KR100926460B1 - Self-Powered Tethersonde - Google Patents

Abstract

The present invention relates to a self-powered tether sonde that is fixed to the ground by a wire or a rope and is supplied to a tether sonde, which is a meteorological observation device that is supported by a flotation mechanism and observes high-rise weather, by self-power generation. will be.

The self-powered tether sonde of the present invention is a tethersonde (100), which is a meteorological observation device that is fixed to the ground by a wire (20) and is supported by a flotation mechanism to observe high-rise weather, the wire (20) A housing 51 mounted on the housing 51; A rotor 52 rotatably installed in the housing 51 and rotated by wind power; And a generator (53) which is fixed to the housing (51) and generates electricity by the rotation of the shaft (53a) interlocked with the rotor (52) and supplies the generated electricity to the tether sonde (100). Characterized in that comprises a.

The self-powered tether sonde of the present invention, by supplying the electricity required for the tether sonde by self-powering can extend the weather observation period is not required to replace the battery, equipment for supplying electricity, such as batteries, power cables Since it is not necessary to mount the meteorological observation can be located in a high place, there is an advantage that can improve the flotation by lightening the tether sonde.

 Weather, Observation, Sonde, Tethersonde

Description

Self-Powered Tether Sonde {Self-Powered Tethersonde}

The present invention relates to a self-powered tether sonde, which is fixed to the ground by a wire or a rope by a wire or rope, and is supported by a flotation mechanism to supply electricity supplied to tether sonde, a meteorological observation device for observing high-rise weather. It is about a self-developed tether sonde to be supplied by self-generation.

Sonde in meteorology refers to equipment used to observe the weather, including barometric pressure, temperature, humidity, and electrical conductivity of air.

These sondes were the Soviet P.A. It is known that Molcanov was first devised.

Sonde is also used to observe the weather from hundreds of meters to several kilometers above ground and is suspended in a device filled with hydrogen or helium gas when observing very high-rise weather where structures cannot be installed.

Such a device is connected to a wire or rope fixed to the ground (hereinafter referred to as a "wire"), and together with the device, an observation device is lifted upstairs to form a sonde tether sode to observe the weather at a high level. sonder).

Tether Sonde has an electronic device such as a small radio transmitter for transmitting observation data, and a power supply means for operating the electronic device is also required.

Conventionally, there is a structure in which a battery is mounted on a mechanism to enable electronic devices to operate by a battery and a structure in which a power supply cable is installed along a wire on the ground to supply power from the ground.

The structure in which the battery is mounted on the instrument is mainly used when the instrument is raised from the ground to a very high place, and the structure for installing the power supply cable is used when the instrument is only raised to a relatively low position.

The structure in which the battery is mounted has a disadvantage in that the battery life is relatively short, so that frequent replacement of the battery is required. Such a replacement work is not only cumbersome but also requires a small cost.

The structure of installing the power supply cable has a problem in that the size of the apparatus is greatly increased due to the increase in weight and the problem of disconnection of the power supply cable due to the tensile stress applied to the cable due to this problem. There was a problem that it takes a lot of money to repair this when disconnected.

Of course, when the replacement or repair of some components as described above, there was also a problem that Tether Sonde does not play its role.

The present invention aims to solve the above problems, and an object of the present invention is to provide a self-powered tether sonde that does not require frequent replacement of batteries and long power supply cables.

In addition, another object of the present invention is to provide a self-powered tether sonde capable of extending the meteorological observation period, and capable of meteorological observation located at a high place.

Self-generated tether sonde of the present invention for achieving the above object is fixed in the ground by the wire 20 and is supported by a flotation mechanism in tether sonde (tethersonde) 100 is a weather observation equipment for observing high-rise weather A housing (51) installed on the wire (20); A rotor 52 rotatably installed in the housing 51 and rotated by wind power; And a generator (53) which is fixed to the housing (51) and generates electricity by the rotation of the shaft (53a) interlocked with the rotor (52) and supplies the generated electricity to the tether sonde (100). Characterized in that comprises a.

In addition, it is characterized in that the capacitor 54 is fixed or embedded in the housing 51 is further provided to the tether sonde 100 by the generator 53 to accumulate the surplus electricity remaining.

