RU2365413C1 - Jet mill - Google Patents

Abstract

FIELD: technological processes.

SUBSTANCE: invention is related to equipment for crushing of various loose organic or inorganic products, in particular, grains of agricultural crops, salt, chalk, gypsum. Jet mill comprises body with upper loading and side unloading windows and rotor with blades installed in body. Upper and lower covers of body that creates working chamber are arranged in the form of circle. Side wall of body is arranged as relief. Rotor is arranged in the form of plate symmetrically fixed on shaft and having blades on truncated ends, which are perpendicular and symmetrical to its plane. Unloading window is provided in side wall of body and it equipped with gate installed with the possibility of unloading window closure, and loading window is arranged along with direction of rotor rotation downstream unloading window on periphery of upper cover. Vertical reflector is installed between unloading and loading windows along the whole height of working chamber, being adjacent to unloading window and installed under part of loading window side that faces rotor, with formation of loading pocket.

EFFECT: higher efficiency of jet mill and expansion of its application field.

4 cl, 2 dwg

Description

The invention relates to equipment for grinding various loose organic or inorganic products, in particular grains of crops, salt, chalk, gypsum.

A known design of a vortex mill described in the patent of the Russian Federation No. 2103069 for the invention "Pneumatic impact vortex mill" in the class V02C 19/06, V02C 9/00, announced 02.04.1996 and published on 01.27.1998.

The specified vortex mill contains a cylindrical working chamber connected to the nozzles for loading the crushed product and for supplying compressed air, as well as with a device for unloading the crushed product, while the working chamber is equipped with stationary grinding plates forming a multifaceted prismatic surface and placed along the periphery of the inner surface of this chamber trihedral discharge prisms installed with gaps between them, and the pipe for supplying compressed air the ear is located tangentially to the outer surface of the working chamber in front of the first grinding plate, the working chamber is additionally equipped with trihedral mounting elements, in the gaps between which grinding plates are placed, and grinding plates and discharge prisms are placed in sectors constituting 200-220 °, respectively, along the arc of the cylindrical working chamber and 140-120 °.

The disadvantage of the pneumatic impact vortex mill described above is the complexity of the design, due to the need for a compressed air source to create a circular air flow forming a swirling rotational movement of the milled product, and the need for separate devices for unloading the crushed and insufficiently crushed product.

Closest to the claimed one is a vortex mill, described in the patent of the Russian Federation No. 2159535 for the invention of "Grain crusher" in class A01F 29/00, B02C 9/02, filed April 7, 1999 and published on November 27, 2000.

The known vortex mill contains a housing with upper loading and side discharge windows, a rotor and a cylindrical screen shell mounted in the housing, the mill housing is made in the form of a centrifugal fan snail, the rotor is in the form of an impeller with at least two curved blades, and on the inside the surface of the sieve shell evenly throughout the height of the working chamber installed rods having the shape of a regular prism.

The disadvantages of the known vortex mill are its low productivity and high energy consumption, due to the need to create a high pressure air stream for forcing the crushed product through the sieve shell and for organizing the air flow in the cochlea to carry this product through the outlet pipe, as well as the need for additional energy for friction of the crushed material of the product on the surface of the shell and first to discard the crushed product from the center of the impeller and the rotor, and then to engage in rotary motion in the air-grain flow. In addition, the design of this mill allows you to grind only products with certain properties, namely grain, it does not have the ability to control the degree of grinding of the product, and the design of the rotor in the form of an impeller does not allow to develop large working revolutions and crush grain with high humidity.

The task of the invention is to increase the efficiency of a vortex mill and expand its scope.

The technical result that allows us to solve this problem is to increase the speed of the air-grain flow, increase the number of collisions of particles of the crushed product, provide the possibility of grinding products having different hardness and humidity, and control the degree of grinding.

The specified result is achieved as follows.

1. In the known vortex mill comprising a housing with upper loading and side discharge windows and a rotor with blades mounted in the housing, according to the invention, the upper and lower covers of the housing forming the working chamber are made in the form of a circle, the side wall of the housing is embossed, and the rotor is made in the form of a plate symmetrically mounted on the shaft, having perpendicular and symmetrical planes on the beveled ends of the blades, the discharge window is made in the side wall of the housing and is equipped with a shutter installed with the possibility of overlapping the discharge window, and the loading window is made in the direction of rotation of the rotor behind the discharge window on the periphery of the top cover, while a vertical reflector is installed between the discharge and loading windows along the entire height of the working chamber, adjacent to the discharge window and located under part of the side of the loading window facing to the rotor, with the formation of a loading pocket.

