JP2020134194A - Automatic sample injection device - Google Patents

Abstract

To provide an automatic sample injection device capable of correctly injecting a sample and reducing damages of a syringe and a septum.SOLUTION: A syringe 115 comprises: a barrel 132 having a needle 116 on a tip end; and a plunger 117 which is slidably fitted and inserted into the barrel 132. A septum 131 is attached to a top part of a sample vaporization chamber 123 and into which the needle 116 is inserted. A storage part 135 stores a table which determines a downward optimum speed of the syringe 115 corresponding to kinds of the septum and syringe. A control part 130 refers to the table for identifying the downward optimum speed of the syringe 115 corresponding to the septum 131 and the syringe 115, and controls a syringe drive part 119 so that the downward speed of the syringe 115 becomes the downward optimum speed of the syringe 115.SELECTED DRAWING: Figure 1

Description

The present invention relates to an automatic sample injection device.

An automatic sample analysis system including a gas chromatograph unit and an automatic sample injection device for automatically injecting a sample into a sample vaporization chamber connected to the gas chromatograph unit is known.

For example, the auto-injector of the automatic sample analysis system described in Patent Document 1 includes a microsyringe having a needle at the lower end and a plunger inserted slidably inward, and a plunger driving unit for pushing in or pulling out the plunger of the microsyringe. And a syringe driving unit that moves the entire microsyringe up and down and horizontally within a predetermined range.

JP-A-2016-156632

In the automated sample analysis system described in Patent Document 1, the user must set the downward velocity of the syringe and plunger. Improper user settings can result in failure to inject the sample normally or damage the syringe and septum attached to the sample inlet in the sample vaporization chamber.

Therefore, an object of the present invention is to provide an automatic sample injection device capable of injecting a sample normally and reducing damage to a syringe and a septum.

The automatic sample injection device of the present invention includes a syringe including a barrel having a needle at the tip and a plunger slidably inserted in the barrel, a syringe drive unit for driving the syringe, and a plunger drive for driving the plunger. Refer to the storage unit and the storage unit, which is attached to the upper part of the sample vaporization chamber and stores a table that determines the optimum downward speed of the syringe corresponding to the type of septum into which the needle is inserted and the type of syringe. A control unit is provided which controls the syringe driving unit so that the optimum downward speed of the syringe corresponding to the septum and the syringe is specified and the downward speed of the syringe becomes the optimum downward speed of the syringe.

The automatic sample injection device of the present invention includes a syringe including a barrel having a needle at the tip and a plunger slidably inserted in the barrel, a syringe drive unit for driving the syringe, and a plunger drive for driving the plunger. To the bottom of the syringe during normal measurement, which is attached to the upper part of the sample vaporization chamber and is attached to the upper part of the sample vaporization chamber and corresponds to the type of septum and the type of syringe in which the needle is inserted. A storage unit that stores a table in which the speed range is defined, and a reference to the table to specify the downward speed range of the syringe during normal measurement corresponding to the sample and the syringe, and the user-set syringe speed is out of the speed range. In some cases, it is provided with a control unit for notifying a warning.

According to the present invention, the sample can be injected normally, and damage to the syringe and septum can be reduced.

It is a figure which shows the structure of the automatic sample analysis system of 1st Embodiment. (A) is a diagram showing a state before the syringe 115 and the plunger 117 are driven. (C) is a diagram showing a state after driving the plunger 117 downward. It is a figure which shows the speed table of 1st Embodiment. It is a figure which shows the type of a syringe 115. It is a figure which shows the kind of septum 131. It is a flowchart which shows the procedure of injecting a sample into a sample vaporization chamber 123 in 1st Embodiment. It is a figure which shows the speed table of the 2nd Embodiment. It is a flowchart which shows the procedure of injecting a sample into a sample vaporization chamber 123 in 2nd Embodiment.

