SU412879A1 - - Google Patents

Description

one

A known device for regulating pressure in installations for sterilizing filled cans contains a differential pressure sensor, a mechanopneumatic transducer and control valves mounted on a pressure and drain lines.

The purpose of the invention is to prevent product rejection due to the pressure difference in the installation and the cans.

This is achieved by the fact that in the proposed device the differential pressure sensor is a vessel for full placement of several control cans, between which gaskets are located, made in a form similar to the can covers, while the mechanopneumatic converter is connected to the upper control canal by means of a lever system.

The drawing schematically shows the proposed device installed in the installation for sterilizing filled cans, a general view.

The device includes a pressure difference sensor 1, a mechanopneumatic transducer 2, control valves 3 and 4 on the pressure side and a valve 5 on the drain lines.

The differential pressure sensor is a vessel 6 for locating several control cans 7, between which there are spacers 8, made similar to the can covers. When this mechanopneumatic transducer 2 is connected to the upper control jar 9 by

lever system. The latter includes a double-arm lever, one of which, lever 10, is located in the cylindrical case of the mechano-pneumatic converter, and the other lever 11 is out of it.

The double-arm lever is loosely rotated on the axis 12. The lever 10 is made telesonic, its movable part 13 is sunk and connected by a cylindrical hinge 14 to the bracket 15. The lower part of the bracket is pushed into the upper control jar 9 and moved with a thread by a certain distance along its vertical axis.

Under the action of the spring 16 and the stop 17, the lever 11 rotates clockwise, with

turning in both directions, it moves the balls 18 and 19 relative to the nozzles 20 and 21. The pressure of the compressed air in the latter is transmitted through the connecting tubes to the diaphragm boxes of control valves 3 and 5. In

The upper part of the installation has a nozzle 22, to which a mechanopneumatic converter is attached by means of a cap nut 23. To sterilize filled cans

cans in an aqueous medium before loading the installation in the vessel of the differential pressure sensor are placed in the direction of several control cans. Then, the movable part 13 of the two shoulders lever 10 is pushed and the bracket 15 is placed in a vertical position so that it touches the upper control jar 9. At the same time, the spring 16 is compressed by part 13 of the double arm, and both balls 18 and 19 are released and not pressed against the nozzles 20 and 21. As a result, the compressed air from the nozzles flows freely into the atmosphere and the air pressure in them is close to zero. Since the nozzle cavities are connected to the membrane boxes of the regulatory clans, the latter are closed.

As the installation warms up, the temperature and pressure in the cans increase, the can covers under the influence of overpressure deform and lift the bracket 15, which tends to turn the lever 11 counterclockwise and bring the ball 19 closer to the nozzle 21. At the same time, the pressure in the nozzle increases, which leads to that the control valve 3 opens and compressed air (or water) enters the installation, which increases the pressure as the deformation of the can lids decreases. With equal pressure in the installation and in the banks, the deformation of the caps is stopped, and the lever 11 and the balls occupy the initial initial position. The air pressure in both nozzles is approximately zero and the control valves are closed.

If the pressure in the installation increases and exceeds the pressure in the cans, for example, during cooling, the can covers are deformed inwards. In this case, the lever 11 is moved clockwise by the action of the spring 16 and the ball i8 is pressed against the nozzle 20, the pressure in which increases. As a consequence, the valve 5 on the drain line opens and the pressure in the installation drops until it is comparable with the pressure in the cans.

If sterilization of canned food is carried out in a steam environment, the pressure in the installation is raised only by compressed air and only during the cooling period, as a result of which the power supply to the device with compressed air is carried out before cooling begins.

After the sterilization cycle has ended, the pressure in the cans and in the installation is reduced to a certain value at which the installation can be opened without damaging the container. Before unloading the installation, the bracket 15 is rotated 90 ° counterclockwise and shifted together with part 13 of the two-armed lever 10 into its cavity.

Subject invention

Pressure control device in

An installation for sterilizing filled cans, comprising a differential pressure sensor, a mechanopneumatic transducer and control valves installed on the pressure and drain lines, characterized in that, in order to prevent product rejection due to the differential pressure in the installation and the cans, the differential pressure sensor is a vessel for the continuous placement of several control cans, between which there are gaskets, made in the form of lids of cans, with fur The pneumatic transducer is connected to the upper control can by means of a lever system.