2. In the vortex mill according to claim 1 according to the invention, the reliefs of the side wall of the housing are made from the loading to the unloading window along the rotor in the form of half cylinders with the convex side outward.

3. In the vortex mill according to claim 1 according to the invention, the reliefs of the side wall of the housing are made from the loading to the unloading window along the rotor in the form of acute angles.

4. In the vortex mill according to claim 1 according to the invention, the ends of the rotor plate having blades are beveled at an angle of 0-30 °.

The implementation of the upper and lower housing covers in the form of a circle, the embossed side wall of the housing, the rotor in the form of a plate symmetrically mounted on the shaft, having blades at the beveled ends, perpendicular and symmetrical to its plane, and the loading window being made in the direction of the rotor rotation behind the unloading window at the periphery of the upper cover allows you to increase the speed of rotation of the rotor, thereby increasing the speed of the air-grain flow, and the number of collisions of particles of the crushed product with the reliefs of the side wall of the core whisker and with each other. The establishment between the discharge and loading windows along the entire height of the working chamber of a vertical reflector adjacent to the discharge window and located under part of the side of the loading window facing the rotor, with the formation of the loading pocket, makes it possible to direct the insufficiently crushed product to the second grinding circle and to prevent the feed fed into the working the camera through the loading window of the product directly to the discharge window. All this allows grinding products with different hardness and moisture with high efficiency.

Implementation of the discharge window in the side wall of the housing and supplying it with a shutter installed with the possibility of overlapping the discharge window, allows you to adjust the degree of grinding products by changing the size of the discharge window.

Moreover, the reliefs of the side wall of the housing can be made from the loading to the unloading window along the rotor in the form of half cylinders with the convex side outward, as well as the reliefs of the side wall of the housing can be made in the form of acute angles.

The ends of the rotor plate having vanes can be beveled at an angle of 0-30 °.

The inventive vortex mill has a novelty in comparison with the prototype, differing from it in the following.

1. The upper and lower covers of the housing forming the working chamber are made in the form of a circle, the side wall of the housing is embossed, and the rotor is made in the form of a plate symmetrically mounted on the shaft, having blades at the beveled ends, perpendicular and symmetrical to its plane, the discharge window is made in the side wall of the housing and is equipped with a shutter installed with the possibility of blocking the discharge window, and the loading window is made in the direction of rotation of the rotor behind the discharge window on the periphery of the top cover, while between a vertical reflector is installed along the loading chamber along the entire height of the working chamber, adjacent to the discharge window and located under part of the side of the loading window facing the rotor, with the formation of a loading pocket,

2. The reliefs of the side wall of the housing are made from the loading to the unloading window in the direction of rotation of the rotor in the form of half cylinders with the convex side outward,

3. The reliefs of the side wall of the housing are made from the loading to the unloading window in the direction of rotation of the rotor in the form of sharp angles,

4. The ends of the rotor plate having blades are beveled at an angle of 0-30 °.

The applicant is not aware of vortex mills that have the above distinctive essential features that allow you to explicitly achieve the same technical result, therefore, the applicant believes that the claimed invention meets the criterion of "inventive step".

The inventive vortex mill can be widely used as equipment for grinding various loose organic or inorganic products, in particular grains of crops, salt, chalk, gypsum, therefore, the inventive vortex mill meets the criterion of "industrial applicability".

The inventive vortex mill is illustrated by drawings, which are presented on:

figure 1, a cross section of a vortex mill;

figure 2, a General view of the vortex mill from the bottom with the removed lower cover of the housing.

The vortex mill shown in the drawings (see FIGS. 1 and 2) comprises a housing forming a working chamber with a top cover 1, a bottom cover 2 and a relief side wall 3 with reliefs made in the form of semi-cylinders with the convex side outward. A rotor 4 is installed inside the casing in the form of a plate symmetrically mounted on the shaft of a high-speed drive electric motor (not shown in the drawings) having at the ends of the blade 5 perpendicular and symmetrical plane of the plate. The ends of the plate are beveled at an angle α equal to 8 °. The bevel angle of the rotor plate 4 depends on the hardness of the product being ground, the harder the product, the closer to the rectangular shape of the plate. To grind softer products, the bevel angle of the plate is increased to 30 °.

