JP2010197362A - Method and device for measuring oil concentration in compressed air - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problems wherein, in the case of 'JIS', a measuring method of a concentration below 0.001 mg/m<SP>3</SP>is not set, and also a measuring method of a concentration over 20 mg/m<SP>3</SP>is not set, and two methods are required to be used differently according to height of an oil contamination level, and further careful consideration is required from various viewpoints in order to prevent contamination of foreign matter and to heighten accuracy in measurement. <P>SOLUTION: A flow rate of compressed air is integrated, and oil mist is dissolved into normal hexane liquid 44 by passing the compressed air through the normal hexane liquid 44, and an increase amount caused by dissolution of oil mist is measured, to thereby measure an oil concentration. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a method and apparatus for measuring the oil concentration of compressed air. More specifically, the present invention relates to a method for measuring the oil concentration of compressed air containing a small amount of oil mist. Accumulate the flow rate, pass compressed air through normal hexane solution, dissolve oil mist in normal hexane solution, measure the increase due to dissolution of oil mist, and measure even lower oil concentration than before It describes the technology that can be done.

  Conventionally, as a technique related to a method and an apparatus for measuring the oil concentration of compressed air, the contents of two methods roughly described according to the level of oil pollutants present in the compressed air system are generally used. -It can be seen in "JIS" as a test method for oil mist.

In this case, in “JIS”, as a method A, when the contamination level due to oil is high, the total amount of compressed air that has passed through two high-efficiency coalescing filters connected in series is sampled. And how to measure both the oil flowing on the wall. On the other hand, as the method B, when the oil concentration is relatively low, the oil collected in the membrane or the constant flow rate sampling probe or the membrane holder is dissolved in a solvent, and the amount thereof is determined by infrared spectroscopy. . However, pollution concentration range that can be measured have been limited to 0.001~20mg / ^{m 3.}
JIS B 8392-2

  However, the conventional compressed air-oil mist test method corresponding to the conventional method and apparatus for measuring the oil concentration of compressed air has the following problems.

First, in the case of “JIS”, a measurement method for a concentration of 0.001 mg / m ³ or less was not set. Moreover, it was not set also about the measuring method of the density | concentration of 20 mg / m < ³ > or more.

  In the case of “JIS”, it is necessary to use two methods depending on the level of contamination due to oil.

  In addition, in order to prevent foreign matters from being mixed and to improve accuracy during measurement, careful attention and consideration were required in various ways.

  When measuring the volume (weight) of the oil in the graduated cylinder, in particular, in order to increase the accuracy in measurement, it is confirmed that the liquid adheres to the upper part (upstream) and that the liquid in the container is infrared. In spectroscopic analysis, it was necessary to take care to melt the membrane cleanly.

  Furthermore, the apparatus and equipment are generally complicated, and as a result, the cost of measurement tends to be expensive.

  The present invention relates to a method for measuring the oil concentration of compressed air containing a small amount of oil mist. The flow rate of the compressed air is integrated, and the compressed air is passed through a normal hexane solution 44 to remove the oil mist from the normal mist. It is characterized in that it is dissolved in the hexane solution 44, the amount of increase due to the dissolution of the oil mist is measured, and thereby the oil concentration is measured, and further, the compressed air is passed through the normal hexane solution 44 a plurality of times. Furthermore, when the compressed air is passed through the normal hexane solution 44, the compressed air is made into fine bubbles, thereby solving the above-mentioned problems.

  The present invention also relates to an apparatus for measuring the oil concentration of compressed air containing a small amount of oil mist, an integrating flow meter 10 for integrating the flow rate of compressed air, and oil mist contained in the compressed air. An oil mist collector 40 filled with a normal hexane solution 44 that dissolves water is disposed, and the oil mist collector 40 can measure the weight of the dissolved oil mist. Further, the oil mist collector 40 can be connected in series, and further, the oil mist collector 40 is compressed into the oil mist collector 40. The bubble generating means 43 is provided at any location of the inlet pipe 94 for feeding air, and the bubble generating means 43 is a bubble generating plate 43 provided at the tip of the inlet pipe 94. Furthermore, the integrating flow meter 10 and the oil mist collector 40 are placed in a box 50 or on a substrate in such a manner that the oil mist collector 40 can be taken out. Further, the oil mist collector 40 is configured so that the artificial tube 94, the lid 42, the bubble generating plate 43, and the outlet tube 95 are removed from the flask 41 before moving. The above problem has been solved by making it possible to attach a blind plug to the flask 41 so that the normal hexane solution 44 does not leak.

  As is clear from the above description, the present invention can provide the following effects.

