JPH01224670A - Gas flow detecting device - Google Patents

Abstract

PURPOSE:To detect a difference in pressure being generated between the upstream side and downstream side of a gas flow in a gas pipe by moving a movable valve body according to the difference in gas pressure between an intake and an outlet. CONSTITUTION:A housing 23 has the intake 25 and outlet 26 for gas, and a housing 31 which has a gas intake 32 in which the gas from the intake 25 flows and a through-hole 33 out of which the gas flowing in the gas intake 32 flows out to the outlet 26 is put in said housing. In this housing 31, the movable valve body 41 is provided which opens the gas intake 32 according to the pressure difference when the gas pressure at the outlet 26 drops below that at the intake 25. Then a permanent magnet 44 is mounted on this movable valve body 41, a reed switch 51 which turns on and off according to the permanent magnet 44 approaches is provided outside the housing 23, and the gas flow in the housing is displayed on a display part 52 by the on-off operation of the reed switch 51.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a gas flow detection device that can easily, safely, and reliably detect whether or not gas in a gas pipe is currently flowing. It is.

[Conventional technology]

FIG. 5 is a perspective view showing the principle of a gas usage detection device previously proposed by the present inventor (see Japanese Utility Model Publication No. 33200/1983). In this figure, 1 is a housing made of non-magnetic material such as aluminum, and gas inlet 2. An outflow port 3 is provided, and an impeller 4 that rotates according to the flow rate of gas is provided inside.

The shaft 5 of the impeller 4 is configured to drive the shaft 9 of the meter pointer 8 via gears 6, 7 with appropriate reduction ratios.

10 is a scale. With the above steps, a so-called gas flow rate display device is formed. Note that the pointer 8 is of an integrating type and is actually provided for several digits, but only one pointer is shown here. Note that this may also be digital.)
Reference numeral 11 denotes a magnetic piece attached to the impeller 4, and an iron piece or a permanent magnet is mainly used, but it is preferable to use a non-magnetic piece such as an iron piece, since no electromotive force is generated due to rotation, and safety is ensured. I am disappointed in this point. 12 is a sensor, which is attached to the outside of the housing 1;
The magnetic piece 11 is provided on the rotation axis of the magnetic piece 11 attached to the impeller 4 inside the housing 1, or in the vicinity thereof, and in any case, it is provided at positions roughly divided into four equal parts on the circumference. As the sensor 12, various types of proximity switches including an inductive bridge type may be used, which are well known per se, so the details thereof will be omitted. 13 is a display unit, for example LE
Use a lamp such as D.

Next, the effect will be explained.

In Figure 5, the inlet 2 is connected to a gas source and the outlet 3 is connected to a load such as a gas appliance. When gas is not supplied to the load, the gas flow rate is 0, so the impeller 4 does not rotate, and therefore the pointer 8 does not move from its position. At the same time, since there is no change in the relationship between the sensor 12 and the magnetic piece 11, there is no change in the magnetic field, so no output is output from the sensor 12. As a result, the display section 13 does not display any indication of gas leakage.

Next, when the load consumes gas, the gas entering from the inlet 2 is supplied to the load from the outlet 3 while rotating the impeller 4. The rotation speed of the impeller 4 is proportional to the gas flow rate. Also, due to the rotation of the impeller 4, the sensor 12 detects one of the impellers 4.
One pulse is generated every 74 revolutions. This pulse causes the display unit 13 to display a message indicating that the gas is being consumed. Therefore, by looking at the display section 13, if gas consumption is displayed even though no gas is being used, it is immediately obvious that there is a gas leak.

[Problem to be solved by the invention]

By the way, in the conventional gas flow detection device as described above, a magnetic piece 1 is attached to the rotating member of the gas meter, which is a part of the housing 1.
1. Since the sensor 12 and display unit 13 are installed, it is necessary to install a gas meter having the above gas flow detection device in order to detect the gas flow rate, and in the event that the mechanism of the gas flow detection device should malfunction. However, there was a problem in that the entire gas meter had to be replaced in order to continue detecting the gas flow.

This invention was made in order to solve the above-mentioned problems. For example, it is installed in a gas pipe between a gas meter and a gas appliance, and is connected between the upstream side and the downstream side of the gas flow in the gas pipe. To provide a gas flow detection device which detects a pressure difference when it occurs and which can be easily replaced in case of failure.

[Means to solve the problem]

The gas flow detection device according to the present invention is provided with a housing having a gas inlet and an outlet [1], into which gas flows from the inlet, and into the gas inlet. When the gas pressure at the outlet decreases with respect to the gas pressure at the inlet, the gas inlet is opened in accordance with the pressure difference. A movable valve body is provided to open the valve, a permanent magnet is attached to the movable valve body, and a reed switch is provided outside the housing that turns on or off when the permanent magnet approaches.The gas flow inside the housing is controlled by turning the reed switch on or off. A display section for displaying the following information is provided.

