CN210061391U

CN210061391U - Membrane device separating mechanism of plastic vessel forming machine

Info

Publication number: CN210061391U
Application number: CN201920459121.0U
Authority: CN
Inventors: 杨天银; 沈益强; 王小波; 吴丽彬; 涂其德
Original assignee: Wenzhou Obo Machinery Co Ltd
Current assignee: Zhejiang Ono Machinery Co ltd
Priority date: 2019-04-04
Filing date: 2019-04-04
Publication date: 2020-02-14
Anticipated expiration: 2029-04-04

Abstract

The utility model discloses a membrane ware separating mechanism of plastic household utensils make-up machine, including main support, cylinder, cut the sword and be used for converting the mechanical joint of cylinder output torque, the cylinder is fixed on the top of main support, it includes cuts the sword and cuts the sword down to cut the sword, on cut the sword and slide the top that sets up on the main support and be located the plastic film, cut the below that the sword set up at last sword and plastic film down, mechanical joint's input and cylinder are connected, and the output is connected with last sword of cutting, and during operation, cylinder drive mechanical joint cuts the sword towards the plastic film motion on the mechanical joint drive to household utensils after the shaping cut with the plastic film. Through the mechanical joint structure, the output torque of the cylinder is increased, the force borne by the cylinder is kept stable, the mechanical joint is not overturned to a large extent in the operation process and can convert the torque, the torque is kept stable, great mechanical stress cannot be generated, and the abrasion of equipment in the operation process can be effectively reduced.

Description

Membrane device separating mechanism of plastic vessel forming machine

Technical Field

The utility model relates to a plastic household utensils former, more specifically the membrane ware separating mechanism who relates to a plastic household utensils make-up machine that says so.

Background

CN207724453U discloses a plastic cover or plastic container blanking mechanism, which uses a motor and a cam link transmission device to drive an upper die and a lower die to punch plastic films and formed plastic covers, but the power structure is complex, the operation is not stable enough, and the wear is rapid in the using process.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a not enough to prior art exists, the utility model aims to provide a membrane ware separating mechanism of plastic household utensils make-up machine, simple structure, operation are stable.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a membrane ware separating mechanism of plastic household utensils make-up machine, includes main support, cylinder, cuts the sword and is used for converting the mechanical joint of cylinder output torque, the cylinder is fixed on the top of main support, it includes cuts the sword and cuts the sword down to cut the sword, on cut the sword and slide the top that sets up on the main support and be located the plastic film, cut the sword setting down in the below of cutting sword and plastic film at last, mechanical joint's input and cylinder are connected, and the output is connected with last sword that cuts, and the during operation, cylinder drive mechanical joint cuts the sword towards the plastic film motion on the mechanical joint drive to household utensils and plastic film after the shaping cut.

As a further improvement of the utility model, still including the separating mechanism who is used for separating shaping household utensils and plastic film, separating mechanism includes the conveyer belt, the separation support, including a motor, an end cap, a controller, and a cover plate, crane and sucking disc, the motor is fixed on the separation support, the crane setting that can slide is on the separation support, the motor is connected with the crane, slide from top to bottom along the separation support with the drive crane, the sucking disc is fixed in the bottom of crane, the conveyer belt sets up the below at the sucking disc, in operation, the crane drives the sucking disc and promotes shaping household utensils, part shaping household utensils and plastic film, and place shaping household utensils on the conveyer belt.

As a further improvement of the utility model, the mechanical joint comprises an upper frame, a lower frame, a middle plate, four upper rotating arms, four lower rotating arms, two middle rotating arms and two middle rotating shafts, the main support comprises four guide pillars and a top plate fixed on the top ends of the guide pillars, the upper frame is fixed on the bottom surface of the top plate, the lower frame is provided with four guide holes, the four guide pillars are respectively penetrated and arranged in the guide holes, one ends of the four upper rotating arms are hinged on the upper frame and are arranged in a square shape, one ends of the four lower rotating arms are hinged on the lower frame and are arranged in a square shape, the upper rotating arms and the lower rotating arms are correspondingly divided into four groups up and down, the other ends of the two groups of upper rotating arms and the lower rotating arms are respectively hinged on one middle rotating shaft, one ends of the two middle rotating arms are rotatably connected with the middle rotating shaft, the other ends are rotatably connected with the middle plate, the middle, the upper rotating arm and the lower rotating arm are driven to turn inwards or return, so that the lower frame is driven to lift.