  First, in a device that measures the oil concentration of compressed air containing a small amount of oil mist, an integrating flow meter that integrates the flow rate of compressed air and the oil mist contained in the compressed air are dissolved. By installing an oil mist collector filled with normal hexane liquid, it is possible to use various methods that are simple, inexpensive, and easy to handle, regardless of how low or high the oil concentration is. It has become possible to provide a method and apparatus for measuring the oil concentration of compressed air that can cope with the situation.

  Secondly, the oil mist collector can be attached and detached so that the weight of the dissolved oil mist can be measured. It is necessary to take various considerations in the measurement, such as paying attention to it.

  Third, the oil mist collector can be connected in series, so it can be freely selected according to the concentration of the oil to be measured and the required accuracy. It was.

  Fourthly, by providing a bubble generating means at any location of the inlet pipe for sending compressed air to the oil mist collector, it becomes possible to enhance the dissolution of the oil mist in the normal hexane liquid. This makes it possible to reduce the number of connected oil mist collectors, opening the way to inexpensive and easy measurement.

  Fifth, the bubble generating means is a bubble generating plate provided at the tip of the inlet pipe, so that the method can be shown more specifically by using a very simple method to show that it is possible. Can be done.

  Sixth, the integrated flow meter and oil mist collector are integrated in the box or on the substrate so that the oil mist collector can be taken out. Transportation and installation became easier.

  Seventh, the oil mist collector can be fitted with a blind plug to the flask so that normal hexane liquid does not leak during movement after removing the inlet tube, lid, bubble generating plate and outlet tube from the flask. As a result, it has become possible to carry out measurements using high-precision equipment that is required to be transported far away for precise weight measurement.

  Diagram showing the entire invention of the present application

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
Here, FIG. 1 is a diagram showing the whole of the present invention.

  As shown in FIG. 1, reference numeral 10 denotes an integrating flow meter, which can be integrated with the upstream flow pipe 91 to allow the compressed air containing a small amount of oil mist to flow in to be integrated. It has become. Therefore, although not specifically illustrated, the upstream pipe 91 is connected to an air compressor or the like that generates compressed air.

  On the other hand, the first intermediate pipe 92, the compressed air amount adjusting valve 20 capable of freely adjusting the flow rate of the compressed air passing therethrough, and the second intermediate pipe 93 are located downstream of the integrating flow meter 10. Connected to.

  The second intermediate pipe 93 connects two sets of oil mist collectors 40 in series via the connecting pipe 30. Further, the oil mist collector 40 can be attached and detached so that the weight of the dissolved oil mist can be measured by measuring the total weight. That is, the oil mist collector 40 can be attached and detached at the connecting pipe 30. In this case, it is conceivable to use a rubber tube so that the connection tube 30 can be easily detached and there is no leakage at the connection part. The oil mist collector 40 is shown in two sets in FIG. 1, but may have one set, three sets, or more. However, in the case of a plurality of sets, it is necessary to make a series connection via the connection pipe 30 without fail.

  Here, the oil mist collector 40 includes an inlet pipe 94 for introducing compressed air, a bubble generating plate 43 which is a bubble generating means 43 for making compressed air provided at the tip of the inlet pipe 94 into minute bubbles, It comprises an outlet pipe 95 that discharges compressed air, a flask 41 that is a main body, and a lid 42 that seals the inside of the flask 41. In this case, as an example, the material of the bubble generating plate 43 may be a sintered alloy. The flask 41 is filled with a normal hexane solution 44 that dissolves oil mist contained in the compressed air with a little space left. As a matter of course, the bubble generation plate 43 needs to be located in the liquid of the normal hexane liquid 44.

  In this case, the bubble generating means 43 need not be limited to the bubble generating plate 43, and although not specifically illustrated, a pump capable of stirring the gas and liquid is installed in the middle of the inlet pipe 94. Then, it is conceivable that a fluid in a state where the compressed air and the normal hexane liquid 44 are simultaneously sucked and both are agitated is sent out into the liquid of the normal hexane liquid 44, thereby generating minute bubbles.

  It should be noted that both the integrating flow meter 10 and the oil mist collector 40 are configured integrally in the box 50 or on the substrate so that the oil mist collector 40 can be taken out. ing. That is, as the box 50, it is conceivable that a lid that can be flattened is formed or the upper part is opened.

  Further, the oil mist collector 40 is configured to measure the normal weight of the oil mist collector 40 after removing the inlet tube 94, the lid 42, the bubble generating plate 43, and the outlet tube 95 from the flask 41. A blind plug can be attached to the flask 41 so that the normal hexane solution 44 does not leak when moving. It is also conceivable that a blind plug is attached to the ends of the inlet pipe 94 and the outlet pipe 95 exposed to the outside while the oil mist collector 40 is simply removed.

