KR101415882B1 - Flow Meter Tab have Portable Digital Flow Meter - Google Patents

Abstract

The present invention relates to a portable digital air volume measurement device having a static pressure tab for air volume measurement, including: a duct hopper receiving an outlet port of a blower or a duct, and having an air receiving portion to which the discharged air is introduced; a connecting pipe connected to the duct hopper to prevent loss of the discharged air formed in a bellows shape to easily adjust its length; a pressure measurement tap connected to an upper portion of the duct hopper to communicate with the air receiving portion measuring air volume, static pressure, and average pressure when the discharged air is introduced; a support handle rotatably connected to both sides of the duct hoppers having a height adjusting member to adjust its length such that the duct hopper is easily installed at a height position; a duct connecting unit having a support frame to support the duct hopper from the ground such that the discharged air is stably introduced into the connecting pipe; and an air volume measurement unit connected to the duct connecting unit to measure the volume and the air pressure.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a portable digital air flow meter having a static pressure tap for measuring air flow,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a portable digital air flow meter equipped with a static pressure tap for air flow measurement. More particularly, the present invention relates to an air conditioner capable of measuring the air volume and static pressure as well as the air volume discharged from an air conditioner system, a small-sized fan, and a blower of an automobile and measuring the air temperature and humidity quickly and precisely The present invention relates to a portable digital air flow meter having a static pressure tap for use.

Generally, the application range of oilseed raising equipment has been diversified according to the rapid development of engineering technology and improvement of living environment. In recent years, domestic and foreign industries have been making efforts to meet the demands of consumers demanding quiet and eco-friendly products, and to make products more comfortable and comfortable and to be competitive.

Particularly, it is very difficult to supply the necessary amount of air to a desired place by using a duct system because of complicated flow characteristics depending on the shape of the duct system and unevenness of the pressure distribution.

In addition, the precise supply and control of the airflow requires expensive equipment, so the value added by building level and construction is determined by the ventilation system. In developed countries, many kinds of researches on ventilation system are being carried out to realize high added value in construction and high value-added buildings are applied to building construction.

On the other hand, the air volume of the blower or the duct is measured by using a phyto-static pressure tube or an anemometer. At this time, the measuring instrument is inserted into the duct to be perpendicular to the air flow direction.

However, it is difficult to maintain the measurement hole for at least one minute without changing the vertical and horizontal positions, and it is impossible to visually confirm in which direction or at which position the sensor portion of the measuring instrument is inserted in the duct, There is a problem that the accuracy of the measured value is reduced and the back pressure formed at the pressure measuring nozzle portion is transmitted at an extremely low speed flow to generate a pressure loss.

In addition, the current airflow measurement is required to measure the precise air flow rate in the indoor air conditioning system, the automobile air conditioning system, and household appliances (air conditioner, air purifier, small ventilator, bathroom ventilation fan, hair dryer etc.) to be.

As described above, in order to measure a precise discharge air volume, a duct or a fan is inevitably discharged due to a boundary layer effect, resulting in a fluid separation or vortex phenomenon. Accordingly, the air flow rate due to the average flow velocity, It is forced to have a velocity distribution.

For this reason, in a general medium-sized airflow fan, a method of multipurpose measurement is used to measure the air flow rate, or a multipoint measurement is performed by a pitot tube at a discharge port, and then a flow rate is averaged again and converted into air volume.

In addition, a method of calculating the flow rate by using a hot-wire sensor or an anemometer is used, but it is impossible to precisely measure the flow rate due to the characteristics of the air. Moreover, It is impossible to precisely measure the air flow rate.

On the other hand, when the air flow measuring method using the nozzle device is used, a uniform air flow rate can be measured, a range of performance measurement is wide, and a combination of nozzles for opening and closing a plurality of nozzles, However, there is a problem that the air flow measuring method using the nozzle device is very large in size because of its large size, heavy weight, and high price.

(Patent Document 1) Korean Patent Publication No. 2008-0041365 (2008.05.13.)

