CN115816711B

CN115816711B - Feeding device for plastic packaging container production

Info

Publication number: CN115816711B
Application number: CN202310109116.8A
Authority: CN
Inventors: 罗锋; 叶水勇; 梁清
Original assignee: Shantou Longhu Newwave Plastic Packing Co ltd
Current assignee: Shantou Longhu Newwave Plastic Packing Co ltd
Priority date: 2023-02-14
Filing date: 2023-02-14
Publication date: 2023-04-28
Anticipated expiration: 2043-02-14
Also published as: CN115816711A

Abstract

The invention discloses a feeding device for producing plastic packaging containers, which comprises a base; the circular array on the base is provided with a plurality of square tubes; the base is provided with a color conversion mechanism; the setting of colour change mechanism can take out the intraductal raw materials of depositing of side through promoting the case, and store in the storage case, then utilize first motor drive to promote case and storage case and rotate to in the intraductal to another side to can make the raw materials of storing different colour distributions of storage case, send into predetermined side in the intraductal raw materials of storage through promoting the case, change the colour distribution of intraductal raw materials of side, thereby can adjust the colour of packaging container after the preparation is accomplished as required.

Description

Feeding device for plastic packaging container production

Technical Field

The invention belongs to the technical field of plastic packaging container production, and particularly relates to a feeding device for plastic packaging container production.

Background

The plastic packaging container is produced with plastic as material and through compounding, heating, container preforming, blow molding and other technological processes.

In the material preparing stage, raw materials are processed by a feeding device generally, CN114619596B discloses a dust-free feeding device for producing polyethylene plastic packaging bags, in order to produce packaging containers with different color levels and distribution colors, raw materials with various colors are purchased, the colors of the raw materials in the purchased raw material bags are generally the same color, and after various different raw materials are sent into the feeding device, the feeding device cannot change the color distribution of the raw materials, so that the colors of the packaging containers after the production can not be adjusted according to the needs.

Disclosure of Invention

In view of the above, the present invention aims to provide a feeding device for producing plastic packaging containers, which solves the technical problem that the feeding device in the prior art cannot change the color distribution of raw materials, so that the color of the packaging container after the production cannot be adjusted according to the need.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the invention provides a feeding device for producing plastic packaging containers, which comprises a base; the circular array on the base is provided with a plurality of square tubes; the two side walls of each square tube are provided with strip-shaped grooves along the radial direction of the base; two folding plates are slidably arranged in the strip-shaped groove through a moving mechanism; a replacement hole is formed between two folding plates in the same strip-shaped groove; the replacement holes face the same direction of the base; the base is provided with a color conversion mechanism; the color conversion mechanism comprises a first motor arranged on the base; a plurality of driving frames which are arranged between two adjacent square tubes at intervals are arranged on the power end of the first motor; each driving frame is connected with an arc inner ring and an arc outer ring which are coaxial with the base; the square tube is positioned between the arc inner ring and the arc outer ring; a pushing box communicated with the replacement hole in the direction close to the base is arranged between the two adjacent arc inner rings; a pushing block is connected in the pushing box in a sliding way through a first cylinder; a storage box communicated with a replacement hole in the direction far away from the base is arranged between two adjacent arc outer rings; a partition board is arranged in the storage box; the partition board is in clearance with the inner wall of the storage box; a baffle is rotatably connected to one side wall of the baffle; the storage box is connected with a replacement plate in a sliding way through a spring; a release mechanism for pulling the displacement plate to move is arranged in the storage box; the pushing box and the storage box are positioned on the same horizontal line.

Further, an accommodating groove communicated with the replacement hole is formed in the pushing block; a color level balancing mechanism is arranged in the accommodating groove; the color level balancing mechanism comprises a second cylinder arranged in the accommodating groove; a second motor is coaxially arranged on the telescopic shaft of the second cylinder; a slotted pole is arranged at the power end of the second motor; a cutting disc is rotationally connected in the grooved column; the side wall of the accommodating groove is rotationally connected with a positioning plate through a rotating shaft; a limiting cover is connected to the side wall of the positioning plate, which is close to the second cylinder direction; a cleaning groove is formed in the side wall, close to the cutting disc, of each limiting cover; a plurality of polishing columns are rotationally connected between the side walls of the cleaning groove.