[Effect]

In this invention, the outflow [
When the gas pressure of 1:1 decreases, the movable valve body moves according to the difference in gas pressure between the inlet 1:1 and the outlet, so the gas inlet of the casing opens, and the gas at the inlet flows from the gas inlet to the casing. When the gas enters the housing and flows out through the through hole to the outlet, the reed switch is turned on or off by the proximity of the permanent magnet, and the display section lights up to indicate that gas is flowing inside the housing.

〔Example〕

1(a) and 1(b) show an embodiment of the present invention, FIG. 1(a) is a partially cutaway side view, and FIG. 1(b) is an I of FIG. 1(a). - It is a sectional view taken along the I line. In these figures, 21A is a gas pipe to which a gas meter is connected as necessary on the upstream side of the gas flow, 21B is a gas pipe to which a gas appliance is connected to the downstream side of the gas flow, and 22 is the gas pipe 2.
1A12113 shows the entire gas flow sensing device connected between the two. 23 is a cylindrical housing made of a non-magnetic material, such as aluminum or synthetic resin, forming the outer part of the gas flow detection device 22; 24 is the housing 2;
Reference numeral 25 on the inner circumferential surface of 3 is a gas inflow port formed in the housing 23, which is connected to the gas pipe 21A by screwing. 26 is a gas outlet formed in the housing 23, and is connected to the gas pipe 21B by screwing. 2
Reference numeral 7 denotes a cylindrical partition formed in the iα angle direction with respect to the axial direction of the housing 23 and passing through the axial center of the housing 23 from the outside of the housing 23, and the inside thereof houses a reed switch 51 to be described later. A through hole 28 for insertion is formed. Note that the inside of the through hole 28 is connected to the housing 2.
It is completely cut off from the gas flowing through the tube.

31 is a cylindrical case provided within the housing 23;
Its shape is shown in enlarged form in FIG. 2, and it is fixed to the inner peripheral surface 24 of the housing 23. Reference numeral 32 denotes a gas inlet of the housing 31, into which gas from the inlet 25 is introduced. Reference numeral 33 denotes a through hole formed on the side surface of the casing 31, and a through hole 33
1 and 34 are valve seats formed on the gas inlet 32 side of the housing 31, and 35 is a valve seat m
The longitudinal direction of the inner circumferential surface of the housing 31, 36, is an engagement groove formed in the same direction as the axial direction of the housing 31.

Reference numeral 41 designates a movable valve body provided in engagement with the inside of the housing 31, the details of which are shown in FIGS. 3(a) and 3(b). An engagement piece 42 is formed on the movable valve body 41 and is slidably engaged with the engagement groove 36 of the housing 31. 43 is a recess formed in the movable valve body 41, and 44 is a permanent magnet attached to the movable valve body 41.

The reed sui sochi 51 is inserted into the through hole 2 of the housing 23.
8 and is turned on or off by a permanent magnet 44. 52 is a display section that displays whether the reed switch 510 is turned on or off and gas is flowing to the gas flow detection device 22, and 53 is a display such as 7
It's Nbu.

Note that a buzzer that emits an alarm sound may be used instead of the display lamp 53.

Next, the operation will be explained.

When the gas appliance is not in use, the gas flow rate is O, so the gas pressure on the outflow port 26 side and in the housing 31 is maintained at the same pressure as the inflow port 25 side and at a high pressure. Therefore, since there is no gas pressure difference, the movable valve body 41
is processed by the weight of the movable valve body 41 and the permanent magnet 44, as shown in FIG. 1(b), and is in contact with the valve seat 34, so that the gas inlet 32 is blocked. Therefore, since the permanent magnet 44 is separated from the reed switch 51, the reed switch 51 is not turned on or off, and the display section 52 does not indicate that gas is in use.

Next, if only a small amount of gas is used from the gas appliance, such as when the pilot nozzle of the gas appliance is lit, the outlet 2
Since the 6 side is also held at a high gas pressure, gas is discharged from the nozzle of the gas appliance due to this gas pressure. Therefore, the gas pressure inside the housing 31 on the outlet 26 side decreases slightly. Therefore, the pressure is lower than the gas pressure on the inlet 25 side, and the movable valve body 41 is pushed up by the pressure difference between the high pressure gas on the inlet 25 side and the low pressure gas on the outlet 26 side. As a result, the movable valve body 41 rises slightly and enters the state shown in FIG. 4(a). therefore,
The gas inlet 32 of the housing 31 is slightly opened, and the high pressure gas on the inlet 25 side flows from the gas inlet 32 to the through hole 33.
The gas mA flows through the gas pipe 2111 and is discharged from the pilot nozzle. At the same time, as the movable valve body 41 rises, the permanent magnet 44 also rises and approaches the reed switch 51 as shown in FIG. do. The lighting of the indicator lamp 53 indicates that the gas is running and flowing.

