RU2015014C1 - Unit for disintegrating clay - Google Patents

Abstract

FIELD: devices for the treatment of soft materials. SUBSTANCE: device has a frame, a housing with a funnel and a perforated bottom a cone working member, a geared transfer mechanism with a vertical shaft. The unit is provided with scrapers and a vertically movable crossbar having guide means. The working member has the form of sectors connected to each other so as to define openings. The scrapers are disposed within the openings of the working member. Gear ratio of the drive is determined from equation i≠cosν, wherein i - a gear ratio of the drive. n - nutation angle of the cone working member. EFFECT: intensified process of disintegration. 2 cl, 3 dwg

Description

 The invention relates to devices for processing plastic materials, such as clay, and can find application in the construction materials industry, in construction and other sectors of the economy.

 Wet-milled runners are known, containing a bed, vertical and horizontal shafts, two rollers, a bowl, two clamps, two internal scrapers, a discharge arc, an unloading plate and a drive.

 The disadvantage of this device is the bulkiness of the runners, the large mass and the installed power of the electric drive.

 The closest technical solution to the invention is a chopper containing a housing with a funnel and a perforated bottom, a working conical body connected to a vertical drive by means of a swivel.

 A disadvantage of the known device is the high energy consumption of grinding.

 The aim of the invention is to reduce the energy consumption of grinding material.

This goal is achieved by the fact that the working conical body is equipped with a traverse installed with the possibility of vertical movement with guides kinematically connected to the drive transmission mechanism by scrapers, and the working body is made in the form of interconnected sectors with the formation of holes, and the scrapers are located in the holes of the conical working body, while the gear ratio of the drive is determined from the ratio
i ≠ cosν, where i is the gear ratio of the drive;
ν is the nutation angle of the working conical organ.

 The gear gear mechanism is made in the form of a cylindrical gear wheel with a gear installed with the possibility of internal engagement, the wheel being rigidly fixed to the frame, and the gear connected to the scrapers and by means of an eccentric with a vertical shaft of the drive gear mechanism, the hinge being made in the form of a double spherical hinge.

 Figure 1 shows the described device, General view; figure 2 is a section aa in figure 1; figure 3 is a section bB in figure 1.

 The clay grinding device comprises a frame 1 with vertical guides 2, along which a traverse 3 can move with a drive 4, rotatable by a drive shaft 5, rigidly connected to an eccentric angular hub 6, which is connected by means of a bearing assembly 7 to a conical working body 8, made in the form of separate elements equally spaced from each other. The drive shaft 5 also contains a fixed eccentric 9, on which a gear 10 is mounted rotatably, having an internal engagement with a wheel 11 rigidly mounted on the cross beam 3. The gear 10 is connected via a double spherical hinge 12 to a conical working body 8, in the windows of which there are scrapers 13, rigidly connected to the gear 10. The frame 1 also contains a receiving funnel 14 with a perforated bottom 15, along which the conical working body 8 and the scrapers 13 roll. The required amount of force acting on the mother L, is provided by springs 16.

 The device operates as follows. The drive 4 is turned on, which, through the drive shaft 5, the angular hub 6 and the bearing assembly 7, acts on the conical working body 8, as a result of which the latter begins to roll along the hole bottom 15. Together with the drive shaft 5, the eccentric 9 also rotates, as a result of which the gear 10 rolls around the wheel 11 and receives rotation about its axis, which is transmitted through the double spherical hinge 12 to the conical working body 8. Thus, the working conical body 8 receives rotation around its own axis, making n etsessiyu that provides rolling tapered working body on the bottom of a vented from slipping. Together with the gear 10, the scrapers 13 rotate synchronously with the conical working body 8. When the material is fed into the receiving funnel 14, the latter falls onto the hole bottom 15, where when rolling the working conical body 8 with slipping, the process of crushing (when rolling) and grinding (when slipping) . The crushed material is pressed through the holes of the hole bottom 15 and is fed for further processing. The necessary force of the impact of the conical working body 8 on the material is provided by springs 16 acting on the beam 3, which can move along the vertical guides 2 of the frame 1.

 Thanks to such a constructive solution, which provides a combination of precession and proper rotation of the conical working body, high-quality grinding of the material occurs, which allows to reduce the dimensions, weight and installed power of the drive.

Claims (2)

1. DEVICE FOR GRINDING CLAY, comprising a frame, a housing with a funnel and a perforated bottom, a working conical body connected to the vertical shaft of the gear transmission mechanism of the drive by means of a swivel connection, characterized in that, in order to reduce the energy intensity, it is equipped with a vertical movement traverse with guides kinematically connected to the transmission gear of the drive by scrapers, and the working body is made in the form of interconnected sectors with the formation of miles, wherein scrapers are located in the tapered bores of the working organ, the gear ratio of the actuator is determined from the relation
i ≠ cosν,
where i is the gear ratio of the drive;
ν is the nutation angle of the working conical organ.  2. The device according to claim 1, characterized in that the transmission gear mechanism is made in the form of a cylindrical gear wheel with a gear installed with the possibility of internal engagement, the wheel being rigidly mounted on the frame, and the gear connected to the scrapers and, with an eccentric, to the vertical shaft of the gear the drive mechanism, and the swivel is made in the form of a double spherical joint.

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