As a further improvement of the utility model, the crane includes gear, rack, guide rail, slider and sucking disc frame, and the gear is fixed on the separation support with the output shaft of motor, slider, has seted up the spout on the slider, and the guide rail is fixed with the rack and slides and inlay and establish in the spout, rack and gear engagement, and the sucking disc frame is fixed in the bottom of rack, and the sucking disc has a plurality ofly, evenly distributed on the sucking disc frame.

As a further improvement of the utility model, the sucker frame comprises a cross beam, a support plate and a plurality of carrier strips, the sucker comprises a connecting rod and a body fixed at the bottom of the connecting rod, the cross beam is fixed at the bottom of the rack, the support plate is fixed below the cross beam, the support plate is provided with first through holes for the connecting rod to pass through, two opposite sides of each first through hole are provided with a first waist-shaped hole, the carrier strips are fixed on the support plate and arranged across two first waist-shaped holes, the carrier strips are provided with second waist-shaped holes for the connecting rod to pass through, two sides of the second waist-shaped hole in the length direction are provided with second through holes, the connecting rod is provided with a clamping plate and a first nut, the connecting rod is arranged in the second waist-shaped holes in a penetrating way, the carrier strips are clamped by the clamping plate and the first nut from two sides, the connecting rod is fixed on the carrier strips, bolts and second nuts are arranged in the first waist-shaped holes and, and fixing the carrier strip on the carrier plate.

As a further improvement of the utility model, a speed reducer is connected between the motor and the gear.

As a further improvement, the lower part of the lower cutting knife is provided with a cam mechanism for driving the lower cutting knife to lift.

The beneficial effects of the utility model, through above-mentioned mechanical joint structure, increase the output torque of cylinder, and through the upset motion of last rocking arm, well rocking arm and lower rocking arm, make the power that the cylinder received remain stable, after mechanical joint increases power and moment, when the cylinder lectotype, with regard to optional stroke and the less cylinder of power, reduce whole volume to reduce the influence of place factor to equipment. The mechanical joint structure has no large-amplitude overturn in the operation process, does not generate large mechanical stress, and can effectively reduce the abrasion of equipment in the operation process.

Drawings

FIG. 1 is an overall structure diagram of the present invention;

fig. 2 is a structural view of an upper cutting blade and a lower cutting blade;

FIG. 3 is a block diagram of a mechanical joint;

FIG. 4 is a structural view of the crane;

FIG. 5 is a structural view of a suction cup holder;

fig. 6 is a structural view of the suction cup.

Detailed Description

The present invention will be described in further detail with reference to embodiments shown in the drawings.

Referring to fig. 1 to 6, the membrane separator separating mechanism of a plastic ware forming machine of this embodiment includes main support 1, cylinder 2, cuts the sword and is used for converting the mechanical joint 4 of 2 output torque of cylinder, cylinder 2 fixes the top at main support 1, it includes that the sword 31 and the sword 32 of cutting down cut to cut the sword, on cut the sword 31 and slide and set up the top that just is located the plastic film on main support 1, the sword 32 setting of cutting down is in the below of cutting sword 31 and plastic film at last, mechanical joint 4's input is connected with cylinder 2, and the output is connected with last sword 31, and the during operation, cylinder 2 drive mechanical joint 4, cuts the sword 31 and moves towards the plastic film on the mechanical joint 4 drive to the household utensils and the plastic film after the shaping cut.

The mechanical joint 4 comprises an upper frame 41, a lower frame 42, a middle plate 43, four upper rotating arms 44, four lower rotating arms 45, two middle rotating arms 46 and two middle rotating shafts 47, the main support 1 comprises four guide posts 11 and a top plate 12 fixed at the top ends of the guide posts 11, the upper frame 41 is fixed at the bottom surface of the top plate 12, the lower frame 42 is provided with four guide holes, the four guide posts 11 are respectively penetrated in the guide holes, one ends of the four upper rotating arms 44 are hinged on the upper frame 41 and are arranged in a square shape, one ends of the four lower rotating arms 45 are hinged on the lower frame 42 and are arranged in a square shape, the upper rotating arms 44 and the lower rotating arms 45 are correspondingly divided into four groups up and down, the other ends of the two groups of upper rotating arms 44 and the lower rotating arms 45 are respectively hinged on one middle rotating shaft 47, one ends of the two middle rotating arms 46 are rotatably connected with the middle rotating shaft 47, the cylinder 2 drives the middle plate 43 to lift, the middle rotating shaft 47 is pulled by the middle rotating arm 46 to move inwards or return, the upper rotating arm 44 and the lower rotating arm 45 are driven to turn inwards or return, and the lower frame 42 is driven to lift.