In order to solve such problems, it is an object of the present invention to provide an air conditioner and an air conditioner which are capable of quickly, easily and precisely measuring the air flow rate of an air duct of an indoor air conditioning and ventilating apparatus, And an object of the present invention is to provide a portable digital air flow measuring device provided with a static pressure tap for measuring an air flow volume capable of measuring the air flow rate.

In addition, the present invention is intended to measure not only the air volume discharged from an air conditioner system of a car, a small-sized fan and a blower but also a suction air volume and a static pressure, and to quickly and precisely measure air temperature and humidity included in the air volume have.

It is another object of the present invention to make it possible to carry easily by compact production, and to quickly, simply, and precisely measure the amount of lumens such as indoor air conditioning and air duct of a ventilating apparatus.

According to an aspect of the present invention, there is provided a portable digital air flow measuring apparatus including a static pressure tap for measuring air flow, comprising: a duct hopper configured to receive an air discharged from an air blower or a duct to discharge air; A connection pipe connected to the duct hopper to prevent leakage of air to be discharged and formed into a bellows shape for easy adjustment of length; A pressure measuring tab coupled to an upper portion of the duct hopper and communicating with the air receiving portion, for measuring an amount of air, a static pressure, and an average pressure when the discharged air flows; A support handle rotatably coupled to both sides of the duct hopper and having length adjusting means for adjusting the length of the duct hopper so as to be conveniently installed at a high position; And a support frame for supporting the duct hopper from the ground to allow air to be stably introduced into the connection pipe. And a flow rate measuring device connected to the duct connecting device and measuring the amount and pressure of the air flowing into the duct connecting device.

Further, in the present invention, the pressure measuring tab may be provided with a pressure gauge that adjusts the pressure difference between the discharge pressure of the air discharged from the duct or the blower and the suction pressure of the air sucked through the suction means, The present invention provides a portable digital airflow meter having a static pressure tap for air flow measurement.

Further, in the present invention, the pressure measuring tab may include a sealing member formed on the upper surface to prevent leakage of the air to be discharged, and a sealing member formed on the upper surface of the sealing member to prevent air from entering the air- A static pressure tap for measuring air pressure is provided, which comprises a pressure measurement hole for measuring pressure and an average pressure port for measuring an average pressure of the air to be introduced.

In the present invention, the duct hopper is provided with a fixing flange for fixing the duct hopper along the inner periphery of the air receiving portion, and a rotary flange provided on both sides of the upper portion of the fixed flange and rotatably engaged with the supporting knob And a static pressure tappet for measuring the air volume.

Further, in the present invention, the support frame may be removably coupled to the duct hopper, and an upper support may be provided on the outer circumferential surface of the support frame, to thereby buffer the pressure of the air introduced into the duct hopper. A lower support coupled to a lower portion of the upper support so as to adjust height of the support frame; A support member fixedly coupled to the lower side of the lower support; And an angle control unit rotatably coupled to the upper support so as to rotate the upper support by a predetermined angle.

Further, in the present invention, the air flow meter may include: air calming means for calibrating fluidity of air flowing in from the connection pipe; A measuring nozzle member for measuring an amount of air passing through the air calming device; An air suction means composed of a motor and a fan for sucking air that has passed through the measurement nozzle member and discharging the air to the outside; A main cover which is installed inside the air purifying unit, the measuring nozzle member, and the air suction unit and is connected to a lower portion of the connection pipe to prevent the air from flowing into the unit for air flow measurement; And a handle member coupled to an upper portion of the main cover and having a sensor unit installed therein. The digital air flow meter of the present invention includes the static pressure tap for measuring air flow.

In the present invention, the main cover may include an inlet cover connected to the connection pipe, a first fixed cover into which the inlet cover is inserted and to which the measurement nozzle device is fixed, A second fixed cover which is provided with a static pressure tap for air flow measurement and a casing in which a measurement nozzle device and an air suction means are installed and a discharge port through which the sucked air is discharged is constituted, Device.

According to the present invention as described above, it is possible to quickly, simply, and precisely measure the air flow rate of the air duct of the indoor air conditioning and ventilating apparatus, and to measure the air flow rate of the air outlet and the air inlet by compensating the attenuation of the air flow rate There is an effect that can be done.

