JP2011122941A - Automatic water sampler - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To sample a liquid while holding an atmosphere non-contact state. <P>SOLUTION: The automatic water sampler has: a multiposition valve 1, which has an inflow port 1b taking in the liquid sample in the atmosphere non-contact state, a mechanism for distributing the liquid sample to a plurality of sampling containers 2 while holding airtightness, and a mechanism for discharging the liquid sample in an amount exceeding the volumes of the sampling containers 2 in the case where the liquid sample is discharged in the sampling containers 2 in the amount exceeding the volumes of the sampling containers 2; and a control part 3 for controlling the multiposition valve 1, so that two mechanisms of the multiposition valve 1 are operated at a predetermined time interval and is constituted so as to distribute the liquid sample at a time interval while holding the atmosphere non-contact state by the control of the control part 3 to make a plurality of the sampling containers 2 obtain the sample liquid. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to an automatic water sampling apparatus. More specifically, the present invention relates to a technique for collecting water samples, such as groundwater, that are originally in a non-atmospheric state without contacting the air.

  As a conventional automatic water collection device, for example, there is a continuous automatic fraction collector (Patent Document 1). As shown in FIG. 2, the continuous automatic fraction collector is configured such that the liquid separated by a liquid chromatography apparatus (not shown) is discharged from a discharge nozzle 101 into a large number of collection bottles 102. The discharge nozzle 101 is slidably provided on a vertical rail 105 that slides at a right angle along a horizontal rail 104 fixed to the liquid chromatography apparatus, and the collection bottles 102 are aligned vertically and horizontally. Since the vertical rail 105 is moved along the horizontal rail 104 and the nozzle 101 is moved on the vertical rail 105, the nozzle 101 is moved to all positions from the A1 position to the J10 position. It moves to the position of the liquid bottle 102.

JP-A-7-140127

  However, the fraction collector of Patent Document 1 has a structure in which the discharge nozzle 101 and the liquid collection bottle 102 are open to the atmosphere. Therefore, the liquid sample to be analyzed is discharged from the discharge nozzle 101 and dropped into the liquid collection bottle 102. Touch the atmosphere. As a result, the liquid sample to be analyzed is oxidized, and various germs in the atmosphere are mixed into the liquid sample. Therefore, for example, groundwater that is in a non-contact state at the original position cannot be collected without being brought into contact with the atmosphere in order to be collected and stored in the original position. For this reason, the influence of contact with the atmosphere may be reflected in the analysis result of the collected liquid sample, and the configuration sufficient to obtain a particularly accurate analysis result for the liquid sample in the atmospheric non-contact state at the original position It cannot be said that it is equipped with.

  Therefore, an object of the present invention is to provide an automatic water sampling apparatus that can collect a liquid sample while maintaining a non-atmospheric state. Furthermore, an object of the present invention is to provide an automatic water sampling apparatus that can collect a liquid sample at an arbitrary time interval.

  In order to achieve such an object, the automatic water sampling apparatus according to claim 1 has an inflow port through which a liquid sample in a non-atmospheric state is taken in, a mechanism for collecting and collecting liquid samples in a plurality of collection containers while maintaining airtightness, and collection. Two mechanisms, a multi-position valve and a multi-position valve, which have a mechanism for discharging the liquid sample in excess of the volume when the liquid sample is discharged into the collection container beyond the capacity of the container, are determined in advance. A control unit that controls to operate at a predetermined time interval, and the control unit controls the liquid sample to be collected in a plurality of collection containers while maintaining a non-atmospheric state. .

  According to a second aspect of the present invention, there is provided an automatic water sampling apparatus according to the first aspect, wherein the multi-position valve is a mechanism for distributing and storing the liquid sample in a plurality of collection containers, and an annular inflow line communicating with the inflow port; And an inflow joint provided in the inflow line and an inflow connector to which the inflow joint is connected at one end, and the inflow joint is connected to the inflow connector to discharge a liquid sample from the other end. In addition, as a mechanism for discharging a liquid sample that exceeds the volume of the collection container, an outflow port having one end connected to the collection container and having an outflow connector at the other end is connected to the outflow connector. An outflow joint, an annular discharge line provided with the outflow joint, and a discharge port communicating with the discharge line. I have to so that.

  Therefore, according to these automatic water sampling devices, a closed system is configured from the intake port to distribution to the collection container, and the liquid sample to be analyzed is collected without contact with the atmosphere. Moreover, according to these automatic water sampling devices, collection of a liquid sample is automatically performed at an arbitrary time interval.