During production, between the upper cutting knife 31 and the lower cutting knife 32 of the plastic film and vessel conveyor belt after forming, the air cylinder 2 is started to drive the middle plate 43 to move downwards, the middle rotating arm 46 turns outwards to push the middle rotating shaft 47 to move outwards, the middle rotating shaft 47 pushes the upper rotating arm 44 and the lower rotating arm 45 to turn outwards, the upper rotating arm 44 and the lower rotating arm 45 turn over and straighten, the lower frame 42 is pushed to move downwards, the upper cutting knife 3 is close to the plastic film, the upper cutting knife is matched with the lower cutting knife to cut the plastic film and the formed vessel, the vessel can be directly cut off at the position, and a plurality of connecting points can be reserved for subsequent processes. After cutting, the cylinder 2 drives the middle plate 43 to move upwards, the whole mechanical joint 4 is driven to contract, the upper cutting knife 31 is lifted, the plastic film is prevented from being damaged by the upper cutting knife 31 in the conveying process, the output torque of the cylinder 2 is increased through the joint structure, the cylinder 2 can be selected by the aid of the upper rotating arm 44 and the lower rotating arm 46 to rotate 45 in an overturning manner, the force borne by the cylinder 2 is kept stable, the mechanical joint 4 increases force and torque, the cylinder 2 can be selected by the aid of the cylinder 2 with smaller stroke and force, the overall size is reduced, and accordingly the influence of site factors on equipment is reduced. The mechanical joint 4 structure has no large-amplitude overturn in the operation process, does not generate large mechanical stress, and can effectively reduce the abrasion of equipment in the operation process.

The upper cutting knife 31 and the lower cutting knife 32 can use laser cutting knives, hot stamping knives or other forms of knives, when the laser knives are used, one of the upper cutting knife 31 or the lower cutting knife 32 can be used for independently emitting laser, and the other one has a protection function, so that the laser is prevented from damaging the setting; the laser knife which is matched up and down can be adopted, namely when the distance between the upper cutting knife 31 and the lower cutting knife 32 reaches a certain value, effective laser can be generated between the upper cutting knife 31 and the lower cutting knife 32 to cut the plastic film.

The cam mechanism 9 used for driving the lower cutting knife 32 to lift is arranged below the lower cutting knife 32, after a laser knife or thermal punching mode needing to be matched is adopted, the cam mechanism 9 pushes the lower cutting knife 32 upwards, the stroke of the upper cutting knife 31 can be shortened, therefore, the occupied area of equipment is reduced, the time and energy consumed by the upper cutting knife 31 in the motion process can be reduced, the efficiency is improved, and energy and emission are saved. The kinetic energy of the cam mechanism 9 can be provided by a main shaft of the connecting device, and a motor can be independently arranged to be matched with the action of the air cylinder 2.

Still including the separating mechanism 5 that is used for separating shaping household utensils and plastic film, separating mechanism 5 includes conveyer belt 51, separation support 52, motor 53, crane 54 and sucking disc 55, motor 53 is fixed on separation support 52, crane 54 can the gliding setting on separation support 52, motor 53 is connected with crane 54, slide from top to bottom along separation support 52 with drive crane 54, sucking disc 55 is fixed in the bottom of crane 54, conveyer belt 51 sets up the below at sucking disc 55, in operation, crane 54 drives sucking disc 55 and promotes shaping household utensils, separate shaping household utensils and plastic film, and place shaping household utensils on conveyer belt 51.

After cutting the shaping household utensils and plastic film into by point connection, plastic film and shaping household utensils are carried the below of sucking disc 55, motor 53 drive crane 54 descends, drive sucking disc 55 and hold the shaping household utensils, separate the shaping household utensils and plastic film, move towards conveyer belt 51, the shaping household utensils are put down after contacting the drive belt, then motor 53 drives sucking disc 55 return, the plastic film is continued to move, next row of shaping household utensils are sent to sucking disc 55 below, sucking disc 55 piles up this row of shaping household utensils on the household utensils of below, so pile up several times, carry out preliminary pile up to the household utensils, reduce the operation that operating personnel piled up the household utensils, improve operating efficiency.

