RU98256U1 - DEVICE FOR DETERMINING SPEED AND DIRECTION OF WIND AT A PRESET HEIGHT - Google Patents

Abstract

 1. A device for determining the speed and direction of the wind at a given height, containing a gas-filled shell with a radio transmitter, a radio receiving system and a system that provides the movement of the gas-filled shell in the horizontal direction in the wind, characterized in that the system that provides the movement of the gas-filled shell in the horizontal direction in the wind, contains a unit for determining a predetermined height connected to a valve control unit, which is connected on one side to the internal volume of the gas-filled little trees, and on the other hand brought out into the atmosphere. ! 2. The device according to claim 1, characterized in that the system that ensures the movement of the gas-filled shell in the horizontal direction in the wind contains a unit for determining a given height connected to a block for releasing the sail at a given height. ! 3. The device according to claim 1, characterized in that the unit for determining a given height is made in the form of a pressure sensor and a height programmer connected to a comparison circuit. ! 4. The device according to claim 1, characterized in that the unit for determining a given height is made in the form of a receiver of a signal from a radio receiving system. ! 5. The device according to claim 1, characterized in that a signal receiver from a GLONASS or GPS system is included in the unit for determining a predetermined height.

Description

A device for determining wind speed and direction at a given height relates to meteorology and is intended to measure wind parameters in the troposphere and stratosphere by using balloons or radiosondes.

A known device for determining the direction and speed of the wind. It contains a sensor, a power supply and a measuring device. The sensor is a vertical blade rotor, half located in the casing with a stabilizer, made in the form of a weather vane. (RF patent No. 2101736, IPC 6 G01W 1/02, 10/01/1998).

Closest to the patented device is a device for remote sensing of the horizontal component of wind speed (RF Patent No. 92294, IPC G01W 1/02, 03/10/2010). It contains a gas-filled shell with a radio transmitter and a radio receiving system. And also equipped with a system that provides movement in the horizontal direction in the wind.

The new device for determining the speed and direction of the wind at a given height also contains a gas-filled shell with a radio transmitter, a radio receiving system and a system that ensures the movement of the gas-filled shell in the horizontal direction in the wind, for example, in the form of a sail.

New is the fact that the system that ensures the movement of the gas-filled shell in the horizontal direction in the wind contains a unit for determining a given height connected to a valve control unit, which is connected on one side to the internal volume of the gas-filled shell and, on the other hand, is brought out into the atmosphere.

An option is that the system that ensures the movement of the gas-filled shell in the horizontal direction in the wind contains a unit for determining a given height connected to a block for releasing the sail at a given height.

An option is a device in which the unit for determining a given height is made in the form of a pressure sensor and a height programmer connected to a comparison circuit.

An option is a device in which the unit for determining a given height is made in the form of a receiver of a signal from a radio receiving system.

An option is a device in which a unit for determining a given height includes a signal receiver from a GLONASS or GPS system.

The figure schematically shows a device for determining the speed and direction of the wind at a given height. It contains a gas-filled shell 1, a radio transmitter 2 and a radio receiving system 3, as well as a system 4, providing the movement of the gas-filled shell in the horizontal direction in the wind.

A device for determining the speed and direction of the wind at a given height is used as follows. The gas-filled shell 1 is filled with a light gas, for example hydrogen. And together with the radio transmitter 2 is released in free flight.

The radio receiving system 3 receives signals from the radio transmitter 2 and determines its location in the atmosphere. At a predetermined height, determined either from the pressure sensor (if it is in the device), or from the radio signal of the radio receiving system 3, or using the GLONASS system or GPS (GPS), it opens a valve that releases lifting gas into the atmosphere until the rise of the gas-filled shell in the atmosphere will stop.

Gas-filled shell 1, being not fully filled, serves as a kind of sailing system. In addition, the wind crushes the incompletely filled gas-filled shell 1, which enhances its windage.

Long-term movement of the device at a given height due to windage in a floating state allows you to more accurately determine the horizontal component of the wind speed.

The technical result of the patented device is to increase the reliability of determining the speed and direction of air flows at a given height.

Claims (5)

1. A device for determining the speed and direction of the wind at a given height, containing a gas-filled shell with a radio transmitter, a radio receiving system and a system that provides the movement of the gas-filled shell in the horizontal direction in the wind, characterized in that the system that provides the movement of the gas-filled shell in the horizontal direction in the wind, contains a unit for determining a predetermined height connected to a valve control unit, which is connected on one side to the internal volume of the gas-filled little trees, and on the other hand brought out into the atmosphere. 2. The device according to claim 1, characterized in that the system that ensures the movement of the gas-filled shell in the horizontal direction in the wind contains a unit for determining a given height connected to a block for releasing the sail at a given height. 3. The device according to claim 1, characterized in that the unit for determining a given height is made in the form of a pressure sensor and a height programmer connected to a comparison circuit. 4. The device according to claim 1, characterized in that the unit for determining a given height is made in the form of a receiver of a signal from a radio receiving system. 5. The device according to claim 1, characterized in that a signal receiver from a GLONASS or GPS system is included in the unit for determining a predetermined height.