CN211886716U

CN211886716U - Intelligent balling system

Info

Publication number: CN211886716U
Application number: CN201921991962.2U
Authority: CN
Inventors: 何健; 张嘉良; 吕戌生; 张家勤
Original assignee: Jiangsu Jingxin New Material Co ltd
Current assignee: Jiangsu Jingxin New Material Co ltd
Priority date: 2019-11-18
Filing date: 2019-11-18
Publication date: 2020-11-10
Anticipated expiration: 2029-11-18

Abstract

The utility model relates to an intelligence balling-up system. The automatic ball forming device comprises a powder bin, wherein the rear end of the powder bin is connected with a first belt scale, and the rear end of the first belt scale is connected with a discharging pipeline communicated with a ball forming barrel; the water supply pipeline is extended into the balling barrel, one end of the water supply pipeline, which is positioned outside the balling barrel, is connected with the water storage tank, and the end part of the water supply pipeline, which is positioned in the balling barrel, is provided with an atomizing nozzle; the ball forming machine is characterized by further comprising a mother ball bin, the rear end of the mother ball bin is connected with a second belt scale, and the rear end of the second belt scale is connected with a ball conveying pipeline for conveying mother balls into the ball forming barrel. The utility model discloses the work load in the workman operation process that can significantly reduce reduces the workman simultaneously in operation process, and the uncertainty of the material that appears, water, cue ball joining proportion can last stable output high quality ball base.

Description

Intelligent balling system

Technical Field

The utility model relates to an intelligence balling-up system belongs to balling-up equipment field.

Background

In the process of powder material balling, the three of the material, the water and the mother ball need strict control to ensure the normal operation of the balling barrel, any one factor has deviation, which causes the unbalance of the three in the balling barrel and needs long time to adjust the balance, while the prior balling system mainly controls the addition of the material, the water and the mother ball manually, which can lead the balling process to become unstable, lead the quality of the ball blank to generate great fluctuation and greatly influence the subsequent production.

SUMMERY OF THE UTILITY MODEL

To the above problems, an object of the present invention is to provide a full-automatic pelletizing system, which can effectively avoid the fluctuation caused by human factors, and can realize continuous and stable production.

Therefore, the utility model discloses a technical scheme does: an intelligent balling system comprises a powder bin (1), wherein the rear end of the powder bin (1) is connected with a belt scale I (2), and the rear end of the belt scale I (2) is connected with a blanking pipeline (3) communicated with a balling barrel (8);

a water supply pipeline (5) extending into the balling barrel (8) is further arranged, one end of the water supply pipeline (5) positioned outside the balling barrel (8) is connected with the water storage tank (6), and an atomizing spray head (9) is arranged at one end part of the water supply pipeline (5) positioned in the balling barrel (8);

the ball forming machine is also provided with a mother ball bin (11), the rear end of the mother ball bin (11) is connected with a second belt weigher (12), and the rear end of the second belt weigher (12) is connected with a ball conveying pipeline (7) which conveys mother balls into the ball forming barrel (8).

Furthermore, a feeding stranding cage (4) used for conveying powder is arranged between the blanking pipeline (3) and the balling barrel (8).

Furthermore, a water flow meter and a water feeding pump for conveying water into the balling barrel (8) are arranged on the water feeding pipeline (5).

Further, the blanking pipeline (3) is vertically arranged, and the feeding stranding cage (4) is horizontally arranged and extends into the balling barrel (8).

Further, the ball feeding pipeline (7) is obliquely arranged and extends into the ball forming barrel (8), and the inclination angle of the ball feeding pipeline (7) is 30-70 degrees.

The utility model has the advantages that: the utility model discloses the work load in the workman operation process that can significantly reduce reduces the workman simultaneously in operation process, and the uncertainty of the material that appears, water, cue ball joining proportion can last stable output high quality ball base.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure, 1 is a powder bin, 2 is a first belt scale, 3 is a blanking pipeline, 4 is a feeding stranding cage, 5 is a water supply pipeline, 6 is a water storage tank, 7 is a ball feeding pipeline, 8 is a ball forming barrel, 9 is an atomizing nozzle, 10 is a monitoring device, 11 is a mother ball bin, and 12 is a second belt scale.

