JPH0211091B2 - - Google Patents

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to an air volume measuring device, and particularly relates to an air volume measuring device that can measure air volume in accordance with JIS in a miniaturized form. .

[Conventional technology]

Generally, an air duct for blowing air is connected to the outlet of air conditioning equipment, etc., and an air volume regulator (damper), a directing plate (for example, a guide cone) for adjusting the direction of the blowing air flow, etc. are installed. The airflow volume can be adjusted.

Therefore, the air volume of the outlet changes depending on the opening degree of the damper, the direction of the directing plate, and whether or not it is removed. This is due to changes in the resistance of the pipe, but in order to measure the air volume at such an outlet, it is necessary to change the resistance of the pipe including the outlet without changing the resistance of the pipe. It needs to be done in good condition.

By the way, the method for measuring the air volume at such outlets is specified in JIS, but in order to obtain sufficient measurement accuracy, the air collection hood must be used to minimize the resistance of the pipes and to prevent airflow from the outlet, etc. On the other hand, in order to reduce measurement errors due to drift, the air volume metering tube must be equipped with a separate rectifier to rectify the airflow inside the air volume metering tube, or It is necessary to have a sufficient straight run-up length of the pipe.

The above also applies to measurements at the intake ports of air conditioning equipment and ventilation equipment.

[Problem that the invention seeks to solve]

Now, when measuring according to JIS, it is necessary to measure the static pressure inside the air collection hood and the average wind speed at the air volume measuring pipe, etc., but in JIS, the static pressure inside the air collection hood must be measured. The point is that the air collection hood is large because it is installed on the wall of the hood so that it is not affected by the airflow from the air outlet, etc., and the air flow metering pipe has a long run-up straight pipe length to rectify the airflow inside the pipe. Become. Therefore, there is a drawback that the entire airflow measuring device becomes large in size.

Moreover, in order to measure the average static pressure and wind speed in such a case, it is necessary to measure at a large number of measurement points, and therefore it is necessary to repeat the measurement many times. Therefore, there are problems in that it takes a lot of time to calculate the desired air volume, and human errors are also likely to occur.

Therefore, it can be said that the current situation is that a measuring device that complies with the measuring method specified by JIS has not yet been put into practical use. Therefore, generally speaking, the average wind speed at the outlet surface is measured using a hot-wire anemometer or a windmill-type anemometer, and the air volume is calculated from the cross-sectional area of the outlet. However, there is a problem in that precise measurements cannot be made due to drift due to the condition of the guide cone, etc.

[Purpose of the invention]

The object of the present invention has been made in view of the problems or drawbacks of the prior art, and
In addition to eliminating such problems or shortcomings,
The purpose of the present invention is to provide an air volume measuring device that is small and capable of measuring air volume in accordance with JIS.

[Means for solving problems]

The air volume measuring device of the present invention includes an opening disposed at an air outlet or an inlet of air conditioning or ventilation equipment, etc.
and a wind collecting hood equipped with an airfoil-shaped composite pitot tube for detecting static pressure, and a detector connected to the opening side of the air collecting hood opposite to the opening for detecting wind speed or air volume. An air volume measuring pipe provided,
a variable air blower connected to the opening side of the air volume measuring tube opposite to the opening connection side of the air collection hood, and the airfoil-shaped composite pitot tube is flattened in a direction perpendicular to the air flow direction. A static pressure averaging chamber is formed inside the hollow body, and a plurality of static pressure holes are provided in the longitudinal direction of the hollow body in a plane parallel to the air flow in this static pressure averaging chamber, and the static pressure A static pressure outlet is established in the average chamber to extract static pressure.
These airfoil-shaped composite pitot tubes are arranged in a cross shape so as to extend in two directions across the center of the air collection hood.

[Effect]

In this invention, a static pressure averaging chamber is formed inside a hollow body that is flattened in a direction perpendicular to the direction of air flow, and a static pressure averaging chamber is formed in a plane parallel to the air flow in the static pressure averaging chamber over the longitudinal direction of the hollow body. Since an airfoil-shaped composite pitot tube with multiple static pressure holes is used, the flat wall of the pitot tube rectifies the airflow, and each static pressure hole has accurate static pressure at that location. Since the individually detected static pressures are averaged in the internal static pressure averaging chamber, the average static pressure inside the hood can be accurately detected. In particular, in the present invention, the pitot tubes are arranged in a cross shape, extending in two directions across the center of the air collecting hood, so that the accuracy of the average value of the detected static pressure is further improved.

Furthermore, by comparing the static pressures detected from each of the plurality of cross-shaped wing-shaped composite pitot tubes, it is possible to observe the deviation of the airflow at the outlet of an air conditioner or the like.

