RU2619702C1 - Mechanism of feeding material into screw devices - Google Patents

Abstract

FIELD: construction.

SUBSTANCE: mechanism of feeding the material into screw devices comprises a screw disposed in the housing and the loading mouth. A feeder is installed in the loading mouth perpendicular to the screw axis. The feeder axis is inclined from the vertical in the direction of screw rotation by 5-20°. On the feeder axis along the helical line, the blades are radially fixed, arranged at an angle to the plane of their rotation.

EFFECT: increasing the operational reliability of the screw device due to eliminating the material sticking on the walls of the loading mouth, and due to preventing arching as well.

5 cl, 5 dwg

Description

FIELD OF THE INVENTION

The invention relates to the building materials industry and can be used to feed sticking material into screw mixers and screw presses for the plastic molding of ceramic products.

State of the art

A screw mixer is known from the prior art (see ed. SU 927288, IPC: B01F 7/08, publ. 05/15/1982), including a screw located in the housing, loading and exhaust pipes.

A known press for molding ceramic products (see autosw. SU 1701530, IPC: B28B 3/22, publ. 12/30/1991), comprising a housing located in the housing auger connected to the drive, as well as a loading nozzle and a molding head.

In known devices during operation, the ceramic mass adheres to the side walls of the loading nozzle, mainly to the wall opposite to the rotation of the screw. The mass adhering to the walls forms visors above the screw, narrowing the cross-section of the loading nozzle, through which the mass is fed to the screw. As a result of this, the loading of the screw with mass is deteriorated, which leads to a decrease in productivity and a decrease in the operational reliability of equipment. In addition, in the receiving funnel located above the loading nozzle, the process of arch formation occurs, which also leads to a decrease in the reliability of the device.

Partially indicated drawbacks are eliminated in the screw press (see ed. SU 1036545, IPC: B28B 3/22, publ. 08.23.1983) containing a loading device with a gear feed roll, a housing with a mouthpiece, a screw located in it and a screw drive . The axis of the gear roll is equipped with blades, the length of which is limited by the surface of rotation of the screw. The blades clean the side walls of the loading chamber from adhering mass, but do not exclude the possibility of clay formation above the screw.

As the closest analogue to the claimed mechanism, by the presence of similar structural features, a device has been adopted for feeding the product into an extruder (see patent for invention RU 2409993, IPC: A23N 17/00, publ. 20.07.2009), comprising an extruder body with a pressing a screw and a loading hopper with a feed screw coaxially mounted inside. The feed auger prevents arching in the loading hopper, however, the design of the device does not allow to eliminate the effect of sticking of the material on the walls of the loading nozzle. In addition, the device has a high energy intensity, since the drive of the pressing screw requires high power.

Disclosure of invention

The claimed invention solves the problem of increasing the operational reliability of a screw device by eliminating the sticking of material on the walls of the loading neck, as well as by preventing arching.

The problem is solved due to the fact that in the mechanism for supplying material to the screw devices containing the screw located in the housing, the loading neck with the feeder installed perpendicular to the axis of the screw and the drive of the feeder, according to the claimed invention, the axis of the feeder is inclined from the vertical to the side of rotation of the screw, and on the axis of the feeder blades are radially fixed, located at an angle to the plane of their rotation.

The above set of essential features of the claimed invention allowed to obtain the following positive technical results.

Firstly, when the screw device is working with materials that are prone to sticking, a gradual increase in the ceramic mass on the wall of the loading neck, counter-rotating the screw. The mass adhering to the wall forms a kind of visor above the screw, narrowing the cross section of the loading neck, through which the mass is fed to the screw. As a result of this, the loading of the screw with mass is deteriorated, which leads to a decrease in productivity and a decrease in the operational reliability of the equipment. The inclination of the axis of the feeder from the vertical in the direction of rotation of the screw allows the blades to enter the gap between the side wall of the loading neck, the counter rotation of the screw and the screw. At the same time, the blades located at an angle to the plane of rotation push the mass towards the screw, performing the function of the feeding screw and cleaning the wall of the loading neck of sticking clay.