Hereinafter, embodiments will be described with reference to the drawings.
[First Embodiment]
FIG. 1 is a diagram showing a configuration of an automatic sample analysis system according to the first embodiment.

This automatic sample analysis system includes an automatic sample injection device 110, a gas chromatograph unit 120, and a detection control unit 230.

The automatic sample injection device 110 includes a vial rack accommodating unit 111, a syringe 115, a syringe drive unit 119, a plunger drive unit 118, a vial rack accommodating unit 111, a control unit 130, a storage unit 135, and an input unit 140. And a display unit 150.

The syringe 115 includes a barrel 132 having a needle 116 at its tip and a plunger 117 slidably fitted into the barrel 132.

A plurality of sample vials 112 and a washing vial 113 are arranged in the vial rack of the vial rack accommodating portion 111.

The sample vial 112 contains a sample to be analyzed. The cleaning vial 113 is filled with a cleaning solution for cleaning the syringe 115.

The syringe drive unit 119 inserts the needle 116 into the sample vial 112 or wash vial 113 or pulls the needle 116 out of the sample vial 112 or wash vial 113 by moving the entire syringe 115 vertically and horizontally. .. The syringe drive unit 119 inserts the needle 116 into the sample vaporization chamber 123 by moving the entire syringe 115 downward. The syringe drive unit 119 includes a drive source such as a motor.

The plunger drive unit 118 causes the sample or cleaning liquid to be injected into the barrel 4 by moving the plunger 117 in the vertical direction. The plunger drive unit 118 injects the sample in the barrel 4 into the sample vaporization chamber 123 by moving the plunger 117 downward. The plunger drive unit 118 includes a drive source such as a motor.

The gas chromatograph unit 120 is provided at the column oven 121 whose temperature can be controlled, the capillary column 122 arranged in the column oven 121, the sample vaporization chamber 123 arranged at the inlet of the capillary column 122, and the outlet of the capillary column 122. It includes a detector 125 to be arranged.

A carrier gas supply pipe 124 for introducing a carrier gas is connected to the sample vaporization chamber 123. Through the carrier gas supply pipe 124, the carrier gas adjusted to a substantially constant flow rate is supplied to the sample vaporization chamber 123.

A septum 131 into which the needle 116 is inserted is arranged above the sample vaporization chamber 123. The carrier gas and sample are introduced into the capillary column 122 through the sample vaporization chamber 123.

The detector 125 detects various components separated in the capillary column 122.
The storage unit 135 stores the speed table.

The control unit 130 controls the drive of the syringe drive unit 119 and the drive of the plunger drive unit 118 based on the speed table.

The detection control unit 230 controls the temperature control of the sample vaporization chamber 123 and the column oven 121, and executes data processing of the detection result of the detector 125.

The control unit 130 and the detection control unit 230 are realized by the CPU in the personal computer executing a program stored in the storage device.

The input unit 140 receives various instructions and condition settings from the user. The input unit 140 is composed of a keyboard, a mouse, and the like connected to a personal computer.

The display unit 150 displays the result of data processing output from the control unit 130. The display unit 150 is composed of a monitor of a personal computer or the like.

FIG. 2 is a diagram for explaining the driving of the syringe 115 and the plunger 117.
FIG. 2A is a diagram showing a state before the syringe 115 and the plunger 117 are driven. From this state, the syringe 115 is driven downward with the sample vaporization chamber 123 at a speed SV.

FIG. 2B is a diagram showing a state after driving the syringe 115 downward.
By driving the syringe 115 downward, the needle 116 pierces the septum 131. Depending on the downward velocity SV of the syringe 115, the septum 131 and the needle 116 may be damaged. From this state, the plunger 117 is further driven downward at a speed PV.

FIG. 2C is a diagram showing a state after driving the plunger 117 downward. Depending on the downward velocity PV of the plunger 117, the sample may not be normally injected into the sample vaporization chamber 123 or the capillary column 122.