In addition, if the pressure sensor for measuring the air volume of the air volume metering pipe is a sensor that detects average pressure, etc., there is no need to provide a sufficient run-up straight pipe length of the air volume measuring pipe.
This means that accurate measurements can be made and the length of the tube can be made smaller.

In addition, the air volume measuring tube is connected to the air collection hood through a bell-mouthed connecting pipe, and an airfoil-shaped composite pitot tube is installed as a pressure sensor for air volume, which is less susceptible to the effects of drift. By doing so, the pipe length can be shortened, and pressure, etc. can be detected instantaneously from a large number of measurement points, so that the air flow rate in the pipe can be measured with high accuracy.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings.

Fig. 1 is a partially cutaway external view of the airflow measuring device to which the present invention is applied, Fig. 2 is a cross-sectional view of the device in use, and Fig. 3 is a static noise inside the air collection hood and airflow measuring pipe. Illustration of a pitot tube with a combined airfoil shape for measuring pressure or average flow velocity, No. 4
Figure a, Figure 4b, and Figure 4c are explanatory diagrams explaining the action of the pitot tube of this airfoil composite type, and Figure 5.
The figure is an explanatory diagram of a specific example of a disassembled type wind collecting hood, and FIGS. 6a and 6b are explanatory diagrams of specific examples of an umbrella type wind collecting hood, respectively.

Note that the same parts in each of these figures are indicated by the same reference numerals.

In FIGS. 1 and 2, reference numeral 10 denotes an air volume measuring device, which has a wind collecting hood 1, and when measuring the air volume, the opening of the air collecting hood 1 is connected to the outlet of an air conditioning or ventilation equipment, etc. 1a is connected and installed. Inside this air collection hood 1, there is a cross-shaped airfoil-shaped composite pitot tube (airfoil-shaped composite pitot tube) 2.
is provided, and a gasket 1b is provided in the opening 1a.
are placed around it. The ventilation hood 1 is connected to a connecting pipe 3 with a bell mouth on its downstream side.
are connected to form an air passage leading to the air volume measuring pipe 4.

Here, a plate-shaped wing-shaped composite pitot tube 5 is installed in the air volume measuring pipe 4, and a flexible duct 6 is connected to the downstream end of the air volume measuring pipe 4, and the downstream side of the flexible duct 6 is connected to the downstream end of the air volume measuring pipe 4. , exhaust port 7a
A fan box 7 is provided.

A variable speed blower 8 is installed within the fan box 7, and the speed of the blower is adjusted by a speed regulator 9. Here, in this example, the variable blower 8 and the speed regulator 9 constitute a variable blower device.

In addition, 11 is an air outlet attached to the ceiling side, and 11a is a ceiling decorative board. Also, 12
The pressure gauge 13 measures the static pressure inside the hood from the cross-shaped airfoil-shaped composite pitot tube 2 installed inside the ventilation hood 1.
14a and 14b are pressure transmission pipes leading to
These are pressure transmission tubes that guide the total pressure and static pressure from the airfoil-shaped composite pitot tube 5 in the air volume measuring tube 4 to the differential pressure gauge 15, respectively.

Further, the direction indicated by arrow A in FIGS. 1 and 2 indicates the direction in which the wind flows.

Here, the cross-shaped wing-shaped composite pitot tube 2 disposed in the air collection hood 1 is connected to form a cross using two or four wing-shaped composite pitot tubes 20 shown in FIG. The airfoil-shaped composite pitot tube 5 of the air volume measuring tube 4 is constructed from the airfoil-shaped composite pitot tube 20 shown in FIG.

Next, this airfoil-shaped composite pitot tube 20 will be explained.

As shown in FIG. 3, the outer shape of the airfoil-shaped composite pitot tube 20 is a long plate-like body, and its interior is divided into two chambers: a total pressure averaging chamber 20a and a static pressure averaging chamber 20b. It has a hollow structure.

Here, as shown in FIG. 4a, when the flow of wind is indicated by arrow A, the airfoil-shaped composite pitot tube 20 acts as a wing to receive the wind against the flow of arrow A. In order to smooth the flow of fluid, the leading edge 21 of the airfoil-shaped composite topy tube 20 is formed into an arcuate shape with a corner, and there are full pressure holes 22, 22, . . . A plurality of are provided at predetermined intervals.

Here, the plurality of total pressure holes 22 are communicated with a total pressure averaging chamber 20a, and the average value of the total pressure obtained from these total pressure holes 22 is taken out from the total pressure outlet 23.

Similarly, a plurality of static pressure holes 24, 24, . . . are provided at predetermined intervals on the rear side surface of the airfoil-shaped composite pitot tube 20, and these holes communicate with the static pressure chamber 20b. The average value of the static pressures obtained from these static pressure holes 24 is taken out from the static pressure outlet 25.