Further, the release mechanism comprises a second motor arranged in the storage box; the second motor is positioned in the space at the other side of the partition board; the power end of the second motor is provided with a driving wheel; the side wall of the gap is rotationally connected with a winding wheel; the driving wheel is wound with a steel rope; the steel rope is connected to the displacement plate through a winding wheel.

Further, a charging barrel is arranged on each square tube; an anti-blocking mechanism is arranged in the charging barrel; the anti-blocking mechanism comprises a rotating shaft coaxially and rotatably arranged in the charging barrel; a plurality of anti-blocking plates are arranged on the periphery of the rotating shaft; a square hole communicated with the square tube is formed in the charging barrel; the rotating shaft far away from the direction of the square hole is connected with an anti-blocking bowl through a third cylinder; the feeding cylinder is communicated with a feeding pipe with a size smaller than that of the anti-blocking bowl.

Further, the moving mechanism comprises a telescopic groove which is arranged on the side wall of the pushing box and the storage box, which is close to the square tube direction; a telescopic plate which can be clamped on the folding plate is connected in the telescopic groove in a sliding way through a fourth air cylinder; a fifth cylinder is arranged between the base and the first motor.

Further, a plurality of guide pipes communicated with the corresponding square pipes are arranged in the base.

The invention has the beneficial effects that:

1. the setting of colour change mechanism can take out the intraductal raw materials of depositing of side through promoting the case, and store in the storage case, then utilize first motor drive to promote case and storage case and rotate to in the intraductal to another side to can make the raw materials of storing different colour distributions of storage case, send into predetermined side in the intraductal raw materials of storage through promoting the case, change the colour distribution of intraductal raw materials of side, thereby can adjust the colour of packaging container after the preparation is accomplished as required.

2. The setting of the color level balancing mechanism can cut two raw materials adhered together, the second motor is controlled to rotate in a matched mode, the cutting plate is changed into a vertical state from a horizontal state, the rotating shaft is controlled to rotate, the cutting disc is controlled to rotate, the polishing column drives the raw materials to rotate, and accordingly the part, which is not cut clean, of the raw materials is cut by the cutting disc again, redundant materials on the raw materials are cut off, and therefore the color of a packaging container after subsequent production meets customer requirements

3. The anti-blocking bowl is fed with raw materials through the feeding pipe, the rotating shaft drives the anti-blocking bowl to rotate, the raw materials are thrown out under the action of centrifugal force and then reach the space between the anti-blocking plates, gaps between the five anti-blocking plates just contain a row of raw materials, the anti-blocking plates are driven to rotate through rotation, and accordingly the raw materials are transported into the square pipe through square holes in a row, and raw materials can be prevented from being blocked together.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention. The objects and other advantages of the invention may be realized and obtained by means of the instrumentalities and combinations particularly pointed out in the specification.

Drawings

In order to make the objects, technical solutions and advantageous effects of the present invention more clear, the present invention provides the following drawings for description:

FIG. 1 is a three-dimensional view of a charging device of the present invention;

FIG. 2 is a three-dimensional view of the color conversion mechanism of the present invention;

FIG. 3 is a three-dimensional view of the internal structure of the push box of the present invention;

FIG. 4 is a three-dimensional view of the internal structure of the storage box of the present invention;

FIG. 5 is another perspective three-dimensional view of the storage bin of the present invention;

FIG. 6 is a three-dimensional view of the internal structure of the pusher block of the present invention;

FIG. 7 is a three-dimensional view of the internal structure of the feed cartridge of the present invention;

FIG. 8 is a schematic diagram of an application of the present invention.

