RU197993U1 - The mechanism for cleaning the sieves of grain cleaning machines with oscillatory movement of the sieve mill - Google Patents

Abstract

The utility model relates to agriculture, in particular to equipment for post-harvest processing of grain crops, and can be used in the chemical and mining industries for the separation of bulk materials. The mechanism comprises a cleaning device in the form of a movable platform with brushes and a drive, the brushes are mounted on a spring-loaded lever mounted on the platform with one end pivotally and the other with a cable and blocks, one end of the cable fixed rigidly to the sieve mill and the other to a fixed frame grain cleaning machine using a tensioner. The platform displacement drive is made in the form of a cylindrical linear induction motor with a stator with the number of pole pairs less than or equal to four and equipped with a control unit with platform position sensors, the stator is mounted movably on a fixed frame, and the rotor is connected movably to the platform. The device provides a simplification of the drive, improving the reliability and efficiency of the mechanism for cleaning sieves.

Description

The utility model relates to agriculture, in particular to equipment for post-harvest processing of grain crops, and can be used in the chemical, mining, and other industries where sieve machines are used to separate bulk materials.

The closest in technical essence and the achieved effect are the mechanism for cleaning the sieves of grain cleaning machines with the oscillatory movement of the sieve mill, including a platform mounted with the ability to move along the guides with a cleaning device in the form of brushes that are connected to the platform by a spring lever mounted on the platform at one end pivotally and the other through blocks and a cable covering them, one end of the cable being rigidly fixed to the sieve mill and the other to the fixed frame of the grain cleaning machine by means of a tensioning device, and the platform moving drive is equipped with a traction connected to the cleaning device (AS No. 1720751 of the USSR, MKI V07V 1/50, Cleaning mechanism for sieves of grain cleaning machines with oscillatory movement of a sieve mill / A. I. Zavgorodny, A. A. Andreichenko and N. I. Shakin (USSR). - No. 4841250/03. Declared June 21, 90; 23.03.92 Bull. No. 11).

The disadvantage of the known technical solution is the complexity and, as a consequence, the low reliability of the drive moving the platform in the form of a closed chain drive, which drives the traction connected to the cleaning device in oscillatory motion.

The technical task of the utility model is to simplify the drive, increase the reliability and efficiency of its operation.

The technical problem is achieved by the fact that in the cleaning mechanism of the sieves of grain cleaning machines with the oscillatory movement of the sieve mill, including installed on the guide platform with a cleaning device in the form of brushes that are connected to the platform by means of a spring-loaded lever mounted on the platform at one end pivotally, and the other - by means of blocks and a cable covering them, one end of the cable being rigidly fixed to the sieve mill and the other to the fixed frame of the grain cleaning machine by means of a tensioning device, the platform displacement drive is made in the form of a cylindrical linear induction motor with a stator with the number of pole pairs less than or equal to four and equipped with a control unit with platform position sensors, the stator is mounted movably on a fixed frame, and the rotor is connected movably to the platform.

The platform moving drive is made in the form of a cylindrical linear asynchronous motor with a stator with the number of pole pairs less than or equal to four and equipped with a control unit with platform position sensors, the stator is mounted movably on a fixed frame, and the rotor is connected movably to the platform.

A schematic diagram of the proposed sieve cleaning mechanism is presented.

The sieve cleaning mechanism is installed in the sieve mill 1 of the grain cleaning machine, which vibrates, and is located under the sieve 2. The mechanism contains a cleaning device in the form of a platform 3 mounted for movement along the guides 4, and a spring-loaded lever 5 with brushes 6, one end of which is connected with platform 3 by hinge 7, and the other by cable 8, passed through blocks 9, mounted on platform 3 and lever 5. One end 10 of cable 7 is fixed rigidly to the sieve mill 1, and the other end 11 is fixed to the frame of the grain cleaning machine using mechanism 12 tension. The drive for moving the platform 3 is made in the form of a cylindrical linear asynchronous motor (TsLAD), the stator 13 of which is mounted movably on the fixed frame of the grain cleaning machine, and the rotor 14 of the TsLAD is movably connected to the platform 3 of the cleaning device. In the sieve mill 1, sensors 15 and 16 of the end position of the platform are installed on both sides of the platform 3. The operation of the TSLAD is controlled by a control unit (BU) 17. The BU is electrically connected to the stator 13 of the TSLAD and the sensors 15, 16 of the end positions of the platform 3.