Further, according to the present invention, it is possible to measure not only the amount of air discharged from an air conditioner system of a car, a small and medium-sized fan and a blower but also a suction air volume and a static pressure, .

Further, according to the present invention, it is possible to carry easily by small-sized production, and it is possible to quickly, simply, and precisely measure the amount of the liquefied air in the air duct of the ventilation apparatus.

FIG. 1 is a perspective view of a portable digital air flow meter having a static pressure tap for air flow measurement according to a preferred embodiment of the present invention. FIG.
FIG. 2 is an exploded perspective view showing an airflow measuring apparatus according to a preferred embodiment of the present invention, FIG.
FIG. 3 is a side view of a portable digital air flow meter having a static pressure tap for air flow measurement according to a preferred embodiment of the present invention,
4 is a view showing a pressure measurement tab of a duct connecting apparatus according to a preferred embodiment of the present invention,
5A and 5B are enlarged views of a main part of a duct connecting apparatus according to a preferred embodiment of the present invention,
FIG. 6 and FIG. 7 are installation states of a portable digital air flow measuring apparatus according to a preferred embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to designate the same or similar components throughout the drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a perspective view of a portable digital airflow measuring apparatus provided with a static pressure tap for measuring an airflow according to a preferred embodiment of the present invention, FIG. 2 is an exploded perspective view showing an airflow measuring apparatus according to a preferred embodiment of the present invention, FIG. 4 is a view illustrating a pressure measurement tab of a duct connecting apparatus according to a preferred embodiment of the present invention, and FIGS. 5A and 5B are views showing a pressure measurement tap according to a preferred embodiment of the present invention. FIG. 5B is an enlarged view of a main part of a duct connecting apparatus according to a preferred embodiment of the present invention, and FIG. 6 and FIG. 7 are installation states of a portable digital air flow measuring apparatus according to a preferred embodiment of the present invention.

As shown in the drawings, the portable digital air flow measuring apparatus of the present invention includes a duct connecting device 100 connected to a blower or a duct system for transferring air discharged from the blower or duct to a digital air flow meter, And an air flow rate measuring device 200 for measuring the air flow rate of air introduced from the air flow meter 100.

2, the air flow measuring device 200 is connected to the connecting pipe 110 formed in the duct connecting device 100 so that the air flow measuring device 200 can measure not only the air flow rate of the air flowing from the connecting pipe 110, Static pressure, temperature, and humidity.

The digital air flow measuring apparatus includes an air purifying unit 210, a measuring nozzle member 220, an air suction unit 230, a main cover 240, and a sensor unit 250.

The air circulation means 210 communicates with the connection pipe 110 formed in the duct connection device 100 and a plurality of air holes are formed to calm the flowability of the air introduced from the duct connection device 100.

The measurement nozzle member 220 measures the amount of air passing through the air calming means 210 and is formed to penetrate in the axial direction so that an air measurement hole for measuring the amount of air through the suction force of the air suction means 230 is formed.

The air suction means 230 sucks air that has passed through the measurement nozzle member 220 and discharges the air to the outside, and is composed of a motor and a fan.

The main body cover 240 is connected to the duct connecting device 100 to prevent the air from flowing into the duct connecting device 100. The duct cover 100 is connected to the connecting pipe 110 of the duct connecting device 100, (242).

The main body cover 240 is formed with a casing 244 in which a measurement nozzle unit 220 and an air suction unit 230 are installed and the air suction unit 230 is installed on one side of the outer circumference of the casing 244. [ An outlet 246 is provided for the discharge of the inhaled air.

The main cover 240 has a first fixed cover 252 into which the inflow cover 242 is inserted and to which the measurement nozzle unit 220 is fixed and a second fixed cover 252 on which the suction unit 230 is mounted coaxially with the measurement nozzle unit 220. [ And the second fixed cover 254 is positioned so that the second fixed cover 254 is positioned.

The body cover 240 is provided with a handle member 256 for easily gripping the airflow measuring apparatus 200 so as to improve the portability of the airflow measuring apparatus 200 and to facilitate the movement of the airflow measuring apparatus 200. The handle cover 256 has, (252) and the second fixed cover (254).

