JP2021173294A - Pressure regulator and retrofit unit - Google Patents

Abstract

To provide a pressure regulator capable of reducing a possibility that misunderstandings of gas leakage due to odors and complaints due to odors may occur, and a retrofit unit.SOLUTION: A pressure regulator 10 is configured to decompress a LP gas from LP gas containers B1, B2 to a predetermined pressure and then supplies the LP gas to a consumer side. The pressure regulator 10 comprises a switching lever 11a that can switch between a first state in which the LP gas is introduced from the first LP gas container B1 and the second state in which the LP gas is introduced from the second LP gas container B2, a motor M that drives the switching lever 11a, and an odor sensor 12 that detects an ambient odor level. The motor M is driven when the ambient odor level detected by the odor sensor 12 is equal to or higher than a predetermined level, and switches between the first state and the second state.SELECTED DRAWING: Figure 1

Description

The present invention relates to a pressure regulator and a retrofit unit.

Conventionally, a pressure regulator that introduces high-pressure gas from an LP gas container to reduce the pressure is known (see Patent Document 1). Some of these pressure regulators have an automatic replenishment function. When the amount of gas solution in the LP gas container in use decreases and the pressure drops, the pressure regulator with an automatic replenishment function uses the pressure drop to introduce LP gas from the spare LP gas container. It has a mechanism.

Japanese Unexamined Patent Publication No. 2018-17807

Here, an odorant (dimethyl sulfide, tertiary butyl mercaptan, etc.) is added to the LP gas solution for the purpose of making the gas user aware of the leakage when the LP gas leaks. In general, propane, which is the main component of an LP gas solution, has a boiling point of -42 ° C., so that it vaporizes even if the amount of the LP gas solution decreases and the solution temperature drops sharply due to the heat of vaporization. Since the boiling point of the odorant is 0 ° C. or higher, it becomes difficult to vaporize and the concentration of the odorant increases.

When sunlight hits the downstream piping of the pressure regulator and the pressure inside the piping rises while the odorant concentration is rising, the safety valve of the pressure regulator operates to prevent the combustion equipment from malfunctioning. Since the LP gas inside is released to the atmosphere, the odor becomes stronger than usual, and gas users may misunderstand it as a gas leak or complain about the odor.

The present invention has been made to solve such a conventional problem, and an object of the present invention is to reduce the possibility of misunderstanding of gas leakage due to odor and complaint due to odor. The purpose is to provide a pressure regulator and a retrofit unit.

The pressure regulator according to the present invention is a pressure regulator that decompresses LP gas from an LP gas container to a predetermined pressure and then supplies the LP gas to the consumer side, and introduces LP gas from a specific LP gas container. A switching means capable of switching between the first state and a second state in which LP gas is introduced from another LP gas container other than the specific LP gas container, a driving means for driving the switching means, and an ambient odor level. The driving means is provided with an odor detecting means for detecting the above, and the driving means is driven when the ambient odor level detected by the odor detecting means is equal to or higher than a predetermined level, and the first state and the second state are obtained. To switch.

Further, the retrofit unit according to the present invention is the first state in which the LP gas from the LP gas container is depressurized to a predetermined pressure and then supplied to the consumer side and the LP gas is introduced from the specific LP gas container. , A retrofit unit retrofitted to a pressure regulator provided with a switching means capable of switching between a second state in which LP gas is introduced from another LP gas container other than the specific LP gas container, wherein the switching means is used. A driving means for driving and an odor detecting means for detecting an ambient odor level are provided, and the driving means is driven when the ambient odor level detected by the odor detecting means is equal to or higher than a predetermined level. The first state and the second state are switched.

According to the present invention, when the ambient odor level becomes equal to or higher than a predetermined level, it is driven to switch between the first state and the second state. Therefore, LP before the odor becomes strong and a misunderstanding or complaint of gas leakage may occur. It is possible to switch the gas introduction destination. Therefore, it is possible to reduce the possibility of misunderstanding of gas leakage due to odor and complaint due to odor.