The lifting frame 54 comprises a gear 541, a rack 542, a guide rail 543, a slider 544 and a suction cup frame 545, wherein the gear 541 is connected with an output shaft of the motor 53, the slider 544 is fixed on the separation bracket 52, a sliding groove is formed in the slider 544, the guide rail 543 and the rack 542 are fixed and embedded in the sliding groove in a sliding manner, the rack 542 is meshed with the gear 541, the suction cup frame 545 is fixed at the bottom of the rack 542, and a plurality of suction cups 55 are uniformly distributed on the suction cup frame 545. A speed reducer 8 is connected between the motor 53 and the gear 541.

Through the above arrangement, the motor 53 outputs power to the speed reducer 8, the speed reducer 8 drives the gear 541 to rotate, the gear 541 drives the rack 542 to slide up and down along the guide rail 543, so that the sucker frame 545 and the sucker 55 are driven to move up and down, the action of pushing a forming vessel is completed, the suckers 55 are multiple, a plurality of forming vessels can be processed at one time, and the working efficiency is improved.

The suction disc frame 545 can also be driven by adopting a screw rod and a screw sleeve, the screw sleeve is fixed on the suction disc frame 545, the motor 53 drives the screw rod to rotate, the screw rod drives the screw sleeve to move up and down, and therefore the suction disc frame 545 is driven to move, and other transmission modes can also be adopted to convert the force of the motor 53 and drive the suction disc frame 545 to lift.

The sucker frame 545 comprises a cross beam 61, a carrier plate 62 and a plurality of carrier bars 63, the sucker 55 comprises a connecting rod 551 and a body 552 fixed at the bottom of the connecting rod 551, the cross beam 61 is fixed at the bottom of the rack 542, the carrier plate 62 is fixed below the cross beam 61, the carrier plate 62 is provided with a first through hole 71 for the connecting rod 551 to pass through, two opposite sides of the first through hole 71 are respectively provided with a first waist-shaped hole 72, the plurality of carrier bars 63 are fixed on the carrier plate 62 and arranged across two first waist-shaped holes 72, the plurality of carrier bars 63 are respectively provided with a second waist-shaped hole 73 for the connecting rod 551 to pass through, two sides of the second waist-shaped hole 73 in the length direction are provided with a second through hole 74, the connecting rod 551 is provided with a clamping plate and a first nut 554, the connecting rod 551 is arranged in the second waist-shaped hole 73 in a penetrating manner, the clamping plate 553 and the first nut 554 clamp the carrier bars 63 from two sides, the connecting rod 551 is clamped on the carrier bar 63 and fixed on, bolts 555 and second nuts 556 clamp carrier plate 62 and carrier strip 63 from both sides, securing carrier strip 63 to carrier plate 62.

After the size of the produced vessel is changed, in order to fully utilize the plastic film and the like, the distance between the forming positions needs to be adjusted, through the arrangement, the position relation between the carrier strips 63 can be adjusted in the first waist-shaped hole 72, and the position relation between the connecting rods 551 can be adjusted in the second waist-shaped hole 73, so that the position relation between the suckers 55 can be adjusted, the suckers 55 can be suitable for producing vessels with different sizes, and the better utilization rate of the plastic film can be achieved.

Above only the utility model discloses an it is preferred embodiment, the utility model discloses a scope of protection not only limits in above-mentioned embodiment, and the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims

1. The utility model provides a membrane ware separating mechanism of plastic ware make-up machine which characterized in that: including main support (1), cylinder (2), cut the sword and be used for converting mechanical joint (4) of cylinder (2) output torque, the top in main support (1) is fixed in cylinder (2), cut the sword including cutting sword (31) and cutting sword (32) down, on cut sword (31) and slide and set up on main support (1) and be located the top of plastic film, cut sword (32) down and set up the below of cutting sword (31) and plastic film at last, the input and the cylinder (2) of mechanical joint (4) are connected, and the output is connected with last cutting sword (31), and the during operation, cylinder (2) drive mechanical joint (4), cuts sword (31) and move towards the plastic film on mechanical joint (4) drive to household utensils and the plastic film after the shaping cut.

2. The film separator mechanism of a plastic-vessel molding machine as claimed in claim 1, wherein: a cam mechanism (9) for driving the lower cutting knife (32) to lift is arranged below the lower cutting knife (32).