FIG. 3 is a diagram showing a speed table of the first embodiment.
The speed table of the first embodiment determines the optimum speed OSV of the syringe 115 and the optimum speed OPV of the plunger 117 corresponding to the type of syringe 115 and the type of septum 131.

In the example of FIG. 3, the optimum speed OSVij of the syringe 115 is determined and the optimum speed OPVij of the plunger 117 is determined corresponding to the type ID of the syringe i and the type ID of the septum j.

FIG. 4 is a diagram showing the types of syringe 115.
The type of syringe 115 is determined by the capacity of the barrel 132, the shape of the needle 116, and the shape of the plunger 117.

In the example of FIG. 4, the type IDs (1 to 27) of the 27 types of syringe 115 are the capacities of the three types of barrels 132 (a1 to a3), the shapes of the three types of needles 116 (b1 to b3), and the three types. It is determined by the combination of the shapes (c1 to c3) of the plunger 117.

FIG. 5 is a diagram showing the types of septum 131.
The type of septum 131 is determined by the type of septum 131 and the thickness of the septum 131.

In the example of FIG. 5, the type IDs (1 to 4) of the four types of septum 131 are based on the combination of the materials of the two types of septum (d1, d2) and the thickness of the two types of septum 131 (e1, e2). It is decided.

The control unit 130 refers to the speed table to identify the downward optimum speed OSV of the syringe 115 corresponding to the septum 131 and the syringe 115 and the optimum speed OPV of the plunger 117. The control unit 130 controls the syringe drive unit 119 so that the downward velocity SV of the syringe 115 becomes the optimum velocity OSV downward of the syringe 115. The control unit 130 controls the plunger drive unit 118 so that the downward speed PV of the plunger 117 becomes the optimum speed OPV downward of the plunger 117.

FIG. 6 is a flowchart showing a procedure for injecting a sample into the sample vaporization chamber 123 in the first embodiment. As a preliminary step, it is assumed that the sample is taken out from the sample vial 112 and sealed in the barrel 132 of the syringe 115.

In step S101, the input unit 140 receives the input of the type ID of the syringe 115 and the type ID of the septum 131 by the user.

In step S102, the control unit 130 is determined by referring to the speed table in the storage unit 135 as the optimum speed OSV of the syringe 115 corresponding to the input type ID of the syringe 115 and the type ID of the septum 131, and is a plunger. The optimum speed OPV of 117 is specified.

In step S103, the control unit 130 instructs the syringe drive unit 119 to move the syringe 115 downward at a speed OSV.

In step S104, the control unit 130 instructs the plunger drive unit 118 to move the plunger 117 downward at a speed OPV.

As described above, according to the present embodiment, the optimum syringe speed and plunger speed are determined according to the type of septum and the type of syringe, so that the sample can be injected normally and the syringe and septum are damaged. Can be reduced.

[Second Embodiment]
FIG. 7 is a diagram showing a speed table of the second embodiment.

The speed table of the second embodiment defines the speed range SMinV to SMaxV of the syringe 115 during normal measurement and the speed range PMinV to PMaxV of the plunger 117 during normal measurement corresponding to the type of syringe 115 and the type of septum 131. Normal measurement is the range of speed used by a standard user to perform a standard measurement.

In the example of FIG. 7, the speed range SMinVij to SMaxVij of the syringe 115 at the time of normal measurement is defined corresponding to the type ID of the syringe i and the type ID of the septum corresponding to j, and the speed range of the plunger 117 at the time of normal measurement. PMinVij to PmaxVij are defined.

The input unit 140 receives input of the user-set syringe speed SV and the user-set plunger speed from the user.

The control unit 130 refers to the speed table and refers to the downward speed range SMinV to SMaxV of the syringe 115 during normal measurement and the downward speed range PMinV of the plunger 117 during normal measurement corresponding to the septum 131 and the syringe 115. Identify PMaxV. The control unit 130 displays a warning on the display unit 150 when the user-set syringe speed SV is outside the speed range SMinV to SMaxV. The control unit 130 displays a warning on the display unit 150 when the user-set plunger speed PV is outside the speed range PMinV to PMaxV.

