CN113602738B

CN113602738B - Online auxiliary agent formula automatic blending adds device

Info

Publication number: CN113602738B
Application number: CN202110913473.0A
Authority: CN
Inventors: 郝江澎
Original assignee: Jiangsu Bochao Intelligent Technology Co ltd
Current assignee: Jiangsu Bochao Intelligent Technology Co ltd
Priority date: 2021-08-10
Filing date: 2021-08-10
Publication date: 2023-02-14
Anticipated expiration: 2041-08-10
Also published as: CN113602738A

Abstract

The invention discloses an on-line automatic auxiliary agent formula batching and adding device.A plurality of feeding barrels are fixed on a feeding belt at certain intervals; the first feeding unit is arranged above the feeding belt and used for feeding the granular materials or the powder materials into one or two feeding barrels on the feeding belt; connect the rotatable setting of storage bucket in the discharge gate department of the reinforced unit of second, the reinforced unit of second is used for sending cubic material to connect the storage bucket in, connects the storage bucket to rotate and move to the storage bucket top of containing granule material or powder material, and the clamp plate pushes down will connect the cubic material crushing in the storage bucket and fall into the storage bucket that contains granule material or powder material. The automatic material distribution device has high automation degree, reduces the labor intensity of workers, has high material distribution progress, and only needs to arrange a quantitative spiral feeder above the feeding barrel. The massive materials are pre-supported in advance into equal parts and are directly placed on the second belt, and the material adding and material mixing and crushing are completed on line, so that the automatic production operation is realized.

Description

Online auxiliary agent formula automatic blending adds device

The technical field is as follows:

the invention relates to an on-line automatic auxiliary agent formula proportioning and adding device.

The background art comprises the following steps:

the production of chemical materials, rubber and plastic materials or lithium battery anode and cathode materials generally needs the mixing and adding of various ingredients, and the ingredients can be divided into powder materials, particle materials, block materials or liquid materials. In production, in order to realize automatic operation, all ingredients are required to be mixed well in advance according to the proportion requirement. The existing method is manual mixing, the automation degree is low, when massive materials and particles or powder are required to be mixed, the massive materials also need to be broken on line, and the efficiency is low.

The invention content is as follows:

the invention provides an on-line automatic auxiliary agent formula proportioning and adding device for solving the problems in the prior art.

The technical scheme adopted by the invention is as follows:

an online automatic auxiliary agent formula batching and adding device comprises a first feeding unit, a second feeding unit, a receiving barrel, a pressing plate, a feeding barrel and a feeding belt; a plurality of feeding barrels are fixed on the feeding belt at certain intervals;

the first feeding unit is arranged above the feeding belt and used for feeding the granular materials or the powder materials into one or two feeding barrels on the feeding belt;

connect the rotatable setting of storage bucket in the discharge gate department of the reinforced unit of second, the reinforced unit of second is used for sending cubic material to connect the storage bucket in, connects the storage bucket to rotate and move to the storage bucket top of containing granule material or powder material, and the clamp plate pushes down will connect the cubic material crushing in the storage bucket and fall into the storage bucket that contains granule material or powder material.

Further, first reinforced unit includes loading hopper, first hopper and first belt, sets up one or two first belts in one side of pay-off area, sets up the loading hopper of a plurality of interval arrangement on first belt, sets up first hopper in the terminal top of just arranging the pay-off area in of first belt, and the discharge gate of first hopper is located the movement track of pay-off bucket.

Furthermore, the second feeding unit comprises a first partition plate, a second partition plate, second belts and a second discharging hopper, the second belts are arranged in parallel, the first partition plate is arranged on each of the two sides of each second belt, the second partition plates are arranged on each second belt at intervals, the blocky materials are arranged between the two second partition plates on each second belt, and the second discharging hopper is arranged at the tail ends of the second belts arranged in parallel.

Furthermore, the receiving barrels are provided with a plurality of receiving barrels, all the receiving barrels are fixed on a rotating frame, the rotating frame is driven by a servo motor, a plurality of fixing lugs which are arranged at equal angles are arranged on the rotating frame, and one receiving barrel is arranged on each fixing lug.

Furthermore, the bottom surface of the receiving barrel is of a net structure.

Further, the pressure plate is driven by an air cylinder.

