RU177047U1 - BALL MILL - Google Patents

Abstract

The proposed solution relates to devices for grinding fine-grained materials and can be used in food, chemical, petrochemical, mining, energy, pharmacological, construction, road, metallurgical and other industries, as well as in environmental processes for the recycling of solid waste. ball mill design is an increase in productivity. The technical result is achieved by the fact that in a ball mill an mill consisting of a grinding drum, grinding bodies in the form of balls, a welded frame on which two rubber-coated shafts, a drive, thrust rollers are installed in bearings to prevent axial displacement of the grinding drum during rotation, the drive is equipped with a gear and the shafts with gears interacting with this gear, and the shafts are oval and mounted in bearings eccentrically in antiphase with each other.

Description

The proposed technical solution relates to devices for grinding fine-grained materials and can be used in food, chemical, petrochemical, mining, energy, pharmacological, construction, road, metallurgical and other industries, as well as in environmental processes for the recycling of solid waste.

Known roller mill containing a hollow cylindrical body mounted on roller bearings, an eccentrically located roll, a cleaning scraper, loading and unloading nodes, while the loading node is equipped with a distribution device located in the casing above the roller and made in the form of guides mounted on axles with the possibility regulation of the gap between them, each pair of which forms a section (Ed. St. USSR No. 919731 B02C 15/16 1982).

The reasons that impede the achievement of a given technical result include low productivity due to slipping of the surface of the drum relative to the surface of the shafts in which the grinding process occurs, without vibration and vibration.

Known continuous rolling centrifugal machine for the preparation of silicate masses and fine-grained concrete, including a steel hollow cylinder mounted for rotation on support rollers, an eccentrically located work roll and a double scraper, consisting of inclined self-lining cleaning and unloading knives, while the cutting edges of the cleaning and unloading knives are made along a helical line of variable pitch with a bias towards unloading (Aut. St. USSR No. 307807 B02C 15/16 1971).

For reasons that impede the achievement of a given technical result is a constant speed of rotation of the cylindrical body without its vibration and vibrations, which leads to low productivity.

The closest technical solution for the totality of features to the claimed object and selected for the prototype is a laboratory ball mill MSHL-1.

Laboratory ball mills of the MSHL consist of a welded frame on which two shafts coated with special heat-resistant rubber are installed. One of the shafts of the mill is driven, it is rigidly fixed to the frame and connected to the mill by means of a V-belt, the second shaft rotates freely in the bearings. Thrust rollers are fixed on one of the shafts to prevent axial displacement of the drum, and adjustable bearings are installed on the drive. For grinding materials, grinding bodies in the form of balls are laid in the drum (Technical passport Mill laboratory ball mill МШЛ-1 http://psmash.ru/katalog1/mel_nica_laboratornaya_mshl-1/).

The reasons that impede the achievement of a given technical result include insufficient productivity due to the same speed of rotation of the drum on the shafts without vibration and vibration.

The technical result of the proposed design of the ball mill is to increase productivity.

The technical result is achieved in that in a ball mill consisting of a grinding drum, grinding bodies in the form of balls, a welded frame on which two rubber-coated shafts, drives, thrust rollers are installed in bearings to prevent axial displacement of the grinding drum during rotation, and the drive equipped with a gear, and the shafts with gears interacting with this gear, and the shafts are oval and mounted in bearings eccentrically in antiphase with each other.

The supply of the drive gear, and the shafts with gears interacting with this gear, allows you to transfer torque from the drive shaft through the gear to both gears and rotate the latter together with the shafts at the same speed, which ensures the rotation speed of the grinding drum on both shafts due to its friction lateral surface on the surface of the shafts without slipping, and helps to increase productivity.

The implementation of the oval-shaped shafts leads their rotation to axial vibrations and vibrations of the grinding drum rotating on their surface. These vibrations and vibrations are transmitted to grinding bodies and pieces of grinding material, which increases the force of impact and friction between the balls and surfaces of these pieces, accelerates their grinding and improves productivity.

The installation of shafts eccentrically in bearings leads to an increase in the oscillation amplitude of the grinding drum and grinding bodies and pieces of crushed material oscillating inside it, which further increases the impact force of grinding bodies on the surface of the crushed pieces and the force of their impact with each other, reduces the grinding time and thereby most boosting productivity.

The installation of oval shafts in antiphase with each other causes the grinding drum to sway in the radial direction during rotation of the shafts, which provides additional mixing of grinding bodies and pieces of crushed material in the axial and radial directions, evenly distribute them along the length of the grinding drum, to prevent the formation of stagnant zones, which It also increases productivity.

In FIG. 1 shows a diagram in section of the proposed design; in FIG. 2 is a cross section AA of a ball mill; in Fig.3 is a cross section bB in the installation area of the gear and the gears interacting with it.

The ball mill consists of frame 1, grinding drum 2, grinding bodies in the form of balls 3, oval drive shafts 4 and 5, thrust rollers 6, rollers 7 of drive shafts 4 and 5 installed in the bearings of the frame 1, clutch 8 and drive 9, gears 10, connected to the drive 9 through the coupling 8 and gears 11 and 12, mounted outside the frame 1 in bulk 7 and interacting with the gear 10. The drive shafts 4 and 5 are mounted with eccentricity in the rollers 7 and out of phase with each other.

Ball mill works as follows. Grinding bodies 3 and pieces of crushed material 13 are loaded into the grinding drum 2. The grinding drum 2 is mounted on the shafts 4 and 5. The drive 9 is turned on, which through the coupling 8 transmits the rotation of the gear 10, and from it to the gears 11 and 12 interacting with it and through them and rollers 7 on the oval drive shafts 4 and 5. From the oval drive shaft 4 and 5 begins to rotate due to friction grinding drum 2.

Since the drive shafts 4 and 5 are oval and mounted on rollers 7 with an eccentricity and out of phase with each other, the grinding drum, in addition to rotation, swings in the axial and radial directions, causing vibration with a large amplitude, vibrations and mixing of the balls of 3 grinding bodies with pieces of ground material 13 and an increase in the force of impact them with each other.

Thus, supplying the drive 9 with gear 10, and the shafts 4 and 5 with gears 11 and 12, interacting with this gear 10, and making the shafts 4 and 5 oval and their installation in the rollers 7 eccentrically in antiphase with each other can reduce grinding time due to vibrations and vibrations of the grinding drum 2, and with it the grinding bodies 3 and pieces of material 13 with a large amplitude, which leads to an increase in impact force, a reduction in grinding time, and hence to an increase in productivity.

Claims (1)

Ball mill, consisting of a grinding drum, grinding bodies in the form of balls, a welded frame on which two rubber-coated shaft, drive, thrust rollers are installed in bearings to prevent axial displacement of the grinding drum during rotation, characterized in that the drive is equipped with a gear, and shafts - with gears interacting with this gear, while the shafts are oval and mounted in bearings eccentrically in antiphase with each other.

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