Here, the handle member 256 is connected to the pressure measuring tab 130 formed in the duct connecting device 100 through the air hose 135 to measure the static pressure of air, the temperature and the humidity of the air, And the sensor unit 250 measures the pressure difference between the air and the pressure measurement tab 130 and measures the static pressure of the air discharged to the discharge port.

3, the duct connecting apparatus 100 according to the present invention includes a connecting pipe 110 connecting the air flow measuring device 200 and the duct connecting apparatus 100, A duct hopper 120 coupled with the blower or the duct and coupled to the duct hopper 120, a pressure measurement tap 130 that is fixedly coupled to the upper side of the duct hopper 120 to measure the pressure of the air discharged from the blower or duct, And a support frame 150 for supporting the duct hopper 120 coupled to the duct, and a support handle 140 for easily positioning the duct hopper 120 in a blower or duct installed at a high position as shown in FIG.

The duct connecting device 100 has an upper end fixed to a blower or a duct and a lower end coupled to the inlet cover 242 of the main cover 240 to introduce air discharged from the blower or duct into the air flow measuring device 200 It is a component that sucks in or discharges sucked air.

The duct connecting device 100 includes a connecting pipe 110 connecting the air flow measuring device 200 and the duct connecting device 100 and a duct connecting the lower end of the connecting pipe 110 and the blower or duct, A hopper 120, a pressure measuring tap 130 fixedly coupled to the upper side of the duct hopper 120 to measure the pressure of air discharged from the blower or the duct, a blower or duct installed at a high position such as a ceiling of the building, And a support frame 150 for supporting the duct knob 120 coupled to the support knob 140. The support knob 140 includes a support frame 140,

The connection pipe 110 is connected to the inlet cover 242 at the lower side and the upper end is connected to the duct hopper 120 to connect the air introduced into the duct hopper 120 to the air flow meter 200 ). ≪ / RTI >

The connection pipe 110 is formed in a bellows shape so that the length of the connection pipe 110 can be easily adjusted, thereby facilitating the installation of the duct connecting device 100 on the ceiling of the building.

The duct 210 is connected to the upper and lower portions of the connecting pipe 110 in a detachable manner from the duct cover 120 and the inlet cover 242 of the air flow meter 200, A connection plate 112 is formed to prevent leakage of the air to be supplied to the inside of the digital air flow meter 200 through the connection pipe 110.

The inner circumference of the connection plate 112 may further include a leakage preventing packing member to prevent air flowing from the connection pipe 110 from leaking between the connection pipe 110 and the inflow cover 242.

The duct hopper 120 is made of a flexible material such as cloth, vinyl, or PVC and is detachably coupled to the connecting plate 112 formed on the upper portion of the connecting pipe 110. The outlet port of the blower or duct is accommodated And a fixing flange 124 for fixing the duct hopper 120 to the ceiling of the building or the like along the inner periphery of the air receiving portion 122 is formed.

The fixing flange 124 of the duct hopper 120 is configured to surround the upper outer circumferential surface of the duct hopper 120 and has a rotation flange 126 on both sides of which a support knob 140 do.

Here, the support frame 150, which will be described later, is coupled to the rotation flange 126 so that the duct hopper 120 can be stably fixed to a duct, a blower, or the like.

The circumferential surface of the duct hopper 120 can be seen from the outside as well as a state in which the air is introduced from the blower or the duct. In addition, a projection window (not shown) is provided to check the state of connection between the duct hopper 120 and the blower or duct. 128) may be configured.

4, the pressure measurement tab 130 is coupled to the fixing flange 124 of the duct hopper 120 so that the air discharged from the duct or the blower 120 flows into the air receiving portion 122 of the duct hopper 120 It is a component that measures the amount of air, static pressure and average pressure when entering.

The pressure measuring tab 130 is coupled to the fixing flange 124 of the duct hopper 120 and is configured to communicate with the air receiving portion 122 and is provided with a pressure measuring tab 130 A sealing member 132 is provided, and on the inner circumferential surface thereof, a static pressure tap 134 for measuring a static pressure of air flowing from a duct or a blower is formed.