It is an external view of the gas supply system including the pressure regulator which concerns on this embodiment. It is a block diagram which shows the detail of the control unit shown in FIG. It is a flowchart which shows the operation of the pressure regulator which concerns on this embodiment.

Hereinafter, the present invention will be described with reference to preferred embodiments. The present invention is not limited to the embodiments shown below, and can be appropriately modified without departing from the spirit of the present invention. Further, in the embodiments shown below, some parts of the configuration are omitted from the illustration and description, but the details of the omitted technology are within a range that does not conflict with the contents described below. Needless to say, publicly known or well-known techniques are appropriately applied.

FIG. 1 is an external view of a gas supply system including a pressure regulator according to the present embodiment. As shown in FIG. 1, the gas supply system 1 includes a plurality of LP gas containers B1 and B2, a pressure regulator 10, a gas meter 20, high-pressure hoses L1 and L2, and pipes L3 and L4.

The plurality of LP gas containers B1 and B2 are high-pressure resistant containers filled with LP gas solutions. An odorant such as dimethyl sulfide or tertiary butyl mercaptan is added to the enclosed LP gas solution. Such LP gas containers B1 and B2 are provided with on-off valves V1 and V2. The on-off valves V1 and V2 are valves for opening and closing the LP gas containers B1 and B2.

The first high-pressure hose L1 is a high-pressure hose that connects the first on-off valve V1 to the first inlet portion 10a of the pressure regulator 10, and pressurizes the high-pressure gas from the first LP gas container (specific LP gas container) B1. It leads to the regulator 10. The second high-pressure hose L2 is a high-pressure hose that connects the second on-off valve V2 to the second inlet portion 10b of the pressure regulator 10, and pressurizes the high-pressure gas from the second LP gas container (another LP gas container) B2. It leads to the regulator 10.

The pressure regulator 10 decompresses the LP gas from the plurality of LP gas containers B1 and B2 to a predetermined pressure and then supplies the LP gas to the consumer side (gas meter 20 side). The pressure regulator 10 includes a pressure regulator 11, an odor sensor (odor detecting means) 12, a control unit 13, and a motor (driving means) M.

The pressure adjusting unit 11 has a primary decompression unit that decompresses the high-pressure gas to the medium-pressure gas and a secondary decompression unit that decompresses the medium-pressure gas to the low-pressure gas, and is configured to perform two-step depressurization. The pressure adjusting unit 11 is provided with a switching lever (switching means) 11a. The switching lever 11a is configured to be rotatable 180 ° from the direction pointing to the first inlet portion 10a to the direction pointing to the second inlet portion 10b. The pressure adjusting unit 11 preferentially introduces LP gas from the first LP gas container B1 in a state where the switching lever 11a points to the first inlet portion 10a (first state). Further, the pressure adjusting unit 11 preferentially introduces LP gas from the second LP gas container B2 in a state where the switching lever 11a points to the second inlet portion 10b (second state).

Further, in the present embodiment, the pressure adjusting unit 11 has an automatic replenishment function. Therefore, when the pressure of the LP gas from the first LP gas container B1 drops below the specified pressure in a state where the switching lever 11a points to the first inlet portion 10a, for example, the pressure adjusting unit 11 starts from the second LP gas container B2. LP gas is introduced (more specifically, both the first inlet portion 10a and the second inlet portion 10b are in an openable state, and LP gas can be introduced from the second LP gas container B2).

When replacing the first LP gas container B1 in the above state, the operator first rotates the switching lever 11a by 180 ° in the direction pointing to the second inlet portion 10b. As a result, the first inlet portion 10a is closed, and the operator can replace the first LP gas container B1 with a new one.

Further, in the present embodiment, a motor M is attached to such a switching lever 11a. The motor M is designed to drive the switching lever 11a, and the switching lever 11a can be directed toward the first inlet portion 10a or toward the second inlet portion 10b.

The odor sensor 12 detects the ambient odor level. Further, when the odor sensor 12 detects an odor equal to or higher than a level (predetermined level) that a person perceives as odor, the odor sensor 12 outputs a sensor signal to that effect to the control unit 13. The odor sensor 12 may detect other odors as long as it can detect the odor of the odorant.

