CN219618371U - Efficient forming die for PET bottle - Google Patents

Abstract

The utility model discloses a high-efficiency forming die for PET bottles, which belongs to the technical field of plastic bottle forming and comprises a first mounting plate, wherein a driving support assembly is arranged on the first mounting plate, the first mounting plate is connected with a second mounting plate through the driving support assembly, a forming unloading assembly is arranged on the driving support assembly, an injection molding assembly is arranged on the driving support assembly, a rapid unloading assembly is arranged on the injection molding assembly, an auxiliary translation assembly is arranged on the injection molding assembly, and an automatic material taking assembly is arranged above the injection molding assembly. Through the mode, the rapid unloading assembly and the tailing removing assembly realize the function of automatically propping out materials through the rapid unloading assembly, two groups of driving assemblies are not needed, the use of electrical equipment is saved, the discharging speed is high, the function of cutting off the tailings during material taking is realized through the tailing removing assembly, the processing procedures are saved, and the production efficiency is improved.

Description

Efficient forming die for PET bottle

Technical Field

The utility model relates to the technical field of plastic bottle molding, in particular to a high-efficiency molding die for PET bottles.

Background

The PET plastic bottle is widely applied and is commonly used for packaging in various fields such as food, medicine, chemical industry and the like, and is firstly injection molded into tubular bottle blanks through injection molding equipment during production and processing, then the bottle blanks are blown into required bottle bodies through blow molding equipment, and the bottle blanks need to be heated to be softened before blow molding.

However, after the injection molding equipment is used for injection molding of the bottle blanks, a plurality of groups of driving equipment are generally needed for discharging, the first driving equipment drives the bottle blanks and the mold to integrally move, so that the bottle blanks and the mold are separated from the injection mold, and the mold is driven by the second driving equipment to discharge after the bottle blanks are separated, so that the discharging process is complex, and quick discharging is difficult to realize; in addition, the tail of the bottle embryo can be left after the injection molding of the existing injection mold, and the tail removing device is also required to be arranged independently to remove the tail of the bottle embryo, so that the processing procedure is prolonged.

Based on the above, the utility model designs a high-efficiency forming die for PET bottles to solve the above problems.

Disclosure of Invention

Aiming at the defects existing in the prior art, the utility model provides a high-efficiency forming die for PET bottles.

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

the high-efficiency forming die for the PET bottle comprises a first mounting plate, wherein a driving support assembly is mounted on the first mounting plate, the first mounting plate is connected with a second mounting plate through the driving support assembly, a forming unloading assembly for quickly unloading after injection molding is mounted on the driving support assembly, and the forming unloading assembly comprises an injection molding assembly, a quick unloading assembly and an auxiliary translation assembly;

an injection molding assembly for injection molding is arranged on the driving support assembly;

the injection molding assembly is provided with a rapid unloading assembly for automatically and rapidly unloading materials when the materials are driven to move to a designated position, and the rapid unloading assembly is connected with the driving support assembly;

the injection molding assembly is provided with an auxiliary translation assembly which is used for driving the injection molding assembly to synchronously move and automatically separate when the injection molding assembly is discharged, and the auxiliary translation assembly is connected with the first mounting plate;

an automatic material taking assembly for removing the bottle embryo tails while taking materials automatically is arranged above the injection molding assembly.

Further, the driving support assembly comprises a cylinder and a support rod;

one side fixed mounting of first mounting panel has a plurality of groups bracing piece, the other end fixedly connected with second mounting panel of bracing piece, one side fixedly connected with cylinder of bracing piece is kept away from to first mounting panel, the cylinder is connected with the subassembly of moulding plastics, the bracing piece is connected with the subassembly of moulding plastics.

Further, the injection molding assembly comprises a first mold, a stripper plate and a second mold;

one side fixedly connected with first mould that the second mounting panel is close to first mounting panel, a plurality of groups bracing piece surface sliding connection has the second mould, a plurality of groups bracing piece surface just lie in sliding connection between first mould and the second mould have the stripper, install quick unloading subassembly on the second mould.