FIG. 8 is a flowchart showing a procedure for injecting a sample into the sample vaporization chamber 123 in the second embodiment. As a preliminary step, it is assumed that the sample is taken out from the sample vial 112 and sealed in the barrel 132 of the syringe 115.

In step S201, the input unit 140 receives the input of the type ID of the syringe 115 and the type ID of the septum 131 by the user.

In step S202, the input unit 140 receives input of the speed (user-set syringe speed) SV of the syringe 115 and the speed (user-set plunger speed) PV of the plunger 117 by the user.

In step S203, the control unit 130 refers to the speed table in the storage unit 135, and refers to the input type ID of the syringe 115 and the speed range SMinV of the syringe 115 at the time of normal measurement corresponding to the type ID of the septum 131. SMaxV, the speed range PMinV to PMaxV of the plunger 117 at the time of normal measurement is specified.

In step S204, when SV <SMinV or SV> SMaxV, that is, when the user-set syringe speed SV is outside the speed range of the syringe 115 at the time of normal measurement, the process proceeds to step S205. When SMinV ≦ SV ≦ SMaxV, that is, when the user-set syringe speed SV is within the speed range of the syringe 115 at the time of normal measurement, the process proceeds to step S207.

In step S205, the control unit 130 displays on the display unit 150 that the user-set syringe speed SV is outside the speed range of the syringe 115 at the time of normal measurement.

In step S206, when the input unit 140 receives an input for changing the user-set syringe speed SV by the user, the process returns to step S204. If the input unit 140 does not accept the input for changing the user-set syringe speed SV, the process proceeds to step S207. This is in consideration of the case where a highly specialized user desires to perform the measurement while knowing that the user-set syringe speed SV is out of the speed range.

In step S207, when PV <PMinV or PV> PMaxV, that is, when the user-set plunger speed PV is outside the speed range of the plunger 117 at the time of normal measurement, the process proceeds to step S208. When PMinV ≦ PV ≦ PMaxV, that is, when the user-set plunger speed PV is within the speed range of the plunger 117 at the time of normal measurement, the process proceeds to step S210.

In step S208, the control unit 130 displays on the display unit 150 that the user-set plunger speed PV is outside the speed range of the plunger 117 at the time of normal measurement.

In step S209, when the input unit 140 receives the input of changing the user setting plunger speed PV, the process returns to step S207. If the input unit 140 does not accept the input for changing the user setting plunger speed PV, the process proceeds to step S210. This is in consideration of the case where a highly specialized user desires to perform the measurement while knowing that the user-set plunger speed PV is out of the speed range.

In step S210, the control unit 130 instructs the syringe drive unit 119 to move the syringe 115 downward at a user-set syringe speed SV.

In step S211 the control unit 130 instructs the plunger drive unit 118 to move the plunger 117 downward at the user-set plunger speed PV.

As described above, according to the present embodiment, the speed range of the syringe during normal measurement and the speed range of the plunger during normal measurement are specified according to the type of septum and the type of syringe, and the user-set syringe speed is specified. Displays a warning when is out of the speed range and when the custom plunger speed is out of the speed range. This allows the user to change the user-configured syringe speed and the user-configured plunger speed so that the sample can be injected normally and damage to the syringe and septum can be reduced.

(Modification example)
The present invention is not limited to the above embodiment, and includes, for example, the following modifications.

(1) In step S101 of FIG. 6 and step S201 of FIG. 8, the user inputs the type ID of the syringe 115 and the type ID of the septum 131, but the present invention is not limited to this.

A barcode sticker may be attached to the syringe 115, and a control unit 130 equipped with a barcode identification function may identify the type of the syringe 115. Further, an RFID (Radio Frequency Identifier) label may be attached to the syringe 115, and the control unit 130 may receive the ID information transmitted by the RFID label to identify the type of the syringe 115.