FIG. 2 is a block diagram showing details of the control unit 13 shown in FIG. As shown in FIG. 2, the control unit 13 includes a control unit 13a, a communication unit (notification means) 13b, a display unit (notification means) 13c, and a voice output unit (notification means) 13d. The control unit 13a controls the entire control unit 13 and drives the motor M when a sensor signal indicating that an odor of a predetermined level or higher is detected is input. As a result, the pressure regulator 10 according to the present embodiment switches the LP gas containers B1 and B2, which are the gas supply sources, at the stage where a misunderstanding or complaint of gas leakage due to the odor of the odorant is likely to occur. , Misunderstandings and complaints are suppressed. In particular, misunderstandings and complaints do not occur much in a well-ventilated place, but can occur in a poorly-ventilated place even when the LP gas solutions of the LP gas containers B1 and B2 remain relatively. However, by switching the LP gas containers B1 and B2 that are the gas supply sources using the odor sensor 12, it is possible to suppress the occurrence of misunderstandings and complaints according to the environment.

Further, after switching the switching lever 11a, when a sensor signal indicating that an odor of a predetermined level or higher is detected is input for a predetermined time or longer (that is, when an odor of a predetermined level or higher is maintained for a predetermined time or longer), the control unit 13a Controls the communication unit 13b, the display unit 13c, and the audio output unit 13d.

Here, it can be said that the case where the odor of a predetermined level or higher is maintained for a predetermined time or longer after the switching of the switching lever 11a is the case where the odor does not disappear even after the switching and gas leakage may occur. Therefore, the control unit 13a communicates with the gas company using the communication unit 13b to notify the fact. This is because it is possible to encourage the gas company to take measures. Further, the communication unit 13b may communicate with the user's mobile terminal or the like to notify the user.

Further, when the odor of a predetermined level or higher is maintained for a predetermined time or longer after switching the switching lever 11a, the control unit 13a controls the display unit 13c to notify by a display that there is a possibility of gas leakage. The voice output unit 13d is controlled to give a voice notification that there is a possibility of gas leakage. The display unit 13c is composed of an LED (Light Emitting Diode) and an LCD (Liquid Crystal Display), and lights a blue LED when there is no possibility of gas leakage, or displays "normal" on the LCD. do. On the other hand, the display unit 13c turns on the red LED when there is a possibility of gas leakage, or displays "gas leakage" on the LCD. Further, the audio output unit 13d is composed of a buzzer and a speaker, and notifies that there is a possibility of gas leakage by the buzzer sound and the sound from the speaker.

The third pipe L3 shown in FIG. 1 is a pipe connecting the pressure regulator 10 to the gas meter 20, and guides LP gas decompressed to a predetermined pressure by the pressure regulator 10 to the gas meter 20. The fourth pipe L4 is a pipe that connects the gas meter 20 to the gas appliance of the consumer, and guides the LP gas whose flow rate is measured by the gas meter 20 to the gas appliance of the consumer.

Next, the operation of the pressure regulator 10 according to the present embodiment will be described with reference to the flowchart. FIG. 3 is a flowchart showing the operation of the pressure regulator 10 according to the present embodiment. The flowchart shown in FIG. 3 is assumed to be repeatedly executed until the power of the odor sensor 12 and the control unit 13 is turned off.

First, the control unit 13a determines whether the odor level is equal to or higher than a predetermined level based on the sensor signal from the odor sensor 12 (S1). When the odor level is not equal to or higher than the predetermined level (S1: NO), this process is repeated until it is determined that the odor level is equal to or higher than the predetermined level.

When the odor level is equal to or higher than a predetermined level (S1: YES), the control unit 13a drives the motor M to rotate the switching lever 11a (S2). As a result, the first state and the second state are switched, and the LP gas containers B1 and B2 into which the LP gas is preferentially introduced are switched.

Next, the control unit 13a again determines whether the odor level is equal to or higher than the predetermined level based on the sensor signal from the odor sensor 12 (S3). When the odor level is not equal to or higher than the predetermined level (S3: NO), the process shown in FIG. 3 ends.