Further, the rapid unloading assembly comprises a containing cavity, a jack, a movable plate, a push rod and a fixed rod;

the second mould is inside to be offered and to hold the chamber, a plurality of groups of jacks have been seted up to one side that the stripper was kept away from to the second mould, the jack with hold the chamber intercommunication, one side fixedly connected with a plurality of groups dead lever that the cylinder was kept away from to first mounting panel, the number of dead lever is the same with the jack, position one-to-one about dead lever and the jack, sliding connection has the fly leaf in holding the chamber, one side fixedly connected with a plurality of groups push rod that the jack was kept away from to the fly leaf, push rod and second mould lateral wall sliding connection.

Further, the auxiliary translation assembly comprises a movable clamping assembly and a limiting support assembly, the movable clamping assembly is movably connected with the limiting support assembly, and the limiting support assembly comprises a mounting block, a first trapezoid block and a fixing block;

one side fixedly connected with installation piece of first mounting panel, one side fixedly connected with first trapezoidal piece of installation piece, one side fixedly connected with fixed block of stripper.

Further, the limiting support assembly comprises a mounting plate, a first movable rod, a second movable rod, a limiting rod and a spring;

one side fixedly connected with two sets of installation pieces of second mould, fixedly connected with a plurality of groups gag lever posts between two sets of installation pieces, sliding connection has first movable rod and second movable rod on the gag lever post, the peripheral and be located first movable rod top cover of gag lever post is equipped with the spring, the both ends of spring respectively with first movable rod and installation piece fixed connection, the peripheral and be located second movable rod bottom cover of gag lever post is equipped with the spring, the both ends of spring respectively with second movable rod and installation piece fixed connection, first movable rod is located the fixed block top, the second movable rod is located the fixed block below, the tip of first movable rod and second movable rod all is equipped with the inclined plane, the one end that first movable rod and second movable rod are close to the fixed block is equipped with the tooth.

Further, the automatic material taking assembly comprises a material taking sucker and a tail material removing assembly;

the material taking sucker is provided with a tailing removing assembly, the material taking sucker is fixedly connected with an external manipulator, the external manipulator has the functions of moving horizontally and vertically, and the external manipulator also has the function of driving the material taking sucker to overturn.

Further, the tailing removing assembly comprises a second trapezoid block, a mounting groove and a cutter;

the material taking sucker bottom is fixedly connected with a plurality of groups of second trapezoidal blocks, mounting grooves are formed in the plurality of groups of second trapezoidal blocks, cutters are fixedly connected to two sides of the inner wall of each mounting groove, and inclined planes are formed in the bottoms of the second trapezoidal blocks.

Advantageous effects

The quick discharging component and the tailing removing component are arranged, after the bottle blank is subjected to injection molding, the supporting component is driven to operate to drive the injection molding component to operate, the injection molding component is synchronously moved through the auxiliary translation component when the injection molding component operates, the auxiliary translation component releases the synchronous operation of the injection molding component when the injection molding component moves to a specified position, at the moment, the quick discharging component contacts with the injection molding component to push out materials on the injection molding component, the function of automatically pushing out the materials is realized in the moving process of the injection molding component, two groups of driving components are not needed, the use of electrical equipment is saved, the discharging speed is higher, and the function of quick discharging is realized;

when the material is ejected, outside manipulator drives and gets the material sucking disc down movement, gets the material sucking disc down movement and drives the downward movement of second trapezoidal piece, promotes the material to the coplanar through the inclined plane when second trapezoidal piece and material contact, and the unnecessary heel of material afterbody just is in the mounting groove when second trapezoidal piece continues the downward movement, and the rethread cutter is resected the heel, has realized getting the material with the function of heel excision when getting the material, has saved processing procedure, has improved production efficiency.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present utility model and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a perspective view of a main body structure of a high-efficiency molding die of a PET bottle of the utility model;

FIG. 2 is a front view of the structure of the efficient forming mold of the PET bottle of the utility model;

FIG. 3 is a left side view of the structure of the efficient forming mold of the PET bottle of the present utility model;

fig. 4 is a perspective view of a main body structure of a high-efficiency molding die of the PET bottle of the present utility model;

FIG. 5 is a cross-sectional view taken along the direction A-A of FIG. 3;

FIG. 6 is an enlarged view at B in FIG. 4;

fig. 7 is an enlarged view at C in fig. 4.

