RU2199396C1 - Milling body - Google Patents

Abstract

FIELD: abrasion grinding equipment. SUBSTANCE: milling body has casing made in the form of body of rotation, at least tree vibration measuring units located inside casing and closed with covers. Each vibration measuring unit has capacity accelerometer and signal amplifier. Annular groove is formed on casing outer surface for receiving transmitting antennae, which are connected to related vibration measuring unit. Each cover is positioned in sleeve for movement relative to casing to switch on vibration measuring unit power supply. Sleeve is made from low friction material and is connected to vibration measuring unit through flexible binder. EFFECT: increased efficiency in abrasion grinding of material and prolonged service life of milling body. 1 dwg

Description

 The invention relates to structural elements of devices for grinding materials and can be applied in the mining, chemical, building materials industry and other industries.

 A grinding body of a device for grinding materials is known, the body of which is made in the form of a body of revolution with an insertion device located inside (RU 1162486, class B 02 C 17/20, 1985).

 The disadvantage of such a grinding body is that the grinding process of the device for grinding materials does not provide the optimal, from the point of view of energy intensity, process due to the mismatch of the magnitude of shock pulses to critical deformations that occur in the particles of the material, which leads to a decrease in the quality of the finished product.

 The invention closest in technical essence is a grinding body of a device for grinding materials, comprising a housing in the form of a body of revolution, inside of which are vibration-measuring units closed by a cover, consisting of a capacitive accelerometer and a signal amplifier, an annular groove for transmitting antennas connected to appropriate vibration measuring units (RU 2146969, class B 02 С 17/20, 03/27/2000).

 The disadvantage of such a grinding body is its low efficiency when grinding by abrasion due to the inability to provide the optimal value of the static component of the force acting on the material.

 The objective of the invention is to increase the efficiency of the grinding body during grinding by abrasion by ensuring the optimal value of the static component of the force acting on the material.

 This task is achieved by the fact that in the grinding body of the device for grinding materials containing a body in the form of a body of revolution, inside which are located vibration-measuring blocks closed by a lid, consisting of a capacitive accelerometer and a signal amplifier, an annular groove for transmitting antennas connected to corresponding vibration measuring blocks, and the grinding body is made with at least three closed lids cavities, in each of which is placed a vibration measuring Lok, wherein each cover is movably mounted relative to the housing by the sleeve made of material with low frictional properties and associated elastic coupling with vibration measuring unit.

 The drawing shows a General view of the grinding body.

 The grinding body of the device for grinding materials is a housing 1 in the form of a body of revolution with at least three closed covers 2 cavities, in each of which is placed a vibration measuring unit. Each cover has the ability to move relative to the housing along the sleeve 3, made of a material with low frictional properties, and is connected by an elastic connection 4 with a vibration measuring unit.

 Each vibration measuring unit consists of a capacitive accelerometer 5 made of two plates and a signal amplifier in the form of a chip 6. A groove 7 is made on the outer surface of the housing, in which at least three transmitting antennas are connected, connected to the vibration measuring units through a groove in the housing 1.

 The elastic connection of the cover with the vibration measuring unit is made, for example, in the form of a spring.

 The power supply to the grinding body is preferably carried out from three batteries, which can be autonomous. The design of the accelerometer is a sealed unit in which the sensing element, the amplifier-converter, and the elements of the output mounting are located. The most critical component of the design of the accelerometer is a sensitive element. This device uses a pendulum-type sensitive element that can respond to static loads. The principle of operation of this sensitive element is based on the property of inertial mass displacement under the influence of measured acceleration, as a result of which the capacitance of the accelerometer plates is measured.

 The grinding body works as follows.

 As a result of the impact, the cover of the grinding body moves relative to the body inside the grinding body, the power of vibration measuring units is turned on. During the operation of the mill, the balls move, while the balls and material of the upper layer are pressed against the lower balls and material. This pressure is perceived by the surface of each cover 2, which, moving in the cavity of the housing 1 along the sleeve 3, transmits pressure through the spring to the plates of the accelerometer 5. Moreover, depending on the pressure intensity on the plates of the accelerometers, their capacitance changes, which leads to a change in the carrier frequency of the signal transmitted on the air, which, ultimately, allows you to determine the magnitude of the pressure force from the upper ball to the lower or from the ball located in the lower layer to the surface of the grinding chamber.

 The placement of at least three vibration measuring blocks allows you to more accurately and objectively determine the true value of the pressure forces in the grinding chamber.

 Thus, as a result of the use of the invention, a technical result is achieved, namely, that the efficiency when grinding by abrasion is improved by providing an optimal value of the static component of the force acting on the material.

Claims (1)

 The grinding body of the device for grinding materials, containing a housing in the form of a body of revolution, inside of which are located vibration-measuring blocks closed by a lid, consisting of a capacitive accelerometer and a signal amplifier, an annular groove for transmitting antennas connected to the corresponding vibration measuring blocks is made on the outer surface of the housing, characterized in that the grinding body is made with at least three closed lids cavities, in each of which is placed a vibration measuring unit, each roof ka is installed with the possibility of movement relative to the housing along the sleeve made of a material with low frictional properties, and is connected by elastic coupling with a vibration measuring unit.