JPS608718A - Wide-range flow rate measuring device - Google Patents

Abstract

PURPOSE:To eliminate switching of connection of laminar flowmeters and to make a flow rate visible with an electric signal by measuring the flow rate in accordance with the differential pressure of laminar flow meters to display the flow rate when laminar flowmeters are connected. CONSTITUTION:A revolving shaft 23 provided with a rotation angle sensor is rotated, and a laminar flowmeter 16a or 16b is taken out in accordance with the range of flow rate and is stopped in the position where it is matched with a nipple 21. A disc 19a is moved downward along a guide 22 and is connected to an object 4 to be measured through the laminar flowmeter 16a or 16b, a hose 11, and an entrance-side nipple 8. Laminar flowmeters 16a and 16b are connected to a pressure gauge 14a from differential pressure nipplis 25 and differential pressure nipples 26 for a low flow rate through rubber hoses 15, and the output of the pressure gauge 14a is converted to a digital signal by an A/D converter 27 and is displayed on a flow rate digital display part 28, thereby making the electric signal visible. The pressure taken out from a pressure detecting nipple 10 of the object 4 to be measured can be converted similarly.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a wide-band flowmeter that can easily measure a flow rate over a large flow rate range without connecting to a different flowmeter.

A conventional device of this type is shown in FIG. In this FIG. 1, 1 is the flow rate side, and 2 is the nirasol located at both ends of this flow meter 1.

The flowmeter is fixed to a wall or a fixed plate with a jig 3 in a direction perpendicular to the ground.

On the other hand, 4 is an object to be measured, and this object 4 is fixed on a table 5.

The table 5 is vertically installed on a desk by legs 6, and the object 4 to be measured is fixed on the table 5 with an upper support metal fitting 7.

An inlet side nirasol 8 and an outlet side nipple 9 are connected to the stand 5. Further, each of the inlet nipple 8 and the outlet nipple 9 is provided with a pressure detection nipple 10.

The Niraguru 2 and the Nirasol 8 on the inlet side are connected by a hose lla, and the nipple 9 on the outlet side and the negative pressure source 1 are connected by a hose llb.
2 are connected. The negative pressure source 12 has a negative pressure region p output D
13 are provided.

In addition, the pressure difference between the pressure in the inlet side niggle 8 and the pressure in the outlet side niggle 9 is connected to a pressure detection nipple 10 with a rubber hose 15. The pressure is detected by a pressure gauge 14.

Next, the operation will be explained. A pressure difference is created between the inlet side nipple 8 and the outlet side nipple 9 by the negative pressure source 12, and the flow rate of the object to be measured 4 when the pressure difference is indicated by the pressure gauge 14 is read by the flow meter 1.

Conventional flow rate measurement devices are configured as described above, so when the measurement range of one flow meter is exceeded, the hose must be connected to another flow meter, which requires replacing the flow needle and connecting the hoses. Change is inefficient.

In addition, it is necessary to visually check the float position, and there is a possibility that visual errors may occur.

This invention was made in order to eliminate the above-mentioned conventional drawbacks, and eliminates the need to install, replace, and reconnect multiple laminar flowmeters, and provides a broadband flow rate measuring device that can be visually observed using electrical signals. is intended to provide.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the broadband flow rate measuring device of the present invention will be described with reference to the drawings. FIG. 2 is a diagram showing the configuration of one embodiment. In FIG. 2, parts that are the same as those in FIG. 1 are given the same reference numerals, and their explanation will be omitted, and the description will mainly focus on the parts that are different from FIG. 1.

In FIG. 2, the parts indicated by reference numeral 16a and subsequent parts are newly added parts, and 16a is a laminar cuff 0-meter, and similarly, 16b is a laminar flow meter with a different flow rate range.

Filter 1 is installed at the air intake port of the laminar flow meter 16a.
Similarly, a filter 17b is also attached to the laminar flow make 16b.

The laminar flowmeters 16a and 16b are mounted on discs 19a and 9a, and the discs 19a have O-rings 18
a and 18b are attached. 0 ring 18atj
Air leakage at the joint part of the laminar flow meter 16a'
The O-ring 18b is an O-ring for preventing air leakage at the joint portion of the laminar flow make 16b.

20aU takes out nipple holding part 20a, and this taking out nipple holding part 20a holds the taking out nira guru 21. This is held by the take-out Niraguru holding part 20aU and the support column 20b. Furthermore, a guide 22 is attached to this extraction nipple holding portion 20a. The guide 22 is for guiding the disc 19a.

Further, a rotating shaft 23 with a rotation angle sensor is attached to the rotating disk 19a. This rotating shaft 23 with a rotation angle sensor is configured to move up and down due to a rotating power source 24.