The septum 131 is stored in a storage bottle before being attached to the sample vaporization chamber 123. A bar code sticker may be attached to the storage bottle, and a control unit 130 equipped with a bar code identification function may identify the type of the septum 131. Further, the RFID label may be attached to the storage bottle, and the control unit 130 may receive the ID information transmitted by the RFID label to identify the type of the septum 131.

Alternatively, the camera may take a picture of the syringe 115 and the septum 131, and the control unit 130 having an image processing function may identify the type of the syringe 115 and the septum 131.

(2) In FIG. 6, the optimum speed OSV of the syringe 115 and the optimum speed OPV of the plunger 117 are specified with reference to the speed table, but the optimum speed is not limited to this.

The speed of either the syringe 115 or the plunger 117 may be specified with reference to the speed table, and the speed of the other may be a standard value or a user-set value.

(3) In FIG. 8, the speed range of the syringe 115 at the time of normal measurement and the speed range of the plunger 117 at the time of normal measurement are specified with reference to the speed table, but the speed range is not limited to this.

The speed range of one of the syringe 115 and the plunger 117 at the time of normal measurement may be specified with reference to the speed table, and the speed of the other may be the standard value, the user's set value, or the optimum speed with reference to the speed table. ..

(4) The type of syringe is determined by the combination of the capacity of the barrel, the shape of the needle, and the shape of the plunger, but is not limited thereto. The type of syringe may be determined by at least one of barrel capacity, needle shape, and plunger shape.

(5) The type of septum is determined by the combination of the material of the septum and the thickness of the septum, but is not limited thereto. The type of septum may be determined by at least one of the material of the septum and the thickness of the septum.

(Additional note)
The automatic sample injection device of the present disclosure has the following features.

(1) The automatic sample injection device is
A syringe (115) including a barrel (132) having a needle (116) at its tip and a plunger (117) slidably inserted into the barrel (132).
A syringe driving unit (119) for driving the syringe (115) and
The plunger drive unit (118) that drives the plunger (117),
The optimum downward velocity of the syringe (115), which is attached to the upper part of the sample vaporization chamber (123) and corresponds to the type of septum (131) and the type of syringe (115) into which the needle (116) is inserted, is determined. A storage unit (135) that stores the table
With reference to the table, the optimum downward velocity of the syringe (115) corresponding to the septum (131) and the syringe (115) is specified, and the downward velocity of the syringe (115) is the syringe ( A control unit (130) that controls the syringe drive unit (119) is provided so as to have an optimum speed downward of 115).

As a result, the optimum syringe speed is determined according to the type of septum and the type of syringe, so that the sample can be injected normally and damage to the syringe and septum can be reduced.

(2) Preferably, the table further determines the optimum downward velocity of the plunger (117), corresponding to the type of septum (131) and the type of syringe (115).
With reference to the table, the control unit (130) identifies the optimum downward speed of the plunger (117) corresponding to the septum (131) and the syringe (115), and determines the optimum downward speed of the plunger (117). The plunger drive unit (118) is controlled so that the downward speed becomes the optimum downward speed of the plunger (117).

As a result, the optimum plunger speed is determined according to the type of septum and the type of syringe, so that the sample can be injected normally and damage to the syringe and septum can be reduced.

(3) The automatic sample injection device is
A syringe (115) including a barrel (132) having a needle (116) at its tip and a plunger (117) slidably inserted into the barrel (132).
A syringe driving unit (119) for driving the syringe (115) and
The plunger drive unit (118) that drives the plunger (117),
The optimum downward velocity of the plunger (117), which is attached to the upper part of the sample vaporization chamber (123) and corresponds to the type of septum (131) and the type of syringe (115) into which the needle (116) is inserted, is determined. A storage unit (135) that stores the table
With reference to the table, the optimum downward velocity of the plunger (117) corresponding to the septum (131) and the syringe (115) is specified, and the downward velocity of the plunger (117) is the plunger (117). A control unit (130) that controls the plunger drive unit (118) is provided so as to have an optimum speed downward of 117).