Detailed Description

An intelligent balling system comprises a powder bin 1, wherein the rear end of the powder bin 1 is connected with a belt scale I2, and the rear end of the belt scale I2 is connected with a blanking pipeline 3 communicated with a balling barrel 8;

a water supply pipeline 5 extending into the balling barrel 8 is further arranged, one end of the water supply pipeline 5, which is positioned outside the balling barrel 8, is connected with a water storage tank 6, and the end part of the water supply pipeline 5, which is positioned in the balling barrel 8, is provided with an atomizing nozzle 9;

the ball forming machine is further provided with a mother ball bin 11, the rear end of the mother ball bin 11 is connected with a second belt weigher 12, and the rear end of the second belt weigher 12 is connected with a ball conveying pipeline 7 for conveying mother balls into the ball forming barrel 8.

Further, a feeding stranding cage 4 for conveying powder is arranged between the blanking pipeline 3 and the balling barrel 8.

Further, a water flow meter and a water supply pump for conveying water into the balling barrel 8 are arranged on the water supply pipeline 5.

Further, the blanking pipeline 3 is vertically arranged, and the feeding stranding cage 4 is horizontally arranged and extends into the balling barrel 8.

Further, the ball feeding pipeline 7 is obliquely arranged and extends into the ball forming barrel 8, and the inclination angle of the ball feeding pipeline 7 is 30-70 degrees.

The utility model discloses it is further that can be equipped with the screen cloth in balling-up bucket 8 to control out the ball size.

The following is a further explanation of the present invention to better understand the present invention: before starting the machine, a manual mode is adopted, the powder material using amount, the proportion of raw material water, the weight and the number of mother balls and the proportion of the weight and the number of discharged balls are input into an intelligent terminal system, the whole system is started, after the system operates, the powder material bin 1 starts to feed materials, stable feeding materials are fed into the balling barrel 8 through the belt weigher I2, and a water supply system is atomized through the atomizing nozzle 9 and then added into the balling barrel 8 according to the set proportion by the water pump and the flowmeter. At this time, the ball discharging monitoring device 10 (installed on the ball discharging chute of the ball forming barrel 8) feeds back the weight and the number of the discharged balls to the intelligent terminal system, and the intelligent terminal system automatically starts the cue ball adding system, and adds the cue balls into the ball forming barrel 8 through the belt weigher two 12 according to the set proportion. After the whole system normally operates, an operator only needs to finely adjust the proportion of the material and the water when the ball discharging quality changes, and the ball forming barrel can continuously and stably produce high-quality ball blanks.

The utility model discloses be provided with the break-make valve on the pipeline between powder storehouse 1 and belt weigher 2, on the pipeline between mother's ball storehouse 11 and belt weigher two 12 to the whereabouts of control powder or mother's ball.

Claims

1. An intelligent balling system is characterized by comprising a powder bin (1), wherein the rear end of the powder bin (1) is connected with a belt scale I (2), and the rear end of the belt scale I (2) is connected with a blanking pipeline (3) communicated with a balling barrel (8);

2. An intelligent pelletizing system according to claim 1, characterized in that a feeding stranding cage (4) for conveying powder is arranged between the blanking pipe (3) and the pelletizing drum (8).

3. An intelligent balling system according to claim 1, characterized in that the water supply pipe (5) is provided with a water flow meter and a water supply pump for delivering water into the balling barrel (8).

4. An intelligent pelletizing system according to claim 2, characterized in that the blanking pipe (3) is arranged vertically and the feeding stranding cage (4) is arranged horizontally and extends into the pelletizing barrel (8).

5. An intelligent pelletizing system according to claim 1, characterized in that the ball feed pipe (7) is arranged obliquely and extends into the pelletizing barrel (8), the angle of inclination of the ball feed pipe (7) being 30-70 degrees.