SU777328A1 - Apparatus for thermostatically controlling of object - Google Patents

Description

The invention relates to heat engineering and can be used to thermally stabilize an object to maintain its temperature in a given range under conditions of an environment with sharply temporal temperature.

The well-known screen insulation for thermal protection of objects, which is a package made of materials with low absorption and high reflectivity of the screens that form it, the cavities between the screens of the vacuum exhaust fl.

The disadvantages of this isolation is that with variable temperature conditions of the object and the environment, the thermal resistance of the insulation remains unchanged even if this change in the ratio of the temperatures of the object and the environment when heat exchange between them becomes desirable.

The aim of the invention is to maintain the temperature regime within the prescribed limits without additional energy costs.

This goal is achieved by the fact that the screens of each cavity are interconnected by mutually perpendicular partitions made of capillary material, and the cavities are filled with coolant, and one of the cavities is filled with coolant with freezing temperature equal to the lower temperature limit of the object temperature and the other - coolant with a critical temperature equal to the maximum permissible temperature limit of the object.

FIG. 1 shows a general view of the device; “And FIG. 2 is a cross section of FIG. one.

10 The device consists of two-evacuated cavities 1 and 2, surrounding the object and being formed by the screens 3-5. In each cavity, a capillary structure 6 is placed adjacent to the inner walls of the cavities and forming mutually perpendicular partitions connecting the expansion walls. Each cavity is filled with pre-selected, depending on the mode of operation of the object,

20 with the coolant, the cavity J is filled with the coolant, the point behind the merzapi of which is equal to the lower permissible limit of the operating temperature of the object, and the cavity 2 with the coolant with a critical rate of 25 degrees equal to the upper limit of the operating temperature of the object.

Each coolant, evaporating on one of the two screens, which form the cavities / or 2, condenses on the other.

30 Condensate returns to the heat exchange zone by capillary septums, which increase mass transfer rates and have holes for better pressure equalization inside the cavity. During the operation of the device, the screen 4 serves as an evaporator for one polospee and a condenser for the other cavity. The device provides the following mode of heat exchange between the object and the environment.

At G about 7sr about o6.min,

where Geb is the temperature of the object; Tob - minimum permissible object temperature; HSR is the temperature of the environment; there is a diversion from the object to the environment until the temperature of the object reaches T o mini in this case, the coolant in the cavity / freezes, because its freezing point is equal to Gobt1, the heat removal from the object ceases.

When conditions change for the benefit. When defrosting the coolant does not represent a problem, since the distance between the evaporator and the condenser (between screens 4, 5) is small.

TGP; Gob Gobp1ah,

where Gob max - (the temperature of the object is maximally permissible, heat is transferred from the medium to the object until the object's temperature reaches the value of Tob max; in this case, the heat transfer medium in cavity 2 is heated to a critical temperature, loses its ability to condense, and heat transfer from the environment to the object ceases.

The sequence of the object is set

in such a way that the operation of the object is possible only if Tob

  ob.maxBel Gob - Tob.gaah, the operation of the object is automatically stopped, which eliminates the increase in heat generation of the object.

The example of the selection of heat transfer fluids for a thermostatic object in an ipter (Vale of temperatures 213-355 ° K is a pair: freon | 22 for cavity 2 and chloroform for cavity 1 /.

Claims (1)

Invention Formula A device for tempering an object: within predetermined temperatures, containing screens that form two evacuated sealed cavities surrounding a temperature-controlled object, characterized in that, in order to maintain a temperature regime within specified limits without additional energy expenditure, the screens of each cavity are connected mutually perpendicular. partitions made of capillary material, and the cavities are filled with coolant, and one of the cavities is filled with coolant with a temperature freezing is equal to the allowable temperature limit of the object, and the friend is coolant with a critical temperature equal to the upper allowable temperature limit of the object. Source of information taken into account during the examination: il. .Kovalevsky V.I. and others. Methods of thermal calculation of screen insulation, M., “Energie, 1974, p. 7 S j h V (O yV Lf5sUUL X UUUUU UXX A LHALAH. 2 - Wednesday A-A i