Reference numerals in the drawings represent respectively:

1. first mounting plate 2, second mounting plate 3, drive support assembly 31, cylinder 32, support rod 4, molded discharge assembly 41, injection molding assembly 411, first mold 412, stripper plate 413, second mold 42, quick discharge assembly 421, receiving cavity 422, receptacle 423, movable plate 424, pushrod 43, auxiliary translation assembly 431, mounting block 432, first trapezoidal block 433, fixed block 434, mounting tab 435, first movable rod 436, second movable rod 437, stop lever 438, spring 5, automatic take-off assembly 51, take-off suction cup 52, tail removal assembly 521, second trapezoidal block 522, mounting slot 523, and cutter.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present utility model more clear, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. It will be apparent that the described embodiments are some, but not all, embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

The utility model is further described below with reference to examples.

Example 1

Referring to fig. 1-7 of the specification, a high-efficiency forming die for a pet bottle comprises a first mounting plate 1, wherein a driving support assembly 3 is mounted on the first mounting plate 1, the first mounting plate 1 is connected with a second mounting plate 2 through the driving support assembly 3, a forming unloading assembly 4 for quickly unloading after injection molding is mounted on the driving support assembly 3, and the forming unloading assembly 4 comprises an injection molding assembly 41, a quick unloading assembly 42 and an auxiliary translation assembly 43;

the driving support assembly 3 is provided with an injection molding assembly 41 for injection molding;

the injection molding assembly 41 is provided with a rapid unloading assembly 42 for automatically and rapidly unloading materials when the materials are driven to move to a designated position, and the rapid unloading assembly 42 is connected with the driving support assembly 3;

the injection molding assembly 41 is provided with an auxiliary translation assembly 43 which is used for driving the injection molding assembly 41 to synchronously move and automatically separate when the injection molding assembly is discharged, and the auxiliary translation assembly 43 is connected with the first mounting plate 1;

above the injection molding assembly 41 is mounted an automatic take out assembly 5 for removing the bottle embryo tailings while automatically taking out.

After the bottle embryo injection molding, the driving support component 3 operates to drive the injection molding component 41 to operate, the injection molding component 41 synchronously moves through the auxiliary translation component 43 during operation of the injection molding component 41, the auxiliary translation component 43 releases the synchronous operation of the injection molding component 41 when the injection molding component 41 moves to a specified position, the quick unloading component 42 contacts with the injection molding component 41 to push out materials on the injection molding component 41, the function of pushing out the materials automatically is realized during the movement of the injection molding component 41, multiple groups of driving components are not needed, the use of electrical equipment is saved, the discharging speed is higher, the function of quick discharging is realized, the automatic taking component 5 starts to operate after the materials are ejected, the automatic taking component 5 cuts off tails at the tail parts of the materials during the operation in the vertical direction, the tail materials are cut off during taking, other equipment is not needed to be used subsequently, and the processing procedure is saved.

The driving support assembly 3 includes a cylinder 31 and a support rod 32;

one side of the first mounting plate 1 is fixedly provided with a plurality of groups of support rods 32, the other end of the support rods 32 is fixedly connected with the second mounting plate 2, one side of the first mounting plate 1 far away from the support rods 32 is fixedly connected with an air cylinder 31, the air cylinder 31 is connected with an injection molding assembly 41, and the support rods 32 are connected with the injection molding assembly 41.

The injection molding assembly 41 includes a first mold 411, a stripper plate 412, and a second mold 413;

one side of the second mounting plate 2, which is close to the first mounting plate 1, is fixedly connected with a first die 411, the surfaces of a plurality of groups of support rods 32 are slidably connected with a second die 413, the outer surfaces of a plurality of groups of support rods 32 are slidably connected with a stripper plate 412 between the first die 411 and the second die 413, and a quick unloading assembly 42 is mounted on the second die 413.

