JPH1082671A - Measuring apparatus for flow rate of medical gas - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a measuring apparatus for the flow rate of medical gas, by which the consumption flow rate of a medical gas can be measured more precisely. SOLUTION: A pressure reducing valve 24 is arranged at a gas inflow port 22 at a gas flowmeter 20 which is connected to a gas takeout port 18, and the pressure of a gas which flows into the gas flowmeter 20 is set at a constant value (e.g. about 2kg/cm<2> ) which is a little higher than atmospheric pressure. The flow rate of the gas is adjusted by a flow regulating valve 26 which is arranged at a gas outflow port 28 at the gas flowmeter 20.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a gas flow measuring device used for medical gas supply equipment for supplying medical gas.

[0002]

2. Description of the Related Art At present, in hospitals and other medical institutions, gases such as oxygen (O ₂ ) and nitrous oxide (N ₂ O) are used as medical gases.

FIG. 2 is a schematic diagram of a conventional medical gas supply system. In the figure, one end of a gas pipe 13 is connected to a gas supply source 12 composed of a cylinder or the like. A pressure reducing device 14 composed of a pressure reducing valve or the like is provided in the middle of the gas pipe 13. The other end of the gas pipe 13 communicates with a gas outlet 18 provided on the wall 16 of each sickroom 15. On the other hand, looking at the equipment in the sickroom 15, first, the gas inlet 22 of the gas flow meter 20 is connected to the gas outlet 18, and the flow rate of the gas flowing therefrom is adjusted by the flow rate of a needle valve or the like. Regulated by valve 23.
Further, the gas outlet 28 of the gas flow meter 20 is connected to the gas introduction pipe 32 of the humidifying bottle 30. A mesh 34 is attached to an end of the gas introduction pipe 32 inserted into the humidification bottle 30 from above. The humidifying bottle 30 is filled with water in such an amount that the mesh 34 is sufficiently submerged in water. Further, the humidifying bottle 30 is provided with a gas discharge pipe 36, to which one end of a gas supply pipe 38 is connected. A suction mask 40 is attached to the other end of the gas supply pipe 38.

[0004] The operation of the medical gas supply system having the above configuration is as follows. The pressure of the gas flowing out of the gas supply source 12 filled with a high-pressure gas of about 150 kg / cm ² is controlled by the pressure reducing device 14 to 4.5 to 5 kg / cm ^2.
After being decompressed to a degree, each room 15
To the gas outlet 18. When the flow control valve 23 is opened, the gas flowing out of the gas outlet 18 passes through the gas inlet 22 and the flow control valve 23 and passes through the gas flow meter 20.
It will flow into. Then, the gas flow meter 20 indicates a value corresponding to the volume flow rate of the gas flowing inside (hereinafter, simply referred to as “flow rate” unless otherwise specified). The user adjusts the flow control valve 23 while visually confirming the indicated value of the gas flow meter 20 so that the indicated value indicates a medically required flow value. Thus the gas flow meter 2
The gas flowing from the gas outlet 28 at a constant flow rate into the gas inlet tube 32 of the humidifying bottle 30 becomes fine bubbles when passing through the mesh 34 and rises in the water. Humidity is given to the gas. The humidified gas is supplied to the gas discharge pipe 36 of the humidification bottle 30 and the gas supply pipe 3.
8 and is inhaled by the patient from the inhalation mask 40.

[0005]

It is pointed out that the above-mentioned medical gas supply equipment has the following problems.

A predetermined amount of gas is compressed, liquefied and filled in a gas supply source such as a cylinder. Now, as an example, it is assumed that a gas supply source is compressed and filled with an amount of gas equivalent to 7,000 liters at normal temperature and normal pressure, and a gas is supplied to a patient at a flow rate of 2 liters / minute.
In this case, the user adjusts the flow control valve so that the indicated value of the gas flow meter becomes 2 liters. At this time, when calculating the time until the gas in the gas supply source completely disappears, it should be 7000/2 = 3500 minutes. However, when the time is actually measured, the gas may be exhausted in a much shorter time (for example, about 1/2 time) than the calculated time. In other words, the volume value of the gas flowing out and consumed from the gas supply source at normal temperature and normal pressure (hereinafter, referred to as “consumption amount”) is multiplied by the time indicated by the gas flow meter and the time when the gas actually flows. (Hereinafter referred to as “consumption”)
Does not match. When this happens,
Since it is not possible to accurately determine the volume of gas supplied from the inhalation mask to the patient per unit time (hereinafter referred to as “consumption flow rate”), there is a risk of supplying gas to the patient at an inappropriate flow rate. It is not preferable from a medical point of view. Furthermore, the fact that the amount used on the record is lower than the actual consumption means that, for example, only 1 liter is used on the record despite actually consuming 2 liters of gas. This not only leads to waste of gas, but also is inconvenient for the management of medical institutions.

