CN214029346U - Spring plate double-material belt packaging machine - Google Patents

Abstract

The utility model belongs to the technical field of elastic piece packaging equipment, in particular to an elastic piece double-material-belt packaging machine, which comprises a frame, an elastic piece distributing device and an elastic piece packaging device, wherein the elastic piece distributing device is arranged on the frame and is used for cutting double-material belts into two single-material belts; the elastic sheet packaging devices are arranged on the rack at intervals and are used for processing the two single material belts respectively; the elastic sheet packaging device comprises an elastic sheet cutting mechanism, a multi-station rotating mechanism, a clamping and guiding mechanism, a carrier tape conveying mechanism and a film tape packaging mechanism. The utility model discloses a two material of shell fragment take packagine machine, in the course of operation when carrying out the shell fragment packing, whole realization automation mechanized operation, so, can improve production efficiency greatly, simultaneously, owing to do not need manual operation, avoid artifical error problem to appear, and then can improve the quality of packing the shell fragment.

Description

Spring plate double-material belt packaging machine

Technical Field

The utility model belongs to the technical field of the shell fragment equipment for packing, especially, relate to a two material area packagine machine of shell fragment.

Background

Electronic products such as mobile terminals generally use the elastic sheet in the interior, and at present, the elastic sheet needs to be placed on a carrier tape after being processed, and is sealed by a film, so that the elastic sheet can be packaged.

The elastic sheet is of a strip-shaped structure when being semi-finished, the strip-shaped material is manually cut out one by one, then the cut elastic sheet is manually clamped by tweezers and placed on the carrier tape, finally the film is covered on the carrier tape, and the operation is basically performed manually.

However, in actual work, the elastic sheet is small in size and easy to deform, a product needs to be manually clamped by tweezers, the phenomenon of clamping damage is very easy to occur, the operation is inconvenient, manual operation is high in labor intensity, and the working efficiency is extremely low.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a two material of shell fragment area packagine machine aims at solving and adopts the artifical operational mode who carries out the packing to the shell fragment to have the technical problem of low in production efficiency and damage the shell fragment easily among the prior art.

In order to achieve the above object, an embodiment of the present invention provides a pair of spring plate double-material belt packing machine, including:

a frame;

the elastic sheet distributing device is arranged on the rack and is used for splitting the double material belts into two single material belts;

the elastic sheet packaging devices are arranged on the rack at intervals and are used for processing the two single material belts respectively;

wherein, shell fragment packaging hardware includes:

the elastic piece cutting mechanism is used for receiving the single material belt and cutting the single material belt to form an elastic piece;

the multi-station rotating mechanism is positioned on the side of the elastic piece cutting mechanism, a plurality of circumferentially arranged vacuum suckers are arranged on the multi-station rotating mechanism, and each vacuum sucker is used for adsorbing the elastic piece formed by cutting through the elastic piece cutting mechanism to each station for processing;

the clamping and correcting mechanism is positioned on the side of the multi-station rotating mechanism and is used for correcting the position of the elastic sheet sucked and conveyed by the vacuum chuck;

the carrier band conveying mechanism is positioned on the side of the multi-station rotating mechanism and used for conveying the carrier band to pass through the lower part of the vacuum chuck so that the carrier band can contain the elastic sheet adsorbed by the vacuum chuck;

and the film belt packaging mechanism is positioned on the side of the carrier belt conveying mechanism and is used for conveying a packaging film to cover and heat-seal the packaging film on the carrier belt containing the elastic sheets so as to package the elastic sheets.

Optionally, the elastic sheet material distribution device comprises a material belt material box for rolling and storing double material belts, a material belt cutting mechanism, a material belt conveying mechanism and a cross guide mechanism; the material belt cutting mechanism is positioned between the material belt material box and the material belt conveying mechanism and is used for cutting double material belts into two single material belts; the material belt conveying mechanism is used for driving the two single material belts to move along one direction so as to drive the double material belts to discharge from the material belt incoming material box; the cross guide mechanism is adjacent to the tail end of the material belt cutting mechanism and used for guiding the two single material belts cut by the material belt cutting mechanism to the two elastic sheet cutting mechanisms respectively to execute a cutting process.

Optionally, material area conveying mechanism includes material area conveying motor, axle drive mechanism, transmission shaft, mounting bracket and two conveying gear, the mounting bracket is fixed in the frame, the transmission shaft with frame rotatable coupling, material area conveying motor passes through axle drive mechanism with the transmission shaft is connected, two conveying gear interval install in on the transmission shaft and be used for meshing two respectively hole on the outside portion of single material area is in order to order about single material area is along a direction motion.

Optionally, the elastic piece cutting mechanism comprises a mounting seat, and a double-shaft cutting motor, a front end cutting gear, a front end elastic piece auxiliary wheel, a rear end cutting gear, a rear end elastic piece auxiliary wheel, a cutting motor, a cutting tool and a vertical transmission assembly which are mounted on the mounting seat;

the mounting seat is mounted on the rack, and the front end cutting gear, the cutting tool and the rear end cutting gear are sequentially arranged at intervals along the conveying direction of the single material belt;

a driving end of the double-head shaft cutting motor is connected with the front end cutting gear through a synchronous belt assembly, and the front end elastic sheet auxiliary wheel is arranged close to the front end cutting gear and matched with the front end cutting gear which is driven by the double-head shaft cutting motor to rotate so as to drive the single material belt to move forwards;

the other driving end of the double-head shaft cutting motor is connected with the rear end cutting gear, and the rear end elastic sheet auxiliary wheel is arranged close to the rear end cutting gear and matched with the rear end cutting gear which is driven by the double-head shaft cutting motor to rotate so as to drive the single material belt to move forwards;

the cutting motor is connected with the cutting tool through the vertical transmission assembly and is used for driving the cutting tool to move up and down to cut the single material belt passing through the front end cutting gear and the rear end cutting gear so as to form a single elastic sheet.