When the cylinder 31 operates to drive the second mold 413 to horizontally move on the support rod 32 after injection molding of the bottle blank, the second mold 413 drives the stripper plate 412 to synchronously move through the auxiliary translation assembly 43, the cylinder 31 drives the stripper plate 412 to be separated from the first mold 411 through the second mold 413, when the second mold 413 moves to a designated position, the auxiliary translation assembly 43 does not drive the stripper plate 412 to synchronously move with the second mold 413, at the moment, the quick stripper assembly 42 stops the stripper plate 412, and the second mold 413 continues to move, so that the bottle blank is ejected, the function of quickly ejecting the bottle blank is realized, only one group of driving structures are needed, and the use of electrical equipment is saved.

The quick-discharge assembly 42 includes a receiving chamber 421, a receptacle 422, a movable plate 423, a pusher 424, and a stationary rod 425;

the second mould 413 is inside to be offered and to hold the chamber 421, a plurality of groups of jacks 422 have been seted up to the one side that the stripper 412 was kept away from to the second mould 413, jack 422 and hold the chamber 421 intercommunication, one side fixedly connected with a plurality of groups of dead levers 425 that the cylinder 31 was kept away from to first mounting panel 1, the number of dead levers 425 is the same with jack 422, the position one-to-one about dead lever 425 and jack 422 holds chamber 421 sliding connection has fly leaf 423, one side fixedly connected with a plurality of groups of push rods 424 that the fly leaf 423 kept away from jack 422, push rod 424 and second mould 413 lateral wall sliding connection.

When the second mold 413 moves to a designated position, the fixed rod 425 is inserted into the insertion hole 422 to contact with the movable plate 423, and when the second mold 413 continues to move leftwards, the fixed rod 425 butts against the movable plate 423, the movable plate 423 and the second mold 413 perform relative movement, and the movable plate 423 butts against the stripper plate 412, so that the stripper plate 412 is separated from the second mold 413, and the stripper plate 412 ejects the material on the second mold 413, thereby realizing the function of rapidly ejecting the material.

The auxiliary translation assembly 43 comprises a movable clamping assembly and a limiting support assembly, the movable clamping assembly is movably connected with the limiting support assembly, and the limiting support assembly comprises a mounting block 431, a first trapezoid block 432 and a fixed block 433;

one side of the first mounting plate 1 is fixedly connected with a mounting block 431, one side of the mounting block 431 is fixedly connected with a first trapezoid block 432, and one side of the unloading plate 412 is fixedly connected with a fixing block 433.

The limit support assembly includes a mounting tab 434, a first movable bar 435, a second movable bar 436, a limit bar 437, and a spring 438;

one side fixedly connected with two sets of mounting pieces 434 of second mould 413, fixedly connected with a plurality of sets of gag lever posts 437 between the two sets of mounting pieces 434, sliding connection has first movable pole 435 and second movable pole 436 on the gag lever post 437, the periphery of gag lever post 437 just is located first movable pole 435 top cover and is equipped with spring 438, the both ends of spring 438 respectively with first movable pole 435 and mounting piece 434 fixed connection, the periphery of gag lever post 437 just is located second movable pole 436 bottom cover and is equipped with spring 438, the both ends of spring 438 respectively with second movable pole 436 and mounting piece 434 fixed connection, first movable pole 435 is located the fixed block 433 top, second movable pole 436 is located the fixed block 433 below, the tip of first movable pole 435 and second movable pole 436 all is equipped with the inclined plane, the one end that first movable pole 435 and second movable pole 436 are close to the fixed block 433 is equipped with the tooth.