As a result, the optimum plunger speed is determined according to the type of septum and the type of syringe, so that the sample can be injected normally and damage to the syringe and septum can be reduced.

(4) The automatic sample injection device is
A syringe (115) including a barrel (132) having a needle (116) at its tip and a plunger (117) slidably inserted into the barrel (132).
A syringe driving unit (119) for driving the syringe (115) and
The plunger drive unit (118) that drives the plunger (117),
An input unit (140) that accepts user-set syringe speed input by the user,
Velocity below the syringe (115) during normal measurement, which is attached to the top of the sample vaporization chamber (123) and corresponds to the type of septum (131) and the type of syringe (115) into which the needle (116) is inserted. A storage unit (135) that stores a table with a defined range,
With reference to the table, the downward speed range of the syringe (115) during normal measurement corresponding to the septum (131) and the syringe (115) is specified, and the user-set syringe speed is outside the speed range. In the case of, a control unit (130) for notifying a warning is provided.

This identifies the speed range of the syringe during normal measurement, depending on the type of septum and the type of syringe, and displays a warning when the user-set syringe speed is outside the speed range, allowing the user to use the user-set syringe. You can change the speed. As a result, the sample can be injected normally and damage to the syringe and septum can be reduced.

(5) Preferably, the input unit (140) further accepts the input of the user-set plunger speed by the user.
The table defines the downward velocity range of the plunger (117) during normal measurement, corresponding to the type of septum (131) and type of syringe (115).
The control unit (130) refers to the table to identify the downward velocity range of the plunger (117) during normal measurement, corresponding to the septum (131) and the syringe (115), and the user. If the set plunger speed is outside the speed range, a warning is notified.

As a result, the speed range of the plunger at the time of normal measurement is specified according to the type of septum and the type of syringe, and a warning is displayed when the user-set plunger speed is out of the speed range, so that the user can use the user-set plunger. You can change the speed. As a result, the sample can be injected normally and damage to the syringe and septum can be reduced.

(6) The automatic sample injection device is
A syringe (115) including a barrel (132) having a needle (116) at its tip and a plunger (117) slidably inserted into the barrel (132).
A syringe driving unit (119) for driving the syringe (115) and
The plunger drive unit (118) that drives the plunger (117),
An input unit (140) that accepts user-set plunger speed input by the user,
Attached to the top of the sample vaporization chamber (123) and below the plunger (117) during normal measurement, corresponding to the type of septum (131) and type of syringe (115) into which the needle (116) is inserted. A storage unit (135) that stores a table that defines the speed range,
With reference to the table, the downward speed range of the plunger (117) during normal measurement corresponding to the septum (131) and the syringe (115) is specified, and the user-set plunger speed is outside the speed range. In the case of, a control unit (130) for notifying a warning is provided.

As a result, the speed range of the plunger at the time of normal measurement is specified according to the type of septum and the type of syringe, and a warning is displayed when the user-set plunger speed is out of the speed range, so that the user can use the user-set plunger. You can change the speed. As a result, the sample can be injected normally and damage to the syringe and septum can be reduced.

(7) Preferably, the type of the syringe (115) is determined by at least one of the capacity of the barrel (132), the shape of the needle (116), and the shape of the plunger (117).

This allows the type of syringe in the table to be set appropriately.
(8) Preferably, the type of septum (131) is determined by at least one of the material of the septum (131) and the thickness of the septum (131).

This allows the septum type in the table to be set appropriately.
It should be considered that the embodiments disclosed this time are exemplary in all respects and not restrictive. The scope of the present invention is shown by the scope of claims rather than the above description, and is intended to include all modifications within the meaning and scope equivalent to the scope of claims.