  According to a third aspect of the present invention, in the automatic water sampling apparatus according to the first or second aspect, a battery for operating the two mechanisms of the multi-position valve and operating the control unit is further provided. In this case, since the multi-position valve and the control unit are driven by a battery, it is not necessary to use a commercial power source and can be easily installed in any place regardless of the presence or absence of the commercial power source.

  According to the automatic water collecting apparatus of the present invention, since the closed system is configured from the intake port to the distribution to the collection container, the liquid sample to be analyzed is collected without contact with the atmosphere. It is possible to prevent the oxidation of the sample and the contamination of the germs in the air into the liquid sample, and it is possible to improve the reliability by obtaining an accurate analysis result. In addition, since the liquid sample is automatically collected at an arbitrary time interval, it is possible to reduce labor and improve versatility.

  Furthermore, according to the automatic water sampling apparatus of the present invention, it is not necessary to use a commercial power source, and can be easily installed in any place regardless of the presence or absence of the commercial power source, so that versatility can be improved. Become.

It is a schematic block diagram which shows an example of embodiment of the automatic water sampling apparatus of this invention. It is a perspective view which shows the conventional fraction collector.

  Hereinafter, the configuration of the present invention will be described in detail based on an example of an embodiment shown in the drawings.

  FIG. 1 shows an example of an embodiment in which the automatic water sampling apparatus of the present invention is applied to automatic collection of groundwater collected in an in-situ tracer test. This automatic water sampling apparatus has an inflow port 1b for receiving a liquid sample in a non-atmospheric state, a mechanism for distributing and collecting liquid samples in a plurality of collection containers 2 while maintaining airtightness, and a liquid sample exceeding the volume of the collection containers 2 The multi-position valve 1 having a mechanism for discharging a liquid sample in excess of the volume when the liquid is discharged into the collection container 2 and the multi-position valve 1 are operated at predetermined time intervals. And a control unit 3 that controls the liquid sample to be collected in a plurality of collection containers 2 while being distributed at time intervals while maintaining a non-atmospheric state under the control of the control unit 3.

In the in-situ tracer test in this embodiment, in order to clarify the microbial effect on the groundwater transfer behavior of the organic ¹⁴ C leaked into the rock mass 20, the Br tracer enters the injection hole 21 provided by boring in the rock mass in-situ. ¹³ C-labeled acetate ion solution is injected into the bedrock 20 and ground water is collected from a recovery hole 22 provided by boring at a predetermined distance from the injection hole 21 and analyzed. This makes it possible to clarify the degradation behavior of microorganisms living in the gap. In order to accurately perform the analysis related to this test, it is necessary to collect the groundwater that is in the non-contact state in the recovery hole 22 in the non-contact state in order to prevent oxidation and contamination with bacteria. The injection hole 21 and the recovery hole 22 are provided as horizontal holes.

  The groundwater as the liquid sample to be analyzed that flows out from the recovery hole 22 is multi-passed by a recovery line 23 (specifically, a flow channel pipe) having one end inserted into the recovery hole 22 and the other end connected to the multi-position valve 1. Incorporated into the position valve 1. In addition, in the opening part of the bedrock 20 surface of the collection | recovery hole 22, the circumference | surroundings of the collection line 23 are blocked | closed by the cap 22a which penetrates the collection line 23, and the groundwater which flows out of the collection hole 22 and flows into the collection line 23 is air | atmosphere. Without being in contact with the atmosphere, the state of non-atmospheric contact from the bedrock 20 is maintained. In order to ensure non-contact between the groundwater and the atmosphere in the recovery hole 22, the recovery hole 22 is filled so that the inside of the recovery hole 22 around the groundwater recovery position (that is, the recovery depth) is filled with the groundwater. One or a plurality of water-stopping packers may be provided at an appropriate position inside.

  The multi-position valve 1 of the present embodiment is connected to the main body 1a and the recovery line 23 as a mechanism for distributing and storing the groundwater taken from the recovery line 23 into a plurality of sample bottles 2 as collection containers while maintaining airtightness. An inflow port 1b, an annular inflow line 1c communicating with the inflow port 1b, an inflow joint 1d provided in the inflow line 1c, and an inflow connector 1e to which the inflow joint 1d is connected. The inflow joint 1d is connected to the inflow connector 1e, and a plurality of discharge ports 1f for discharging groundwater from the other end are provided.