Optionally, the multi-station rotating mechanism comprises a rotating motor, an indexer, a central rotating shaft and a turntable, the rotating motor and the indexer are both mounted on the rack, the central rotating shaft is vertically arranged and connected with the rotating motor through the indexer, the turntable is mounted on the central rotating shaft, and the vacuum chucks are axially and uniformly distributed on the turntable at equal intervals.

Optionally, the clamping and guiding mechanism includes a guiding motor, a guiding seat, a first guiding block, a second guiding block, a first connecting shaft, a second connecting shaft, a first guiding block and a second guiding block, the guiding motor is vertically disposed, the guiding seat is connected to a main shaft of the guiding motor, and the guiding seat is provided with a first plane and a second plane which are oppositely disposed, the first guiding block and the second guiding block are respectively rotatably disposed on two opposite sides of the guiding seat through the connecting shaft and the second connecting shaft, the first guiding block and the second guiding block are respectively provided with a first guiding front face and a second guiding front face which are in contact fit with the first plane and the second plane, the guiding seat is driven by the guiding motor to rotate and is forced to be engaged with the first guiding front face and the second guiding front face through the first plane and the second plane respectively The elastic piece is arranged on the first connecting shaft, the second connecting shaft is arranged on the second guide block, the first guide block and the second guide block are arranged on the upper end of the first connecting shaft and the upper end of the second connecting shaft respectively, a first half groove and a second half groove are formed at the tail ends of the first guide block and the second guide block respectively, and the first guide block and the second guide block rotate along with the first connecting shaft and the second connecting shaft respectively to enable the first half groove and the second half groove to be enclosed to form a correction groove for correcting the position of the elastic piece.

Optionally, the carrier tape conveying mechanism comprises a carrier tape tray, a support, a carrier tape channel, a carrier tape pressing block, a double-head shaft conveying motor, a front-end carrier tape gear, a front-end carrier tape auxiliary wheel, a rear-end carrier tape gear and a rear-end carrier tape auxiliary wheel, and the carrier tape tray and the support are both mounted on the rack;

the carrier tape channel is arranged on the support and used for accommodating a carrier tape led out from the carrier tape tray, the carrier tape pressing block is arranged above the carrier tape channel and used for limiting the carrier tape accommodated in the carrier tape channel, and the front end carrier tape gear and the rear end carrier tape gear are respectively and rotatably arranged on the support and close to the two opposite ends of the carrier tape channel and are used for being meshed with the carrier tape;

a driving end of the double-head shaft conveying motor is connected with the front end carrier belt gear through a synchronous belt component, and the front end carrier belt auxiliary wheel is arranged close to the front end carrier belt gear and matched with the front end carrier belt gear which is driven by the double-head shaft conveying motor to rotate so as to drive the carrier belt to move forwards together;

the other driving end of the double-head shaft conveying motor is connected with the rear end carrier belt gear, and the rear end carrier belt auxiliary wheel is arranged close to the rear end carrier belt gear and matched with the rear end carrier belt gear which is driven by the double-head shaft conveying motor to rotate so as to drive the carrier belt to move forwards together;

the film tape packaging mechanism is arranged at a position close to the rear end carrier tape gear and used for conveying packaging films to be covered and thermally sealed on the carrier tape containing the elastic sheets.

Optionally, film tape packaging mechanism includes mounting panel, packaging film charging tray, drives actuating cylinder and hot pressing piece, the mounting panel with the packaging film charging tray all install in the frame, the packaging film charging tray be used for rolling up the deposit packaging film drive actuating cylinder install in on the mounting panel, the hot pressing piece with drive actuating cylinder and connect and warp drive actuating cylinder's drive and can with the packaging film that the packaging film charging tray was drawn forth cover the hot pressing in the splendid attire that the transport mechanism carried is equipped with on the carrier band of shell fragment to realize the packing of shell fragment.

Optionally, the shrapnel packaging apparatus further comprises:

the CCD detection mechanism is arranged adjacent to the clamping and guiding mechanism and is used for detecting whether the elastic sheet adsorbed by the vacuum chuck and positioned by the clamping and guiding mechanism meets the requirement or not;

and the re-guide mechanism is arranged adjacent to the CCD detection mechanism and is used for detecting the elastic sheet which is detected by the CCD detection mechanism and is judged to be not in accordance with the requirement.

Optionally, the re-straightening mechanism and the clamping straightening mechanism have the same structure.

