KR20160032583A - Venturi tube type anemometer with honeycomb entry - Google Patents

Abstract

(Wind velocity) of the wind flowing into the venturi tube by the Bernoulli equation by measuring the pressure information of the wind passing through the venturi tube of the anemometer of the venturi structure having the honeycomb inlet according to the present invention, The honeycomb structure makes the wind speed gradient inside the venturi tube uniform, thereby improving the measurement accuracy while minimizing the wind speed measurement error.
An anemometer of a venturi structure having a honeycomb inlet according to the present invention includes: a wind inflow tube that is open in the front-rear direction and allows wind to flow from the open front; A connection pipe extending from the rear surface of the wind inflow pipe to a rear side and having a size smaller than that of the wind inflow pipe and opening in the front and rear direction to allow the wind passing through the wind inflow pipe to pass therethrough; A wind exhaust pipe extending from the rear surface of the connection pipe to a rear side and having a size larger than that of the connection pipe and being opened in the front and rear direction and passing through the connection pipe and being discharged to the outside; A pressure gauge for measuring pressure information of the wind inflow pipe and the connection pipe; It is connected to the pressure gauge and receives the pressure information of the wind inflow pipe and the connection pipe. The shape information and the dimension information of the wind inflow pipe and the connection pipe are stored. The shape information and the dimension information of the wind inflow pipe and the connection pipe, And a controller for calculating the wind speed of the wind flowing into the wind inflow pipe from the pressure information of the connection pipe.

Description

[0001] The present invention relates to an anemometer having a honeycomb inlet and a venturi tube type anemometer with a honeycomb entry,

[0001] The present invention relates to an anemometer having a honeycomb inlet, and more particularly to an anemometer having a honeycomb inlet, and more particularly, to measure the pressure information of wind passing through a venturi tube to calculate a wind speed (wind speed) flowing into a venturi tube by a Bernoulli equation In particular, a venturi-type anemometer having a honeycomb inlet which improves the measurement accuracy while minimizing the error of the wind speed measurement by making the wind speed gradient in the inside of the venturi tube uniform, .

Commonly used wind direction / anemometer is an analog wind speedometer and analog anemometer that measures wind direction and direction by propeller or wind direction and direction board. Such an analog weather vane and analog anemometer have been difficult to confirm accurate and precise wind direction and wind speed due to analogue measurement of wind direction and wind speed. In case of strong wind, it is only possible to perform limited measurement. In case of strong wind, I had many cases.

As a technique related to such an ultrasonic wind direction anemometer, Korean Patent Registration No. 10-0941289 entitled "Wind speed weatherometer using ultrasonic sensor ", Registration No. 10-1044881, Apparatus and Method for Measuring Wind Direction / Velocity / Temperature Using Multiple Ultrasonic Sensors ", Japanese Patent Application Laid-Open No. 10-1056951," Weather Information Apparatus ", Laid-Open Patent Publication No. 10-1999-0053462 "And so on.

On the other hand, the conventional anemometer has a problem that the measurement error becomes large at the time of measuring the wind speed under the low speed condition, and development of an anemometer having high wind speed measurement accuracy at the low speed condition is required.

(Patent Document 1) Patent Document 1. Korean Registered Patent Publication No. 10-0941289 "Wind Speed Weathering Instrument Using Ultrasonic Sensor"

(Patent Document 2) Patent Document 2: Korean Registered Patent Publication No. 10-1044881 "Device for Measuring Wind Direction and Velocity Using Ultrasonic Wave"

(Patent Document 3) Patent Document 3: Korean Patent Registration No. 10-1056951 "Weather Information Device"

(Patent Document 4) Patent Document 4: Korean Patent Laid-Open Publication No. 10-1999-0053462 "Apparatus and Method for Measuring Wind Direction / Wind Velocity / Temperature Using Multiple Ultrasonic Sensors"

Accordingly, the present invention has been made to solve the above problems of the related art, and it is an object of the present invention to provide a venturi tube in which pressure information inside a venturi tube is measured through a pressure gauge while wind is guided by a venturi tube formed integrally with a wind inflow pipe, The wind velocity is calculated from the Bernoulli equation and the wind velocity gradient in the inside of the venturi tube is made uniform, in particular, as the wind inflow tube is made of the honeycomb structure, so that the measurement accuracy is improved while minimizing the wind speed measurement error, And it is an object of the present invention to provide an anemometer of a venturi structure having a comb inlet.

