RU179643U1 - CAMERA FOR DESTRUCTION OF CELL STRUCTURES OF VEGETABLE TISSUES - Google Patents

Abstract

The utility model relates to devices for destroying the cellular structures of plant tissues, for example, shells of grain during fine grinding, mixing and homogenization in liquid-solid systems. The technical task of the utility model is to make it possible to increase the simultaneous volume of fragmentation of the cellular structures of plant tissues during operation chambers. The technical task is performed due to the fact that the chamber for the destruction of cellular structures of plant tissues, containing a working chamber, which is built a system of electrodes and a mesh partition for placement of crushed materials on it, characterized in that a system of electrodes made in the form of combs is rigidly fixed inside the working chamber, and the individual vertices of the combs are electrically insulated from each other by inserts of non-conductive material that are rigidly attached to the inner surface of the working chamber and have channels for connecting the combs with a source of electricity, and a sieve is installed on the bottom of the working chamber, the hole diameter is 1.2 mm particle particle chambers and delays of larger particles in the zone of maximum electro-hydraulic impact for further deformation.

Description

The utility model relates to devices for the destruction of cellular structures of plant tissues, for example, shells of grain during its fine grinding, mixing and homogenization in liquid-solid systems.

There are known attempts to use the electro-hydraulic effect for grinding solid materials (L. Yutkin. Electro-hydraulic effect and some possibilities of its application. L., LDNTP, 1959, 16 pp.) [1].

The closest device to the claimed is a device for grinding materials using electro-hydraulic shocks (RF patent No. 567351, V02C 23/00, 05.15.83, Yutkin LA, Goltsova LI) [2], containing a working chamber in the form a parallelepiped with a bottom in the form of a semicylinder, in which a system of electrodes and a mesh partition are built to accommodate crushed materials on it.

A disadvantage of the known design is the insufficiently high efficiency of the grinding process, due to the dispersion of the material flow at the entrance to the interelectrode zone and poorly developed electro-hydraulic effect, the most effective in the gap between the electrodes.

The technical task of the utility model is to make it possible to increase the simultaneous volume of fragmentation of the cellular structures of plant tissues during the operation of the chamber.

The technical task is performed due to the fact that the chamber for destroying the cellular structures of plant tissues contains a working chamber, in which a system of electrodes and a mesh partition for placement of crushed materials are integrated, characterized in that the system of electrodes made in the form of combs is rigidly fixed inside the working chamber moreover, the individual vertices of the combs are electrically insulated from each other by inserts of non-conductive material, which are rigidly attached to the inner surface of the working chamber and and eyut channels for connection to a source of electricity to the combs, but also on the bottom of the processing chamber is installed a sieve opening diameter of 1.2 mm, to release grain particles and the delay chamber of larger particles in the zone of maximum exposure to electro further deformation.

The figure shows a General view of the chamber for the destruction of cellular structures of plant tissues, where indicated by pos. 1 - funnel; pos. 2 - a working chamber; pos. 3 - electrode; pos. 4 - comb; pos. 5 - insert; pos. 6 - channel; pos. 7 - a source of electricity; pos. 8 - sieve; pos. 9 - unloading chamber; pos. 10 - nozzle; pos. 11 - pipe.

The chamber for the destruction of cellular structures of plant tissues works as follows. Cellular structures of plant tissues, for example, grain (as an option, wheat or rye, previously aged with a solution of sodium chloride), enter through a funnel (1) (as an option, loading) into the working chamber (2) (as an option, made in the form of a trapezoid with a bottom in the form of a half cylinder). To the side wall of the working chamber (2) there is a rigidly (welding seam) electrode (3) integrated (as an option, several, forms a system). The electrode (3) is made in the form of a comb (4) (as an option, with electrically insulated individual vertices). On the inner surface of the working chamber (2), an insert (5) is fixed (several, of non-conductive material, as an option), as well as a channel (6) is fixed for connecting the comb (4) to an electric power source (7) and at the same time allows to insulate the electrode (3 ) from the working chamber body (2). A sieve (8) is fixed on the bottom of the working chamber (2) (as an option, the hole diameter is 1.2 mm) for separating grain particles of a given size and delaying larger particles in the zone of maximum electro-hydraulic action for further grinding. An unloading chamber (9) is rigidly fixed to the outer part of the bottom of the working chamber (2), in the walls of which a nozzle (10) and a drain pipe (11) are rigidly fixed.

The chamber for the destruction of cellular structures of plant tissues works as follows. Through a funnel (1) the grain, previously soaked in a solution of sodium chloride, is fed into the working chamber (2). As the working chamber (2) is filled with grain, it is pressed tightly against the electrode (2). After filling the working chamber (2) with grain (12), an electrical impulse is supplied between the individual vertices of the combs (4) located on opposite sides of the grinding chamber (2). An electric discharge occurs, the direction of which is formed by the insert (5). The electric current passing through the grain particles soaked in saline and having acquired electrical conductivity instantly turns the moisture contained in the internal pores into steam, “tearing” them from the inside and separating the particles into smaller segments. Moving vertically towards the bottom of the working chamber (2), the crushed grain particles are repeatedly subjected to electro-hydraulic action and, reaching the partition (5), pass into the discharge chamber (9), where they are removed from the nozzle (10) by a specially prepared liquid solution through drain pipe (11). Large particles that have not passed through the openings of the sieve (8) are repeatedly subjected to electro-hydraulic action (deformation) until their sizes correspond to the required sizes.

Thus, the proposed camera for the destruction of the cellular structures of plant tissues differs by its novelty and significant differences from the prototype, provides new useful characteristics, allows you to increase the simultaneous volume of crushing of the cellular structures of plant tissues during the operation of the camera.

Literature:

1. Yutkin L.A. Electro-hydraulic effect and some possibilities of its application. L., LDNTP, 1959, 16 pp.

2. RF patent No. 567351, В02С 23/00, 05.15.83, Yutkin LA, Goltsova L.I.

Claims (1)

A chamber for destroying the cellular structures of plant tissues, comprising a working chamber, in which an electrode system and a mesh baffle are installed to accommodate crushed materials, characterized in that a system of electrodes made in the form of combs is rigidly fixed inside the working chamber, and the individual vertices of the combs are electrically insulated from each other with inserts of non-conductive material, which are rigidly attached to the inner surface of the working chamber and have channels for connecting the combs to the source ohm of electric power, as well as on the bottom of the working chamber, a sieve with a hole diameter of 1.2 mm is installed to release the chamber of grain particles and delay larger particles in the zone of maximum electro-hydraulic impact for further deformation.

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