110 Automatic sample injection device, 111 vial rack housing, 112 sample vial, 113 wash vial, 114 vial rack, 115 syringe, 116 needle, 117 plunger, 120 gas chromatograph section, 121 column oven, 122 capillary column, 123 sample vaporization chamber , 124 Carrier gas supply pipe, 125 detector, 130 control unit, 131 sample, 132 barrel, 135 storage unit, 140 input unit, 150 display unit, 230 detection control unit.

Claims (8)

A syringe containing a barrel having a needle at the tip and a plunger slidably inserted into the barrel.
The syringe drive unit that drives the syringe and
The plunger drive unit that drives the plunger and
A storage unit attached to the upper part of the sample vaporization chamber and storing a table that determines the optimum downward speed of the syringe corresponding to the type of septum into which the needle is inserted and the type of syringe.
With reference to the table, the optimal downward velocity of the syringe corresponding to the septum and the syringe is identified so that the downward velocity of the syringe is the optimal downward velocity of the syringe. An automatic sample injection device equipped with a control unit that controls a drive unit. The table further determines the optimum downward velocity of the plunger, corresponding to the type of septum and the type of syringe.
With reference to the table, the control unit identifies the optimum downward speed of the plunger corresponding to the septum and the syringe, and the downward speed of the plunger becomes the optimum downward speed of the plunger. The automatic sample injection device according to claim 1, wherein the plunger drive unit is controlled as described above. A syringe containing a barrel having a needle at the tip and a plunger slidably inserted into the barrel.
The syringe drive unit that drives the syringe and
The plunger drive unit that drives the plunger and
A storage unit attached to the upper part of the sample vaporization chamber and storing a table that determines the optimum downward speed of the plunger corresponding to the type of septum and the type of syringe into which the needle is inserted.
With reference to the table, the optimum downward speed of the plunger corresponding to the septum and the syringe is identified, and the plunger is such that the downward speed of the plunger is the optimum downward speed of the plunger. An automatic sample injection device equipped with a control unit that controls a drive unit. A syringe containing a barrel having a needle at the tip and a plunger slidably inserted into the barrel.
The syringe drive unit that drives the syringe and
The plunger drive unit that drives the plunger and
An input unit that accepts user-set syringe speed input by the user,
A storage unit that is attached to the upper part of the sample vaporization chamber and stores a table that defines a speed range below the syringe during normal measurement, which corresponds to the type of septum into which the needle is inserted and the type of syringe.
Controls that refer to the table to identify the downward speed range of the syringe during normal measurement, corresponding to the septum and the syringe, and notify a warning if the user-set syringe speed is outside the speed range. An automatic sample injection device equipped with a section. The input unit further accepts the input of the user-set plunger speed by the user.
The table defines the downward velocity range of the plunger during normal measurement, corresponding to the type of septum and type of syringe.
With reference to the table, the control unit identifies a downward speed range of the plunger during normal measurement corresponding to the septum and the syringe, and when the user-set plunger speed is outside the speed range, The automatic sample injection device according to claim 4, which notifies a warning. A syringe containing a barrel having a needle at the tip and a plunger slidably inserted into the barrel.
The syringe drive unit that drives the syringe and
The plunger drive unit that drives the plunger and
An input unit that accepts user-set plunger speed input by the user,
A storage unit attached to the upper part of the sample vaporization chamber and storing a table that defines a downward speed range of the plunger during normal measurement, corresponding to the type of septum into which the needle is inserted and the type of syringe.
A control that identifies the downward speed range of the plunger during normal measurement corresponding to the septum and the syringe with reference to the table, and notifies a warning when the user-set plunger speed is outside the speed range. An automatic sample injection device equipped with a section. The automatic sample injection device according to any one of claims 1 to 6, wherein the type of the syringe is determined by at least one of the capacity of the barrel, the shape of the needle, and the shape of the plunger. The automatic sample injection device according to any one of claims 1 to 6, wherein the type of the septum is determined by at least one of the material of the septum and the thickness of the septum.

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