According to an aspect of the present invention, there is provided an air conditioner comprising: a wind inflow pipe that is open in a front-rear direction and allows wind to flow from an open front; A connection pipe extending from the rear surface of the wind inflow pipe to a rear side and having a size smaller than that of the wind inflow pipe and opening in the front and rear direction to allow winds passing through the wind inflow pipe to pass therethrough; A wind exhaust pipe extending from the rear surface of the connection pipe to a rear side and having a size larger than that of the connection pipe and being opened in the front and rear direction and passing through the connection pipe and being discharged to the outside; A pressure gauge for measuring pressure information of the wind inflow pipe and the connection pipe; The pressure information of the wind inflow pipe and the connection pipe is received in connection with the pressure gauge and the shape information and the dimension information of the wind inflow pipe and the connection pipe are stored. And a controller for calculating the wind speed of the wind flowing into the wind inflow pipe from the pressure information of the wind inflow pipe and the connection pipe.

In the anemometer of the venturi structure having the honeycomb inlet according to the present invention, the wind inflow pipe has a honeycomb structure in which a plurality of horizontal passage units having a set cross-sectional shape are divided and arranged.

In the anemometer of the venturi structure having the honeycomb inlet according to the present invention, the wind inlet pipe, the connecting pipe, and the wind discharge pipe are integrally formed to form a venturi pipe having a circular section.

In the anemometer of the venturi structure having the honeycomb inlet according to the present invention, the pressure gauge may include a differential pressure measuring pipe connected to the wind inflow pipe and the connecting pipe.

According to the anemometer of the venturi structure having the honeycomb inlet according to the present invention, the wind direction is guided by the venturi tube in which the wind inlet pipe, the connection pipe and the wind discharge pipe are integrally formed, and pressure information inside the venturi pipe is measured through the pressure gauge , The controller calculates the wind speed from the Bernoulli equation, and in particular, the wind intake pipe has a honeycomb structure, so that the wind speed gradient inside the venturi tube is uniform, thereby minimizing the wind speed measurement error and improving the measurement accuracy I have.

1 is a block diagram showing a configuration of an anemometer of a venturi structure having a honeycomb inlet according to the present invention;
2 is a view showing a configuration in which a wind velocity is measured in an anemometer of a venturi structure having a honeycomb inlet according to an embodiment of the present invention;
3 is a perspective view of an anemometer of a venturi structure having a honeycomb inlet according to an embodiment of the present invention;
4 is an exemplary view of a pressure gauge constituting an anemometer of a venturi structure having a honeycomb inlet according to an embodiment of the present invention;
FIG. 5 is a block diagram showing a pressure gauge constituting an anemometer of a venturi structure having a honeycomb inlet according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings 1 to 5. In the drawings and the detailed description, there is shown and simplified the constitution and operation of a person skilled in the art from an ordinary anemometer, a venturi tube, a pressure gauge, a piezo meter, a differential pressure measurement tube, a honeycomb structure, etc. . In the drawings and specification, there are shown in the drawings and will not be described in detail, and only the technical features related to the present invention are shown or described only briefly. Respectively.

1, an anemometer 100 having a honeycomb structure having a honeycomb inlet according to an embodiment of the present invention includes a wind inlet pipe 10, a connection pipe 20, a wind discharge pipe 30, a pressure gauge 50, (60).

The wind inflow pipe 10 has a tubular shape opened in the front-rear direction, and wind flows in from the open front. In particular, the wind inflow pipe 10 according to the embodiment of the present invention has a honeycomb structure 11 in which a plurality of horizontal passage units 111 having a sectional shape set as shown in Figs. 2 and 3 are arranged in a divided manner. Here, the horizontal passage unit 111 may have a hexagonal sectional shape. As the wind inflow pipe 10 has a honeycomb structure, the velocity gradient of wind passing through the wind inflow pipe 10 can be made uniform.

The connection pipe 20 is formed to extend from the rear side of the wind inflow pipe 10 to the rear side and is made smaller than the wind inflow pipe 10. The connecting pipe 20 has a tubular shape that is open in the front-rear direction, so that the wind passing through the wind inflow pipe 10 is allowed to pass through.

The wind discharge pipe (30) is formed to extend from the rear surface of the connection pipe (20) to the rear side, and has a size larger than that of the connection pipe (20). The wind exhaust pipe 30 has a tubular shape that is opened in the front-rear direction, and the wind passing through the connection pipe 20 is discharged to the outside.