In addition, when the feeder is rotated, the blades radially fixed on its axis stir up the material in the loading neck, preventing clay from hanging and the formation of arches.

Thus, the above technical results together provide an uninterrupted supply of ceramic mass to the screw and, therefore, can improve the operational reliability of the screw device.

In the particular case of the invention, the angle of inclination of the axis of the feeder is 5-20 °. When the angle of inclination is less than 5 °, the blades will not enter the gap between the side wall of the loading neck, counter-rotating the screw and the screw, and will not be able to push the material adhering to the wall to the working body. If the angle of inclination is greater than 20 °, it is possible to engage the feeder blades with the screw or shaft of the screw, which can lead to breakage of the screw device.

Thanks to the installation of the blades on the axis of the feeder along a helix, not only tedding of clay material in the loading neck is ensured, but also its forced feeding and preloading to the screw, as during the operation of the screw feeder.

For the same purpose, the angle of inclination of the feed blades to the plane of their rotation is 25 °.

Due to the edges bent downwards, the blades penetrate better into the inaccessible parts of the gap between the screw and the side wall of the loading neck, allowing it to be cleaned more efficiently.

Brief Description of the Drawings

The essence of the proposed technical solution is illustrated by drawings, which depict:

in FIG. 1 - the inventive mechanism, General view, a longitudinal section;

in FIG. 2 - the inventive mechanism, a cross section;

in FIG. 3 - feeder;

in FIG. 4 - loading neck with adhering material with a vertical arrangement of the feeder;

in FIG. 5 - loading neck with adhering material with an inclined arrangement of the feeder.

The implementation of the invention

The material feed mechanism to the screw devices comprises a horizontal housing 1, a screw 2 located therein and a loading neck 3. In the loading neck 3, a feeder 4 is installed perpendicular to the axis of the screw 2. The axis of the feeder 4 is inclined 5-20 ° from the vertical in the direction of rotation of the screw. On the axis of the feeder 4 along the helical line blades 5 are radially fixed, located at an angle to the plane of their rotation of 25 °. The edges of the blades 5 are bent down. The feeder 4 is equipped with a drive 6 mounted on the loading neck 3.

The mechanism works as follows.

The belt feeder 7 feeds the ceramic mass into the feed neck 3. The blades 5 feed the mass to the screw 2, which transports it in the housing 1. Due to the inclination of the feed axis 4 from the vertical to the direction of rotation of the screw 2, the blades 5 go into the gap between the side wall of the feed neck 3 counter to the rotation of the screw and the screw 2, cleaning the said wall of sticking clay 8. The edges of the blades 5, bent downwards, reaching hard-to-reach areas, allow more efficient cleaning of the walls of the loading neck 3. At the same time, they are located at an angle to the plane rotations of the blade 5 push the mass towards the screw 2. In addition, when the feeder 4 is rotated, the blades 5 mounted on its axis along the helical line rotate the material in the loading neck 3, preventing the arch formation. The rotation speed of the feeder 4 is synchronized with the rotation speed of the screw 2.

Thanks to the claimed mechanism, it was possible to eliminate the sticking of ceramic material to the walls of the loading neck, leading to the overgrowth of its bore and the formation of peaks above the screw, thereby increasing the operational reliability and performance of the screw device. In addition, it was possible to prevent arching in the loading neck.

Claims (5)

1. The mechanism for feeding material into screw devices, comprising a screw located in the housing, a loading neck with a feeder installed perpendicular to the axis of the screw and a drive of the feeder, characterized in that the axis of the feeder is inclined from the vertical to the side of rotation of the screw, and the blades located radially on the feed axis at an angle to the plane of their rotation. 2. The mechanism according to p. 1, characterized in that the angle of inclination of the axis of the feeder is 5-20 °. 3. The mechanism according to p. 1, characterized in that the blades on the axis of the feeder are installed along a helical line. 4. The mechanism according to claim 1, characterized in that the angle of inclination of the blades to the plane of their rotation is 25 °. 5. The mechanism according to claim 1, characterized in that the edges of the blades are bent down.

Images