The embodiment of the utility model provides an above-mentioned one or more technical scheme in the two material area packagine machine of shell fragment have one of following technological effect at least: when the device works, the elastic sheet material distribution device cuts the conveyed double material belts into two single material belts, and the two single material belts are conveyed continuously towards two different directions respectively; and then the two elastic sheet packaging devices are respectively used for carrying and continuously conveying the two single material belts, and respectively cutting the elastic sheets of the two single material belts, processing a single elastic sheet, packaging the single elastic sheet on the carrier belt, and covering the single elastic sheet with a packaging film for hot-press sealing. Wherein, the working process of the shrapnel packaging device is as follows: the shell fragment cuts the mechanism and is used for accepting and carrying the single strip of material, and cut into single shell fragment to it, then adsorb the shell fragment through the vacuum chuck on the multi-station rotary mechanism, continue to realize the turned angle through multi-station rotary mechanism's drive, the vacuum chuck places the shell fragment and carries out the position of shell fragment and lead within the centre gripping is led and is just right in the mechanism, later rethread vacuum chuck adsorbs the shell fragment to accomplish the position and lead after just to carrier band conveying mechanism, carrier band conveying mechanism exports the carrier band, wherein, the adsorbed shell fragment of vacuum chuck can the holding on the carrier band of carrier band conveying mechanism output, then the packing membrane that rethread membrane area packaging mechanism carried covers and heat-seals on the carrier band that contains the shell fragment, finally realize the packing of shell fragment. The utility model discloses a two material of shell fragment take packagine machine, in the course of operation when carrying out the shell fragment packing, whole realization automation mechanized operation, so, can improve production efficiency greatly, simultaneously, owing to do not need manual operation, avoid artifical error problem to appear, and then can improve the quality of packing the shell fragment.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic structural view of a spring plate double-material-belt packaging machine according to an embodiment of the present invention.

Fig. 2 is a schematic structural view of the shrapnel double tape packaging machine in fig. 1 from another perspective.

Fig. 3 is a schematic structural view of the elastic sheet separating device of the elastic sheet double-material-tape packaging machine in fig. 1.

Fig. 4 is a schematic structural view of a material tape conveying mechanism of the elastic sheet separating device in fig. 3.

Fig. 5 is a schematic structural diagram of a shrapnel packaging device of the shrapnel double-material tape packaging machine in fig. 1.

Fig. 6 is a schematic structural view of the shrapnel packaging device in fig. 5 from another view angle.

Fig. 7 is a schematic structural view of a clip cutting mechanism of the clip packaging apparatus shown in fig. 5.

Fig. 8 is a schematic structural view of a multi-station rotating mechanism of the shrapnel packaging apparatus shown in fig. 5.

Fig. 9 is a schematic structural view of a clamping and guiding mechanism of the shrapnel packaging apparatus shown in fig. 5.

Fig. 10 is an exploded view of the clamp pilot mechanism of fig. 9.

Fig. 11 is a schematic structural view of a carrier tape conveying mechanism of the shrapnel packaging device in fig. 5.

Fig. 12 is a schematic structural diagram of the carrier tape transport mechanism in fig. 11 after hiding the carrier tape tray.

Fig. 13 is a schematic structural view of a film tape packaging mechanism of the shrapnel packaging device in fig. 5.

Wherein, in the figures, the respective reference numerals:

1-frame 2-elastic sheet feed divider 3-elastic sheet packaging device

10-material belt incoming material box 20-material belt splitting mechanism 30-material belt conveying mechanism

31-material belt conveying motor 32-shaft transmission mechanism 33-transmission shaft

34-mounting frame 35-conveying gear 40-cross guide mechanism

50-elastic piece cutting mechanism 51-mounting seat 52-double-end shaft cutting motor

53-front end cutting gear 54-front end elastic sheet auxiliary wheel 55-rear end cutting gear

56-rear-end elastic sheet auxiliary wheel 57-cutting motor 58-cutting tool

59-vertical transmission assembly 60-multi-station rotating mechanism 61-rotating motor

62-indexer 63-central rotating shaft 64-rotating disc

65-vacuum chuck 70-clamping guide mechanism 71-guide motor

72-guiding seat 73-first guide block 74-second guide block

75-first connecting shaft 76-second connecting shaft 77-first guide block

78-second guiding block 79-correcting groove 80-carrier tape conveying mechanism

81-carrier material disc 82-support 83-carrier channel

84-carrier band pressing block 85-double-end shaft conveying motor 86-front-end carrier band gear

87-front end carrying auxiliary wheel 88-rear end carrying gear 89-rear end carrying auxiliary wheel

90-film belt packaging mechanism 91-mounting plate 92-packaging film tray

93-driving cylinder 94-hot pressing block 100-CCD detection mechanism

110-redirecting means 721-first plane 722-second plane

731-first guide front 741-second guide front 771-first half slot

781-second half groove a-double material belt b-single material belt.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to fig. 1-13 are exemplary and intended to be used to illustrate embodiments of the present invention, and should not be construed as limiting the invention.

In the description of the embodiments of the present invention, it should be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientation or positional relationship indicated in the drawings, which is only for convenience in describing the embodiments of the present invention and simplifying the description, and do not indicate or imply that the device or element so indicated must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the embodiments of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the embodiments of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly, e.g., as fixed or detachable connections or as an integral part; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the embodiments of the present invention can be understood by those skilled in the art according to specific situations.

The following description relating to the double material strip a and the single material strip b is illustrated in connection with fig. 4.

In an embodiment of the present invention, as shown in fig. 1 to 6, a two-material-strap spring packing machine is provided, which includes a frame 1, a spring plate separating device 2 and a spring plate packaging device 3. The elastic sheet distributing device 2 is arranged on the rack 1 and is used for dividing the double material belts a into two single material belts b; the elastic sheet packaging devices 3 are arranged on the rack 1 at intervals and are used for processing the two single material belts b respectively. Specifically, frame 1 plays the effect that supplies each device to support and install, and shell fragment feed divider 2 realizes carrying two material areas a, cuts two material areas a in carrying simultaneously to make two material areas a form two list material areas b, and two list material areas b that form at last enter into two shell fragment packaging hardware 3 respectively, advance to cut two list material areas b respectively through two shell fragment packaging hardware 3 and form the shell fragment, and encapsulate the shell fragment.