A differential pressure nipple 25 is provided in the laminar flow meter 16&, and this differential pressure nipple 25 connects to the rubber hose 1.
5, is connected to the pressure gauge 14a, and this loaf force gauge 1
The output of 4a is an analog/digital converter (hereinafter referred to as A/
The signal is sent to the D converter (D converter) 27. A
The output of the /D converter 27 is output to a flow rate digital display section 28.

Further, the laminar flow meter 16b is also provided with a differential pressure nirasol 26 for small flow rates. The differential pressure nipple 26 is also not shown, but is connected to the pressure gauge 14 with a rubber hose 15.

29a is a part of the lamina flow meter 16a connected to the take-out Niraguru 21, and the lamina flow meter 168
Similarly, it is a part of the laminar cuff 0-meter 16b connected to the 29blC take-out Niraguru 2], and also holds the laminar flow meter 16b.

Next, the operation of the broadband flow rate measurement amount of the present invention configured as above will be explained. A laminar flow meter 16a with different flow rate ranges is provided on the disc 19a.

Since the lami-def O-make 16b is attached on the circumference, the rotary shaft 23 with a rotation angle sensor is rotated by the rotary power source 24, and the laminar flow meter 16a or the laminar flow make 16b is taken out according to the flow rate band. 2
1, and move the disc 19 along the guide 22.
a moves downward, and the laminar flow meter 16a or 16b comes into contact with the object to be measured 4 via the hose 11 and the inlet nipple 8.

Also, differential pressure Ni, pull 25. Similarly, the differential pressure nipple 26 for small flow rates is connected to the pressure gauge 14a using the rubber boss 15, and the output thereof is converted into a digital signal by the A/D converter 27 and displayed on the flow rate digital display section 28, and the electrical signal is visually checked. can do.

The pressure output from the pressure detection nipple 1o of the object to be measured 4 can also be converted in the same way.

In the above embodiment, the lamina flow meters 16a or 16b are arranged on the circumference as shown in FIG. -18d), but as shown in Figure 3), it is on a straight line (
Part of the laminar flowmeters 16a and 16b is 29e ~
29f, O-rings 18e to 18g),
Positioning may be performed using a position sensor, and any arbitrary position may be used if it is convenient for the configuration.

As described above, according to the broadband flowmeter of the present invention, a plurality of laminar flowmeters with different flow rate ranges are attached to a disk, which can be communicated with the object to be measured, and the disk is rotated to measure a predetermined value. When the laminar flow meter communicates with the object to be measured, this is detected and the flow rate is measured and displayed electrically from the differential pressure of the laminar flow meter, so multiple laminar cuff meters with different flow measurement ranges can be used. combination of pieces,
This eliminates the need for installation and reconnection, and allows for visual inspection using electrical signals.

[Brief explanation of drawings]

FIG. 1 is a vertical cross-sectional view showing a conventional flow rate measurement, FIG. 2 is a vertical cross-sectional view showing an embodiment of the broadband flow rate measuring device of the present invention, and FIG. FIG. 3 is a diagram showing how laminar flow meters applied to the broadband flow meter of the present invention shown in FIG. 2 are arranged. 4--Measurement object, 5--stand, 6--legs, 7--holding metal fittings, 8--inlet@I nipple, 9--outlet side nipple, 1°...pressure detection nipple, 11...Rubber hose, 12...-Negative pressure source, 13--Negative pressure outlet, 14...Pressure side, 15...Rubber hose, 16a
, 16b... lamina flow meter, 17a, 1
7 b-filter, 19 a-disk, 21--take-out nipple, 22--guide, 23--rotating shaft with upper rotation angle sensor, 24--rotary power source, 25.26-
... Differential pressure nipple, 27 ... Analog-digital converter, 28 ... Flow rate digital display section, 29a, 29b
...Connection holding part. Note that the same reference numerals in the figures indicate the same or corresponding parts. Agent Masuo Oiwa ε Bakurei ■ (IJ ■ ('J

Claims (1)

[Claims] An input side nipple and an output side nipple that communicate with the object to be controlled, a negative pressure source that is connected to this output side nipple and creates a negative pressure on the input side nipple and the output side nipple, and a negative pressure source that is connected to the input side nipple and the output side nipple, respectively. A plurality of laminar flowmeters are connected and attached to circular plates with different flow rate ranges, and one of the laminar flowmeters is selected according to the flow rate band and connected to the object to be measured via the inlet nipple. A broadband flow rate measuring instrument comprising means for communicating with the object to be measured, and means for measuring and displaying the differential pressure of the lamina flow meter when the lamina flow meter communicates with the object to be measured.