Here, the static pressure tap 134 is formed with a plurality of pressure measurement holes 136 spaced apart from each other by a predetermined distance to measure the pressure of the air passing therethrough. Inside the static pressure tap 134, an average pressure port 138 for measuring the average pressure of the air to be introduced is formed.

The average pressure port 138 measures an average pressure of air flowing into the air receiving portion 122 and air passing through the static pressure tap 134 and is connected to the sensor portion 250 by the air hose 135 Measure the average pressure of the air entering the duct or blower.

The static pressure tap 134 is provided with a discharge pressure sensor and a static pressure sensor of the sensor unit 250 so as to measure the measured value measured from the pressure measurement hole 136 and the average pressure port 138, And transmit the measured data from the pressure sensor and the static pressure sensor to the control unit.

Further, on one surface of the pressure measurement tab 130 of the present invention, an agitator 300 for correcting an error of a pressure occurring when the static pressure is measured may be configured.

The manometer 300 adjusts the pressure difference between the discharge pressure of the air discharged from the duct or the blower and the suction pressure of the air sucked through the suction means 230 to correct an error occurring in the measurement of the air flow rate.

The support handle 140 is configured to conveniently install the duct hopper 120 at a high position such as a ceiling of a building or the like and is rotatably coupled to the fixing flange 124 and is provided with a length adjusting means 160).

The duct connecting apparatus 100 configured as described above may be connected to the outlet 246 formed in the casing 244 as well as the inlet cover 242 to measure the static pressure of the air to be discharged.

At this time, it is preferable that a connecting plate 410 is formed at the end of the connecting pipe 110 of the duct connecting apparatus 100 so as to be connected to the casing 244.

The support frame 150 is configured such that the duct hopper 120 is supported from the ground so that the air to be discharged can be stably introduced into the air flow measuring device 200 through the connection pipe 110, (124) or the rotating flange (126), and the lower end is configured to be seated on the ground.

The support frame 150 includes an upper support 152 detachably coupled to the fixing flange 124 or the rotation flange 126 of the duct hopper 120, A lower support 154 configured to adjust the height of the frame 150 and a support member 156 fixedly coupled to the lower side of the lower support 154 so that the support frame 150 can be stably installed from the ground, The height control of the angle control means 172 and the support frame 150 that are rotatably coupled to the support pedestal 152 and the lower support pedestal 154 so that the upper support pedestal 152 can rotate by a predetermined angle, And a height adjusting unit 180 provided between the lower support 154 and the support unit 156.

The upper support 152 has a buffering means 152 for buffering the pressure of the air to prevent the duct hopper 120 from being separated from the blower or duct due to the pressure of the air introduced into the duct hopper 120 on the outer circumferential surface, Can be further configured.

Here, it is preferable that the buffering means 152 is constituted by a normal spring-coupled structure so as to buffer the duct hopper 120 due to elasticity of the spring, but the present invention is not limited thereto.

6, the angle adjusting unit 172 rotates the upper support 152 by a predetermined angle to easily adjust the position of the duct hopper 120, and the angle of the upper support 152, And a rotation control unit 174 for controlling the amount of rotation of the rotating upper support 152 is constructed.

The rotation control unit 174 is coupled to the angle adjusting unit 172 by a screw fastening method and is configured to control the rotation amount of the upper support table 152 according to the degree of fastening.

The height adjusting means 180 is configured to enclose the outer circumferential surfaces of the lower support rod 154 and the support member 156. When the lower support rod 154 is lifted up and down from the support member 156, So that the lower support table 154 is fixed to the support member 156. [0052] As shown in FIG.

That is, the height adjusting means 180 operates to move up and down the lower support table 154 from the support member 156 according to the degree of fastening of the fastening bolts 182.

The portable digital airflow measuring apparatus having the static pressure tap for airflow measurement according to the present invention configured as described above is capable of measuring the airflow of the air duct of the indoor air conditioning and ventilation apparatuses quickly and easily and precisely, Minute, it is possible to measure the accurate air volume of the air outlet and the inlet. It is possible to measure the air volume and static pressure as well as the air volume discharged from the air conditioner system, small and medium sized fan and blower of the vehicle, Humidity, and can be easily carried by a small-sized production, and is capable of quickly, easily, and precisely measuring the amount of air in the air duct of a ventilating apparatus, and the like.

