SU1585633A1 - Refrigerating chamber - Google Patents

Abstract

The invention relates to the storage of foodstuffs during their cooling, in particular to refrigerating chambers. The aim of the invention is to reduce power consumption and increase reliability. After loading the products into the chamber, the bellows 8 lengthens and opens the air damper. Cold air from the street flows through the membrane 4 of the lower supply air duct 2 into the internal volume of the housing 1. Warm air is displaced through the upper exhaust air duct 3 and the membrane 4. When the air temperature in the housing 1 decreases, the pressure in the bellows 8 decreases, it contracts and the plate 10 The air damper blocks the supply of cold air and the removal of warm air through the air ducts 2, 3. The supply of external air, depending on its temperature, into the body 1 is controlled by a bellows 9 connected by a sensor 7 made in the form of a cylinder, filled with light boiling liquid. The extension or contraction of this bellows 9 through the lever 20 and the plate 26 provides for the opening or closing of the ducts 2,3 by means of the valve plate 11. 2 Il.

Description

into the internal volume of the housing 1. The warm air is displaced through the upper exhaust duct 3 and the membrane 4. When the air temperature in the housing 1 decreases, the pressure in the bellows 8 decreases, it compresses and the air damper plate 10 blocks the flow of cold air and the removal of warm air through air ducts 2, 3. The supply of outside air, depending on its temperature, into the body 1 is controlled by a bellows 9 connected with a sensor 7 made in the form of a cylinder filled with a light bulb, with a liquid. The elongation or contraction of the bellows 9 through the lever 20 and the plate 26 provides for the opening or closing of the ducts 2i 3 by means of the valve plate 11. 2 Il.

The invention relates to refrigeration chambers for storing foodstuffs during their cooling, which can be used in public catering, in stores and in household conditions.

The purpose of the invention is to reduce power consumption and increase reliability. FIG. 1 shows a cooling chamber, general view; in fig. 2 - damper for closing the ducts.

The refrigerating chamber comprises a housing I, communicated with supply and exhaust air ducts 2 and 3 with the atmosphere. Membranes 4 of side-permeable materials are installed at the air inlets of the air ducts. Shelves 5 for placing products are installed inside the housing. The chamber contains a thermostat that includes temperature sensors 6 and 7 installed inside and outside the housing 1, two bellows 8 and 9, and a flap for closing the ducts, respectively. The latter consists of two plates 10 and 11, connected at one end by means of a hinge 12 and a spring 13. On the plate 10, guides 14 are fixed, along which the plate 11 moves. The plate 10 is fixed on the axis 15. A sealing material 16 is applied to the plate 11, sponge rubber.

Temperature sensors 6 and 7 are made in the form of cylinders filled with light boiling liquid, such as freon, and communicated respectively with bellows 8 and 9. The free end of plate 10 is rigidly connected by means of stem 17 and spring 18 with an adjusting screw 19 with bellows 8 connected a temperature sensor 6 in the housing, and the free end of the plate 11 is connected by means of a lever 20 in the form of a square and a spring 21 with a bellows 9 connected to the temperature sensor 7 outside the housing. The spring 21 is attached to the lever 20 by adjusting screws 22. A steel plate 23 is attached to the free end of the plate 11. A fixed magnet 24 is fixed on the lever 20. dampers and a lever 20. The damper is fixed on the casing t with screws 27. Air ducts 2 and 3 are covered with heat insulating material 28.

The refrigerator compartment works in the following manner.

After loading products into the chamber, it must be adjusted. To do this, in case 0, if the air temperature inside the housing 1 is higher than the required one, the spring 18 is loosened with the help of an adjusting screw 19. The bellows 8 lengthens and opens the air damper. Cold 5 air from the street through the membrane 4 of the lower supply air duct 2 into the internal volume of the housing 1 and cools the air in it. Warm air from the chamber body 1 is expelled through the upper exhaust air duct 3 and the membrane 4. 0 Making the membranes 4 of selectively permeable material allows maintaining the optimum air composition for storing vegetables and fruits, i.e. carbon dioxide is 4 -5%, which is necessary for block anabiosis.

35 With a further decrease in the air temperature in the chamber body 1 (lower than the specified one), the pressure in the bellows 8 decreases, the BELLOW squeezes and the air damper plate 10 rotates on the axis 15 under the action of the spring 18 and shuts off the cold air supply and removal of warm air. Sealing material 16. deposited on the surface of the plate 11 of the valve, ensures its tight fit to the ducts 2 and 3.

45 When the air temperature in the refrigerator cabinet increases, the pressure in the bellows 8 increases, it lengthens, overcoming the action of the spring 18, and turns the air damper around the axis 15. Between the damper and the air duct openings

50 a gap appears. Thus, the sylphs associated with the sensor 6 provide the desired air temperature inside the casing 1 of the chamber.

The bellows 9 associated with the sensor 7 for the temperature outside the casing is intended for closing the air ducts in case the outside air temperature exceeds the set air temperature inside the casing. If the outdoor temperature

55

below the set temperature inside the housing I of the chamber, the bellows 9 does not participate in the regulation of temperature. If the outside air temperature is above the predetermined temperature inside the chamber body 1, the bellows 9 under the effect of increasing pressure in the sensor 7, made in the form of a cylinder filled with boiling liquid, lengthens. The lever 20 with a permanent magnet 24 presses on the plate 26, which, turning around the axis, presses the valve plate 11 to the constant magnet 24 on the lever 20. The plate 11 under the action of the lever 20 overcomes the compression of the spring 21 and sharply presses To it, closing the air ducts 2 and 3. At the same time, in the area of the junction with the plate 10, the plate 1I slides along the guides 14. The further movement of the syringe 9 is limited by its casing. When the outside air temperature decreases, the bellows 9 is compressed, dragging the lever 20 with the magnet 24. The damper plate 11 under the action of the spring 13 moves in the direction of the direction 14. It presses against the plate 10 and opens access to the cold air. In this way, the air temperature inside the enclosure is controlled. When working with the proposed camera, the power consumption is reduced,

Step

since it is possible not only to use natural cold during certain periods, but also to switch to natural cooling without using 5 electricity. Performing a thermostat in the chamber provides an increase in ii; i its reliability in operation.

Claims (1)

Invention Formula A refrigerating chamber, a housing connected by ducts to the atmosphere, a thermostat including temperature sensors installed inside and outside the housing, and a flap for closing the air ducts, which is different from that. with price.) reduce energy consumption and increase reliability, the flap consists of two plates connected at one end by means of a hinge and a spring, and the thermostat contains an additional two background lights, with temperature sensors in it made in the form of cylinders filled with boiling liquid, and communicating with the bellows, wherein the free end of one plate is rigidly connected to the bellows connected to the temperature sensor in the housing, and the free end of the other plate is connected by means of a lever and a spring to the bellows. connected to an outside temperature sensor.