In addition, a bearing (not shown) is provided between the housing 51 and the rotor 52.

In addition, the rotor 52 is rotatably installed in the housing 51 and the rotation shaft 52a coupled to the shaft 53a of the generator 53; And a rotating blade 52b provided on the outside of the rotating shaft 52a and having a direction so as to be rotatable in one direction. Characterized in that comprises a.

In addition, a blade attachment portion 52c to which the rotary blade 52b is attached is provided around the rotary shaft 52a in the direction of the rotary blade.

In addition, the rotary blade (52b) is provided with an upper rotary blade (52b ') and a lower rotary blade (52b ") so as to be rotated corresponding to the wind blowing from the upper side and the wind blowing from the lower side, respectively, the upper rotary wing ( 52b ') and the lower rotary blade 52b "are formed to be point symmetrical so as to be rotatable in one direction and are rotated together.

In addition, the separation plate 52d is provided between the upper rotary blade 52b 'and the lower rotary blade 52b "to separate the wind blowing from the upper side and the wind blowing from the lower side.

The self-powered tether sonde of the present invention, by supplying the electricity required for the tether sonde by self-powering can extend the weather observation period is not required to replace the battery, equipment for supplying electricity, such as batteries, power cables Since it is not necessary to mount the meteorological observation located at a high position, there is an advantage that can improve the flotation by lightening the tether sonde.

Hereinafter, the technical spirit of the present invention will be described in more detail with reference to the accompanying drawings.

However, the accompanying drawings are only examples to illustrate the technical idea of the present invention in more detail, and thus the technical idea of the present invention is not limited to the accompanying drawings.

The present invention relates to tether sonde, a meteorological observation device.

Therefore, the tether zone of the present invention also has a mechanism 10 which is filled with a gas having a specific gravity smaller than air such as hydrogen gas or helium gas to float in the air.

In addition, the lower part is fixed to the ground and the upper part has a wire 20 connected to the instrument 10 so that the instrument 10 is fixed to the ground.

In addition, the tether sonde 100 has an electronic device such as the observation device 30 and the radio transmitter 40 which are held in the air together with the instrument 10 to observe the weather.

Since the mechanism 10 or the wire 20 and the electronic device are already known, more detailed description thereof will be omitted.

However, the present invention has an object to solve the problems caused by frequent replacement of the battery and problems caused by the power supply cable, which is a problem of the conventional tether sonde.

The inventor of the present application has devised a tether sonde equipped with a self-generator 50 after a long research and effort for solving such a problem.

The self-powered tether sonde according to the present invention is fixed on the ground by a wire 20 and is supported by a flotation mechanism in tether sonde (tethersonde) 100, which is a meteorological observation device for observing high-rise weather, the wire 20 A housing 51 mounted on the housing 51; A rotor 52 rotated by wind power; And a generator 53 generating electricity and supplying the generated electricity to the tether sonde 100. It is made, including.

The housing 51 is installed on the wire 20 and the rotor 52 is rotatably coupled therein. The side of the housing 51 is open to some side so that the wind can be transmitted to the rotor (52). The generator 53 is fixed to the housing 51.

The rotor 52 is rotatably installed in the housing 51 and is rotated by wind power. The rotor 52 is coupled to the shaft 53a of the generator 53 and rotates the shaft 53a of the generator 53. When the shaft 53a of the generator 53 is rotated, the commutator (not shown) provided in the shaft 53a is rotated, and the commutator is in contact with a brush (not shown) provided in the generator 53. It generates electricity. This configuration is known as the general configuration of the generator.

At this time, the rotor 52 is rotatably installed in the housing 51 as shown in Figures 2 and 3 and the rotating shaft 52a coupled to the shaft 53a of the generator 53, and the rotating shaft ( 52a) It is preferable to include a rotary blade (52b) of the screw type provided on the outside and has a direction to enable rotation in one direction. Therefore, the rotor 52 rotates in one direction because the rotor blade 52b of the rotor 52 has directivity when the wind comes in contact with the rotor blade 52b in any direction.

In addition, a bearing (not shown) is provided between the housing 51 and the rotating shaft 52a of the rotor 52 to smoothly rotate the rotor 52.

