KR200184255Y1 - A weathercock and an anemometer - Google Patents

Abstract

The present invention relates to a wind vane.

The configuration of the present invention is a wind vane composed of an upper body (1) having a propeller (3) and a wind direction detecting wing (4) and a lower body (2) coupled thereto in front and rear of the plurality of wings in the rear of the propeller (3) The sensor detecting wing 6 is rotatably installed, and the front of the fixed sensor 8 is fixedly installed by a proximity switch, and the rotating pipe 9 is rotatably installed on the inner side of the lower body 2. The terminal 10 and the proximal terminal 12 are installed at the lower end of the pipe 9 and connected by the sensor 8 and the wire 11, and the sensor piece 19 is fixedly installed on the pivoting pipe 9. It is configured by fixing a plurality of sensors 21, 21a, 21b, 21c, 21d, 21e, 21f, 21g as a proximity switch on the lower side thereof.

The present invention as described above can obtain accurate data of the wind direction and wind speed, easy to repair in the event of a faulty part, and has the effect of semi-permanent life of the device. In addition, as the anemometer and the wind vane are integrally formed, manufacturing cost is reduced and installation work is convenient.

Description

A weathercock and an anemometer

The present invention relates to a wind direction anemometer, and more specifically, the wind direction and anemometer can be integrated into one piece to obtain accurate data of the wind direction and the wind speed, and in the event of a defective part, it is easy to repair and can make the life of the device semi-permanent. It is about anemometer.

Conventionally, the anemometer and the wind vane were separately configured to measure the wind speed and the wind direction, respectively.

The conventional anemometer includes a DC generator connected to a propeller and a shaft. When the wind blows, the propeller rotates, and at this time, a pulse signal is received from the DC generator, and the wind speed is measured. By the way, such a conventional anemometer has a problem such as when the weather is rainy and snowy, the moisture is easy and the breakdown easily occurs, so that the accurate wind speed could not be measured and the service life was shortened.

In the wind vane, a circuit board (PCB) was formed, and a copper piece was formed on the shaft connected to the wind vane so as to be in contact with the circuit board. The conventional wind vane was designed to measure the wind direction by receiving a pulse signal by directly contacting the copper foil layer of the copper plate and the circuit board. There was a problem such as a shortened life.

In addition, the conventional anemometer and the wind vane have a very fine signal about the wind direction and the wind speed, and are represented as data.

That is, in the conventional wind vane, the wind direction was read as a resistance value and received 0-5V and outputted as data. In the anemometer, the wind speed was rotated by the motor shaft and received 0-5V at the output. The resistance of 0-5V was very fine. There was a lot of difference in the data even if there were some errors on the device.

In addition, if a component in the device is defective, it is difficult to replace and easy to purchase.

The wind anemometer as described above was not suitable for frequent failures and was not suitable for major facilities such as meteorological offices, construction sites, and other public offices and schools.

Therefore, the object of the present invention was devised to solve the conventional problems as described above, it is possible to configure the wind vane and anemometer integrally, obtain accurate data of the wind direction and wind speed, easy to repair and repair the device in case of defects It is to provide a wind vane that can be used to semi-permanently.

The upper body and the lower body as a means for achieving the object of the present invention

And the propeller and the wind direction detecting vanes are formed in front and rear of the upper body, respectively, and the sensor detecting vanes connected to the propeller and the rotating shaft are installed, and the proximity or optical sensor is installed in close proximity to the sensor sensing vanes. As a means for transmitting a signal sensed by an optical sensor, a terminal is fixedly installed at a lower end of a rotating pipe formed in the lower body, and a V-type connecting terminal fixed to the terminal is fixed to a support. When the upper body is rotated according to the direction of the wind by the wind vane, the rotating pipe connected by the connector and the nut is rotated, the sensor pipe is installed on the rotating pipe, and the circular sensor holder is installed on the lower side of the sensor piece. And install a plurality of sensors by its outer periphery, which are proximity or optical sensors The configuration is determined.

1 is a cross-sectional view showing the overall coupling configuration for the "wind wind speed gauge" of the present invention.

2 is a cross-sectional view taken along the line AA of FIG.

3 is a cross-sectional view taken along the line BB of FIG. 1.

4 is a cross-sectional view taken along the line C-C in FIG.

<Brief description of symbols for the main parts of the drawings>

1: upper body 2: lower body

3: propeller 4: wind vane

5: rotating shaft 6: sensor detection wing

7: holder 8: sensor

9: rotating pipe 10: terminal

11: wire 12: connection terminal

13: support 14: wires

15: rib 16: connector

17: Bolt 18: Nut

19: sensor piece 20: circular sensor holder

21,21a, 21b, 21c, 21d, 21e, 21f, 21g: sensor

22: wire 23,23a: bearing

Hereinafter, illustrated in detail with reference to the accompanying drawings as follows.

As shown in the figure, the upper body 1 and the lower body 2 are configured, and the propeller 3 and the wind vane 4 are respectively formed in front and rear of the upper body 1.

