SU1691136A1 - Worm press to force moisture from fibrous materials - Google Patents

Description

one

(21) 4413186/27 (22) 04.19.88 (46) 15.11.91. Bul №42

(71) Rostov-on-Don Institute of Agricultural Machine-Building and Head Experimental Design

, institute for grass and straw processing machines

(72) g. I. Protsenko, O. R. Kirishchiev, N. I. Proydak, V, A. Chernogubov, A. M. Shakhnazarov, V. N. Mumyg and A. M. Kovbas (53) 681.979.06 (088.8)

(56) USSR Copyright Certificate No. 961993, cl. B 30 B 9/18, 1980.

(54) AIR PRESS FOR PRESS

MOISTURE FROM FIBER MATERIALS

(57) The invention relates to devices for the continuous extraction of a liquid fraction.

from wet materials and can be used in the chemical, food and other industries. The purpose of the invention is to improve the quality of processing of the initial product by ensuring the stability of the degree of dehydration by automatically maintaining the counter-pressure by the throttling device. The source material is fed into the loading neck 3, captured by the screw 4 and transported along the perforated housing 2. The juice is pressed and drained into the tray 13. The degree of spinning is controlled by the elements 5 and the valves 6 of the throttling device. To change the position of the elements 5, a cam drive mechanism with cams 10 mounted on the holder 9 is used. 1 h. item f-ly, 2 ill.

Fig f

The invention relates to devices for the continuous extraction of liquid fractions from wet materials and can be used to obtain juice from green plants in the production of feed protein concentrates from them, as well as in the chemical, food and other industries,

The aim of the invention is to improve the quality of processing of the original product of the cost estimates for ensuring the stability of the degree of dehydration by automatically maintaining the counter pressure of the choke device,

FIG. depicts a press with a throttling device; in fig. 2 - section A - A in FIG. 1, a throttling device with a cam mechanism.

The screw press consists of a perforated body 2 installed on the frame 11 with a filling neck 3. Inside the body 2 there is a pressing auger 4. At the outlet of the body 2 a throttling device is installed, which consists of a system of pressure elements 5 arranged circumferentially and made in the form of levers - section, as well as valves b, spring-loaded 7. The valves 6 are fixed on the body 2 on the axis x 8 so that they have the possibility of radial movement. To move the elements 5, there is a cam mechanism consisting of a holder 9 on which the cams 10 are fixed. The holder 9 is rotatably mounted relative to the press case 2 by means of power cylinders 11. The outer edges 12 of the elements 5 have bevels. A pallet 13 is installed under the body 2 to collect the juice.

The press works as follows

 The source material is fed into the loading neck 3, captured by the screw: ohm 4 and transported along the body 2. Rpi-j this material evolves moisture, which flows into the sump 13. The amount of moisture released depends on the resistance that the throttle device exerts to the material advancement. The resistance force of the throttle device is regulated by radial displacement of the elements 5. When the position of the holder 9 is changed by means of the power cylinder 11, the cams 10 act on the elements 5, which are displaced accordingly. The contact between the elements 5 and the cams 10 is ensured by the pressure of the material on the valves 6 and the elements 5. The valves 6 have the ability

independent of the elements 5, the movement around the axis B under the action of the springs 7. Thus, a rough adjustment of the degree of dehydration is carried out by radial displacement of the elements 5. Automatic

The back pressure is maintained by valves 6. For example, if the density of the outgoing material decreases, the degree of dewatering and pressure on valves 6, which by the action of the springs approach the axis of the screw 4, decrease accordingly, reducing the counter pressure to the desired value. Conversely, with an increase in pressure on the elements 5, which leads to an increase in the degree of dehydration, the valves 6 move away from the axis of the screw 4, compared to the predetermined valve 6, the back pressure decreases and the degree of dehydration remains stable.

25

Claims (2)

1. A screw press for extracting moisture from fibrous materials, containing a perforated body with a loading neck, a juice tray and a throttling device with pressure elements installed at the body outlet, spring-loaded to the latter and hinged to the body of valves, g also By means of adjusting the movement of the pressure elements, I differ from the fact that, in order to improve the quality of processing the original product by ensuring the stability of the degree of dehydration, the pressure elements are made in the form of U-shaped levers mounted to rotate in the plane of movement of the valves, each of the valves is placed in the cavity formed by the side walls of the corresponding lever, and the means of adjusting movement are made in the form of a cage mounted to be rotated relative to the body, cams mounted on the holder, and drive it to rotate. 2. A press according to claim 1, characterized in that the levers are made with beveled end faces of the side walls. P Phi2.2 //