On the periphery of the upper cover 1, a loading window 6 is made, and in front of it against the direction of rotation of the rotor in the side wall 3 of the housing there is a discharge window 7 provided with a curved shutter 8. The shutter 8 is capable of translational movement along the side wall 3 of the housing, for which, in the middle part of the side of the wall 3, a longitudinal slot is made, and on the shutter 8 there is a clamping screw 9 passing through this slot.

Between the unloading window 7 and the loading window 6, a vertical reflector 10 is installed along the entire height of the working chamber, adjacent to the unloading window 7 and located under the third part of the side of the loading window 6 facing the rotor 4, with the formation of the loading pocket. The boot pocket is located under the portion of the boot window 6 and is limited by the side wall 3 of the housing, the vertical reflector 10 and the lower cover 2 of the housing.

All the details of the vortex mill are made of metal, and the rotor plate 4 consists of two rigidly connected metal strips, the bent edges of which form the blades 5.

Vortex mill operates as follows.

Before turning on the vortex mill, the operator fills the hopper with a gate valve at the outlet (not shown in the drawings) located above the loading window 6 with a chopped product, for example, grain. After the operator turns on the high-speed electric drive motor (not shown in the drawings), the rotor 4 mounted on the motor shaft starts rotate at high speed, its blades 5 create a circular air flow in the working chamber.

The operator opens the hopper latch (not shown in the drawings), and the grain begins to pour into the working chamber through the loading window 6, where the air flow draws it into the circular motion between the blades 5 of the rotor 4 and the side wall 3 of the housing. The grain moving at high speed repeatedly hits the raised projections of the side wall 3 and breaks into pieces, after which the crushed grain flies out through the discharge window 7 into the collector of the crushed product under the influence of inertia and pressure of the air flow (not shown).

Insufficiently chopped grain, having a large inertia force, flies past the discharge window 7, hits the vertical reflector 10 and is carried away by the air flow to the second grinding circle.

In addition, the vertical reflector 10 forms a loading pocket with the side wall 3 and the lower cover 2 of the housing, which does not allow the whole grain to be loaded directly to the discharge window 7 and directs the grain in the opposite direction, where it is picked up by an air circular flow and involved in the grinding process.

By moving the shutter 8, the operator controls the degree of grain refinement - the smaller the discharge window 7, the finer the crushed grain fractions that can fly out through it, and the higher the degree of grinding. By increasing the size of the unloading window 7, the operator reduces the degree of grain refinement, since larger pieces of grain can fly into the unloading window 7.

Adding new portions of grain through the hopper to the vortex mill, the operator grinds the desired amount of grain, after which he turns off the drive motor and the mill stops working.

The inventive vortex mill in comparison with the prototype is more efficient, has a wider scope and provides better grinding of the product.

Claims (4)

1. A vortex mill comprising a housing with upper loading and side discharge windows and a rotor with blades mounted in the housing, characterized in that the upper and lower covers of the housing forming the working chamber are made in the form of a circle, the side wall of the housing is embossed, and the rotor is made in the form of a plate symmetrically mounted on the shaft, having perpendicular and symmetrical planes of the blade at the chamfered ends, the discharge window is made in the side wall of the housing and is provided with a shutter installed with the possibility openings of the discharge window, and the loading window is made in the direction of rotation of the rotor behind the discharge window on the periphery of the top cover, while a vertical reflector is installed between the discharge and loading windows along the entire height of the working chamber adjacent to the discharge window and located under part of the side of the loading window facing rotor, with the formation of a loading pocket. 2. The vortex mill according to claim 1, characterized in that the reliefs of the side wall of the housing are made from the loading to the discharge window along the rotor in the form of half cylinders with the convex side outward. 3. The vortex mill according to claim 1, characterized in that the reliefs of the side wall of the housing are made from the loading to the unloading window along the rotor in the form of sharp angles. 4. The vortex mill according to claim 1, characterized in that the ends of the rotor plate having blades are beveled at an angle of 0-30 °.

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