Further, as shown in fig. 5 to 6, the elastic sheet packaging device 3 includes an elastic sheet cutting mechanism 50, a multi-station rotating mechanism 60, a clamping and guiding mechanism 70, a carrier tape conveying mechanism 80 and a film tape packaging mechanism 90, wherein the elastic sheet cutting mechanism 50 is used for receiving the single material tape b and cutting the single material tape b to form an elastic sheet; the multi-station rotating mechanism 60 is positioned at the side of the elastic sheet cutting mechanism 50, a plurality of circumferentially arranged vacuum chucks 65 are arranged on the multi-station rotating mechanism 60, and each vacuum chuck 65 is used for adsorbing the elastic sheet formed by cutting by the elastic sheet cutting mechanism 50 to each station for processing; the clamping and correcting mechanism 70 is positioned at the side of the multi-station rotating mechanism 60 and is used for correcting the position of the elastic sheet sucked and conveyed by the vacuum chuck 65; the carrier tape conveying mechanism 80 is positioned on the side of the multi-station rotating mechanism 60 and is used for conveying a carrier tape to pass below the vacuum chuck 65, so that the carrier tape can contain the elastic sheets adsorbed by the vacuum chuck 65; the film belt packaging mechanism 90 is located on the side of the carrier belt conveying mechanism 80 and used for conveying packaging films to be covered and heat-sealed on the carrier belt containing the elastic sheets so as to package the elastic sheets.

Specifically, when the double-material-strip spring packing machine provided by the embodiment of the utility model works, the spring plate material distribution device 2 cuts the conveyed double-material strip a into two single-material strips b, and the two single-material strips b are conveyed continuously towards two different directions respectively; then two shell fragment packaging hardware 3 are used for accepting respectively and continue to carry two single material areas b to respectively carry out the shell fragment to two single material areas b and cut, process out single shell fragment and cover hot pressing through the packing film after encapsulating single shell fragment on the carrier tape. Wherein, the working process of the elastic sheet packaging device 3 is as follows: the elastic piece cutting mechanism 50 is used for receiving and conveying a single material belt b, and cutting the single material belt b into single elastic pieces, then adsorbing the elastic pieces through a vacuum sucker 65 on the multi-station rotating mechanism 60, continuously realizing a rotation angle through the driving of the multi-station rotating mechanism 60, placing the elastic pieces in the clamping and correcting mechanism 70 by the vacuum sucker 65 to correct the positions of the elastic pieces, then adsorbing the elastic pieces after completing the position correction through the vacuum sucker 65 to the carrier belt conveying mechanism 80, outputting the carrier belt by the carrier belt conveying mechanism 80, wherein the elastic pieces adsorbed by the vacuum sucker 65 can be contained on the carrier belt output by the carrier belt conveying mechanism 80, then covering and heat-sealing the carrier belt containing the elastic pieces with a packaging film conveyed by the film belt packaging mechanism 90, and finally realizing the packaging of the elastic pieces. The utility model discloses a two material of shell fragment take packagine machine, in the course of operation when carrying out the shell fragment packing, whole realization automation mechanized operation, so, can improve production efficiency greatly, simultaneously, owing to do not need manual operation, avoid artifical error problem to appear, and then can improve the quality of packing the shell fragment.

In another embodiment of the present invention, as shown in fig. 3, the elastic sheet separating device 2 includes a material belt feeding box 10 for winding and storing double material belts a, a material belt slitting mechanism 20, a material belt conveying mechanism 30, and a cross guiding mechanism 40; the material belt cutting mechanism 20 is positioned between the material belt material box 10 and the material belt conveying mechanism 30 and is used for cutting the double material belts a into two single material belts b; the material belt conveying mechanism 30 is used for driving the two single material belts b to move along a direction so as to drive the double material belts a to discharge from the material belt magazine 10; the cross guide mechanism 40 is disposed adjacent to the end of the material strip slitting mechanism 20, and is configured to guide the two single material strips b slit by the material strip slitting mechanism 20 to the two elastic sheet cutting mechanisms 50 respectively to perform a cutting process. Specifically, two material belts a are stocked in material belt incoming material box 10, after passing material belt cutting mechanism 20 with two material belts a, cut and form two material belts a, two material belts a are respectively under the drive of material belt conveying mechanism 30, two material belts a are constantly followed material belt incoming material box 10 blowing, and two single material belts b that cut and form then constantly continue to be carried forward, carry two single material belts b respectively towards two different directions through alternately guiding mechanism 40 and carry the cutting process of carrying out single shell fragment in the shell fragment cutting mechanism 50 of motion to two shell fragment packaging hardware 3, whole working process realizes automatic execution, high production efficiency, and good production quality.