As a result, even when a drifted flow B (see Fig. 4a) exists, the disturbed flow flows smoothly on the wall near the rear static pressure hole of the airfoil-shaped composite pitot tube 20, and this is rectified. Therefore, the static pressure inside the air collecting hood 1 can be detected correctly, and similarly, the dynamic pressure in the air volume measuring tube 4 can also be correctly detected.

Reference numeral 26 denotes a triangularly protruding static pressure regeneration fin provided on the rear side surface of the airfoil-shaped composite pitot tube 20. By extending the static pressure regeneration fin 26, the upper and lower surfaces of the trailing edge are It is possible to detect true and stable static pressure. and static pressure hole 24
The static pressure hole 24 is arranged at an appropriate location with respect to the static pressure regeneration fin 26.

In the airfoil-shaped composite pitot tube 5, the average dynamic pressure in the leading edge direction is detected from the differential pressure between the average value of the total pressure and the average value of static pressure detected as described above. Therefore, the average flow velocity in the leading edge direction can be measured instantaneously. Therefore, even if the length of the air volume measuring pipe 4 is shortened, the average dynamic pressure can be accurately measured and the air volume can be calculated, in combination with the connection using the bellmouth-shaped connecting pipe 3. be able to.

Similarly, an airfoil-shaped composite pitot tube 2 formed in a cross shape
Even if the length of the air collection hood 1 is shortened, the static pressure at multiple measurement points in multiple directions is averaged, so the static pressure inside the hood at multiple measurement points can be maintained with high accuracy. It becomes possible to measure pressure.

In addition, Fig. 4b explains the relationship between the wind speeds v ₁ , v ₂ , v ₃ , v ₄ , and v ₅ at each measurement point at the leading edge, and Fig. 4 c shows how these are averaged. shows the detected wind speed.

In addition, according to JIS, etc., the hood is made large so that it is not affected by the direction of the airflow flowing out from the air outlet 11, and the static pressure inside the air collecting hood is detected from the inner wall surface of the air collecting hood as a measurement point. In general air conditioning equipment, the type of outlet and the shape of the air pipe are different, the direction of the airflow is different, and the damper attached to the outlet tends to cause uneven flow. This becomes a problem when the air collection hood is downsized and the hood static pressure is measured from the wall surface. Therefore, as shown in this embodiment, it is necessary to eliminate such influences by using a cross-shaped wing-shaped composite pitot tube to perform measurements in multiple directions and at multiple measurement points.

Next, the operation of this air volume measuring device will be explained.

First, the air volume measuring device is moved to the position of the air outlet 11 to be measured, and the flexible duct 6 is moved by a lifting device (not shown) driven by a motor or the like.
Adjust the length of the opening 1a of the air collection hood 1 to bring it into contact with the air outlet 11. Next, the static pressure inside the ventilation hood 1 is measured by the pressure gauge 13, and the pressure is adjusted so that it is equal to the indoor static pressure measured at the point where the pressure gauge 13 that detects the differential pressure is opened into the room. Blower 8
is started, and the speed regulator 9 adjusts the amount of air exhausted from the exhaust port 7a.

Next, the differential pressure between the average total pressure and the average static pressure from the airfoil composite pitot tube 5 in the air volume measuring tube 4 is measured as an average dynamic pressure by the differential pressure gauge 15, and the air volume is calculated.

As described above, the air volume is measured in accordance with JIS.

In this case, it is possible to individually measure the static pressure at each position of the four blades of the cross-shaped airfoil-shaped composite pitot tube 2 in the air collection hood 1, and By performing the measurement, it is also possible to observe the deviation of the airflow sent out from the air outlet 11.

To give an example of the size of the air volume measuring device 10 to which the present invention is applied, configured as described above, compared with the JIS size, the height of the air collection hood is as follows compared to the JIS size: The length of the air flow metering tube can be reduced to about 1/3 of its diameter without the need to install a rectifier.

As a result, the entire airflow measuring device can be reduced in size from 2/3 to 1/2.

FIG. 5 shows a specific example in which the air volume measuring device 10 can be disassembled for convenient transportation by making the air collection hood part disassembled, and the device is made smaller for transportation. It is something.

The air collecting hood 30 of such an air volume measuring device is
It has separable and opposing side plates 31 and 32 formed as plates made of synthetic resin, and is foldably connected to a bottom part 33 also formed as a plate made of synthetic resin by a hinge mechanism. It has side plates 34 and 35 made of similar material. A cross-shaped airfoil-shaped composite pitot tube 2 is installed on this bottom portion 33.

These side plates 31 and 32 are held by the surrounding flanges 31a and 32a of the folding side plates 34 and 35, respectively, around the side plates 34 and 35 with a pinching member such as a clip.
It is assembled into a box shape.

Note that here, the bellmouth-shaped connecting portion 3 and this air collection hood 30 can be separated.