  Here, the recovery line 23 and the inflow port 1b, the inflow port 1b and the inflow line 1c, and the inflow joint 1d and the inflow connector 1e are connected and communicated with each other with watertightness and airtightness.

  Although the multi-position valve 1 of the present embodiment has eight discharge ports 1f, the number of discharge ports 1f of the multi-position valve 1 used in the present invention is not limited to eight. A multi-position valve having at least the number of discharge ports 1f required for the sampling plan of the target liquid sample is used.

  A plurality of sample bottles 2 are placed at the positions of the discharge ports 1f of the multi-position valve 1 to store the ground water discharged from the discharge ports 1f by inserting the discharge openings of the discharge ports 1f.

  The upper end opening of the sample bottle 2 is attached with a cap 2a with a valve provided with an inflow valve to which the discharge opening side of the discharge port 1f is connected (in other words, inserted). Thereby, the groundwater discharged from the discharge port 1f and stored in the sample bottle 2 does not come into contact with the atmosphere. When it is difficult to directly connect the discharge port 1f and the sample bottle 2 by arranging the sample bottle 2 in accordance with the position of each discharge port 1f, a tube or the like is provided at the discharge opening of each discharge port 1f. One end of the channel tube may be attached and the other end of the channel tube may be attached to the valved cap 2a of the sample bottle 2.

  Each discharge port 1f and the inflow connector 1e are fixedly attached to the main body 1a, and the annular inflow line 1c is rotatably attached to the main body 1a. The inflow connector 1e to which the inflow joint 1d provided in the inflow line 1c is connected and the discharge port 1f are switched, and the sample bottle 2 in which the groundwater taken from the inflow port 1b is stored via the multi-position valve 1 is switched. .

  The multi-position valve 1 of the present embodiment is further configured as a mechanism for discharging the groundwater exceeding the volume when the groundwater is discharged into the sample bottle 2 from the discharge port 1f beyond the volume of the sample bottle 2. An outflow port 1h having one end connected to (in other words, plugged in) an outflow valve provided in a cap 2a with a valve attached to the sample bottle 2 and having an outflow connector 1g at the other end, an outflow connector 1g, An outflow joint 1i to be connected, an annular discharge line 1j provided with the outflow joint 1i, and a discharge port 1k communicating with the discharge line 1j are provided.

  Here, the outflow joint 1i and the outflow connector 1g, and the discharge port 1k and the discharge line 1j are all connected and communicated with each other with watertightness and airtightness. Further, the water tightness and the air tightness of the connection between the sample bottle 2 and the outflow port 1h are secured by the cap 2a to which the outflow valve is attached.

  Each outflow port 1h and outflow connector 1g are fixedly attached to the main body 1a, and the annular discharge line 1j is rotatably attached to the main body 1a, and when the discharge line 1j rotates, the discharge line 1j rotates. The outflow connector 1g and the outflow port 1h to which the outflow joint 1i provided in the discharge line 1j is connected are switched, and the groundwater overflowing from the sample bottle 2 is discharged out of the system through the multi-position valve 1 from the discharge port 1k. Is done.

  With the above configuration, the sample bottle 2 flows out of the collection hole 22, passes through the collection line 23, is taken into the multi-position valve 1 from the inflow port 1 b, and the discharge destination is switched by the multi-position valve 1. Until it is stored in the groundwater, the groundwater remains out of contact with the atmosphere.

  The automatic water sampling apparatus of the present invention also has a control unit 3 that controls the multi-position valve 1. The control unit 3 may be built in the multi-position valve 1 or may be configured as an external device separate from the control unit 3.

  The control unit 3 controls the multi-position valve 1 that performs distribution to each sample bottle 2 in order to store groundwater taken from the recovery line 23 as a sample. In the case of the present embodiment, the control unit 3 has at least a time switch function, operates the inflow line 1c and the exhaust line 1j at a preset time interval, and connects the inflow joint 1d and the inflow connector 1e. The connection between the outflow joint 1i and the outflow connector 1g is switched to switch the sample bottle 2 for storing groundwater.

  The inflow connector 1e to which the inflow joint 1d is connected and the outflow connector 1g to which the outflow joint 1i is connected are attached to the discharge port 1f and the outflow port 1h connected to the same sample bottle 2, respectively. This is a combination of the connectors 1e and 1g. During the preset time interval, neither the inflow line 1c nor the discharge line 1j is operated, and groundwater continues to be discharged from the discharge port 1f to the specific sample bottle 2, thereby reducing the capacity of the sample bottle 2. If it exceeds, the excess will continue to be discharged from the outflow port 1h.