Furthermore, one side of the feeding belt is provided with a liquid feeding pipe which can be used for adding the ingredient liquid into the feeding barrel.

The invention has the following beneficial effects:

the automatic material distribution device has high automation degree, reduces the labor intensity of workers, has high material distribution progress, and can be realized by arranging a quantitative spiral feeder above the material feeding barrel. The massive materials are pre-supported in advance into equal parts and are directly placed on the second belt, and the material adding and material mixing and crushing are completed on line, so that the automatic production operation is realized.

Description of the drawings:

FIG. 1 is a block diagram of the present invention.

FIG. 2 is a structural view of a first feeding unit in the present invention.

FIG. 3 is a structural view of a second feeding unit in the present invention.

Fig. 4 is an installation structure view of the receiving bucket of the present invention.

Fig. 5 is a structural view of the receiving bucket of the present invention.

The specific implementation mode is as follows:

the invention is further described below with reference to the accompanying drawings.

Referring to fig. 1 to 5, the on-line auxiliary agent formula automatic blending and adding device of the invention comprises a first feeding unit 11, a second feeding unit 12, a material receiving barrel 13, a pressure plate 14, a feeding barrel 15 and a feeding belt 16.

The feeding barrels 15 are fixed on the feeding belt 16 at intervals, the first feeding unit 11 is arranged above the feeding belt 16, and the first feeding unit 11 is used for feeding granular materials or powder materials into the two feeding barrels 15 on the feeding belt 16. Connect the rotatable setting of storage bucket 13 in the discharge gate department of second feeding unit 12, second feeding unit 12 is used for sending cubic material to receiving storage bucket 13 in, receiving storage bucket 13 rotates and moves to the storage bucket 15 top that contains granule material or powder material, and clamp plate 14 pushes down and will receive the cubic material crushing in storage bucket 13 and fall into in the storage bucket 15 that contains granule material or powder material.

The first feeding unit 11 of the present invention includes a feeding barrel 111, a first discharging hopper 112 and a first belt 113, wherein the two first belts 113 are arranged in parallel, and the conveying direction of the first belts 113 is perpendicular to the conveying direction of the feeding belt 16. A plurality of feeding barrels 111 arranged at intervals are arranged on each first belt 113, and the feeding barrels 111 are used for conveying granular materials or powder materials. A first discharge hopper 112 is arranged at the tail end of the first belt 113 and above the feeding belt 16, two discharge ports are arranged on the first discharge hopper 112, and the two discharge ports are located on the motion track of the feeding barrel 15.

First belt 113 and pay-off area 16 all pass through servo motor drive, and when the storage bucket 15 moved under first play hopper 112 discharge gate, pay-off area 16 stop motion, then first belt 113 rotates for the storage bucket 111 that is equipped with granule material or powder material takes place to overturn, and pours granule material or powder material into first play hopper 112, and pours into in the storage bucket 15 under first play hopper 112 through first play hopper 112.

After the feeding barrel 15 receives the granular material or the powder material, the feeding belt 16 continues to move and moves to a position right below the pressing plate 14, and then stops moving. Then the second feeding unit 12 and the receiving barrel 13 start to move to add the blocky materials, and the structure and the moving process of the second feeding unit 12 and the receiving barrel 13 are as follows:

the second feeding unit 12 comprises a first partition board 121, a second partition board 122, a second belt 123 and a second discharging hopper 124, wherein the second belt 123 is arranged in parallel, two ends of all the second belts 123 are rotatably connected to two belt rollers, and one belt roller is driven by a servo motor. Two sides of each second belt 123 are respectively provided with a first partition board 121, each second belt 123 is provided with a plurality of second partition boards 122 arranged at intervals, the blocky materials are arranged between the two second partition boards 122 on each second belt 123, and the second discharge hopper 124 is arranged at the tail ends of all the second belts 123 arranged in parallel.

When the block materials are conveyed, the block materials are placed between the adjacent second partition plates 122 on each second belt 123, and the servo motors rotate according to a fixed beat, so that the block materials on the second belts 123 are sent into the second discharge hoppers 124 at intervals and sent into the receiving barrel 13 through the second discharge hoppers 124.

