RU131997U1 - Vibrator mill - Google Patents

Abstract

1. Vibratory mill containing unbalanced vibrator, cylindrical grinding chambers with grinding bodies in a housing mounted on elastic supports, and shells mounted on rocker arms mounted on elastic supports, characterized in that in the lower part of the grinding chambers retractable grates with holes are additionally installed in the grinding zone, and the grinding bodies are made in the form of containers with a lined working surface on which wedge-shaped teeth are fixed, while the containers are filled with coarse-grained bulk material. 2. The vibration mill according to claim 1, characterized in that elastic aprons are fixed at the ends of the grinding chambers.

Description

The utility model relates to devices for producing wood fiber mass and can be used in peat, wood processing and other industries.

A device for crushing tile bodies containing a lattice vibrating table and a crushing organ located above it, made in the form of a flat load freely applied to the crushed body, the working surface of the vibrating table is made concave and the crushing organ is convex (SU, No. 1366214, V02C 19/16 23/00, 1988).

The disadvantages of this device are the low speed and significant energy consumption of the crushing process, as well as the heterogeneity of the fractional composition of the final product.

Known vibration mill, adopted for the prototype used to produce wood fiber mass, containing an unbalanced vibrator, cylindrical grinding chambers with grinding bodies in a housing mounted on elastic supports, and shells mounted on the rocker arms. In addition, the vibratory mill is equipped with grinding fang-shaped segments located on grinding chambers and made of metal or cermets (RU, No. 2302904, В02С 19/00, 2007).

The disadvantages of this device are the suspended energy intensity and heterogeneity of the grinding, significant ablation of fine fractions from the working area and the sticking (hang) of the crushed product on the grinding bodies.

The objective of the utility model is to develop a device that provides intensive grinding of fibrous material with simultaneous separation of fine fractions.

The technical result of the utility model is to reduce energy intensity, increase the uniformity of grinding and improve the operational capabilities of the device by ensuring the effective separation of fibrous particles of the crushed product from the surface of grinding media.

The task and the specified technical result are achieved in that the vibration mill contains an unbalanced vibrator, cylindrical grinding chambers with grinding bodies in a housing mounted on elastic supports, and shells mounted on rocker arms mounted on elastic supports. According to a utility model, retractable grate grates with holes in the grinding zone are additionally installed in the lower part of the grinding chambers, and grinding media are made in the form of containers with a lined working surface on which wedge-shaped teeth are fixed, while the containers are filled with coarse-grained bulk material. In addition, elastic aprons are fixed at the ends of the grinding chambers.

The presence in the proposed design of a retractable grate with holes and the presence of sphenoid teeth ensures the combination and acceleration of two operations (grinding and separation) and improves the quality of the grinding product - the uniformity of its fractional composition, and also reduces the energy consumption of the grinding process by 5-10%. The wedge-shaped shape of the teeth favors the splitting and splitting of the particles of the processed material into fibers. During operation of the vibratory mill, the ablation of small fibrous fractions from the grinding zone is reduced by means of elastic aprons located at the ends of the grinding chambers. The reciprocating movement of the grinding bodies and the influence of an alternating air flow favors the cleaning of the openings of the grate and depressions between the sphenoid teeth from freezing or adhering fibrous particles. In addition, the reduction in the mass of the vibration mill is achieved through the use of tanks filled with bulk material (for example, river sand) as grinding bodies.

The utility model is illustrated by drawings, where in Fig.1 shows a General view of the device, its cross section, in Fig.2 shows the shape of the sphenoid teeth.

The vibratory mill contains an unbalanced vibrator 1, cylindrical grinding chambers 2 with grinding bodies 3. The grinding chambers 2 are mounted in a housing 4 mounted on elastic supports 5. The shells 6 are mounted on the rocker arms 7 located on the elastic supports 8. The grinding chambers 2 are made in the form of horizontally arranged cylindrical rings 9, inside which are inserted retractable grate 10, equipped with elongated holes 11 located parallel to the longitudinal axis of the device. In the working grinding zone in the ring 9, holes are also made that allow the passage of the finely ground product. The grinding body 3 on the surface facing the grate 10 is coated with a lining with wedge-shaped teeth fixed to it 12. For loading the source material and unloading the crushed product, lock gate feeders (not shown) can be used located at the ends of the grinding chambers 2 and covered with elastic aprons (not shown in the drawings). Sphenoid teeth 12, it is advisable to alternate along the length of the grinding body in 3 rows parallel or perpendicular to the longitudinal axis of the device. Wedge-shaped teeth 12 are mainly made of impact-resistant alloy steel grade 9XC, which helps to intensify the grinding of fibrous material and increase the durability of the grinding organ. The grate 10, it is advisable to make from alloy steel grade 110G13L.

The device operates as follows. When the shaft of the unbalanced vibrator 1 rotates, the housing 4, with grinding grinding chambers 2 and shells 6 mounted on it, makes circular oscillatory motions on the elastic supports 5 and 8. These vibrations are transmitted through grinding material 3 to the grinding bodies 3 and at the same time to the sphenoid teeth 12.

Thus, intensive grinding of dispersed materials is ensured, incl. wood chips and peat with woody and plant debris. In this case, their predominant splitting (separation) into oblong fibers occurs.

The dynamic characteristics of the movement of the wedge-shaped teeth 12 are governed by a change in the rigidity of the elastic supports 5 and 8 and the size of the gap between the working surface of the grate 10 and the grinding body 3. The feed material loaded into the grinding chambers 2 is crushed and simultaneously transferred to the unloading zone. In this case, particles of a certain fineness pass through the holes 11 of the grate 10 and can be used selectively. The loading of raw materials into the vibrating mill can be continuous or batch, and the unloading of the crushed product with sufficient loading can be continuous.

To reduce the weight of the vibrating mill within 20-30%, the grinding bodies 3 will be filled with loose medium (for example, river sand). The reduction of losses of the processed material in the form of small particles and the elimination of clogging by the fiber fraction of the holes 11 of the retractable grate 10 is ensured by the use of elastic aprons located at the ends of the grinding chambers 2.

The small size and weight, as well as the high intensity of grinding of fibrous materials with the achievement of a uniform fractional composition of the final product, make it possible to use the proposed vibratory mill as a portable, mobile laboratory or industrial unit.

The utility model is currently at the technical proposal stage.

Claims (2)

1. Vibratory mill containing unbalanced vibrator, cylindrical grinding chambers with grinding bodies in a housing mounted on elastic supports, and shells mounted on rocker arms mounted on elastic supports, characterized in that in the lower part of the grinding chambers retractable grates with holes are additionally installed in the grinding zone, and the grinding bodies are made in the form of containers with a lined working surface on which wedge-shaped teeth are fixed, while the containers are filled with coarse-grained bulk material. 2. The vibro-mill according to claim 1, characterized in that elastic aprons are fixed at the ends of the grinding chambers.

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