In another embodiment of the present invention, as shown in fig. 4, the material belt conveying mechanism 30 includes a material belt conveying motor 31, a shaft transmission mechanism 32, a transmission shaft 33, a mounting frame 34 and two conveying gears 35, the mounting frame 34 is fixed on the frame 1, the transmission shaft 33 is rotatably connected to the frame 1, the material belt conveying motor 31 is connected to the transmission shaft 33 through the shaft transmission mechanism 32, two conveying gears 35 are installed on the transmission shaft 33 at intervals and are respectively used for engaging two holes on the outer side of the single material belt b to order about the single material belt b to move along a direction. Specifically, the material belt conveying motor 31 starts the back, drive the transmission shaft 33 of installing on the mounting bracket 34 through axle drive mechanism 32 and rotate, so, two conveying gear 35 of connection on transmission shaft 33 also rotate, these two conveying gear 35 respectively with two single material belts b meshing, just so driven two single material belts b and realized the antedisplacement, and then realize the pay-off to two single material belts b, and through the direction of crossing guiding mechanism 40, two single material belts b toward different direction motion, the automatic execution is realized to the working process, high production efficiency, and good production quality.

In another embodiment of the present invention, as shown in fig. 7, the elastic piece cutting mechanism 50 includes a mounting base 51, and a cutting motor 57, a double-headed shaft cutting motor 5752, a front end cutting gear 53, a front end elastic piece auxiliary wheel 54, a rear end cutting gear 55, a rear end elastic piece auxiliary wheel 56, a cutting motor 57, a cutting tool 58 and a vertical transmission assembly 59 which are mounted on the mounting base 51; the mounting seat 51 is mounted on the frame 1, and the front end cutting gear 53, the cutting tool 58 and the rear end cutting gear 55 are sequentially arranged at intervals along the conveying direction of the single material belt b; a driving end of the double-end shaft cutting motor 5752 of the cutting motor 57 is connected with the front end cutting gear 53 through a synchronous belt assembly, and the front end elastic sheet auxiliary wheel 54 is arranged close to the front end cutting gear 53 and is matched with the front end cutting gear 53 which is driven by the double-end shaft cutting motor 5752 of the cutting motor 57 to rotate so as to drive the single material belt b to move forwards; the other driving end of the double-end shaft cutting motor 5752 of the cutting motor 57 is connected with the rear end cutting gear 55, and the rear end elastic sheet auxiliary wheel 56 is arranged close to the rear end cutting gear 55 and is matched with the rear end cutting gear 55 which is driven by the double-end shaft cutting motor 5752 of the cutting motor 57 to rotate so as to drive the single material belt b to move forwards; the cutting motor 57 is connected to the cutting tool 58 through the vertical transmission assembly 59, and is configured to drive the cutting tool 58 to move up and down to cut the single material tape b passing through the front end cutting gear 53 and the rear end cutting gear 55, so as to form a single elastic sheet. Specifically, after the double-end shaft cutting motor 5752 of the cutting motor 57 is started, the double-end shaft directly drives the rear-end cutting gear 55 to rotate, and drives the front-end cutting gear 53 to rotate through the synchronous belt component, because the veneer strip b is meshed and connected in front of the front-end cutting gear 53 and the rear-end cutting gear 55, passes through the cutting tool 58, and is combined with the pressing limit of the front-end elastic sheet auxiliary wheel 54 and the rear-end elastic sheet auxiliary wheel 56 to the veneer strip b, the veneer strip b can be driven to move forwards all the time and pass through the cutting tool 58, when the cutting tool 58 is started, the cutting tool 58 is driven to move up and down through the vertical transmission component 59, when the cutting tool 58 moves up and down, the elastic sheet on the veneer strip b passing through the lower part can be punched, the cutting of the single elastic sheet is realized, the cut elastic sheet is adsorbed by one of the vacuum chucks 65 on the multi-station rotating mechanism 60, and the correction process of the position of the elastic sheet is executed from the circumferential rotation angle to the next station by the conveying of the multi-station rotating mechanism 60, the automatic execution is realized in the working process, the production efficiency is high, and the production quality is good.

In another embodiment of the present invention, as shown in fig. 8, the multi-station rotating mechanism 60 includes a rotating electrical machine 61, an indexer 62, a central rotating shaft 63 and a rotary plate 64, the rotating electrical machine 61 and the indexer 62 are all installed on the rack 1, the central rotating shaft 63 is vertically arranged and passes through the indexer 62 and the rotating electrical machine 61, the rotary plate 64 is installed on the central rotating shaft 63, and each of the vacuum chucks 65 is axially uniformly distributed on the rotary plate 64 at equal intervals. Specifically, the rotating motor 61 drives the indexer 62 to drive the central rotating shaft 63 to rotate, so that the intermittent rotation angle of the central rotating shaft 63 can be controlled, and thus, the turntable 64 connected to the central rotating shaft 63 also realizes the circumferential intermittent rotation in the rotating shaft, so that each vacuum sucker 65 installed on the turntable 64 can continuously rotate on each station arranged on the circumferential side of the rotating shaft, so as to adsorb the elastic sheet to execute corresponding processes on each station, the working process realizes automatic execution, the production efficiency is high, and the production quality is good.