The receiving barrels 13 are provided with a plurality of receiving barrels 13, all the receiving barrels 13 are fixed on a rotating frame 21, the rotating frame 21 is driven by a servo motor, a plurality of fixing lugs 211 which are arranged at equal angles are arranged on the rotating frame 21, and one receiving barrel 13 is installed on each fixing lug 21.

Before the lump materials on the second belt 123 are sent to the second discharge hopper 124, the receiving bucket 13 moves to a position right below the discharge port of the second discharge hopper 124, and is used for receiving the lump materials coming out from the second discharge hopper 124.

After receiving bucket 13 receives the cubic material, receiving bucket 13 moves to the below of clamp plate 14 and is located the pay-off bucket 15 that has granule material or powder material directly over, then clamp plate 14 moves down to with the cubic material crushing in receiving bucket 13, clamp plate 14 passes through the cylinder drive.

In order to crush the blocky materials conveniently, the bottom surface of the material receiving barrel 13 is of a net structure.

After the lump material is crushed and falls into the feed bucket 15, the feed belt 16 continues to move and move to feed the material to the next process. In order to meet different production requirements, a liquid feeding pipe 31 is further arranged on one side of the feeding belt 16, and the liquid feeding pipe 31 can be used for adding ingredient liquid into the feeding barrel 15.

The foregoing is only a preferred embodiment of this invention and it should be noted that modifications can be made by those skilled in the art without departing from the principle of the invention and these modifications should also be considered as the protection scope of the invention.

Claims

1. The utility model provides an online auxiliary agent formula automatic blending adds device which characterized in that: comprises a first feeding unit (11), a second feeding unit (12), a receiving barrel (13), a pressure plate (14), a feeding barrel (15) and a feeding belt (16);

a plurality of feeding barrels (15) are fixed on the feeding belt (16) at certain intervals;

the first feeding unit (11) is arranged above the feeding belt (16), and the first feeding unit (11) is used for feeding the granular material or the powder material into one or two feeding barrels (15) on the feeding belt (16);

the receiving barrel (13) is rotatably arranged at the discharge port of the second feeding unit (12), the second feeding unit (12) is used for conveying the blocky materials into the receiving barrel (13), the receiving barrel (13) rotates and moves to the position above a feeding barrel (15) filled with the granular materials or the powder materials, and the pressing plate (14) presses downwards to crush the blocky materials in the receiving barrel (13) and fall into the feeding barrel (15) filled with the granular materials or the powder materials;

the first feeding unit (11) comprises a feeding barrel (111), a first discharging hopper (112) and a first belt (113), one or two first belts (113) are arranged on one side of the feeding belt (16), the feeding barrels (111) arranged at intervals are arranged on the first belts (113), the first discharging hopper (112) is arranged at the tail end of each first belt (113) and above the feeding belt (16), and a discharging port of the first discharging hopper (112) is positioned on the motion track of the feeding barrel (15);

the second feeding unit (12) comprises a first partition board (121), a second partition board (122), a second belt (123) and a second discharging hopper (124), wherein the second belt (123) are arranged in parallel, the first partition board (121) is arranged on each of two sides of each second belt (123), the second partition boards (122) are arranged on each second belt (123) at intervals, the blocky materials are arranged between the two second partition boards (122) on each second belt (123), and the second discharging hopper (124) is arranged at the tail ends of the second belts (123) which are arranged in parallel.

2. The on-line additive formula auto-dosing and adding device of claim 1, wherein: the material receiving barrel (13) is provided with a plurality of material receiving barrels (13), all the material receiving barrels (13) are fixed on a rotating frame (21), the rotating frame (21) is driven by a servo motor, a plurality of fixing lugs (211) which are arranged at equal angles are arranged on the rotating frame (21), and one material receiving barrel (13) is installed on each fixing lug (211).

3. The on-line additive formula auto-dosing and adding device of claim 1, wherein: the bottom surface of the material receiving barrel (13) is of a net structure.

4. The on-line additive formula auto-dosing and adding device of claim 1, wherein: the pressure plate (14) is driven by an air cylinder.

5. The on-line additive formula auto-dosing apparatus of claim 1 wherein: one side of the feeding belt (16) is provided with a liquid feeding pipe (31), and the liquid feeding pipe (31) can be used for adding ingredient liquid into the feeding barrel (15).