The foregoing description is merely illustrative of the technical idea of the present invention and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be construed according to the following claims, and all technical ideas falling within the scope of the same shall be construed as falling within the scope of the present invention.

100: duct connecting device 110: connecting pipe
120: duct hopper 122: air receiving portion
124: Fixing flange 126: Rotating flange
130: pressure measuring tab 132: sealing member
134: static pressure tap 135: air hose
136: Pressure measurement hole 138: Average pressure port
140: support handle 150: support frame
152: upper support 154: lower support
156: support member 160: length adjusting means
172: angle controlling means 180: height adjusting means
200: air volume measuring device 210; Air-cooling means
220: measuring nozzle member 230: air suction means
240: main body cover 250:

Claims (7)

A portable digital air flow measuring apparatus equipped with a static pressure tap for measuring air flow,
A duct hopper configured to receive an air discharge port of the air blower or duct and to receive air to be discharged,
A connection pipe connected to the duct hopper to prevent leakage of air to be discharged and formed into a bellows shape for easy adjustment of length;
A pressure measuring tab coupled to an upper portion of the duct hopper and communicating with the air receiving portion, for measuring an amount of air, a static pressure, and an average pressure when the discharged air flows;
A support handle rotatably coupled to both sides of the duct hopper and having length adjusting means for adjusting the length of the duct hopper so as to be conveniently installed at a high position;
And a support frame for supporting the duct hopper from the ground to allow air to be stably introduced into the connection pipe. And
An air amount measuring device connected to the duct connecting device for measuring an air amount and a pressure of the air to be introduced
And a static pressure tap for measuring an air flow.
The method according to claim 1,
Wherein the pressure measuring tab is provided with an agitator for correcting an error occurring in the air flow rate measurement by adjusting a pressure difference between the discharge pressure of the air discharged from the duct or the blower and the suction pressure of the air sucked through the suction means. A portable digital air flow measuring device equipped with a static pressure tap for air flow measurement.
The method according to claim 1,
The pressure measuring tab may include a sealing member formed on the upper surface to prevent leakage of air to be discharged and a pressure measuring hole for measuring a pressure of air introduced into the air receiving portion to measure a static pressure of air introduced from the duct or the blower. And an average pressure port for measuring an average pressure of the air to be introduced. The static pressure tap for air flow measurement is provided with the static pressure tap.
The method according to claim 1,
Wherein the duct hopper is formed with a fixing flange for fixing the duct hopper along the inner periphery of the air receiving portion and a rotary flange provided on both sides of the upper flange for rotatably coupling the supporting knob. And a portable digital air flow meter.
The method according to claim 1,
The support frame
An upper supporter detachably coupled to the duct hopper and having an outer circumferential surface formed with buffer means for buffering the pressure of air introduced into the duct hopper;
A lower support coupled to a lower portion of the upper support so as to adjust height of the support frame;
A support member fixedly coupled to the lower side of the lower support;
And an angle control unit rotatably coupled to rotate the upper support member by a predetermined angle,
And a static pressure tap for measuring the air volume.
The method according to claim 1,
The air flow meter
Air calming means for calming the flowability of the air introduced from the connector;
A measuring nozzle member for measuring an amount of air passing through the air calming device;
An air suction means composed of a motor and a fan for sucking air that has passed through the measurement nozzle member and discharging the air to the outside;
A main cover which is installed inside the air purifying unit, the measuring nozzle member, and the air suction unit and is connected to a lower portion of the connection pipe to prevent the air from flowing into the unit for air flow measurement; And
A handle member coupled to an upper portion of the main cover,
And a static pressure tap for measuring an air flow.
The method according to claim 6,
The body cover
A first fixed cover into which the measurement nozzle device is inserted and into which the intake cover is inserted, a second fixed cover that allows the suction means to coaxially align with the measurement nozzle device, And a casing in which an air suction means is installed, and a discharge port through which the sucked air is discharged is formed, wherein the casing includes a static pressure tap for measuring an air volume.

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