When the odor level is equal to or higher than the predetermined level (S3: YES), the control unit 13a determines whether the state in which the odor level is equal to or higher than the predetermined level continues for a predetermined time or longer (S4). If it has not continued for a predetermined time (S4: NO), the process proceeds to step S3.

On the other hand, when the state in which the odor level is equal to or higher than the predetermined level continues for a predetermined time or longer (S4: YES), the control unit 13a controls the communication unit 13b, the display unit 13c, and the voice output unit 13d to perform various notifications. Do (S5). After that, the process shown in FIG. 3 ends.

In this way, according to the pressure regulator 10 according to the present embodiment, when the ambient odor level becomes equal to or higher than a predetermined level, the gas is driven to switch between the first state and the second state, so that the odor becomes stronger and the gas becomes gas. It is possible to switch the introduction destination of LP gas before misunderstanding of leakage or complaint may occur. Therefore, it is possible to provide the pressure regulator 10 capable of reducing the possibility of misunderstanding of gas leakage due to odor and complaint due to odor.

Further, when the ambient odor level is maintained at a predetermined level or higher for a predetermined time or longer after switching between the first state and the second state, the communication unit 13b, the display unit 13c, and the audio output unit 13d for notifying the fact are further added. Therefore, if the odor does not disappear after switching and there is a possibility of gas leakage, it is possible to notify the user, the gas company, or the like of the possibility of gas leakage.

Although the present invention has been described above based on the embodiments, the present invention is not limited to the above embodiments, and changes may be made without departing from the spirit of the present invention, and other modifications may be made as appropriate to the extent possible. Techniques may be combined.

For example, in the pressure regulator 10 according to the present embodiment, the motor M is provided outside the pressure adjusting unit 11 to operate and drive the switching lever 11a, but the present invention is not limited to this, and the motor M is provided inside the pressure adjusting unit 11. The internal mechanism may be operated and driven.

In addition, the odor sensor 12, the control unit 13, and the motor M according to the above embodiment may be retrofitted to an existing pressure regulator (corresponding to the pressure regulator 11) as a retrofit unit. This is because the existing pressure regulator can be switched based on the odor.

1: Gas supply system 10: Pressure regulator 10a: 1st inlet 10b: 2nd inlet 11: Pressure regulator 11a: Switching lever (switching means)
12: Odor sensor (odor detection means)
13: Control unit 13a: Control unit 13b: Communication unit (notification means)
13c: Display unit (notification means)
13d: Audio output unit (notification means)
20: Gas meter B1: First LP gas container (specific LP gas container)
B2: Second LP gas container (other LP gas container)
L1: 1st high pressure hose L2: 2nd high pressure hose L3: 3rd pipe L4: 4th pipe M: Motor (driving means)
V1: 1st on-off valve V2: 2nd on-off valve

Claims (3)

A pressure regulator that decompresses LP gas from an LP gas container to a predetermined pressure and then supplies it to the consumer side.
A switching means capable of switching between a first state in which LP gas is introduced from a specific LP gas container and a second state in which LP gas is introduced from another LP gas container other than the specific LP gas container.
The driving means for driving the switching means and
Equipped with an odor detection means that detects the ambient odor level,
The driving means is a pressure regulator characterized by driving when the ambient odor level detected by the odor detecting means becomes a predetermined level or higher, and switching between the first state and the second state. After switching between the first state and the second state by the driving means, when the ambient odor level detected by the odor detecting means is maintained at the predetermined level or higher for a predetermined time or longer, a notification to that effect is notified. The pressure regulator according to claim 1, further comprising means. The first state in which the LP gas from the LP gas container is depressurized to a predetermined pressure and then supplied to the consumer side and the LP gas is introduced from the specific LP gas container, and other than the specific LP gas container. It is a retrofit unit that is retrofitted to a pressure regulator equipped with a switching means that can switch between the second state of introducing LP gas from the LP gas container of the above.
The driving means for driving the switching means and
Equipped with an odor detection means that detects the ambient odor level,
The drive means is a retrofit unit characterized in that it drives when the ambient odor level detected by the odor detecting means becomes a predetermined level or higher, and switches between the first state and the second state.

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