28), the second cylinder (27) is arranged at the top of the second supporting plate (29), an output shaft of the second cylinder (27) vertically penetrates through the second supporting plate (29) and is fixedly connected with the bag bottom die (26), a bag bottom punching hole (30) matched with the bag bottom die (26) is formed in the top of the bag bottom die (25), and a second feeding gap (31) for the edge of a film (67) to enter is formed in one side of the bag bottom die (25).

7. The automatic forming machine for inner pages of business card books as claimed in claim 1, wherein: each ultrasonic welding mechanism comprises an ultrasonic electronic box (32), an ultrasonic vibrator (33), an ultrasonic lower die (34) and an ultrasonic upper die (35), the ultrasonic vibrator (33) is arranged on the inner side of the film conveying line (2) through a transverse mounting frame (36), the ultrasonic vibrator (33) is in a vertical state and is connected with the transverse mounting frame (36), the ultrasonic lower die (34) is fixedly arranged at the top output end of the ultrasonic vibrator (33), the ultrasonic upper die (35) is arranged right above the corresponding ultrasonic upper die (35) through a transverse supporting frame (37), a mounting cross beam (38) is horizontally erected at the top of the transverse supporting frame (37), a third air cylinder (39) is arranged at the top of the mounting cross beam (38), and the output end of the third air cylinder (39) vertically penetrates through the mounting cross beam (38) downwards and is fixedly connected with the ultrasonic upper die (35) below, two ultrasonic wave electronic boxes (32) are connected with two ultrasonic vibrator (33) electricity respectively, and two ultrasonic wave electronic boxes (32) are piled up the setting in the top of film transfer chain (2) through electronic box support frame (40), and two ultrasonic wave lower moulds (34) distribute respectively in the both sides on film transfer chain (2) direction of transportation.

8. The automatic forming machine for inner pages of business card books as claimed in claim 1, wherein: the tail end of the film conveying line (2) is provided with a discharging frame (41), the material pulling mechanism (3) is arranged at one end of the discharging frame (41) close to the film conveying line (2), the material pulling mechanism (3) comprises a servo motor (42), servo planetary reducer (43) and two gluey pinch rollers (44), servo motor (42) are connected with servo planetary reducer (43), servo planetary reducer (43) are fixed to be set up on the inside wall of unloading frame (41), two gluey pinch rollers (44) all are the horizontality and can the pivoted setting at the inboard top of unloading frame (41), two gluey pinch rollers (44) laminate each other and lie in the one end that unloading frame (41) is close to film transfer chain (2), the tip of two gluey pinch rollers (44) is connected through first gear (45) transmission, the output shaft of servo planetary reducer (43) passes through first drive belt (46) and the tip transmission connection of one of them gluey pinch roller (44).

9. The automatic forming machine for inner pages of business card books as claimed in claim 8, wherein: the cutting mechanism (8) is positioned at one side of the two glue pressing wheels (44) far away from the film conveying line (2), the cutting mechanism (8) comprises a punching and cutting die (47), the punching and cutting device comprises a punching and cutting die (48) and a fourth cylinder (49), wherein the punching and cutting die (47) is horizontally arranged at the top of the inner side of the discharging frame (41), vertical third optical axes (50) are arranged at four corners of the top of the punching and cutting die (47), a horizontal third supporting plate (51) is fixedly connected to the tops of the four third optical axes (50), the punching and cutting die (48) is horizontally arranged, the four corners of the punching and cutting die (48) are respectively in sliding connection with the four third optical axes (50), the fourth cylinder (49) is arranged at the top of the third supporting plate (51), an output shaft of the fourth cylinder vertically downwards penetrates through the third supporting plate (51) and is fixedly connected with the punching and cutting die (48) below, and a punching and cutting hole (52) matched with the punching and cutting die (48) is formed in the punching and cutting die (47).

10. The automatic forming machine for inner pages of business card books as claimed in claim 9, wherein: the material receiving mechanism (9) comprises a lifting cylinder (53) and two material receiving basins (54), wherein the two material receiving basins (54) are horizontally arranged and the two material receiving basins (54) are arranged at intervals in the vertical direction, two sides of the two material receiving basins (54) are fixedly connected through a vertically arranged connecting sliding plate (55) respectively, an upper supporting beam (56) and a lower supporting beam (57) are arranged on the inner side of one end, far away from the film conveying line (2), of a discharging frame (41), the upper supporting beam (56) and the lower supporting beam (57) are horizontally arranged and the two material receiving basins (54) are positioned between the upper supporting beam (56) and the lower supporting beam (57), two vertical fourth optical axes (58) are arranged between the upper supporting beam (56) and the lower supporting beam (57) at intervals, the two connecting sliding plates (55) are respectively in sliding connection with the two fourth optical axes (58), the lifting cylinder (53) is vertically arranged at the bottom of the lower supporting beam (57), and the output shaft of the lifting cylinder (53) vertically penetrates through the lower supporting beam (57) upwards and is fixedly connected with the bottom of the receiving basin (54) above, two first roll shafts (59), one second roll shaft (60) and two third roll shafts (61) are sequentially arranged between the cutting mechanism (8) and the receiving basin (54), the two first roll shafts (59), the one second roll shaft (60) and the two third roll shafts (61) are horizontal and can be rotatably arranged on the inner side of the discharging frame (41), the two first roll shafts (59) and the two third roll shafts (61) are arranged at intervals along the vertical direction, the end parts of the two third roll shafts (61) are in transmission connection through a second gear (62), the inner side of the discharging frame (41) is also provided with a direct current motor (63), the output shaft of the direct current motor (63) is in transmission connection with the end part of one of the third roll shafts (61) through a second transmission belt (64), the first roller shaft (59) and the third roller shaft (61) which are positioned above are in transmission connection through a plurality of upper discharging transmission belts (65) which are parallel to each other, the first roller shaft (59) and the third roller shaft (61) which are positioned below are in transmission connection through a plurality of lower discharging transmission belts (66) which are parallel to each other, the bottom of the second roller shaft (60) is simultaneously contacted with the inner bottom of all the upper discharging transmission belts (65), and the bottom of the second roller shaft (60) is simultaneously contacted with the outer top of all the lower discharging transmission belts (66).