FIGS. 6a and 6b show specific examples of a wind-collecting hood that can be collapsed when stored, and the wind-collecting hood 37 in the form of a western umbrella
A cloth 39 is attached to a skeleton 38 formed of a viano wire or the like.
The hood part of the cloth 39 etc. is constructed so that it expands into an umbrella shape and opens when in use, as shown in Figure 6a. As shown in b, it can be narrowed.

As explained above, in the embodiment, an airfoil-shaped composite pitot tube for detecting the average static pressure and average total pressure is installed in the air volume measuring device to measure the air volume.
This is a detector that detects pressure and also detects wind speed or air volume, and is a detector that directly or indirectly detects wind speed or air volume without relying on such a device. It can be anything like that. In particular, when shortening the air volume measuring tube, it is recommended to use a measuring device that can detect average static pressure and average total pressure, or can directly measure average wind speed or air volume.

Further, in the embodiments, the explanation has been given mainly on the measurement of the air volume at the outlet of an air conditioner, but it goes without saying that the present invention can be similarly applied to the measurement of the air volume at the outlet of ventilation equipment and their inlets.

〔Effect of the invention〕

As explained above, in this invention, a static pressure averaging chamber is formed inside a hollow body that is flattened in a direction perpendicular to the air flow direction as a static pressure detector in the air collection hood, and the static pressure averaging chamber is Since an airfoil-shaped composite pitot tube is used, which has multiple static pressure holes in the longitudinal direction of the hollow body in a plane parallel to the air flow in the chamber, the flat wall of the pitot tube prevents air flow. The flow is rectified, and each static pressure hole can detect the accurate static pressure at that location.
Since the individually detected static pressures are averaged in the internal static pressure averaging chamber, the average static pressure inside the hood can be accurately detected. In particular, in the present invention, the pitot tubes are arranged in a cross shape, extending in two directions across the center of the air collecting hood, so that the accuracy of the average value of the detected static pressure is further improved. For these reasons, it is possible to downsize the air collection hood, which conventionally had to be particularly large, while ensuring the accuracy of the static pressure measurement value.

Furthermore, by comparing the static pressures detected from each of the plurality of cross-shaped wing-shaped composite pitot tubes, it is also possible to observe deviations in airflow from the outlets of air conditioning equipment, etc.

Furthermore, if a sensor that detects the average pressure is used as the sensor of the air volume measuring device of the air volume measuring pipe, it is not necessary to take a sufficient straight run-up length of the air volume measuring pipe, and this length can also be made small.

Therefore, if both the static pressure detector and the air volume measuring device are configured as described above, the air volume can be easily measured using the airfoil-shaped composite pitot tube, and a highly accurate and compact air volume measuring device can be realized.

[Brief explanation of drawings]

Fig. 1 is a partially cutaway external view of the airflow measuring device to which the present invention is applied, Fig. 2 is a cross-sectional view of the device in use, and Fig. 3 is a static noise inside the air collection hood and airflow measuring pipe. Illustration of a pitot tube with a combined airfoil shape for measuring pressure or average flow velocity, No. 4
Figure a, Figure 4b, and Figure 4c are explanatory diagrams explaining the action of the pitot tube of this airfoil composite type, and Figure 5.
The figure is an explanatory diagram of a specific example of a disassembled type wind collecting hood, and FIGS. 6a and 6b are explanatory diagrams of specific examples of an umbrella type wind collecting hood, respectively. 1...Air collection hood, 2...Cross-shaped airfoil-shaped composite pitot tube, 3...bellmouth-shaped connecting pipe, 4...air volume measuring tube, 5...airfoil-shaped composite pitot tube, 6...flexible duct, 7...fan box, 7a...exhaust port, 8...
Blower, 9...speed regulator.

Claims (1)

[Scope of Claims] 1. A ventilation hood equipped with an opening disposed at the outlet or inlet of air conditioning or ventilation equipment, etc., and an airfoil-shaped composite pitot tube for detecting static pressure; An air volume measuring pipe connected to an opening on the opposite side to the opening and provided with a detector for detecting wind speed or air volume, and an opposite side of the air volume measuring pipe to the opening connection side of the air collection hood. The airfoil-shaped composite pitot tube forms a static pressure averaging chamber inside a hollow body that is flattened in a direction perpendicular to the air flow direction. A plurality of static pressure holes are provided in the longitudinal direction of the hollow body in a plane parallel to the air flow in the pressure averaging chamber, and a static pressure outlet for taking out static pressure is provided in the static pressure averaging chamber, An air volume measuring device characterized in that the wing-shaped composite pitot tubes are arranged in a cross shape, extending in two directions across the center of the air collection hood. 2. The air volume measuring device according to claim 1, wherein the air volume measuring pipe is connected to the air collection hood via a bellmouth-shaped connecting pipe or a connecting part.