RU80025U1 - FREEZER - Google Patents

Abstract

The permafrost meter belongs to agrometeorological instruments. The model eliminates the influence of Archimedean forces causing convective heat transfer along the permafrost meter. In the model, a rubber tube with water is tightly embedded in a truncated cone rod, which fits snugly with an elastic cone pipe installed inside the protective tube. 4 p.p. 1 of FIG.

Description

The permafrost meter belongs to agrometeorological instruments.

Known permafrost meter AM-21, consisting of a protective tube in which it is freely suspended, in an air environment, a rubber tube filled with distilled water.

(RD 52.33.217-99. Advice to hydrometeorological stations and posts. Issue 11. Agrometeorological observations at stations and posts. Part I. Book 2. Basic agrometeorological observations. St. Petersburg. Hydrometeoizdat, 2000. - 169-172 p.)

When developing this permafrost meter, Archimedean forces causing convective heat transfer in the air were not taken into account. Under natural conditions, the freezing and thawing of soils occurs only due to the thermal conductivity of the particles, and in the pipes of the permafrost due to convection and thermal conductivity of the particles. The intensity of convective heat transfer is much higher than the thermal conductivity of particles, therefore, measurements from the existing permafrost meter do not correspond to reality.

(The Great Soviet Encyclopedia. M., 1973, v. 12 - 608-609 p.)

Convective heat transfer inside the rubber tube with water stops when the upper layer freezes, as the maximum density of water occurs at a temperature of + 3.98 ° C.

The proposed model eliminates convection of the air inside the protective tube.

The drawing shows: 1 - a protective pipe, inside it is reinforced with an elastic plastic or rubber pipe 2, the walls of which expand to the bottom. A rubber tube with water 4, 5 is inserted into a truncated conical rod 3, a porous elastic gasket that protects the rod 3 from rupture when water freezes in the tube 4. The rubber tube 4 is plugged with plugs 6.

The angle of inclination of the walls of the pipe 2 and the truncated conical rod 3 are the same and are approximately 3-5 degrees, which provides a dense

their pairing. 7 - free space inside the protective pipe 1 for collecting accidentally dropped debris. 8 - the surface of the earth; 9 - heat-repellent rings and gasket; 10 - cover of the permafrost meter; 11 - exhaust ring. Centimeter divisions are applied to the rod 3. Installation of the tube 4 in the rod 3 to produce without water. Fill the tube 4 with water as follows; stick two medical needles into the top of this tube, one needle for air outlet, the second for a syringe with water.

Claims (5)

1. A permafrost meter, consisting of a protective tube, a rod and a rubber tube with water, characterized in that the rubber tube is tightly embedded along the rod. 2. The permafrost meter according to claim 1, characterized in that the underground portion of the rod has the appearance of a truncated cone. 3. The permafrost according to claims 1 and 2, characterized in that an elastic conical pipe is integrated inside the protective pipe. 4. The permafrost according to claims 1 to 3, characterized in that the angles of inclination of the walls of the rod and the elastic pipe are the same. 5. The permafrost meter according to claim 1, characterized in that between the rubber tube with water and the rod is a porous elastic gasket.