When the second mold 413 moves transversely, the teeth of the first movable rod 435 and the second movable rod 436 are clamped on the fixed block 433, the first movable rod 435 and the second movable rod 436 are connected through the spring 438, the second mold 413 drives the fixed block 433 to move through the first movable rod 435 and the second movable rod 436, the fixed block 433 drives the stripper plate 412 to move, the stripper plate 412 is driven to move synchronously when the second mold 413 is separated from the first mold 411, when the second mold 413 moves to one side of the first trapezoid block 432, the inclined surface of the first trapezoid block 432 supports the first movable rod 435 to move upwards and compress the spring 438, the inclined surface of the first trapezoid block 432 supports the second movable rod 436 to move downwards and compress the spring 438, and when the first movable rod 435 and the second movable rod 436 are separated from the fixed block 433, the quick stripper assembly 42 is abutted against the stripper plate 412 to perform unloading, so that the stripper plate 412 and the second mold 413 move synchronously, and the unloading is performed when the second mold 413 moves to a designated position.

The automatic material taking assembly 5 comprises a material taking sucker 51 and a tailing removing assembly 52;

the material taking sucker 51 is provided with a tailing removing assembly 52, the material taking sucker 51 is fixedly connected with an external manipulator, the external manipulator has the function of moving horizontally and vertically, and the external manipulator also has the function of driving the material taking sucker 51 to overturn.

When the material is ejected, the external manipulator drives the material taking sucker 51 to move downwards, the material taking sucker 51 drives the tail material removing component 52 to move downwards, the redundant tail material at the tail part of the material is removed by the tail material removing component 52 in the process of moving downwards, the function of removing the tail material in the material taking process is realized, and the external manipulator is of the prior art and is not described in excessive detail.

The tail stock removal assembly 52 includes a second trapezoidal block 521, a mounting slot 522, and a cutter 523;

the bottom of the material taking sucker 51 is fixedly connected with a plurality of groups of second trapezoidal blocks 521, the plurality of groups of second trapezoidal blocks 521 are provided with mounting grooves 522, two sides of the inner wall of each mounting groove 522 are fixedly connected with cutters 523, and the bottom of each second trapezoidal block 521 is provided with an inclined plane.

When the material is ejected, the external manipulator drives the material taking sucker 51 to move downwards, the material taking sucker 51 moves downwards to drive the second trapezoid block 521 to move downwards, the material is pushed to the same position through the inclined plane when the second trapezoid block 521 is contacted with the material, redundant tails at the tail of the material are just in the mounting groove 522 when the second trapezoid block 521 continues to move downwards, and the tails are cut through the cutter 523, so that the function of cutting the tails when taking the material is realized, the processing procedure is saved, and the production efficiency is improved.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model.

Claims (8)

1. High-efficient forming die of PET bottle, including first mounting panel (1), its characterized in that: the device is characterized in that a driving support assembly (3) is arranged on the first mounting plate (1), the first mounting plate (1) is connected with the second mounting plate (2) through the driving support assembly (3), a forming unloading assembly (4) for quickly unloading after injection molding is arranged on the driving support assembly (3), and the forming unloading assembly (4) comprises an injection molding assembly (41), a quick unloading assembly (42) and an auxiliary translation assembly (43);

   an injection molding assembly (41) for injection molding is arranged on the driving support assembly (3);

   the injection molding assembly (41) is provided with a rapid unloading assembly (42) for automatically and rapidly unloading materials when the materials are driven to move to a designated position, and the rapid unloading assembly (42) is connected with the driving support assembly (3);

   an auxiliary translation assembly (43) used for driving the injection molding assembly (41) to synchronously move and automatically separate when the injection molding assembly (41) is discharged is arranged on the injection molding assembly (41), and the auxiliary translation assembly (43) is connected with the first mounting plate (1);

   an automatic material taking assembly (5) for removing the bottle embryo tails while taking materials automatically is arranged above the injection molding assembly (41).
2. 2. The efficient molding die of the PET bottle according to claim 1, wherein the driving support assembly (3) comprises a cylinder (31) and a support rod (32);

   one side fixed mounting of first mounting panel (1) has a plurality of groups bracing piece (32), the other end fixedly connected with second mounting panel (2) of bracing piece (32), one side fixedly connected with cylinder (31) of bracing piece (32) are kept away from to first mounting panel (1), cylinder (31) are connected with subassembly (41) of moulding plastics, bracing piece (32) are connected with subassembly (41) of moulding plastics.
3. 3. The efficient molding die of PET bottles according to claim 2, wherein the injection molding assembly (41) comprises a first die (411), a stripper plate (412) and a second die (413);