The figures are marked as follows: the device comprises a base 1, a first motor 2, a square tube 3, a first replacement hole 4, a second replacement hole 5, a driving frame 6, an arc inner ring 7, an arc outer ring 8, a pushing box 9, a pushing block 10, a storage box 11, a partition plate 12, a rotating shaft 13, a baffle 14, a replacement plate 15, a containing groove 16, a second cylinder 17, a grooving column 18, a cutting disc 19, a rotating shaft 20, a positioning plate 21, a limiting cover 22, a grinding column 23, a second motor 24, a driving wheel 25, a winding wheel 26, a steel rope 27, a charging barrel 28, an anti-blocking plate 29, a square hole 30, a third cylinder 31, an anti-blocking bowl 32, a charging pipe 33, a folding plate 34, a telescopic plate 35, a guide pipe 36 and a raw material 37.

Description of the embodiments

As shown in fig. 1 to 8, the invention provides a feeding device for producing plastic packaging containers, which comprises a base 1; three square tubes 3 are arranged on the base 1 in a circular array; the side wall of each square tube 3, which is close to the axis direction of the base 1, is vertically provided with a first strip-shaped groove, and the side wall of each square tube 3, which is far away from the base 1, is vertically provided with a second strip-shaped groove; the first strip-shaped groove is connected with two folding plates 34 which are distributed up and down in a sliding way through a moving mechanism, and the second strip-shaped groove is also connected with two folding plates 34 which are distributed up and down in a sliding way through the moving mechanism; a first replacement hole 4 is formed between the two folding plates 34 in the first strip-shaped groove; a second replacement hole 5 is formed between the two folding plates 34 in the second strip-shaped groove; the first replacement hole 4 and the second replacement hole 5 are both oriented in the axial direction of the base 1; the base 1 is provided with a color conversion mechanism; the color conversion mechanism comprises a first motor 2 arranged on a base 1; three driving frames 6 which are arranged between two adjacent square tubes 3 at intervals are arranged on the power end of the first motor 2; each driving frame 6 is connected with an arc inner ring 7 and an arc outer ring 8 which are coaxial with the base 1; the square tube 3 is positioned between the arc inner ring 7 and the arc outer ring 8; as shown in fig. 3, a pushing box 9 communicated with the first replacement hole 4 is arranged between two adjacent arc inner rings 7; a pushing block 10 is slidably connected in the pushing box 9 through a first cylinder (not labeled in the figure); as shown in fig. 2, a storage box 11 communicated with the second replacement holes 5 is arranged between two adjacent arc outer rings 8; as shown in fig. 4 and 5, a partition plate 12 is provided in the storage box 11; one end of the partition plate 12 away from the direction of the second replacement hole 5 is provided with a gap with the inner wall of the storage box 11; a baffle 14 is rotatably connected to one side wall of the partition plate 12 through a rotatable rotation shaft 13; a replacement plate 15 is connected in the storage box 11 in a sliding way through a spring; a release mechanism for pulling the displacement plate 15 to move is arranged in the storage box 11; the width of the square tube 3 is matched with the raw material 37, so that the raw material 37 in the square tube 3 is distributed in a single row; the push box 9 and the storage box 11 are positioned on the same horizontal line.

The principle and beneficial effect of the technical scheme are that:

as shown in fig. 8, three kinds of raw materials 37 of different colors are added to the square tube 3, the raw materials 37 are distributed in a row in the vertical direction, and when the color distribution of the raw materials 37 in the three square tubes 3 needs to be changed. As shown in fig. 3-5, the telescopic shaft of the first cylinder is controlled to move, so that the pushing block 10 pushes the raw material 37 in the square tube 3 to the storage box 11, the rotating shaft 13 is controlled to rotate, the baffle 14 gives up a channel for the raw material 37, the raw material 37 enters the storage box 11, each time the raw material 37 enters the storage box 11, the release mechanism drives the displacement plate 15 to compress the spring to move, the storage space of the raw material 37 is reserved, after the preset raw material 37 is stored, the rotating shaft 13 drives the baffle 14 to block the inlet of the storage box 11, and the first cylinder drives the pushing block 10 to retract into the pushing box 9; after the raw materials 37 are stored in the storage boxes 11 corresponding to each square tube 3, the first motor 2 is utilized to drive the driving frame 6 to rotate, so that the positions of the storage boxes 11 carrying the raw materials 37 with different colors are changed, and the storage boxes 11 and the pushing boxes 9 are transferred to other square tubes 3; changing the communication position of the storage tank 11 and the second replacement hole 5 by a moving mechanism so that the storage tank 11 is facing the gap between the two raw materials 37; then the pulling force on the replacement plate 15 is relieved by utilizing a release mechanism, the replacement plate 15 pushes the raw materials 37 to enter the square tube 3 under the action of a spring, the raw materials 37 in the storage box 11 are extruded into the raw materials 37 in the square tube 3 from a gap, and the distribution transformation of the colors of the raw materials 37 is realized; during the rotation process, the arc inner ring 7 and the arc outer ring 8 block the first replacement hole 4 and the second replacement hole 5 respectively, so as to avoid exposing the raw material 37 in the square tube 3.

The pushing box 9 and the storage box 11 are matched with each other, raw materials 37 stored in the square tube 3 can be taken out, then the pushing box 9 and the storage box 11 are driven by the first motor 2 to rotate into the other square tube 3, so that raw materials 37 with different color distributions can be stored in the storage box 11, the raw materials 37 in the storage box 11 are sent into the preset square tube 3 through the pushing box 9, the color distribution of the raw materials 37 in the square tube 3 is changed, and the color of the manufactured packaging container can be adjusted as required.

In this embodiment, as shown in fig. 6, the pushing block 10 is provided with a receiving groove 16 communicating with the first replacement hole 4; a tone equalization mechanism is arranged in the accommodating groove 16; the tone balance mechanism comprises a second cylinder 17 arranged in the accommodating groove 16; a second motor 24 is coaxially arranged on the telescopic shaft of the second cylinder 17; a slotted post 18 with slots is coaxially arranged on the power end of the second motor 24; a cutting disc 19 is rotationally connected with the groove; a positioning plate 21 is rotatably connected to the side wall of the accommodating groove 16 through a rotating shaft 20; a limiting cover 22 is connected to the side wall of the positioning plate 21, which is close to the direction of the second cylinder 17; a cleaning groove (not labeled in the figure) is formed in the side wall of each limiting cover 22, which is close to the cutting disc 19; a plurality of polishing columns 23 are connected between the side walls of the cleaning groove through a rotatable rotating shaft.

The principle and beneficial effect of the technical scheme are that:

as shown in fig. 8, when raw materials 37 are purchased, adhesion of the raw materials 37 is unavoidable, and after the raw materials are adhered together, excessive materials are generated, so that color distribution of a produced packaging container does not meet customer requirements, in order to solve the problem, a pushing box 9 is opposite to adhesion positions of the two raw materials 37 through a moving mechanism, meanwhile, the pushing box 9 is communicated with a first replacement hole 4, a storage box 11 is communicated with a second replacement hole 5, a rotating shaft 20 is utilized to drive a positioning plate 21 to rotate, a first cylinder is controlled to drive a pushing block 10 to move, two limiting covers 22 respectively cover the two raw materials 37 adhered together, a second cylinder 17 is controlled to drive a cutting disc 19 to cut adhesion positions of the two raw materials 37, so that the two raw materials 37 adhered together are cut, then a second motor 24 is controlled to rotate, the cutting plate is changed into a vertical state from a horizontal state, a rotating shaft is controlled to rotate, and a grinding column 23 drives the raw materials 37 to rotate, so that the un-cut parts of the raw materials 37 are cut by the cutting disc 19 again, and the excessive materials on the raw materials 37 are cut off, so that color requirements of the produced packaging container are met for customers.