In another embodiment of the present invention, as shown in fig. 9 to 10, the clamping and guiding mechanism 70 includes a guiding motor 71, a guiding seat 72, a first guiding block 73, a second guiding block 74, a first connecting shaft 75, a second connecting shaft 76, a first guiding block 77 and a second guiding block 78, the guiding motor 71 is vertically disposed, the guiding seat 72 is connected to the main shaft of the guiding motor 71, the guiding seat 72 is provided with a first plane 721 and a second plane 722 which are oppositely disposed, the first guiding block 73 and the second guiding block 74 are rotatably disposed on two opposite sides of the guiding seat 72 through the connecting shaft and the second connecting shaft 76, respectively, and the first guiding block 73 and the second guiding block 74 are provided with a first guiding face 731 and a second guiding face 741 respectively in contact fit with the first plane 721 and the second plane 722, the guide seat 72 is driven by the guide motor 71 to rotate and forces the first guide block 73 and the second guide block 74 to rotate through the contact fit between the first plane 721 and the second plane 722 and the first guide face 731 and the second guide face 741 respectively, the first guide block 77 and the second guide block 78 are respectively mounted at the upper ends of the first connecting shaft 75 and the second connecting shaft 76, the ends of the first guide block 77 and the second guide block 78 are respectively formed with a first half groove 771 and a second half groove 781, and the first guide block 77 and the second guide block 78 respectively rotate along with the first connecting shaft 75 and the second connecting shaft 76 so that the first half groove 771 and the second half groove 781 are enclosed to form a correction groove 79 for correcting the position of the elastic sheet. Specifically, the guide motor 71 rotates to drive the guide seat 72 to rotate, when the guide seat 72 rotates, the first plane 721 and the second plane 722 arranged on the two opposite sides of the guide seat respectively force the first guide block 73 and the second guide block 74 to rotate until the first plane 721 is matched with the first guide front surface 731 arranged on the first guide block 73 and the second plane 722 is matched with the second guide front surface 741 arranged on the second guide block 74, so that the first guide block 77 and the second guide block 78 do not rotate any more, the first connecting shaft 75 and the second connecting shaft 76 respectively connected to the first guide block 77 and the second guide block 78 do not rotate any more, similarly, the first guide block 77 and the second guide block 78 do not rotate any more, the first half groove 771 arranged on the first guide block 77 is matched with the second half groove 781 arranged on the second guide block 78 to form the calibration groove 79, and at this time, one of the suction cups 65 is just sucked under the first half groove 771 and the second half groove 781, the position of the elastic sheet is matched with the correcting groove 79, the correction of the elastic sheet is completed, the elastic sheet after the position correction is driven by the multi-station rotating mechanism 60 to be driven to the next station through the vacuum chuck 65, the working process is automatically executed, the production efficiency is high, and the production quality is good.

In another embodiment of the present invention, as shown in fig. 11 to 12, the carrier tape conveying mechanism 80 includes a carrier tape tray 81, a bracket 82, a carrier tape channel 83, a carrier tape pressing block 84, a double-shaft conveying motor 85, a front-end carrier tape gear 86, a front-end carrier tape auxiliary wheel 87, a rear-end carrier tape gear 88 and a rear-end carrier tape auxiliary wheel 89, the carrier tape tray 81 may be provided with a motor to drive the carrier tape tray 81 to rotate for discharging, and the carrier tape tray 81 and the bracket 82 are both mounted on the frame 1; the carrier tape slot 83 is arranged on the bracket 82 and used for accommodating a carrier tape led out from the carrier tape tray 81, the carrier tape pressing block 84 is arranged above the carrier tape slot 83 and used for limiting the carrier tape accommodated in the carrier tape slot 83, and the front end carrier tape gear 86 and the rear end carrier tape gear 88 are respectively and rotatably arranged on the bracket 82 close to the two opposite ends of the carrier tape slot 83 and used for meshing with the carrier tape; a driving end of the double-head shaft conveying motor 85 is connected with the front end carrier tape gear 86 through a synchronous belt assembly, and the front end carrier tape auxiliary wheel 87 is arranged close to the front end carrier tape gear 86 and is matched with the front end carrier tape gear 86 which is driven by the double-head shaft conveying motor 85 to rotate so as to drive the carrier tape to move forwards together; the other driving end of the double-head shaft conveying motor 85 is connected with the rear end carrier tape gear 88, and the rear end carrier tape auxiliary wheel 89 is arranged close to the rear end carrier tape gear 88 and is matched with the rear end carrier tape gear 88 which is driven by the double-head shaft conveying motor 85 to rotate so as to drive the carrier tape to move forwards together; the film tape packaging mechanism 90 is arranged at a position close to the rear end carrier tape gear 88 and is used for conveying packaging films to be covered and thermally sealed on the carrier tape containing the elastic sheets. Specifically, one end of the double-ended shaft conveying motor 85 directly drives the rear end carrier belt gear 88 connected with the double-ended shaft conveying motor to rotate, and the other end drives the front end carrier belt gear 86 to rotate through the synchronous belt assembly, so that the carrier belt can be driven to move continuously towards one side by combining the assistance of the front end carrier belt auxiliary wheel 87 and the rear end carrier belt auxiliary wheel 89. The driven carrier tape can be limited by the carrier tape pressing block 84, so that the carrier tape can not be separated from the carrier tape channel 83, the carrier tape always moves forwards along the carrier tape channel 83, and the film tape packaging mechanism 90 covers the packaging film and hot-presses and seals the elastic sheet accommodated on the carrier tape under the film tape packaging mechanism 90, so that automatic packaging is completed, the production efficiency is high, and the production quality is good.