The sensor detecting blades 6 connected to the propeller 3 and the rotating shaft 5 are provided at the front inner side of the upper body 1, and the sensor 7 is mounted to the sensor sensing blades 6 by the fastener 7 so as to be close to the sensor sensing blades 6. (8) is fixed, but the sensor (8) is configured as a proximity switch (Proximity Switch) or an optical sensor. And the number of the sensor detection wings 6 is preferably set to four.

As a means for transmitting a signal sensed by the proximity switch or the optical sensor, the terminal 10 is fixedly installed at the lower end of the rotating pipe 9 configured in the lower body 2, and the terminal 10 and the sensor are installed. (8) is connected to the wire 11, the V-shaped connecting terminal 12 in contact with the terminal 10 is fixed to the support 13, the connecting terminal 12 is connected to the wire 14 do.

The rib 15 is protruded from the lower center of the upper body 1 to be rotatably inserted into the upper end of the lower body 2, and the connector 16 is fixed to the upper side of the rib 15 so as to be fixed. A bolt 17 is formed at the upper end of the rotating pipe 9 to fasten the nut 18 together with the connector 16.

The rotating pipe (9) is fixed to the sensor piece (19) is installed on the lower side of the sensor piece 19, the circular sensor holder 20 is installed in the outer periphery of the plurality of sensors (21, 21a, 21b, 21c, 21d, 21e, 21f, 21g) are installed, which is configured as a proximity switch or an optical sensor and connected by wires 22.

The sensor holder 20 is fixed to the inner wall of the lower body 2, and the bearing 23 (23a) in the upper and lower sides of the rotating pipe (9) is installed at the lower end of the rotating pipe (9) One terminal 10 is fixedly installed at three places up and down. And base plate 24 is installed on the bottom of the lower body (2).

The present invention configured as described above is described first when measuring the wind speed is as follows.

When the propeller 3 is rotated by the wind, the sensor detecting blade 6 connected to the rotating shaft 5 rotates. At this time, the sensor 8 detects the number of rotations of the rotating sensor detecting blade 6 and sequentially passes through the wire 11 and the terminal 10, the V-shaped connecting terminal 12, and the wire 14. Transfer it to a computer that can produce data.

Next, the effect on the measurement of the wind direction is explained. When the upper body 1 rotates about the rib 15 by the wind vane 4 formed at the rear of the upper body 1, the connector 16 and the nut 18 fixed to the upper end of the rib 15 are configured. The rotating pipe 9 is rotated about the bearings 23 and 23a by the reference numeral.

At this time, when the sensor piece 19 is also rotated together and stopped at a predetermined position as shown in FIG. 3, the sensors 21, 21a, 21b, 21c, 21d, 21e, 21f, and 21g installed at the lower side are moved to the sensor piece. Detects the 19 and transmits it to the computer which can calculate the wind direction data through the wire 22.

That is, as shown in FIG. 3, when the sensor piece 19 rotates and stops at the sensor 21g located in the “south-east” direction, the measurement is performed that the wind direction is blowing in the “south-east” direction by the detection of the sensor 21g. .

On the other hand, even if the rotating pipe 9 is rotated by forming the V-shaped connecting terminal 12 so that the terminal 10 is provided along the outer circumferential edge of the rotating pipe 9 and is in contact with the terminal 10. The contact between the terminals is continued.

The sensor 8 provided in proximity to the sensor detecting blade 6 and the sensors 21, 21a, 21b, 21c, 21d, 21e, 21f, 21g provided below the sensor piece 19 are provided with a proximity switch or As it is composed of an optical sensor, sensing is performed at close distance without direct contact, so it is possible to measure wind speed and wind direction precisely without malfunction even when the weather is rainy and snow falls.

As described above, this paper can obtain accurate data of wind direction and wind speed, it is easy to repair in case of defective parts, and can make the life of equipment semi-permanent. In addition, as the anemometer and the wind vane are integrally formed, manufacturing cost is reduced and installation work is convenient.

Claims (3)

Sensor wind vane with a plurality of wings to the rear of the propeller (3) with a wind vane composed of an upper body (1) having a propeller (3) and a wind direction detecting blade (4) in front and rear and a lower body (2) coupled thereto. (6) is rotatably installed, the front of the fixed sensor (8) is installed by the proximity switch, the inner side of the lower body (2) rotatably install the rotating pipe (9) of the rotating pipe (9) A terminal 10 and a proximal terminal 12 are installed at a lower end thereof and connected to each other by the sensor 8 and an electric wire 11. The sensor piece 19 is fixedly installed on the pivoting pipe 9, and a proximity switch is provided at a lower side thereof. And a plurality of sensors (21, 21a, 21b, 21c, 21d, 21e, 21f, 21g) are fixed and installed. The wind vane according to claim 1, wherein a rib (15), a connector (16), and a nut (18) are coupled between the upper body (1) and the lower body (2). The wind vane according to claim 1, wherein the sensors (8, 21, 21a, 21b, 21c, 21d, 21e, 21f, 21g) are optical sensors.