For this reason, if gas is not being used (but there is a small amount of gas leakage), a display indicating that gas is flowing will be displayed and the indicator lamp 53 will light up, making it easy for gas inexperienced users to
Even 11th graders can see it right away.

Next, when a large amount of gas is continuously used in a gas appliance, the gas pressure on the outlet 26 side further decreases, so the gas pressure difference further increases, and as shown in FIG. 4(b), the movable valve body 41
is further pushed up to widen the through hole 33. For this reason,
A large amount of high pressure gas from the inlet 25 flows through the through hole 33 to the outlet 26 side. In this case as well, the permanent magnet 44 is in a state closer to the reed switch 51, and the reed switch 51 also remains on or off, and the display section 5
The second indicator lamp 53 lights up.

Furthermore, if the amount of gas used is constant, the pressure difference between the gas flow rate at the outlet 26 and the inlet 25 will be constant, so the movable valve body 41 will also be held at a constant position, and the through hole 33 will open. The state of being is also constant.

Also, when the use of the gas is finished, the flow of gas stops, so the pressure of the gas on the outflow port 26 side increases and the inflow port 26 side increases.
5 (I! The pressure becomes the same as that of the I gas, and the n-J valve body 4
1 descends due to its weight, and the gas inlet 32 is blocked, resulting in the state shown in FIG. 1(b).

Then, since the permanent magnet 44 separates from the reed switch 51, the reed switch 51 is turned on or off, and the display lamp 53 of the display section 52 is turned off.

In addition, in the embodiment shown in FIG.
Although the case where it is attached to fJ is shown, it can also be attached to gas pipes 21A and 21B arranged in the water γ direction. However, in case B, when the gas is not in use, that is, when the gas pressures at the inlet 25 and the outlet 26 are equal, the compression that acts in the direction of bringing the movable valve body 41 into contact with the valve seat 34 is applied. Set the spring horizontally.

Further, when it is desired to supply a small amount of gas to maintain the pilot flame without operating the reed switch 51,
Forming pores in the movable valve body 41 that communicate with the inlet 25 side and the outflow port 26 side, or forming the entire movable valve body 41 with a closed-cell material to provide the desired ventilation resistance will reduce the noise. Bye.

[Effect of the invention] As explained above, the invention of B provides a housing in which a gas inlet and an outlet are formed, and in this housing,
A housing is housed in which a gas inlet 1 for allowing gas to flow in from the inlet and a through hole for allowing the gas that has flowed into the gas inlet to flow out to the outlet. A reed switch is equipped with a movable valve body that opens the gas inlet according to the pressure difference when the gas pressure at the outlet drops, a permanent magnet is attached to this movable valve body, and the reed switch is turned on or off by the proximity of this permanent magnet. is provided on the outside of the housing, and a display section is provided to display the gas flow inside the housing by turning on or off the reed switch. It is easy to check if you have forgotten to turn off the gas after using it, and if there is a gas usage indication when the gas is not in use, you can detect a gas leak and prevent accidents caused by gas leaks. , safety can be easily ensured.

Furthermore, since the reed switch is installed in a state where it is isolated from the inside of the housing, the electrical wiring section and the internal gas are completely shut off, which has the advantage of preventing gas explosions caused by electricity.

[Brief explanation of the drawing]

1(a) to 1(b) show an embodiment of the invention of B. FIG. 1(a) is a partially cutaway side view, FIG. 1(b) (and FIG. 1(a) 1.-T line sectional view, Figure 2 is a partially cutaway perspective view showing an enlarged view of the housing in Figure 1, Figure 3 (a)
) and (b) show the shape of the movable valve body in Fig. 1, Fig. 3(a) is a plan view, and Fig. 3(b) is the I of Fig. 3(a).
4(a) and (b) are sectional views showing the state after the operation of FIG. 1, and FIG. 5 is a perspective view showing the principle of a conventional gas flow detection device. be. In the figure, 21A and 21B are gas pipes, 22 is a gas flow detection device, 23 is a housing, 25 is an inlet, 26 is an outlet, 3
1 is a housing, 32 is a gas inlet, 33 is a through hole, 34 is a valve seat, 41 is a movable valve body, 44 is a permanent magnet, 51 is a reed switch, 52 is a display section, and 53 is an indicator lamp. Figure 1 (a) "I 1.3 Housing Figure 1 (b) Figure 2 Figure 3 Figure 4

Claims (1)

[Claims] A housing having a gas inlet and an outlet is provided,
A casing having a gas inlet for introducing gas from the inlet and a through hole for allowing the gas flowing into the gas inlet to flow out to the outlet is housed in the housing, and inside this casing, A movable valve body is slidably provided to open the gas inlet in accordance with a pressure difference when the gas pressure at the outlet decreases with respect to the gas pressure at the inlet, and a permanent magnet is attached to the movable valve body. A gas flow detection device characterized in that the housing is provided with a reed switch that is turned on or off by the proximity of the permanent magnet, and a display section that displays the gas flow in the housing depending on whether the reed switch is turned on or off. Device.