SU649933A1 - Device for controlling air cooler thawing - Google Patents

Description

The invention relates to refrigeration engineering, and more specifically to devices for controlling the defrosting of an air cooler.

A device is known for automatically controlling the defrosting process, which converts the pressure difference in the air before and after the air cooler battery into an electrical control signal. This device is closest to the invention by its technical essence and the achieved result.

The device consists of a body containing two interconnecting diamagnetic pipes of different diameters, filled with a partially non-freezing liquid, air inlets before and after the air cooler, a permanent magnet located outside the body, a ferromagnetic float of spherical shape that moves with the level of liquid connected to by increasing the difference in air pressure before and after the air cooler battery as it froze. The float connects the permanent magnet and interacts with the magnetic contact included in the air cooler defrosting control circuit 1.

The described device is difficult to manufacture, its tuning range is small, and tuning under operating conditions is difficult, which reduces the reliability of the device.

The purpose of the present invention is to simplify the design and improve the reliability of the device.

This goal is achieved by the fact that the body has a cylindrical shape, located horizontally, a permanent magnet covers the cylindrical surface of the body in its middle part; the housing is filled with an electrically conductive fluid to form airspace and a magnetic non-conducting fluid that, when interacting with the magnet, creates a ruptured partition dividing the housing into two cavities, while the air inlets before and after the air cooler communicate with the airspace of each cavity in the electrically conducting fluid filling each cavity.

. The drawing shows the proposed device.

The device consists of diamagnetic cylindrical corus 1 with magnetically controlled contacts 2 and 3 included in the air cooler thawing control circuit (not shown).

The housing / is partially filled with an electrically conducting fluid 4 with the formation of the airspace 5 and the non-conductive mag 1 fluid liquid 6 obtained by dispersing magnetic particles, for example, in kerosene, glycerin.

MagMIT 7 is installed in the middle part of the body / along its cylindrical surface, which serves to create a magnetic field that holds the magnetic fluid 6 in the interpolar space. At the same time, the magnetic fluid 6 separates the electrical elec- trode in fluid 4 and the air space 5 above it into two parts.

The ports 5 and 5 communicate with the air cavity and serve to connect the device to the air cooler.

The operation of the device is carried out in a pleasurable manner.

Through the pipes 8 and 9, the air before and after the air cooler battery enters the housing, respectively, and acts on the film of non-conductive magnetic fluid 6.

During operation of the device, an increase in the air pressure difference before and after the air cooler battery (as it freezes) leads to stretching of the magnetic fluid film 6, which, when a certain air pressure difference is broken, and the electrically conductive fluid 4 closes the contacts 2 and 3 and into the circuit control of the process from Tanzania turns on the defrosting signal. The regulation of the differential pressure of the air at which the device operates is carried out by selecting a permanent magnet with the required field strength, or by installing an electromagnet instead of a permanent magnet.

The film of magnetic fluid can retain elastic properties within the maximum limits of the pressure difference, including within the pressure difference of tens of milliards of an oil column. The film breaks at the moment when

the difference in air pressure acting on it (corresponding to a critical, given thickness of a snow coat) exceeds its elastic forces determined by the corresponding magnitude of the magnetic field.

The amount of magnetic fluid must be such that when a magnetic field is applied, a stable film is created that separates the body / into two cavities.

The proposed device is quite reliable in operation due to the absence of moving parts, cohesively and compactly. The device can be placed under the air cooler casing without increasing the dimensions of the latter.

Claims (1)

1. USSR author's certificate Ho 412447, cl. F 25 D 21/06, 1972.