In this embodiment, as shown in fig. 4 and 5, the release mechanism includes a second motor 24 provided in the storage box 11; the second motor 24 is positioned in the space on the other side of the partition board 12; the power end of the second motor 24 is provided with a driving wheel 25; the side wall of the gap is rotatably connected with a winding wheel 26; the driving wheel 25 is wound with a steel rope 27; the steel cord 27 is connected to the displacement plate 15 by means of a winding wheel 26.

The principle and beneficial effect of the technical scheme are that:

when the raw materials 37 are required to be stored in the storage box 11, the second motor 24 is controlled to drive the driving wheel 25 to wind the steel rope 27, and the steel rope 27 drives the replacement plate 15 to move through the winding wheel 26, so that a space is reserved for the raw materials 37; when it is desired to feed the stock 37 out of the bin 11, the shutter 14 is opened and the second motor 24 is reversed, causing the drive wheel 25 to unwind the steel cord 27 and the displacement plate 15 to push the stock 37 out of the bin 11 under the action of the spring.

In this embodiment, as shown in fig. 1 and 7, a charging barrel 28 is provided on each square tube 3; an anti-blocking mechanism is arranged in the charging barrel 28; the anti-blocking mechanism comprises a rotating shaft coaxially and rotatably arranged in the charging barrel 28; five anti-blocking plates 29 are arranged on the periphery of the rotating shaft; a square hole 30 communicated with the square tube 3 is formed in the charging barrel 28; the rotating shaft far away from the direction of the square hole 30 is connected with an anti-blocking bowl 32 through a third cylinder 31; the charging barrel 28 is communicated with a charging pipe 33 with a size smaller than that of the anti-blocking bowl 32.

The principle and beneficial effect of the technical scheme are that:

raw materials 37 are sent into anti-blocking bowl 32 through pan feeding pipe 33, and the pivot drives anti-blocking bowl 32 and rotates, and raw materials 37 is thrown away under the effect of centrifugal force, then reaches in the space between the anti-blocking plate 29, and the clearance between five anti-blocking plates 29 just holds a row of raw materials 37, drives anti-blocking plate 29 through rotating to transport raw materials 37 in square pipe 3 through square hole 30 in a row, can avoid raw materials 37 to block up together.

In this embodiment, as shown in fig. 4, the moving mechanism includes expansion slots (not shown) respectively formed in the pushing box 9 and the storage box 11 in a direction approaching the square tube 3; a telescopic plate 35 which can be clamped on the folding plate 34 is connected in the telescopic groove in a sliding way through a fourth air cylinder (not shown in the figure); a fifth cylinder (not shown in the figure) is arranged between the base 1 and the first motor 2; the first motor 2 is coaxially connected with the telescopic shaft of the fifth cylinder.

The principle and beneficial effect of the technical scheme are that:

when the heights of the first replacement hole 4 and the second replacement hole 5 need to be changed, the fourth air cylinder is used for driving the telescopic plates 35 to extend, so that the upper telescopic plates 35 and the lower telescopic plates 35 clamp the corresponding two folding plates 34, the fifth air cylinder is used for driving the driving frame 6 to move up and down, the pushing box 9 and the storage box 11 synchronously move up and down, and the telescopic plates 35 are used for driving the folding plates 34 to move up and down, so that the heights of the first replacement hole 4 and the second replacement hole 5 are changed; the fourth cylinder drives the expansion plate 35 to retract into the expansion groove, the first motor 2 is controlled to rotate, and the storage box 11 is used for color conversion.

In this embodiment, as shown in fig. 1, three guide pipes 36 are provided in the base 1, and the lower end of each square pipe 3 communicates with one end of the corresponding guide pipe 36 located in the base 1.

The principle and beneficial effect of the technical scheme are that:

the converted raw material 37 enters a subsequent process through a guide pipe 36 for manufacturing the packaging container; the provision of three guide tubes 36 enables the production of packaging containers of three different color distributions simultaneously.