The technical solution works as follows.

When the BU 17 is turned on, the three-phase voltage of the power source is supplied to the stator windings 13, a traveling electromagnetic field is created in one or the other direction, depending on which of the sensors 15 or 16 was turned on. When the sensor 15 is turned on, the direction of the electromagnetic field of the stator 13 should be in the direction of the sensor 16. When the sensor 16 is turned on, the running electromagnetic field of the stator 13 should be in the direction of the sensor 15. The direction of the electromagnetic field is carried out by the control unit 17 by switching the phase sequence of the three-phase power supply supplied to stator 13 TSLAD. The direction of the electromagnetic field is determined by the electromagnetic force applied to the rotor of the CLAD, they coincide. The TsLAD rotor 14 is connected to the platform 3, therefore, the movement of the rotor 14 is transmitted to the platform 3, which makes a reciprocating movement along the guides 4 at the command of the sensors 15 or 16. At the same time, the oscillation of the sieve mill 1 causes periodic changes in the distance between the attachment points of the ends 10 and 11 of the cable 8, one of which 11 is fixed and secured by the tension mechanism 12 on the frame of the grain cleaning machine, and the other 10 on the movable sieve mill 1. In this case, the cable 8 is alternately stretched and weakened. The weakening of the cable 8 is compensated by turning the spring-loaded lever 5 up and introducing the brush 6 into the holes of the sieve 2. The tension of the cable 8 causes the lever 8 to turn down and the brush 6 is no longer in contact with the sieve 2. When the brush 6 is inserted into the holes of the sieve 2 again, platform 3 moves to a new the position and contact of the brush 6 with the sieve 2 occurs already in another area of the sieve.

Thus, the brush 6 is in contact with all points of the sieve 2. The undeformed bristle tufts of the brushes 6 are located vertically at the moment of penetration into the holes of the sieve 2, so they pierce through them, affecting all types of stuck particles, including fine-grained ones. Therefore, the sieve 2 is cleaned by the mechanism when working with any grain mixtures, including fine-grained, which improves the quality of cleaning the sieves. When the machine is not working, lever 5 is in a neutral position, in which the brushes 6 do not contact the sieve 2. In this position, the lever 5 is held by a cable 8. Moreover, the distance between the brush 6 and the sieve 2, as well as the depth of penetration of the brush bristles 6 into the holes of the sieve, are changed by the mechanism 12 tension. Stator 13 TsLAD is performed with the number of pole pairs less than or equal to four, which leads to the appearance of an end effect during its operation (ON Veselovsky and others. Linear induction motors / ON Veselovsky, A.Yu. Konyaev, F.N. Saranulov. - M.: Energoatomizdat, 1991. - 256 p.). Vibrational vibrations with a frequency equal to the double frequency of the network are superimposed on the main thrust force. These vibrations are transmitted through the rotor 14 to the platform 3, therefore, to the brushes 6, which improves the cleaning efficiency of the sieves 2. A sharp change in the direction of movement of the platform 3 contributes to the cleaning efficiency when it reaches the final positions in the sieve mill 1, determined by sensors 15 and 16.

Claims (1)

The mechanism for cleaning the sieves of grain cleaning machines with the oscillatory movement of the sieve mill, including a platform mounted for moving along the guiding platform with a cleaning device in the form of brushes that are connected to the platform by a spring-loaded lever mounted on the platform at one end pivotally, and the other through blocks and a cable covering them, moreover, one end of the cable is rigidly fixed to the sieve mill, and the other to the fixed frame of the grain cleaning machine by means of a tensioner, characterized in that the platform displacement drive is made in the form of a cylindrical linear asynchronous motor with a stator with the number of pole pairs less than or equal to four and equipped with a control unit with platform position sensors, the stator is mounted movably on a fixed frame, and the rotor is connected movably to the platform.

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