   one side that second mounting panel (2) is close to first mounting panel (1) fixedly connected with first mould (411), a plurality of groups bracing piece (32) surface sliding connection has second mould (413), a plurality of groups bracing piece (32) surface just lie in between first mould (411) and second mould (413) sliding connection have stripper (412), install quick unloading subassembly (42) on second mould (413).
4. 4. A high-efficiency molding die for PET bottles as claimed in claim 3 wherein said quick-discharge assembly (42) comprises a containing cavity (421), a jack (422), a movable plate (423), a push rod (424) and a fixed rod (425);

   the utility model discloses a novel plastic material storage device, including cylinder (31) and second mould (413), hold chamber (421) has been seted up to inside second mould (413), a plurality of groups jack (422) have been seted up to one side that stripper (412) was kept away from to second mould (413), jack (422) communicate with holding chamber (421), one side fixedly connected with a plurality of groups dead lever (425) that cylinder (31) was kept away from to first mounting panel (1), the number of dead lever (425) is the same with jack (422), position one-to-one about dead lever (425) and jack (422), it has fly leaf (423) to hold in chamber (421), one side fixedly connected with a plurality of groups push rod (424) that jack (422) were kept away from to fly leaf (423), push rod (424) and second mould (413) lateral wall sliding connection.
5. 5. A high-efficiency molding die for PET bottles as claimed in claim 3 wherein said auxiliary translation assembly (43) comprises a mobile snap assembly and a limit support assembly, said mobile snap assembly being movably connected to said limit support assembly, said limit support assembly comprising a mounting block (431), a first trapezoidal block (432) and a fixed block (433);

   one side fixedly connected with installation piece (431) of first mounting panel (1), one side fixedly connected with first trapezoidal piece (432) of installation piece (431), one side fixedly connected with fixed block (433) of stripper plate (412).
6. 6. The efficient molding die of PET bottles as claimed in claim 5 wherein said limit support assembly comprises a mounting tab (434), a first movable bar (435), a second movable bar (436), a limit bar (437) and a spring (438);

   two sets of mounting plates (434) of one side fixedly connected with of second mould (413), fixedly connected with a plurality of sets of gag lever posts (437) between two sets of mounting plates (434), sliding connection has first movable rod (435) and second movable rod (436) on gag lever post (437), gag lever post (437) is peripheral and lie in first movable rod (435) top cover and be equipped with spring (438), the both ends of spring (438) respectively with first movable rod (435) and mounting plate (434) fixed connection, the both ends of gag lever post (437) are peripheral and lie in second movable rod (436) bottom cover and are equipped with spring (438), the both ends of spring (438) respectively with second movable rod (436) and mounting plate (434) fixed connection, first movable rod (435) are located fixed block (433) top, second movable rod (436) are located fixed block (433) below, the tip of first movable rod (435) and second movable rod (436) all is equipped with inclined plane, first movable rod (433) and second movable rod (436) are equipped with tooth (433) one end that is close to fixed tooth.
7. 7. The efficient forming die of PET bottles according to claim 1, characterized in that said automatic material taking assembly (5) comprises a material taking suction cup (51) and a tailing removing assembly (52);

   the material taking sucker (51) is provided with a tail material removing assembly (52), the material taking sucker (51) is fixedly connected with an external manipulator, the external manipulator has the functions of moving horizontally and vertically, and the material taking sucker (51) is driven to overturn.
8. 8. The efficient molding die of PET bottles as claimed in claim 7 wherein said tail removal assembly (52) comprises a second trapezoidal block (521), a mounting slot (522) and a cutter (523);

   the material taking sucker (51) is characterized in that a plurality of groups of second trapezoid blocks (521) are fixedly connected to the bottom of the material taking sucker, mounting grooves (522) are formed in the plurality of groups of second trapezoid blocks (521), cutters (523) are fixedly connected to two sides of the inner wall of each mounting groove (522), and inclined planes are formed in the bottoms of the second trapezoid blocks (521).