Finally, it is noted that the above-mentioned preferred embodiments are only intended to illustrate rather than limit the invention, and that, although the invention has been described in detail by means of the above-mentioned preferred embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the invention as defined by the appended claims.

Claims

1. A feeding device for plastic packaging container production, characterized in that: comprises a base; the circular array on the base is provided with a plurality of square tubes; the two side walls of each square tube are provided with strip-shaped grooves along the radial direction of the base; two folding plates are slidably arranged in the strip-shaped groove through a moving mechanism; a replacement hole is formed between two folding plates in the same strip-shaped groove; the replacement holes face the same direction of the base; the base is provided with a color conversion mechanism; the color conversion mechanism comprises a first motor arranged on the base; a plurality of driving frames which are arranged between two adjacent square tubes at intervals are arranged on the power end of the first motor; each driving frame is connected with an arc inner ring and an arc outer ring which are coaxial with the base; the square tube is positioned between the arc inner ring and the arc outer ring; a pushing box communicated with the replacement hole in the direction close to the base is arranged between the two adjacent arc inner rings; a pushing block is connected in the pushing box in a sliding way through a first cylinder; a storage box communicated with a replacement hole in the direction far away from the base is arranged between two adjacent arc outer rings; a partition board is arranged in the storage box; the partition board is in clearance with the inner wall of the storage box; a baffle is rotatably connected to one side wall of the baffle; the storage box is connected with a replacement plate in a sliding way through a spring; a release mechanism for pulling the displacement plate to move is arranged in the storage box; the pushing box and the storage box are positioned on the same horizontal line.

2. A feeding device for the production of plastic packaging containers as claimed in claim 1, wherein: the pushing block is internally provided with an accommodating groove communicated with the replacement hole; a color level balancing mechanism is arranged in the accommodating groove; the color level balancing mechanism comprises a second cylinder arranged in the accommodating groove; a second motor is coaxially arranged on the telescopic shaft of the second cylinder; a slotted pole is arranged at the power end of the second motor; a cutting disc is rotationally connected in the grooved column; the side wall of the accommodating groove is rotationally connected with a positioning plate through a rotating shaft; a limiting cover is connected to the side wall of the positioning plate, which is close to the second cylinder direction; a cleaning groove is formed in the side wall, close to the cutting disc, of each limiting cover; a plurality of polishing columns are rotationally connected between the side walls of the cleaning groove.

3. A feeding device for the production of plastic packaging containers as claimed in claim 2, wherein: the release mechanism comprises a second motor arranged in the storage box; the second motor is positioned in the space at the other side of the partition board; the power end of the second motor is provided with a driving wheel; the side wall of the gap is rotationally connected with a winding wheel; the driving wheel is wound with a steel rope; the steel rope is connected to the displacement plate through a winding wheel.

4. A feeding device for plastic packaging container production according to claim 3, characterized in that: each square tube is provided with a charging barrel; an anti-blocking mechanism is arranged in the charging barrel; the anti-blocking mechanism comprises a rotating shaft coaxially and rotatably arranged in the charging barrel; a plurality of anti-blocking plates are arranged on the periphery of the rotating shaft; a square hole communicated with the square tube is formed in the charging barrel; the rotating shaft far away from the direction of the square hole is connected with an anti-blocking bowl through a third cylinder; the feeding cylinder is communicated with a feeding pipe with a size smaller than that of the anti-blocking bowl.

5. The feeding device for plastic packaging container production according to claim 4, wherein: the moving mechanism comprises a telescopic groove arranged on the side wall of the pushing box and the storage box, which is close to the square tube direction; a telescopic plate which can be clamped on the folding plate is connected in the telescopic groove in a sliding way through a fourth air cylinder; a fifth cylinder is arranged between the base and the first motor.

6. A feeding device for plastic packaging container production according to claim 5, wherein: a plurality of guide pipes communicated with the corresponding square pipes are arranged in the base.