3. The film separator mechanism of a plastic-vessel molding machine as claimed in claim 1, wherein: the mechanical joint (4) comprises an upper frame (41), a lower frame (42), a middle plate (43), four upper rotating arms (44), four lower rotating arms (45), two middle rotating arms (46) and two middle rotating shafts (47), the main support (1) comprises four guide posts (11) and a top plate (12) fixed at the top ends of the guide posts (11), the upper frame (41) is fixed on the bottom surface of the top plate (12), the lower frame (42) is provided with four guide holes, the four guide posts (11) are respectively arranged in the guide holes in a penetrating manner, one ends of the four upper rotating arms (44) are hinged on the upper frame (41) and are arranged in a square manner, one ends of the four lower rotating arms (45) are hinged on the lower frame (42) and are arranged in a square manner, the upper rotating arms (44) and the lower rotating arms (45) are correspondingly divided into four groups up and down, and the other ends of the two groups of the upper rotating arms (44) and the lower rotating arms (45) are, two the one end and the rotation of well rocking arm (46) are connected, and the other end rotates with intermediate lamella (43) to be connected, intermediate lamella (43) are connected with the output of cylinder (2), and the during operation, cylinder (2) drive intermediate lamella (43) go up and down, and well rocking arm (46) pulling intermediate lamella (47) move inwards or return, drive rocking arm (44) and lower rocking arm (45) inwards upset or return to drive undercarriage (42) and go up and down.

4. The film separator mechanism of a plastic-vessel molding machine according to claim 1, 2 or 3, wherein: still including separating mechanism (5) that is used for separating shaping household utensils and plastic film, separating mechanism (5) are including conveyer belt (51), separation support (52), motor (53), crane (54) and sucking disc (55), motor (53) are fixed on separation support (52), crane (54) can the setting that slides on separation support (52), motor (53) are connected with crane (54) to drive crane (54) and slide from top to bottom along separation support (52), the bottom at crane (54) is fixed in sucking disc (55), conveyer belt (51) set up the below at sucking disc (55), and during operation, crane (54) drive sucking disc (55) and promote shaping household utensils, separate shaping household utensils and plastic film to place shaping household utensils on conveyer belt (51).

5. The film separator mechanism of a plastic-vessel molding machine as claimed in claim 4, wherein: the lifting frame (54) comprises a gear (541), a rack (542), a guide rail (543), a slider (544) and a sucker frame (545), the gear (541) is connected with an output shaft of the motor (53), the slider (544) is fixed on the separation bracket (52), a sliding groove is formed in the slider (544), the guide rail (543) and the rack (542) are fixed and embedded in the sliding groove in a sliding mode, the rack (542) is meshed with the gear (541), the sucker frame (545) is fixed at the bottom of the rack (542), and a plurality of suckers (55) are uniformly distributed on the sucker frame (545).

6. The film separator mechanism of a plastic-vessel molding machine as claimed in claim 5, wherein: the sucker frame (545) comprises a cross beam (61), a carrier plate (62) and a plurality of carrier strips (63), the sucker (55) comprises a connecting rod (551) and a body (552) fixed at the bottom of the connecting rod (551), the cross beam (61) is fixed at the bottom of the rack (542), the carrier plate (62) is fixed below the cross beam (61), the carrier plate (62) is provided with a first through hole (71) for the connecting rod (551) to pass through, two opposite sides of the first through hole (71) are respectively provided with a first waist-shaped hole (72), the carrier strips (63) are fixed on the carrier plate (62) and arranged across the two first waist-shaped holes (72), the carrier strips (63) are respectively provided with second waist-shaped holes (73) for the connecting rod (551) to pass through, two sides of the second waist-shaped holes (73) in the length direction are provided with second through holes (74), the connecting rod (551) is provided with a clamping plate (553) and a first nut (554), the connecting rod (551) penetrates through the second waist-shaped hole (73), the carrier strip (63) is clamped by the clamping plate (553) and the first nut (554) from two sides, the connecting rod (551) is fixed on the carrier strip (63), the bolt (555) and the second nut (556) penetrate through the first waist-shaped hole (72) and the second through hole (74), the carrier plate (62) and the carrier strip (63) are clamped by the bolt (555) and the second nut (556) from two sides, and the carrier strip (63) is fixed on the carrier plate (62).

7. The film separator mechanism of a plastic-vessel molding machine as claimed in claim 5, wherein: a speed reducer (8) is connected between the motor (53) and the gear (541).