RU196578U1 - Device for the disintegration of biological material - Google Patents

Abstract

The utility model relates to devices for the disintegration of biological material and can be used in the field of medicine, biotechnology and in scientific research. A device for the disintegration of biological material is proposed, which consists of a rotary fixed cover, an internal pressure cylinder, a rotor, a pressure plate, a disintegrating grid, a rotor blade, an outer cylinder and a receiving chamber connected in series to a single structure, wherein the fixed rotary cover and the pressure cylinder contain through openings in the form of a sector, which are located so that when the rotary cover rotates around the rotor, the openings of the rotary cover and the inner pressure cylinder Pa coincide, giving access to the receiving chamber. At the same time, a protrusion in the form of a cylinder is located on the edge of the rotary cover, which limits the rotation of the rotary cover to 180 degrees. The device provides a significant reduction in the risk of contamination by microorganisms from the environment of biological material. 2 ill.

Description

The utility model relates to devices for the disintegration of biological material and can be used in the field of biotechnology, medicine, as well as in scientific research.

A known disintegrator for destroying biomass cells containing a biomass tank connected by pipes in series on one side through a three-way valve and pump with the lower part of the housing for the resonator, on the other hand, through a three-way valve with the upper part of the housing for the resonator, in which the resonator is located on its outer surface, magnetrons with a radiation frequency of 3 × ^{10 8} to 3 × ^{10 10} Hz, connected by wires through one of the ventilation holes to the power and control unit through the cover, p adjacent to the housing for the resonator by means of a bolt connection, while inside the resonator there is installed a spiral pipe made of non-magnetic material permeable to microwave radiation, with coils equidistant from the inner wall of the resonator by a distance of 0.1-0.15 of its diameter, connected by free upper and lower ends with pipes using couplings, and the ratio of the height of the capacity for biomass to its diameter is at least 4 (RU 180045 U1, 05/31/2018).

A known installation for the disintegration of microorganisms, consisting of a thermostatically controlled cylindrical grinding chamber filled with grinding bodies with inlet and outlet channels located respectively in the center and on the periphery of the grinding chamber, and equipped with a mixing device in the form of a disk mounted on a shaft and a drive, with the aim of increasing performance in the processing of highly viscous concentrated suspensions of microorganisms, the installation is equipped with additional coaxially arranged one after the other the shaft with grinding chambers with mixing devices having a design similar to the main one, while the outlet pipe of each previous chamber is communicated in the direction of the suspension with the pipe, the inlet of the subsequent chamber, and the unit is equipped with a turbine mixer located in front of the main preparatory chamber for preliminary disaggregation of microorganisms ( SU 977487 A1, 11/30/1982).

A device for the disintegration of biological material is known, characterized in that it consists of a removable rotary cover, an internal pressure cylinder, a rotating rotor, a pressure plate, a disintegrating net, a rotor blade, an external cylinder and a receiving chamber, which are located in the cartridge holder and connected in series fixed by a connecting cylinder (EA 201731192 A1, 11/30/2017).

The main disadvantage of the known devices is the inability to maintain the sterility of the used biological material, due to the mandatory contact of the material with the environment when removing the cover. At the same time, the risks of contamination of the loading chamber and the lid itself are also high.

The task to which the proposed utility model is directed is to create a highly efficient and convenient device for the disintegration of biological material during operation.

The technical result achieved when solving the problem is to significantly reduce the risk of seeding by microorganisms from the environment of the used biological material.

To achieve the technical result, a device for the disintegration of biological material is proposed, which consists of a rotary fixed cover, an internal pressure cylinder, a rotor, a pressure plate, a disintegrating net, a rotor blade, an outer cylinder and a receiving chamber, connected in series to a single structure, and a non-removable rotary cover and the pressure cylinder contain through holes in the form of a sector, which are located so that when the rotation of the rotary cover around the rotor of the hole rotary lid and the internal pressure of the cylinder match, the access opening to the receiving chamber, the rotary lid on the edge of the protrusion is in the form of a cylinder, which limits the rotation of the rotatable cover 180 degrees.

In FIG. 1, 2, 2-1 shows a diagram of the device.

A device for the disintegration of biological material contains:

1 - rotary fixed cover;

2 - internal clamping cylinder;

3 - rotor;

4 - pressure plate;

5 - disintegrating mesh with holes;

6 - rotor blade;

7 - outer cylinder;

8 - receiving camera.

The design and operation of a device for the disintegration of biological material is discussed in detail below.

The proposed device consists of a rotatable non-removable cover of the device (1), which is a plate, preferably a round shape with a central circular hole from which the part of the rotor (3) comes out, around which the non-removable cover (1) can rotate clockwise and 180 degrees counterclockwise. The lid also contains a hole in the form of a sector, preferably about one third of the surface of the lid, which is designed to load biological material into the device. On the lower surface of the lid along its rim there is a ridge protrusion designed to fit it more tightly to the outer cylinder of the device (7), as well as a protrusion in the form of a cylinder on the edge of the rim of the lid, acting as a limiter for rotation of the lid around the rotor (3), due to that this cylinder during movement of the cap abuts against a corresponding protrusion on the housing of the device, thereby restricting the rotation of the cap to 180 degrees. At the same time, a 180-degree rotation counterclockwise opens the loading chamber, and a 180-degree rotation clockwise closes it. Opening the receiving chamber of the device, which is limited from above and from the sides by the inner pressure cylinder (2), and from below by a disintegrating net with holes (5), without parsing it, is achieved not only due to the design of the cover (1), but also due to the design of the internal pressure cylinder (2). This part is a hollow cylinder that fits tightly into the outer cylinder of the product (7), the upper part of which is half blind and has a ring-shaped guide for the rotor (3) in the center, the second half is free and allows access to the receiving chamber (8). The lower part of the cylinder presses the disintegrating net of the device (5) around the circumference and makes it non-movable during operation of the device. When turning the cover (1) counterclockwise 180 degrees to the stop, the unclosed upper part of the pressure cylinder (2) and the opening of the cover in the form of a sector (1) are combined, giving access to the receiving chamber (8), and when turning the cover (1) 180 degrees clockwise until it stops, access to the loading chamber is closed, making the device airtight. The central annular guide of the inner pressure cylinder (2) provides horizontal stability to the rotating rotor of the device (3) when it is rotated during operation of the device.

Thus, the use of the proposed device revealed a significant reduction in the risk of seeding by microorganisms from the environment of biological material.

Claims (1)

A device for the disintegration of biological material, characterized in that it consists of a rotary fixed cover, an internal pressure cylinder, a rotor, a pressure plate, a disintegrating net, a rotor blade, an outer cylinder and a receiving chamber, connected in series to a single structure, and a fixed rotary cover and a pressure cylinder contain through holes in the form of a sector, which are located so that when the rotation of the rotary cover around the rotor, the holes of the rotary cover and the internal clamp cylinder coincide, allowing access to the receiving space, the edge of the rotary lid on the protrusion located in a cylinder, which limits the rotation of the rotatable cover 180 degrees.

Images