RU2787723C1 - Vibrating jaw crusher - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. A vibrating jaw crusher for grinding grain material is proposed, containing spring supports, a frame to which active crushing jaws, passive crushing jaws, unbalanced vibration exciters, and a loading hopper are suspended on torsion axles. In the neck of the loading hopper, a grain stimulator is installed in the form of a triangular prism, made with the possibility of rotation around the axis and directed upwards. The passive crushing jaw is made in the form of two different-sized trapezoidal prisms placed one above the other, directed by the smaller bases towards each other, a horizontal hinge is installed at the place of their connection. The base of the upper trapezoidal prism of the passive crushing jaw is placed with a gap under the triangular prism of the grain stimulator, while the gap between the base of the triangular prism of the grain stimulator and the upper trapezoidal prism of the passive crushing jaw is less than the turning radius of the latter.

EFFECT: device provides high efficiency when grinding fodder grain.

1 cl, 1 dwg

Description

The invention relates to vibrating jaw crushers and can be used for grinding fodder grain.

Known vibrating jaw crusher containing spring bearings, a housing to which are suspended active crushing jaws, driving vibration exciters, a hopper (RU 2228221, 10.05.2004).

The disadvantage of this design is the low productivity when used for crushing grain crops.

The closest in its technical essence is a vibrating jaw crusher containing spring supports, a body to which active crushing jaws are suspended, driving vibration exciters, a hopper (RU 2759864, 12/21/2020).

Its disadvantage is the low level of productivity and high energy consumption due to the large number of active crushing jaws. With a decrease in the number of cheeks, the unloading opening of the bunker decreases, as a result of which, when working on grain with a slight excess of moisture, it hangs in the hopper neck and uneven outflow is observed on both sides of the cheeks.

The main problem solved by the present invention is to increase the productivity of the crusher and thus reduce energy costs.

The technical essence is achieved by increasing the uniformity of the supply of grain material from both sides of the pendulum cheek to the grinding chamber.

Vibrating jaw crusher for grinding grain material, containing spring supports, a frame to which active crushing jaws, passive crushing jaws, unbalanced vibration exciters are suspended on torsion axes, a loading hopper, characterized in that a grain stimulator in the form of a triangular prism is installed in the neck of the loading hopper made with the possibility of rotation around the axis and directed upwards, while the passive crushing cheek is made in the form of two different-sized trapezoidal prisms placed one above the other, directed by smaller bases towards each other, and at the junction of the trapezoidal prisms there is a horizontal hinge, the base of the upper trapezoidal prism of the passive the crushing cheek is placed with a gap under the triangular prism of the grain stimulator, while the gap between the base of the triangular prism of the grain stimulator and the upper trapezoidal prism of the passive crushing cheek is less than the turning radius of the latter.

In FIG. 1 given crusher diagram

The crusher comprises a frame 1 with spring supports 2. Active crushing jaws 4 with unbalanced vibration exciters 5 are suspended on the frame 1 on torsion axles 3 and passive pendulum jaws 6 placed between them, a loading hopper 7. A grain stimulator 8 is installed in the neck of the loading hopper 7, made in in the form of a triangular prism, with the possibility of rotation on axis 9. The triangular prism of the grain stimulator is directed upwards. The body of passive crushing cheeks 6 is made in the form of two different-sized trapezoidal prisms 10 and 11 placed one above the other, directed by smaller bases towards each other. At the junction of the trapezoidal prisms 10 and 11, a horizontal hinge 12 is installed. the cheeks are less than the turning radius of the latter. Under the upper triangular prism of the grain stimulator 8 and the lower trapezoidal prism of the passive cheeks 6, on the active crushing cheeks 4 and passive crushing cheeks, grain flow guides 14 and 15 are placed towards each other and installed at different heights with the possibility of overlapping parts of each other.

Vibrating jaw crusher works as follows. The grain material is poured into the bin 7. Unbalance vibration exciters 5 are turned on. From the bin, the grain material enters the gap between the passive jaw 6 and the active crushing jaw 4. a trapezoidal prism 11 is placed by the grain stimulator 8, made in the form of a triangular prism. Due to the vibrations of the prism 11, it influences the grain stimulator 8, and, consequently, the amount of grain flow coming between the active 4 and passive 6 crushing cheeks. At the same time, in order to avoid turning the trapezoidal prism 11 under the grain stimulator 8, the gap between the grain stimulator 8, made in the form of a triangular prism and the trapezoidal prism 11, is less than the turning radius of the latter.

Claims (1)

Vibrating jaw crusher for grinding grain material, containing spring supports, a frame to which active crushing jaws, passive crushing jaws, unbalanced vibration exciters are suspended on torsion axes, a loading hopper, characterized in that a grain stimulator in the form of a triangular prism is installed in the neck of the loading hopper, made with the possibility of rotation around the axis and directed upwards, the passive crushing jaw is made in the form of two different-sized trapezoidal prisms placed one above the other, directed by smaller bases towards each other, a horizontal hinge is installed at the junction of the trapezoidal prisms, the base of the upper trapezoidal prism of the passive crushing jaw is placed with a gap under the triangular prism of the grain stimulator, while the gap between the base of the triangular prism of the grain stimulator and the upper trapezoidal prism of the passive crushing cheek is less than the turning radius of the latter.

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