  The automatic water sampling apparatus of the present invention further includes a battery 4. The battery 4 supplies electric power to the control unit 3 and also supplies electric power to the multi-position valve 1 when operating according to a command from the control unit 3. In the present invention, the inflow line 1c and the exhaust line 1j of the multi-position valve 1 operate only at predetermined time intervals, so that the battery does not need to have a large output and is compact. Things are enough. And since it can operate with a compact battery, it is possible to use the automatic water sampling apparatus of the present invention everywhere without restrictions as in the case where a commercial power source is required, and the configuration is easy to carry. It becomes possible.

  According to the automatic water sampling apparatus of the present invention configured as described above, a closed system is configured from the intake port 1b to the distribution to the sample bottle 2, and the liquid sample to be analyzed comes into contact with the atmosphere. Therefore, it is possible to prevent oxidation of the liquid sample and mixing of germs in the air into the liquid sample, and it is possible to improve reliability by obtaining an accurate analysis result. In addition, since the liquid sample is automatically collected at an arbitrary time interval, it is possible to reduce labor and improve versatility.

  In addition, although the above-mentioned form is an example of the suitable form of this invention, it is not limited to this, A various deformation | transformation implementation is possible in the range which does not deviate from the summary of this invention. For example, in this embodiment, the case where the automatic water sampling apparatus of the present invention is applied to automatic sampling of groundwater collected in an in-situ tracer test is described as an example, but the automatic water sampling apparatus of the present invention is applied. The test to be obtained is not limited to this, and the present invention can be applied to various tests in which it is desirable or necessary that the target sample is not brought into contact with the atmosphere in the operation of collecting and storing the liquid sample.

  In the present embodiment, the cap 2a with a valve is configured to ensure watertightness and airtightness in the connection between the individual sample bottles 2 and the discharge ports 1f and the outflow ports 1h. The method of ensuring watertightness and airtightness between the port 1f and the outflow port 1h is not limited to this, and all the discharge bottles 2 are accommodated in the airtight housing and inserted into the housing. It is good also as a structure which ensures airtightness between 1f and outflow port 1h (or flow-path pipes, such as a tube attached to each).

  Moreover, in this embodiment, although it is comprised as what has the battery 4, it is not essential to have a battery in establishment of this invention. If the commercial power source can be secured or located, both the multi-position valve 1 and the control unit 3 may be operated with the commercial power source.

  In addition, the multi-position valve that can be used in the present invention has an inflow port through which a liquid sample in a non-atmospheric state is taken in, a mechanism for distributing and collecting liquid samples in a plurality of collection containers while maintaining airtightness, and a volume exceeding the collection container volume. Thus, it is only necessary to have a mechanism for discharging the liquid sample in excess of the volume when the liquid sample is discharged into the collection container, and is not limited to the multi-position valve 1 of the present embodiment.

1 Multi-position valve 1b Inflow port 2 Collection container (sample bottle)
3 Control unit 4 Battery

Claims (3)

  An inflow port for taking in a liquid sample in a non-atmospheric state, a mechanism for distributing and storing the liquid sample in a plurality of collection containers while maintaining airtightness, and discharging the liquid sample into the collection container beyond the volume of the collection container A multi-position valve having a mechanism for discharging a liquid sample in excess of the volume when the operation is performed, and a control unit for controlling the two mechanisms of the multi-position valve to operate at predetermined time intervals. An automatic water sampling apparatus that distributes the liquid sample at the time interval and collects it in the plurality of collection containers while maintaining a non-atmospheric state under the control of the control unit.   As a mechanism in which the multi-position valve distributes and collects the liquid sample into a plurality of collection containers, an annular inflow line communicating with the inflow port, an inflow joint provided in the inflow line, and the inflow joint are connected. A plurality of discharge ports for discharging the liquid sample from the other end by connecting the inflow joint to the inflow connector at one end, and an amount exceeding the volume of the collection container As a mechanism for discharging the liquid sample, an outflow port having one end connected to the collection container and having an outflow connector at the other end, an outflow joint connected to the outflow connector, and an annular shape provided with the outflow joint 2. A discharge line and a discharge port communicating with the discharge line. Automatic water sampling equipment.   The automatic water sampling apparatus according to claim 1 or 2, further comprising a battery for operating the two mechanisms of the multi-position valve and operating the control unit.

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