RU2047364C1 - Disintegrator - Google Patents

Abstract

FIELD: milling. SUBSTANCE: disintegrator has housing 1 with charging branch pipe 2 and discharging branch pipe 3. Working members 4 and 5 are oppositely mounted inside the housing for permitting rotation in opposite directions. The members have grinding members made up as pins 8. The free ends of the pins of one of the rotors are received in ring concentric grooves made in the disk of the other rotor. The pins can be mounted for permitting rotation about their own axis and dismounted and mounted. EFFECT: enhanced efficiency. 3 cl, 3 dwg

Description

 The invention relates to devices for grinding various materials and can be used in flour milling.

 Known disintegrator containing a cylindrical body mounted in it against each other with the possibility of rotation in opposite directions of the working bodies with grinding elements in the form of fingers, and the first working body is made in the form of a disk with additional grinding elements in the form of a segment and concentrically covers the second and second in the form of a glass with a perforated side surface and a collar, moreover, jack plates are mounted on the inner annular surface of the housing.

 However, this device is complicated by the presence of a perforated side surface with a shoulder of one of the rotors, made in the form of a glass and baffle plates mounted on the inner annular surface of the housing.

 This complication of construction is due to gaps between the ends of the loose ends of the fingers of one rotor and the inner surface of the disk of the other rotor, through which large particles of grinding material break through.

 In addition, the rigid fastening of the fingers determines their one-sided wear and does not allow you to adjust the fineness of the grinding.

 The purpose of the invention is to simplify the design, as well as increase the service life of the fingers and expand the range of fineness of grinding.

 This goal is achieved by the fact that in the disintegrator containing the housing with loading and unloading nozzles, the installation in the housing against rotation with the possibility of rotation in opposite directions of the working bodies with grinding elements in the form of fingers, and the loose ends of the fingers of one rotor are placed in circular concentric grooves, made in the disk of another rotor.

 In addition, in order to increase the life of the fingers, they are installed with the possibility of rotation around its own axis, and also, in order to expand the range of fineness of grinding, the fingers are removable.

 In FIG. 1 schematically shows a disintegrator, General view; in FIG. 2, section AA in FIG. 1; in FIG. 3 an example of the installation of the fingers (node I in Fig. 1).

 The disintegrator comprises a housing 1 with loading 2 and discharge 3 nozzles. Inside the housing 1 there are two rotors rotating in opposite directions (working bodies) 4 and 5, each of which includes disks 6, 7 and fingers 8, respectively. In addition, the rotor 5 contains additional plate grinding elements 9 and 10, which simultaneously perform functions centrifugal fan blades. Rows of fingers 8 of one rotor are located between two rows of fingers 8 of another rotor. The rotors 4 and 5 are mounted on the shafts of the electric motors 11 and 12 located on the same geometric axis. The fingers 8 with one end rotatably around its axis using, for example, Gost's external eccentric rings 13 are installed in the disk of one rotor, and the other end is placed in the ring concentric grooves 14 made in the disk of another rotor.

 This installation of the fingers 8 prevents the breakthrough of large particles of grinding material, allows them to rotate around their axis due to their own inertia forces that occur at the time of starting the electric motors 11 and 12, and also to change their number.

 The disintegrator works as follows.

 First, electric motors 11 and 12 are started, while fingers 8, due to their own inertia forces, rotate around their axes in the opposite direction of rotation of the electric motor, changing work surfaces each time, which increases their service life. For example, when the electric motor 11 is started, the rotor 4 rotates in the direction of the clock hands, and the fingers 8 located in its disk 6 rotate counterclockwise.

 The grinded material, after a set of optimal (working) revolutions by the electric motors 11 and 12, is fed into the loading pipe 2, from which it enters the rotor 5 and then under the action of centrifugal forces, sequentially passing through the rows of fingers 8, is thrown to the inner cylindrical surface in crushed form housing 1, from where through the discharge pipe 3 enters the consumer.

 One of the factors of the degree of grinding of the material is the number of fingers 8 simultaneously participating in this process. Therefore, if it is necessary to obtain a finished product of a different grinding fineness, part of the fingers 8 is dismantled or additionally installed, while to maintain the balance of the rotors 4 and 5, fingers 8 are disassembled or installed in pairs diametrically opposite sides of one row.

 Thus, the use of a disintegrator can reduce the manufacturing cost and operating costs, as well as expand the range of fineness of grinding of the finished product.

Claims (3)

 1. DISINTEGRATOR, comprising a housing with loading and unloading nozzles installed nozzles installed in the housing opposite each other with the possibility of rotation in opposite directions of the working bodies in the form of disks with grinding elements in the form of fingers, characterized in that, in order to simplify the design, the disks are made circular concentric grooves in which the free ends of the fingers of the opposite working body are placed.  2. The disintegrator according to claim 1, characterized in that, in order to increase the service life, the fingers are mounted to rotate around its own axis.  3. The disintegrator according to claim 1, characterized in that, in order to expand the range of fineness of grinding, the fingers are removable.

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