Here, the wind inflow pipe 10, the connection pipe 20, and the wind discharge pipe 30 according to the embodiment of the present invention are integrally formed as shown in FIGS. 2 and 3 to form a venturi pipe 40 having a circular cross section . 3, the venturi pipe 40 is supported and fixed to a support base 80 of the support block 70 placed on the installation surface of the anemometer 100. [

The pressure gauge 50 measures pressure information of the wind inflow pipe 10 and the connection pipe 20, and a pressure gauge 50 having various structures can be used. In particular, in the anemometer 100 having a honeycomb structure having a honeycomb inlet according to an embodiment of the present invention, a pressure gauge made up of a differential pressure measuring pipe 50a connected to the wind inlet pipe 10 and the connecting pipe 20, (50) is used. When the differential pressure measuring pipe 50a is used as the pressure gauge 50, the height difference of the working fluid disposed in the differential pressure measuring pipe 50a is measured by the height difference measuring device 51 as shown in FIG. 5, ). The height difference measuring device 51 may be a height detection sensor or a video device.

The controller 60 is connected to the pressure gauge 50 and receives pressure information of the wind inflow pipe 10 and the connection pipe 20. The controller 60 is connected to the wind inflow pipe 10 and the connection pipe 20 are stored in advance. The wind speed of the wind flowing into the wind inflow pipe 10 is calculated from the shape information and the dimension information of the wind inflow pipe 10 and the connection pipe 20 and the pressure information of the wind inflow pipe 10 and the connection pipe 20 . This is derived from the interpretation of the Bernoulli equation. When the differential pressure measuring pipe 50a is used as the pressure gauge 50 and the height difference of the working fluid disposed in the differential pressure measuring pipe 50a is input to the controller 60 as described above, The pressure difference between the inlet pipe 10 and the connecting pipe 20 is calculated to calculate the wind speed flowing into the wind inflow pipe 10.

The anemometer 100 of the venturi structure having the honeycomb inlet according to the embodiment of the present invention configured as described above is constructed in such a manner that the wind turbine 10, the connecting tube 20, The pressure information inside the venturi pipe 40 is measured through the pressure gauge 50 while the wind is guided to the pipe 40 and the wind speed is calculated from the Bernoulli equation by the controller 60. In particular, Honeycomb structure, the wind velocity gradient inside the venturi tube 40 becomes uniform, and the measurement accuracy is improved while minimizing the wind speed measurement error.

Although the anemometer of the venturi structure having the honeycomb inlet according to the embodiment of the present invention as described above has been described according to the above description and drawings, it is merely described by way of example and is not limited to the scope of the present invention It will be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention.

10: wind inflow pipe 11: honeycomb structure
111: horizontal passage unit 20: connection pipe
30: Wind discharge pipe 40: Venturi pipe
50: pressure gauge 50a: differential pressure measuring tube
51: height difference meter 60: controller
70: Support block 80: Support
100: Anemometer with venturi structure with honeycomb inlet

Claims (4)

A wind inflow pipe which is open in the front-rear direction and through which wind is introduced from the open front;
A connection pipe extending from the rear surface of the wind inflow pipe to a rear side and having a size smaller than that of the wind inflow pipe and opening in the front and rear direction to allow winds passing through the wind inflow pipe to pass therethrough;
A wind exhaust pipe extending from the rear surface of the connection pipe to a rear side and having a size larger than that of the connection pipe and being opened in the front and rear direction and passing through the connection pipe and being discharged to the outside;
A pressure gauge for measuring pressure information of the wind inflow pipe and the connection pipe;
The pressure information of the wind inflow pipe and the connection pipe is received in connection with the pressure gauge and the shape information and the dimension information of the wind inflow pipe and the connection pipe are stored. And a controller for calculating the wind speed of the wind flowing into the wind inflow pipe from the pressure information of the wind inflow pipe and the connection pipe, wherein the anemometer airfoil has a honeycomb inlet. The method according to claim 1,
Wherein the wind inflow pipe comprises a honeycomb structure in which a plurality of horizontal passage units having a set cross-sectional shape are divided and arranged. The method according to claim 1,
Wherein the wind inflow pipe, the connection pipe, and the wind discharge pipe are integrally formed to form a venturi pipe having a circular cross-section, wherein the venturi pipe has a honeycomb inlet. The method according to claim 1,
And the pressure gauge comprises a differential pressure measuring pipe connected to the wind inlet pipe and the connecting pipe. The anemometer of the venturi structure having the honeycomb inlet.

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