  The method and apparatus for measuring the oil concentration of compressed air according to the present invention is configured as described above, and its operation will be described below.

  First, the flask 41 constituting the oil mist collector 40 is filled with a normal hexane solution 44 in which the oil mist is not dissolved in an amount of about 70%, the artificial tube 94 is passed through the lid 42, and the inlet tube The bubble generating plate 43, which is the bubble generating means 43, is positioned at the end opposite to the side connected to the connection pipe 30 of 94, and the outlet pipe 95 is passed through the lid 42, and connected to the connection pipe 30 of the outlet pipe 95. A lid 42 is attached to the flask 41 so that the fluid does not leak after the end on the side opposite to the side to be opened or opened to the atmosphere is positioned above the liquid level. Naturally, care must be taken so that various foreign substances do not adhere to the components constituting the oil mist collector 40 or enter the oil mist collector 40.

  As a matter of course, after the total weight of the oil mist collector 40 including the normal hexane solution 44 and the like which is not dissolved is measured before mounting, the second intermediate pipe 93 is connected by the connecting pipe 30. And the inlet pipe 94 are connected. Further, after measuring the total undissolved weight of the oil mist of the oil mist collector 40 including another set of normal hexane liquid 44 and the like, the outlet pipe 95 and the inlet pipe 94 are connected by the connecting pipe 30. To do. In this case, the connection of the oil mist collector 40 may be one set, three sets or more.

  In this case, the oil mist collector 40 can freely correspond to the measurement accuracy, the time for flowing compressed air, the concentration of oil mist, etc. by connecting one set, or in some cases, a plurality of sets in series. It can be done.

  In such a situation, the compressed air containing a small amount of oil mist flows to the integrating flow meter 10 via the upstream pipe 91 so that the flow rate of the compressed air can be integrated. It has become. Furthermore, the compressed air can be sent from the connecting pipe 30 to the oil mist collector 40 via the first intermediate pipe 92, the compressed air amount adjusting valve 20 and the second intermediate pipe 93. The compressed air amount adjusting valve 20 is provided so that the flow rate of the compressed air passing therethrough can be freely adjusted.

  Here, the compressed air containing a small amount of oil mist sent to the oil mist collector 40 is converted into small bubbles by the bubble generating plate 43 which is the bubble generating means 43 located at the tip of the inlet pipe 94. In this way, the liquid is fed into the normal hexane liquid 44.

  The compressed air containing a small amount of oil mist fed into the normal hexane liquid 44 is compressed by passing the compressed air through the normal hexane liquid 44, especially as small bubbles. By increasing the area where the air is in contact with the normal hexane solution 44 as much as possible, the oil mist is dissolved in the normal hexane solution 44 more effectively.

  Therefore, by integrating the flow rate of the compressed air with the integrating flow meter 10 and measuring the amount of increase due to the oil mist in the compressed air being dissolved in the normal hexane liquid 44 filled in the oil mist collector 40, It was very easy to measure the oil concentration of compressed air. In the present invention, by increasing the flow rate of compressed air (that is, by increasing the flow time), the oil concentration is measured even for compressed air containing a very small amount of oil mist. It is a feature that it is possible.

  For that purpose, once the flow rate of compressed air is integrated by the integrating flow meter 10, the oil mist collector 40 is removed at the connecting pipe 30, and the weight of the oil mist collector 40 as a whole is measured and measured in advance. The total amount of dissolved oil mist can be determined by determining the difference from the weight of the entire oil mist collector 40 before connection, and as a result, the oil concentration can be determined.

  In this case, in order to more accurately measure the weight of the dissolved oil mist, in order to prevent the inflow of foreign matter and the discharge of liquid, the inlet pipe 94 and the outlet pipe 95 that constitute the oil mist collector 40 are used. It is conceivable to attach a blind plug to the end and pay attention to transportation. Further, the inlet pipe 94, the lid 42, the bubble generating plate 43 and the outlet pipe 95 constituting the oil mist collector 40 are removed, and a blind plug is attached in place of the lid 42 to pay attention to transportation. It can be considered.

  However, when the oil mist collector 40 is transported as it is, the problem remains whether the inlet pipe 94 and the outlet pipe 95 are damaged, and when the oil mist collector 40 is removed and transported to the inlet pipe 94 and the bubble generating plate 43, It is necessary to consider whether liquid has adhered to the inlet tube 94 and the bubble generation plate 43.