The present invention has been made in order to solve such a problem, and an object of the present invention is to provide a medical gas flow measuring device capable of more accurately measuring a consumption flow rate of a medical gas. It is in.

[0008]

According to the present invention, there is provided a medical gas flow measuring device, comprising: a gas inlet connected to a gas outlet provided in a hospital room; An outlet, a gas flow path connecting the gas inlet and the gas outlet, and a gas flow meter for medical use provided with a gas flow meter disposed on the gas flow path; And a pressure reducing valve disposed on the gas flow path between the gas flow meter, and b) a flow control valve disposed on the gas flow path between the gas flow meter and the gas outlet. , Is provided.

[0009] The medical gas flow measuring device according to one aspect of the present invention is characterized in that it comprises an integrating means for integrating the volume of gas passing through the gas flow meter.

[0010]

BEST MODE FOR CARRYING OUT THE INVENTION In the medical gas flow measuring device according to the present invention, gas flowing out of a gas outlet provided in a wall or the like of a sick room flows from a gas inlet into a gas passage. After the inflow, the pressure is reduced to a predetermined pressure (for example, about 2 kg / cm ² ) by a pressure reducing valve. When the gas thus decompressed flows into the gas flow meter, the gas flow meter indicates a value corresponding to the flow rate of the gas flowing inside. This flow rate can be adjusted by appropriately operating a flow rate control valve disposed downstream of the gas flow meter. The gas thus supplied at the desired constant flow rate is
Thereafter, necessary processing such as humidification is performed, and finally the pressure is reduced to about the atmospheric pressure, and then used according to the purpose.

According to the medical gas flow measuring device according to the present invention, it is possible to more accurately measure the gas consumption flow rate as compared with a similar device conventionally known. The reason will be described in detail in an embodiment described later.

In the medical gas flow measuring device according to the present invention, it is possible to further include an integrating means for integrating the flow rate of the gas passing through the gas flow meter.

Conventionally, in order to obtain the integrated value of the gas flow rate, a calculation has been performed in which the user multiplies the indicated value of the gas flow meter by the time during which the gas actually flows. Of course, attempts have been made to automate the integration work by using a digital flow meter with an integration function.However, as described above, the conventional medical gas flow measurement device can accurately measure the gas consumption flow rate. Since the measurement cannot be performed quickly, the integrated flow rate naturally becomes inaccurate. However, in the present invention, since the consumption flow rate of the gas can be measured with sufficient accuracy, the benefit of automating the flow rate integration operation using a digital flow meter with an integration function is greatly increased.

[0014]

FIG. 1 is a schematic configuration diagram showing a medical gas supply facility including an embodiment of a medical gas flow measuring device according to the present invention. 1, the same components as those described above with reference to FIG. 2 are denoted by the same reference numerals, and description thereof will be omitted.

In the medical gas flow measuring device of this embodiment, a pressure reducing valve 24 is provided at a gas inlet 22 of a gas flow meter 20 connected to a gas outlet 18. Also,
Gas flow meter 2 connected to gas inlet pipe 32 of humidifier bottle 30
A flow control valve 26 such as a needle valve is disposed at the gas outlet 28 of the zero.

According to the medical gas flow rate measuring device of the present embodiment, the gas consumption flow rate can be measured more accurately than the conventional similar device. The reason is as follows.

There are two types of fluid flow rates, volume flow rate and mass flow rate. In a general medical gas flow rate measuring apparatus, a float type flow meter is used as the gas flow meter 20 to measure the gas volume flow rate. It is supposed to be. If the value of the mass flow is required, the value of the volume flow Q
Is multiplied by the gas density ρ, and a value ρQ obtained by multiplying by the gas density ρ is defined as the mass flow rate. In the apparatus shown in FIG. 2, the density of the gas flowing from the gas inlet 22 into the gas flow meter 20 corresponds to the above-mentioned ρ.