In another embodiment of the present invention, as shown in fig. 13, the film belt packaging mechanism 90 includes a mounting plate 91, a packaging film tray 92, a driving cylinder 93 and a hot pressing block 94, the mounting plate 91 and the packaging film tray 92 are all installed in the frame 1, the packaging film tray 92 can be provided with a motor to drive the packaging film tray, the packaging film tray 92 is used for rolling up the packaging film, the driving cylinder 93 is installed on the mounting plate 91, the hot pressing block 94 is connected with the driving cylinder 93 and passes through the driving cylinder 93 is driven to enable the packaging film drawn out from the packaging film tray 92 to be covered with the hot pressing on the carrier tape containing the elastic sheet conveyed by the carrier tape conveying mechanism 80, so as to realize the packaging of the elastic sheet. Specifically, the packaging film stored on the packaging film tray 92 is guided to discharge along some guide rollers arranged on the mounting plate 91 until the packaging film is covered on the carrier tape, and then the hot-pressing block 94 is driven to press downwards by the driving cylinder 93, so that the packaging film is thermally sealed on the carrier tape containing the elastic sheet, and automatic packaging is realized.

In another embodiment of the present invention, as shown in fig. 6, the elastic sheet packaging device 3 further includes a CCD detecting mechanism 100 and a re-guiding mechanism 110, which are disposed adjacent to the clamping and guiding mechanism 70 and are used to detect whether the elastic sheet adsorbed by the vacuum chuck 65 and positioned by the clamping and guiding mechanism 70 meets the requirement; and the re-guiding mechanism 110 is arranged adjacent to the CCD detecting mechanism 100 and is used for detecting the elastic sheet which is detected by the CCD detecting mechanism 100 and is judged to be not qualified. Specifically, the CCD detecting mechanism 100 first takes a picture of the shrapnel corrected by the clamping correcting mechanism 70, then analyzes the picture, and if the position of the shrapnel is determined to be correct, the shrapnel is conveyed to the carrier tape, if the position of the shrapnel is determined to be incorrect, the shrapnel is conveyed to the re-correcting mechanism 110, the re-correcting mechanism 110 corrects the incorrect position of the shrapnel, and then the shrapnel is adsorbed to the carrier tape by the vacuum chuck 65, thereby ensuring the yield of the packaged shrapnel.

In another embodiment of the present invention, the re-centering mechanism 110 is identical to the clamping and centering mechanism 70. The correction effect that the structure of the re-guiding mechanism 110 can realize on the elastic sheet is good.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. The utility model provides a two material area packagine machine of shell fragment which characterized in that: the method comprises the following steps:

a frame;

the elastic sheet distributing device is arranged on the rack and is used for splitting the double material belts into two single material belts;

the elastic sheet packaging devices are arranged on the rack at intervals and are used for processing the two single material belts respectively;

wherein, shell fragment packaging hardware includes:

the elastic piece cutting mechanism is used for receiving the single material belt and cutting the single material belt to form an elastic piece;

the multi-station rotating mechanism is positioned on the side of the elastic piece cutting mechanism, a plurality of circumferentially arranged vacuum suckers are arranged on the multi-station rotating mechanism, and each vacuum sucker is used for adsorbing the elastic piece formed by cutting through the elastic piece cutting mechanism to each station for processing;

the clamping and correcting mechanism is positioned on the side of the multi-station rotating mechanism and is used for correcting the position of the elastic sheet sucked and conveyed by the vacuum chuck;

the carrier band conveying mechanism is positioned on the side of the multi-station rotating mechanism and used for conveying the carrier band to pass through the lower part of the vacuum chuck so that the carrier band can contain the elastic sheet adsorbed by the vacuum chuck;

and the film belt packaging mechanism is positioned on the side of the carrier belt conveying mechanism and is used for conveying a packaging film to cover and heat-seal the packaging film on the carrier belt containing the elastic sheets so as to package the elastic sheets.

2. The shrapnel double-material tape packaging machine according to claim 1, which is characterized in that: the elastic sheet material distribution device comprises a material belt material box for rolling and storing double material belts, a material belt cutting mechanism, a material belt conveying mechanism and a cross guide mechanism; the material belt cutting mechanism is positioned between the material belt material box and the material belt conveying mechanism and is used for cutting double material belts into two single material belts; the material belt conveying mechanism is used for driving the two single material belts to move along one direction so as to drive the double material belts to discharge from the material belt incoming material box; the cross guide mechanism is adjacent to the tail end of the material belt cutting mechanism and used for guiding the two single material belts cut by the material belt cutting mechanism to the two elastic sheet cutting mechanisms respectively to execute a cutting process.

3. The shrapnel double-material tape packaging machine according to claim 2, wherein: the material belt conveying mechanism comprises a material belt conveying motor, a shaft transmission mechanism, a transmission shaft, a mounting frame and two conveying gears, the mounting frame is fixed on the rack, the transmission shaft is rotatably connected with the rack, the material belt conveying motor passes through the shaft transmission mechanism is connected with the transmission shaft, the conveying gears are arranged on the transmission shaft at intervals and are respectively used for meshing two holes in the outer side part of the single material belt to drive the single material belt to move along one direction.

