RU140131U1 - GRINDER WITH PNEUMATIC DOWNLOAD OF MATERIAL - Google Patents

Abstract

A crusher with pneumatic loading of material, comprising a casing, a sieve is attached to its inner surface, a lid, to which an inlet pipe, an electric motor, and a rotor-fan are attached to the outer surface, characterized in that the hammers are mounted on the ends of the rotor-fan blades, which, in turn, giving rigidity and structural strength are fastened together by a ring.

Description

The utility model relates to the feed industry, namely, equipment for grinding grain crops for animal feed.

Known crusher in the composition of a small feed mill for grinding the original grain components, containing a housing on which a flange electric motor is mounted, on the shaft of which a fan impeller and a hammer rotor are mounted. The rotor is made in the form of a hub with two disks, between which there are axles, each with a set of hammers and bushings between them [see Patent No. 2185081, IPC ⁷ A23N 17/00, B02C 9/00, B02C 13/04, 2002].

The disadvantages of this hammer crusher in connection with the use of a fan impeller mounted on the outside of the grinding chamber are the large overall dimensions of the crusher body, high metal consumption, low throughput.

Closest to the technical solution to the proposed utility model is a hammer mill, consisting of a casing, a frame, an electric motor mounted on it, a body made in the form of a snail. A hammer rotor is mounted inside the housing. The hammer rotor is made in the form of a hub with internal and external disks, between which there are axles, each with a set of hammers, and fan blades attached to the internal disk, which are made in the hammer rotor of a radial shape, and at the exit from the hammer rotor in a logarithmic spiral. In this case, the axles are mounted on the internal disk cantilever, which allows you to change hammers with less labor. A sieve is attached to the inside of the crusher body. The crusher has a suction and discharge nozzles. The suction pipe is aligned with the hammer rotor shaft and is mounted on the outer surface of the cover, [see Patent No. 129843, IPC B02C 9/00, 2013].

The disadvantage of this design is the inability to install additional rotor-fan blades (no more than four pieces) due to the limited space occupied by the hammer packages, which does not allow to increase the aerodynamic characteristics of the crusher, and, therefore, its efficiency, all other things being equal.

The utility model is aimed at solving the following problems: to ensure, due to the design of the crusher, an increase in its throughput, an increase in the quality of the finished product, and a decrease in metal and energy consumption.

The technical result is achieved due to the fact that in the crusher containing the housing, to the inner surface of which the sieve is attached, a cover, to the outer surface of which the suction pipe, the electric motor is attached, hammers are installed at the ends of the rotor-fan blades. The blades, in turn, to give rigidity and structural strength are fastened together by a ring and welded to the hub of the rotor-fan. The implementation of hammers at the ends of the blades of the rotor-fan allows us to simplify the design of the crusher, reduce metal consumption and improve its aerodynamic characteristics due to the installation of additional blades.

Figure 1 shows a front view; figure 2 - view of the rotor-fan Crusher consists of a casing 1 (figure 1), frame 2, mounted on it an electric motor 3, the housing 4, made in the form of a snail. Inside the housing 4 mounted rotor-fan 5.

A sieve 6 is attached to the inner side of the casing 4 (Fig. 1) of the crusher. The crusher has a suction pipe 7 and a discharge pipe 8. The suction pipe 7 is mounted on the outer surface of the cover 9.

The crushing chamber is formed by the inner wall of the housing 4, the lid 9 and the sieve 6 (figure 1).

The rotor-fan contains hammers 10 (Fig. 2) mounted on the ends of the blades 11, which, in turn, are fastened together by a ring 12 to impart rigidity and structural strength. The blades 11 are welded to the hub 13 of the rotor-fan.

Crusher works as follows.

When the electric motor 3 is turned on, under the action of the rotor-fan 5, a vacuum is created inside the crushing chamber, due to which the crushed material enters the crushing chamber through the suction pipe 7. The grinding of the material occurs as a result of repeated interaction of the hammers 10 (FIG. 2) of the rotor-fan 5 (FIG. 1) and the sieve 6. The finished product is sifted through the openings of the sieve 6 (FIG. 1) and through the pumping 8 it enters the precipitator or other container.

As a result, the task of increasing throughput, reducing metal and energy consumption, improving the quality of the finished product, reducing the overall dimensions of the crusher is solved by the design of the rotor-fan of the crusher with pneumatic loading of the material.

Claims (1)

A crusher with pneumatic loading of material, comprising a casing, a sieve is attached to its inner surface, a cover, to which an intake pipe, an electric motor, and a rotor-fan are attached to the outer surface, characterized in that the hammers are mounted on the ends of the rotor-fan blades, which, in turn, giving rigidity and structural strength are fastened together by a ring.

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