In addition, the rotary blade 52b is provided with an upper rotary blade 52b 'and a lower rotary blade 52b ", respectively, so that the rotary blade 52b can be rotated corresponding to the wind blowing from the upper side and the wind blowing from the lower side, respectively. 52b ') and the lower rotary blade 52b "are preferably formed to be point symmetrical to be rotated in one direction and rotate together. Accordingly, the wind blowing from the lower side is in contact with the lower rotary blade (52b ") to rotate the rotor 52, the wind blowing from the upper is in contact with the lower rotary blade (52b") is the rotor 52 Will rotate.

At this time, the separation plate 52d rotatably coupled to the housing 51 and provided between the upper rotary blade 52b 'and the lower rotary blade 52b ″ to separate the wind blowing from the upper side and the wind blowing from the lower side. ) Is further provided so that the wind blowing from the upper side does not affect the lower rotary blade (52b ") and the wind blowing from the lower side does not affect the upper rotary blade (52b '). Therefore, even if the wind blows in any direction can be smoothly rotated under the influence of the wind.

It is preferable that the wing attachment part 52c to which the rotary blade 52b is attached is provided in the direction of the rotary blade around the rotary shaft 52a.

The generator 53 generates electricity by the rotation of the shaft 53a interlocked with the rotor 52 and serves to supply the generated electricity to the tether sonde 100.

In addition, it is preferable to further include a capacitor 54 fixed or embedded in the housing 51 and supplied to the tether sonde 100 by the generator 53 to accumulate surplus electricity remaining.

The self-developed tether sonde of the present invention can be applied to meteorology and can be used to observe high-rise weather.

Figure 1 is a schematic diagram of the installation state for explaining the self-powered tether sonde of the present invention.

Figure 2 is a schematic diagram for explaining the generator and the blade which is a component of the present invention.

3 is a schematic diagram illustrating a rotor and a housing that are components of a generator.

<Explanation of symbols for main parts of drawing>

10: apparatus 20: wire

30: Observer 40: Radio Transmitter

50: self generator 100: tethersonde

51: housing 52: rotor

52a: rotary shaft 52b: rotary blade

52b ': Upper rotor 52b ": Lower rotor

52c: wing attachment portion 52d: separation plate

53: generator 53a: shaft

54: capacitor

Claims (7)

In the tethersonde 100, which is a meteorological observation device fixed to the ground by a wire 20 and buoyed by a flotation mechanism and observing high-rise weather, A housing (51) installed on the wire (20); A rotor 52 rotatably installed in the housing 51 and rotated by wind power; And A generator (53) which is fixed to the housing (51) and generates electricity by rotation of the shaft (53a) interlocked with the rotor (52) and supplies the generated electricity to the tether sonde (100); Self-developed tether sonde characterized in that it comprises a. The method of claim 1, The self-powered tether sonde is characterized in that it is further provided with a capacitor (54) fixed to or embedded in the housing (51) and supplied to the tether sonde (100) by the generator (53) to store the surplus electricity remaining. The method of claim 1, Self-generated tether sonde, characterized in that the bearing is provided between the housing (51) and the rotor (52). According to any one of claims 1 to 3, wherein the rotor 52, A rotating shaft 52a rotatably installed in the housing 51 and coupled to the shaft 53a of the generator 53; And A rotating blade 52b provided on the outside of the rotating shaft 52a and having a directionality so as to be rotatable in one direction; Self-developed tether sonde characterized in that it comprises a. delete The method of claim 4, wherein The rotary blade 52b is provided with an upper rotary blade 52b 'and a lower rotary blade 52b ", respectively, so that the rotary blade 52b can be rotated according to the wind blowing from the upper side and the wind blowing from the lower side, and the upper rotating blade 52b'. And lower rotary blade (52b ") is a self-powered tether sonde, characterized in that it is formed in a point symmetrical to be rotated in one direction to rotate together. The method of claim 6, The self-powered tether is provided between the upper rotary blade (52b ') and the lower rotary blade (52b ") is provided with a separation plate (52d) for separating the wind blowing from the upper side and the wind blowing from the lower side further provided. Sonde.

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