  It should be noted that the oil mist collectors 40 are connected in series, so that the dissolved amount of the upstream oil mist is naturally larger than the dissolved amount of the downstream oil mist. In that case, if the dissolved amount of oil mist is small in both upstream and downstream, it seems necessary to increase the flow rate of compressed air (lengthen the time). Reduce the flow rate of compressed air (reduce the time) or connect several sets of oil mist collectors 40 depending on the situation (if there is a decent difference from upstream to downstream) I think you need to do that.

  On the other hand, if the dissolved amount of oil mist is not nearly zero at the most downstream side, but the amount is small, the flow rate of compressed air is reduced (time is shortened) or depending on the situation (from upstream to downstream) I think that it is necessary to connect several sets of oil mist collectors 40 (if there is a certain difference in reduction).

  In any case, if the amount of oil mist dissolved is a small amount in the upstream and the downstream is almost a small amount, the accumulated time of the integrated flow meter 10 and the number of installed oil mist collectors 40 are As an ideal, the oil concentration can be determined from the result. In addition, when the abnormal results described so far are shown, various conditions are changed and measurement is performed again.

  By the way, when measuring weight, it is good to select and weigh equipment according to the required accuracy. As a matter of course, since it is possible to cope with transportation at a long distance, it is possible to use Takkyubin, which is a general carrier.

  A technique related to a method and an apparatus for measuring the oil concentration of compressed air, more specifically, a method of measuring the oil concentration of compressed air containing a small amount of oil mist is obtained by integrating the flow rate of compressed air. , The technology of the content that the oil mist is dissolved in the normal hexane solution by passing the compressed air through the normal hexane solution, the increase amount due to the dissolution of the oil mist is measured, and the oil concentration is thereby measured, Especially for the measurement of oil concentration of compressed air containing a small amount of oil mist, it has become possible to measure even the low concentration which could not be done before, compared to other methods of “JIS” A very simple device has made it possible to perform measurement at a low cost and to perform measurement with easier operation.

10 .... Integral flow meter 20 .... Compressed air amount adjustment valve 30 ... Connection tube 40 ... Oil mist collector 41 ... Flask 42 ··· Lid 43 ··· Bubble generation plate (bubble generation means)
44 ··· Normal hexane solution 50 ··· Box 91 · · · Upstream tube 92 · · · First intermediate tube 93 · · · Second intermediate tube 94・ ・ ・ ・ ・ ・ Inlet pipe 95 ・ ・ ・ ・ ・ ・ Exit pipe

Claims (10)

  In a method for measuring the oil concentration of compressed air containing a small amount of oil mist, the flow rate of the compressed air is integrated, and the compressed air is passed through the normal hexane liquid (44) to pass the oil mist to the normal hexane liquid. (44) A method for measuring the oil concentration of compressed air, characterized in that the amount of increase due to dissolution of oil mist is measured and the oil concentration is measured thereby.   The method for measuring the oil concentration of compressed air according to claim 1, wherein the compressed air is passed through the normal hexane liquid (44) a plurality of times.   The method for measuring the oil concentration of compressed air according to claim 1 or 2, wherein the compressed air is made into fine bubbles when the compressed air is passed through the normal hexane liquid (44).   An integrated flow meter (10) that integrates the flow rate of compressed air and a normal that dissolves the oil mist contained in compressed air in a device that measures the oil concentration of compressed air containing a small amount of oil mist An apparatus for measuring the oil content concentration of compressed air, wherein an oil mist collector (40) filled with a hexane liquid (44) is provided.   The said oil mist collector (40) can be attached or detached so that the weight of the dissolved oil mist can be measured, The apparatus which measures the oil concentration of the compressed air of Claim 4 characterized by the above-mentioned.   The said oil mist collector (40) can connect two or more sets in series, The apparatus which measures the oil content density | concentration of the compressed air of Claim 4 or Claim 5 characterized by the above-mentioned.   The bubble generating means (43) is provided at any location of the inlet pipe (94) for sending the compressed air to the oil mist collector (40). An apparatus for measuring the oil concentration of compressed air according to item 1.   The said bubble generation means (43) is a bubble generation plate (43) provided in the front-end | tip of the said inlet pipe (94), The apparatus which measures the oil content density | concentration of the compressed air of Claim 7 characterized by the above-mentioned.   The integrating flow meter (10) and the oil mist collector (40) are placed in a box (50) or on a substrate so that the oil mist collector (40) can be taken out. 9. The apparatus for measuring the oil content concentration of compressed air according to any one of claims 4 to 8, wherein the device is configured integrally.   The oil mist collector (40) moves the normal pipe (94), the lid (42), the bubble generation plate (43), and the outlet pipe (95) from the flask (41) after the removal. The compressed air according to any one of claims 7 to 9, wherein a blind plug can be attached to the flask (41) so that the hexane liquid (44) does not leak. A device that measures oil concentration.

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