SU1104201A2 - Device for cooling filled material - Google Patents

Abstract

DEVICE FOR COOLING BULK MATERIAL on author. St. No. 1040042. characterized in that, in order to increase the efficiency of work, it is equipped with perforated pipes disposed in the upper part of the body, the lower ends of the pipes being recessed into the refrigerant, and the upper ones brought out of the body through the lid and made with wind-catching devices . YU

Description

This invention relates to the construction, cooling of bulk materials.

According to the main author. St. No. 1040042, a device for cooling bulk material is known, made in the form of a housing, the lower part of which is buried in the cooled bulk material and made with through holes blocked by an osmotic film, and the upper part is placed above the surface of the cooled material, expanding upwards, while the housing It is closed with a lid in the form of a cap with through holes blocked by louvers, and filled with a refrigerant, which is, for example, a concentrated salt solution.

When the device penetrates into the housing from the soil, the moisture evaporates in the upper part of the housing and a pair of it is carried to the atmosphere through openings in the lid, which provides additional cooling of the refrigerant and accelerates its circulation 1.

However, in a known device, the evaporation rate of moisture is determined mainly by the area of the coolant mirror in the upper part of the body without using any additional means that increase the evaporation rate and, consequently, the coolant circulation rate and cooling efficiency.

The purpose of the invention is to increase the efficiency of the device.

Purpose. achieved by the fact that the device for cooling bulk material is provided with perforated pipes disposed in the upper part of the body, the lower ends of the pipes being recessed into the refrigerant, and the upper ones are brought out of the body through the cover and made with wind-catching devices.

The drawing shows the proposed device, a vertical section.

The device for cooling the bulk construction material 1 includes a housing, the lower part 2 of which is buried in the cooled bulk material and is made with through-flow openings in the walls covered with an osmatic, for example, polymer colloidal, film 3. The upper part 4 of the housing is placed above the bulk material and expanded upwards. Using fasteners 5, a cover 6 in the form of a cap having through holes 7, shaded louvers 8 is attached to the upper end of the housing. In the upper part 4 of the housing there are air inlet pipes 9 perforated with air outlets 10. The lower ends of the pipes are recessed into refrigerant L, the filling body, and the upper ends through the cover 6 are brought out to the atmosphere and equipped with wind-catching devices, for example bells 12, which can be made

with the pipes 9 as a whole or attached to them with the possibility of a connector.

The operation of the device is as follows.

The housing with the lower part 2 is inserted into the bulk material mass 1 by one of the known methods (driving, pressing, vibration immersion, etc.). Open the fastener 5, remove the cover 6 together with the sockets 12 and nozzles 9-. Poured

0 in the case of the refrigerant 11, which can be used as a concentrated solution of a substance, in particular salt, for example, cooking. The cover 6 is installed together with the sockets 12 and the nozzles 9, and the nozzles 9 are inserted into the upper part 4 of the housing below the level of the refrigerant 11. Close the fixture 5. The device begins to circulate the refrigerant I.

Cooled in the upper part of the 4 body

0, the refrigerant 11 becomes denser and therefore more heavy. Under the force of gravity, it sinks to the bottom of the case, heats up from its walls and becomes less dense, and therefore lighter. Light refrigerant rises.

 There is a natural circulating refrigerant in the device. Heat from the cooled array, flowing through the walls of the lower part 2 of the housing, is taken in by the refrigerant 11 and is carried to the upper part 4

0 housing, where the refrigerant 11 transfers heat to atmospheric air in a double way. Some of the heat is released through the walls of the upper part 4 of the housing and the cover 6, and some of the heat is used to evaporate the water entering the refrigerant 11, which is

by itself, for example, an aqueous solution of salt. Evaporation occurs from the surface of the coolant mirror. The evaporation of water consumes heat, which is taken from the refrigerant. Air vaporized through the holes 7 goes into the atmosphere. So

Thus, the bulk bulk material is cooled in calm weather.

At the same time, the bulk material mass 1 is drained. Moisture in the bulk material moves to the body, flows down the body walls. On his tutu, droplets of falling moisture meet an osmotic film 3. An osmotic penetration of moisture through the film 3 into the lower part 2 of the housing into the cobalt of a refrigerant substance occurs. Moisture entering the refrigerant moves with it and, having reached the free surface, partially evaporates and, together with air, through the holes 7, in the form of vapors, is carried to the atmosphere.

5 When the wind occurs, the cooling rate of the refrigerant increases. The wind blows into the wind-blowing sockets 12, and the air, under pressure from the sockets of 12 in. Air-supply nozzles 9, in the vib-bubble of which, when released from the cold, pressure flows through the air agent,

outlets 10 to the upper part. As a result, Inkorpus 4 is increased as a result of which the cooling capacity of the refrigerant in the upper

coolant and increase due to this inte-part of the body, which provides increased

The rate of evaporation of moisture from it, as well as the rate of circulation of the refrigerant and the effective saturation of the refrigerant with cold air, the efficiency of the device.

1104201

Claims (1)

A DEVICE FOR COOLING A BULK MATERIAL by ed. St. No. 1040042. characterized in that, in order to increase work efficiency, it is equipped with perforated nozzles located in the upper part of the housing, the lower ends of the nozzles buried in the refrigerant, and the upper ones brought out of the housing through the cover and made with wind-gripping devices. SU w, 1104201 3>