4. The shrapnel double-material tape packaging machine according to claim 1, which is characterized in that: the elastic piece cutting mechanism comprises a mounting seat, and a double-end shaft cutting motor, a front end cutting gear, a front end elastic piece auxiliary wheel, a rear end cutting gear, a rear end elastic piece auxiliary wheel, a cutting motor, a cutting cutter and a vertical transmission assembly which are arranged on the mounting seat;

the mounting seat is mounted on the rack, and the front end cutting gear, the cutting tool and the rear end cutting gear are sequentially arranged at intervals along the conveying direction of the single material belt;

a driving end of the double-head shaft cutting motor is connected with the front end cutting gear through a synchronous belt assembly, and the front end elastic sheet auxiliary wheel is arranged close to the front end cutting gear and matched with the front end cutting gear which is driven by the double-head shaft cutting motor to rotate so as to drive the single material belt to move forwards;

the other driving end of the double-head shaft cutting motor is connected with the rear end cutting gear, and the rear end elastic sheet auxiliary wheel is arranged close to the rear end cutting gear and matched with the rear end cutting gear which is driven by the double-head shaft cutting motor to rotate so as to drive the single material belt to move forwards;

the cutting motor is connected with the cutting tool through the vertical transmission assembly and is used for driving the cutting tool to move up and down to cut the single material belt passing through the front end cutting gear and the rear end cutting gear so as to form a single elastic sheet.

5. The shrapnel double-material tape packaging machine according to claim 1, which is characterized in that: the multi-station rotating mechanism comprises a rotating motor, an indexer, a central rotating shaft and a turntable, wherein the rotating motor and the indexer are installed on the rack, the central rotating shaft is vertically arranged and is connected with the rotating motor through the indexer, the turntable is installed on the central rotating shaft, and the vacuum suckers are axially and uniformly distributed on the turntable at equal intervals.

6. The shrapnel double-material tape packaging machine according to claim 1, which is characterized in that: the clamping guide mechanism comprises a guide motor, a guide seat, a first guide block, a second guide block, a first connecting shaft, a second connecting shaft, a first guide block and a second guide block, wherein the guide motor is vertically arranged, the guide seat is connected with a main shaft of the guide motor, a first plane and a second plane which are oppositely arranged are arranged on the guide seat, the first guide block and the second guide block are respectively and rotatably arranged on the two opposite sides of the guide seat through the connecting shaft and the second connecting shaft, the first guide block and the second guide block are respectively provided with a first guide front face and a second guide front face which are in contact fit with the first plane and the second plane, the guide seat is driven by the guide motor to rotate and is forced to rotate by the first guide block and the second guide block through the contact fit of the first plane and the second plane with the first guide front face and the second guide front face respectively The first guide block and the second guide block are respectively installed at the upper ends of the first connecting shaft and the second connecting shaft, a first half groove and a second half groove are respectively formed at the tail ends of the first guide block and the second guide block, and the first guide block and the second guide block respectively rotate along with the first connecting shaft and the second connecting shaft to enable the first half groove and the second half groove to be enclosed to form a correction groove for correcting the position of the elastic piece.

7. The shrapnel double-material tape packaging machine according to claim 1, which is characterized in that: the carrier band conveying mechanism comprises a carrier band material tray, a support, a carrier band channel, a carrier band pressing block, a double-head shaft conveying motor, a front-end carrier band gear, a front-end carrier band auxiliary wheel, a rear-end carrier band gear and a rear-end carrier band auxiliary wheel, and the carrier band material tray and the support are both arranged on the rack;

the carrier tape channel is arranged on the support and used for accommodating a carrier tape led out from the carrier tape tray, the carrier tape pressing block is arranged above the carrier tape channel and used for limiting the carrier tape accommodated in the carrier tape channel, and the front end carrier tape gear and the rear end carrier tape gear are respectively and rotatably arranged on the support and close to the two opposite ends of the carrier tape channel and are used for being meshed with the carrier tape;

a driving end of the double-head shaft conveying motor is connected with the front end carrier belt gear through a synchronous belt component, and the front end carrier belt auxiliary wheel is arranged close to the front end carrier belt gear and matched with the front end carrier belt gear which is driven by the double-head shaft conveying motor to rotate so as to drive the carrier belt to move forwards together;

the other driving end of the double-head shaft conveying motor is connected with the rear end carrier belt gear, and the rear end carrier belt auxiliary wheel is arranged close to the rear end carrier belt gear and matched with the rear end carrier belt gear which is driven by the double-head shaft conveying motor to rotate so as to drive the carrier belt to move forwards together;

the film tape packaging mechanism is arranged at a position close to the rear end carrier tape gear and used for conveying packaging films to be covered and thermally sealed on the carrier tape containing the elastic sheets.

8. The shrapnel double-material tape packaging machine according to claim 1, which is characterized in that: the membrane area packaging mechanism includes mounting panel, packaging film charging tray, drives actuating cylinder and hot pressing piece, the mounting panel with the packaging film charging tray all install in the frame, the packaging film charging tray be used for rolling up the deposit packaging film drive actuating cylinder install in on the mounting panel, the hot pressing piece with drive actuating cylinder and connect and warp drive actuating cylinder's drive and can with the packaging film that the packaging film charging tray was drawn forth cover the hot pressing in the splendid attire that carrier band conveying mechanism carried has on the carrier band of shell fragment to realize the packing of shell fragment.

9. The shrapnel double-material tape packaging machine according to claim 1, which is characterized in that: the shrapnel packaging device further comprises:

the CCD detection mechanism is arranged adjacent to the clamping and guiding mechanism and is used for detecting whether the elastic sheet adsorbed by the vacuum chuck and positioned by the clamping and guiding mechanism meets the requirement or not;

and the re-guide mechanism is arranged adjacent to the CCD detection mechanism and is used for detecting the elastic sheet which is detected by the CCD detection mechanism and is judged to be not in accordance with the requirement.

10. The shrapnel double-material tape packaging machine according to claim 9, wherein: the structure of the re-guide mechanism is the same as that of the clamping guide mechanism.

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