In the apparatus shown in FIG. 2, it is necessary to change the setting of the flow control valve 23 in order to control the gas flow. If the setting of the flow control valve 23 is changed, the gas flow meter 2
The pressure on the side of the gas inlet 22 of 0 (hereinafter referred to as “flow rate measurement pressure”) also changes. A change in the flow measurement pressure means a corresponding change in the gas density ρ. Therefore, even if the volume flow rate Q indicated by the gas flow meter 20 is the same, if the flow rate measurement pressure is different, the gas mass flow rate ρQ will be different. However, the change in the mass flow rate ρQ of the gas also means that the volume flow rate (= consumption flow rate) of the gas under normal temperature and normal pressure changes. From the above, in the conventional apparatus of FIG. 2, the gas consumption flow rate is not uniquely obtained from the indicated value of the gas flow meter 20, and variously different values are set according to the setting of the flow control valve 23. We understand that we take. Note that such a situation is similarly applied to a case where a differential pressure type flow meter that measures a flow rate based on a differential pressure before and after a restrictor (orifice) provided in a flow path is used.

In order to always perform flow measurement under the same pressure condition irrespective of the gas flow, it is necessary to keep the flow measurement pressure constant. In the case of the apparatus shown in FIG.
3 means to fix the setting. However, in such a case, the functional meaning of the flow control valve 23 is lost.

On the other hand, in the medical gas flow measuring device according to the present invention, the gas flowing out of the gas outlet 18 is first depressurized by the pressure reducing valve 24, and the gas flow
On the other hand, the flow rate of the gas is controlled by the flow control valve 26 disposed downstream of the gas flow meter 20, so that the flow rate of the gas is always set regardless of the setting of the flow control valve 26. The flow measurement pressure becomes constant. Therefore, the gas consumption flow rate can be measured more stably and with higher accuracy than before.

In the medical gas flow measuring device of this embodiment, the pressure of the gas flowing from the gas inlet 22 is controlled to about 2 kg / cm ² by the pressure reducing valve 24 so that the gas flows into the gas flow meter 20. Is preferred. The reason is as follows.

The flow measurement pressure must be large enough to supply gas at a desired flow rate against the resistance of the flow path from the gas flow meter 20 to the suction mask 40. More specifically, the flow rate when supplying a medical gas is generally several liters to about several liters per minute at normal temperature and normal pressure. The pressure must be such that it can be supplied. On the other hand, in order to minimize the load applied to each component of the apparatus, it is desirable that the flow measurement pressure be as small as possible. In the case of the medical gas supply equipment shown in FIG. 1, the flow control valve 26, the mesh 34, the gas supply pipe 38, the suction mask 40, and the like are provided downstream of the gas flow meter 20. If the flow measurement pressure is set to about 2 kg / cm ² for a simple device, without imposing an excessive burden on each component of the device,
Gas can be stably supplied at a flow rate of about 10 liters / minute.

Also, for example, when the flow measurement pressure is 2 kg / cm ²
It is preferable to use a gas flow meter having a scale corresponding to the flow measurement pressure of ² kg / cm ² in order to save the work of measuring the consumption flow rate. Not a mandatory requirement for implementation,
The present invention can be carried out using any commercially available gas flow meter by appropriately performing a calibration process.

It is to be noted that a float type flow meter is generally used as the gas flow meter 20 today. However, the effect of the present invention is not limited to a medical gas flow measuring device using a float type flow meter. However, it can be sufficiently obtained in an apparatus using other types of gas flow meters.

While the configuration and effects of the embodiment of the present invention have been described in detail with reference to the drawings, the embodiment of the present invention is, of course, not limited to this, and the appended claims are not limited thereto. It goes without saying that various modifications are possible within the spirit and scope of the invention specified by

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram showing medical gas supply equipment including one embodiment of a medical gas flow measuring device according to the present invention.

FIG. 2 is a schematic configuration diagram of a conventional medical gas supply facility.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 12 ... Gas supply source 13 ... Gas pipe 14 ... Pressure reducing device 18 ... Gas outlet 20 ... Gas flow meter 23, 26 ... Flow control valve 24 ... Pressure reducing valve 30 ... Humidifying bottle 34 ... Mesh 38 ... Gas supply pipe 40 ... Suction mask

Claims (2)

[Claims] 1. A gas inlet connected to a gas outlet provided in a patient room, a gas outlet, a gas flow path connecting the gas inlet and the gas outlet, and A gas flow meter for medical use, comprising: a) a pressure reducing valve disposed on the gas flow path between the gas inlet and the gas flow meter; b) the gas A gas flow measuring device for medical use, comprising: a flow control valve disposed on the gas flow path between a flow meter and the gas outlet. 2. The medical gas flow measuring device according to claim 1, further comprising an integrating means for integrating the amount of gas passing through the gas flow meter.