SU411278A1 - - Google Patents

Description

one

The invention relates to the field of thermal vacuum technology, namely to the construction of a thermal pressure chamber door, and can be applied in low-temperature chambers while maintaining a reduced atmospheric pressure in the working volume.

There is a famous thermo-chamber door, consisting of power and heat-insulating panels, fitted with viewing glasses and installed to form an air gap between them.

The purpose of the invention is to reduce the size of the gap and, thereby, to reduce the loss of frost on the outer surface of the sight glass of the power panel.

This is achieved by the fact that an elastic gasket of a tubular form is attached between the panels, attached at one end to the outer surface of the power panel and providing a closed hermetic seal with the inner surface of the thermal insulation panel when it is closed.

To increase the reliability of the seal and reduce the force when opening the door, the end of the gasket adjacent to the thermal insulation panel is made in the form of a suction cup, which forms a closed vacuum cavity with the panel where the valve is installed, which communicates the vacuum cavity of the suction cup with the environment.

In order to evacuate the non-dropout on the outer surface of the sight glass of the power panel after opening the door in minus modes, as well as moisture from the air gap bounded by the gasket, and transfer them to the chamber air cooler, the working volume of the latter is communicated with the air gap cavity through the hole blocked valve, automatically triggered when the chamber is in vacuum mode.

FIG. Figure 1 shows schematically the proposed thermal pressure chamber door, longitudinal section; in fig. 2 - a valve communicating the vacuum cavity of the sucker with the environment; in fig. 3 and 4 - viewing glasses, longitudinal section.

The door of the thermo-vacuum chamber consists of a power panel 1 and a heat-insulating panel 2, equipped with viewing glasses 3 and installed with a gap between them. An elastic gasket 4 of a tubular shape is placed between the panels and is attached with one of its ends to the outer surface of the power panel. The gasket 4 provides a closed hermetic seal with the inner surface of the thermally insulated panel when it is closed. The end face of the gasket 4, adjacent to the thermal insulation panel, is made in the form of a suction cup 5 and forms with it a closed vacuum cavity 6 at the sealing point with the surface 7.

To seal the cavity 6, serves a valve 8 enclosed in a housing 9 with openings 10 communicating cavity 6 through channels 11 with the atmosphere. The valve 8 includes a rod 12, a button 13, a spring 14, which serves to tightly close the valve, and a sealing element 15 entering the seat 16.

In the power panel 1, there are openings 17 which, when a vacuum is formed in the working volume of chamber 18, are closed by valves 19 having a spring 20 to release them when atmospheric pressure is present in the working volume of the chamber. The working volume of the chamber 18 is communicated through the holes 17 of the cavity 21 with an elastic gasket 4. The valve 19 has travel stops 22 and guides 23.

When the panels I and 2 are closed between them, a cavity 27 limited by an opening 24, a sealing gasket 25, a flange 26 and a tubular elastic gasket 4 is formed.

During the operation of the thermocamera, the power panel 1 is first closed, sealed with a gasket 28 placed in the flange 26, then the thermal insulation panel 2. The gasket is sealed through the gasket 25. The cavity 21 between the glasses 3 and 29 is insulated from moisture from the atmosphere and from the cavity 27 tubular elastic gasket 4.

By means of the spring 14, the seat 16 is tightly closed with the sealing element 15 of the valve 8.

To facilitate opening of the panel 2 by overcoming the pressing force of the vacuum sucker 5, the cavity 6 communicates with the atmosphere by means of the valve 8 by pressing the button 13. The force through the rod 12 is transmitted to the sealing element 15 and pushes it away from the saddle 16. Air from the atmosphere penetrates into the cavity 6 through channels 11, holes 10 and the hole of the saddle 16.

In order to remove the ice that is deposited on the outer surface of the glass 3 of panel 1, as well as to evacuate moisture from the air gap bounded by the gasket, there are holes 17 through which moisture and frost is transferred to the working volume of chamber 18 where it is deposited on the air cooler (not shown ).

Since the low temperature production mode is prior to the vacuum mode, all the moisture accumulates until the pressure starts to decrease in the working volume of the chamber, in which the valves 19 under the action of the resulting force difference tightly block the openings 17. To open the valves 19 in the presence of atmospheric pressure in the chamber 20, limiters 22 and guides 23. The difference in forces that occurs when pressure decreases in the working volume of the chamber overcomes the opposition of the spring 20.

Subject invention

Claims (4)

1. Thermal pressure chamber door, consisting of power and heat-insulating panels, equipped with sight glasses and installed with the formation of an air gap between them, characterized in that, in order to reduce the size of the gap and decrease, therefore, falling out of the outer surface of the sight glass a power panel; an elastic gasket of a tubular shape is placed between the panels; it is attached at one end to the outer surface of the power panel and provides a closed hermetic seal with the inner surface Panel when it is closed. 2. The door of claim 1, characterized in that, in order to increase the reliability of the seal, the gasket end adjacent to the thermal insulation panel is made in the form of a suction cup, which forms a closed vacuum cavity with the latter in place of the seal. 3. A door according to claim 2, characterized in that, in order to reduce the force exerted on the heat insulating panel when it is opened, a valve is installed at the sealing point, which communicates the vacuum cavity of the suction cup with the environment. 4. A door according to claim 1, wherein, in order to evacuate the injured window on the outer surface of the sight glass of the power panel after opening the door during minus modes in the chamber, as well as moisture from the air gap limited by the gasket, and transfer them to the chamber air cooler, the cavity of the working volume of the latter is communicated with the cavity of the air gap by means of an opening blocked by a valve automatically triggered when the chamber enters the vacuum mode. 18. 26 -g Fig. 1 3 Figz Phage