JP7173283B2 - chromatography system - Google Patents

Description

The present invention relates to chromatography systems.

Chromatography systems are known that separate a mobile phase, which is the object of analysis, into a plurality of components, ie, analytes, by means of an analysis column (see, for example, Patent Document 1). A chromatography system incorporates consumable parts, such as cells and valves, which are replaced according to the frequency of use (number of times of use) or when they deteriorate over time.

JP 2008-209327 A

For example, if a consumable part is recalled due to a problem with the consumable part, the consumable part must be replaced. However, when the same consumable parts are installed in different positions, it is necessary to know where the recalled consumable parts are installed in the equipment. A problem arises in that it is difficult to find and replace.

SUMMARY OF THE INVENTION An object of the present invention is to provide a chromatography system capable of ascertaining the positions of parts attached to the main body of the apparatus.

A first aspect of the present invention comprises an apparatus body having a channel through which a liquid sample passes; A chromatography system capable of analyzing the sample under certain conditions, which stores replaceable parts attached to the apparatus main body, and positional information relating to the attachment positions of the parts to the apparatus main body, which are arranged in the apparatus main body. A chromatography system comprising a storage unit for

According to the present invention, when a replaceable part attached to the apparatus main body is recalled, for example, the storage section stores where in the apparatus main body the part is attached. It is possible to grasp the position of parts.

FIG. 1 is a schematic diagram (block diagram) showing an embodiment of the chromatography system of the present invention. FIG. 2 is a perspective view showing a state in which parts are attached to an apparatus body included in the chromatography system. FIG. 3 is an example of an image displayed on the display unit provided in the chromatography system shown in FIG.

Hereinafter, the chromatography system of the present invention will be described in detail based on preferred embodiments shown in the attached drawings.
FIG. 1 is a schematic diagram (block diagram) showing an embodiment of the chromatography system of the present invention. FIG. 2 is a perspective view showing a state in which parts are attached to an apparatus body included in the chromatography system. FIG. 3 is an example of an image displayed on the display unit provided in the chromatography system shown in FIG.

Hereinafter, as an example, the case where the chromatography system 1 is applied to a liquid chromatography system that analyzes a liquid sample, which is a type of the mobile phase Q, under a plurality of analysis conditions will be described. can be similarly applied to supercritical fluid chromatography systems and gas chromatography systems.

As shown in FIG. 1, the chromatography system 1 includes a liquid transfer device 2, an autosampler 4, a column oven 6, a detector 8, a system management device 10, and an apparatus and an analysis column 121 that can be detachably replaced with respect to the main body 11 .

The liquid transfer device 2, the autosampler 4, the column oven 6, and the detector 8 are arranged in this order along the direction in which the mobile phase Q flows, that is, from upstream to downstream. Also, the liquid delivery device 2 , the autosampler 4 , the column oven 6 and the detector 8 are connected via piping forming the flow path 13 . The mobile phase Q can pass through the channel 13 .
In addition to the sample to be analyzed, the mobile phase Q includes, for example, a buffer used during analysis and a washing liquid such as an organic solvent for washing the stationary phase.

Also, the system management device 10 is electrically connected to the liquid transfer device 2 , the autosampler 4 , the column oven 6 and the detector 8 . The system management device 10 is composed of, for example, a CPU that executes logical operations, a ROM that stores operation programs necessary for controlling the liquid delivery device 2, etc., and a RAM that temporarily stores data during control. , the entire chromatography system 1 can be controlled.

The liquid-sending device 2 has, for example, a liquid-sending pump, and can transfer the mobile phase Q toward the downstream side within the channel 13 by the liquid-sending pump. Moreover, the transfer speed of the mobile phase Q can be adjusted by changing the rotation speed of the liquid transfer pump.
The autosampler 4 is for injecting the mobile phase Q into the channel 13 .
The column oven 6 can be loaded with an analytical column 121 . As a result, the analysis column 121 is placed in the middle of the channel 13, and when the mobile phase Q injected from the autosampler 4 is a sample, the sample can be separated into a plurality of components.

In addition, the column oven 6 has a heater that generates heat when energized, and when the mobile phase Q is a sample, the heater can heat the analysis column 121 together with the sample. Thereby, the temperature of the sample can be adjusted to a predetermined temperature.
A detector 8 is for detecting the components separated by the analysis column 121 .

The chromatography system 1 also includes a system management device 10, as shown in FIG. The system management device 10 includes an analysis condition setting section 14 , a determination section 15 , an input section 17 , a display section 18 and a first storage section 16 .
In addition, in the chromatography system 1 , the analysis column 121 constitutes the column unit 12 together with the second storage section 122 attached to the analysis column 121 . When the analysis column 121 is replaced, the second storage unit 122 is replaced together.

The analysis condition setting unit 14 can set a plurality of analysis conditions. The analysis conditions include, for example, the type of sample, the type of stationary phase packed in the analysis column 121, and the like. Thereby, the chromatography system 1 can analyze a sample under a plurality of analysis conditions.

For example, when there are two types of samples to be analyzed, the analysis condition setting unit 14 sets the first analysis condition when one sample is analyzed, and the analysis condition setting unit 14 sets the first analysis condition when the other sample is analyzed. 14 sets a second analysis condition different from the first analysis condition. The analysis column 121 suitable for analysis of one sample is used under the first analysis condition, and the analysis column 121 suitable for analysis of the other sample is used under the second analysis condition.

The determination unit 15 determines, for example, whether or not the analysis conditions set by the analysis condition setting unit 14 are selectable.
Mobile phase information about the type of mobile phase Q is stored in advance in the first storage unit 16 . The first storage unit 16 can store the mobile phase information by, for example, the names and numbers of the respective mobile phases Q and the like.
The second storage unit 122 stores second information, which is the individual information of the analysis column 121 . In this embodiment, the analytical column 121 is specified by the type of stationary phase packed therein. Then, the analysis column 121 itself can be specified by the second information.

As shown in FIG. 1, the liquid transfer device 2, the autosampler 4, the column oven 6, and the detector 8 each store position information regarding the mounting position of the replaceable part 3 to the device main body 11, which will be described later. A storage unit 19 is arranged.
Information on non-replaceable parts that are different from the replaceable parts 3 can be stored in the first storage unit 16 of the system management device 10 .

The display unit 18 has a liquid crystal screen, and can display the mobile phase information and the like stored in the first storage unit 16 on the liquid crystal screen. The liquid crystal screen may have a touch panel function.
In the input unit 17, an analysis condition setting operation to the analysis condition setting unit 14, that is, an input operation can be performed. If the liquid crystal screen of the display section 18 has a touch panel function, the display section 18 can also serve as the input section 17 . Thereby, the configuration of the chromatography system 1 can be simplified. Note that the display unit 18 and the input unit 17 may be configured separately.

As shown in FIG. 2, parts 3 constituting the apparatus main body 11 are detachably attached to the apparatus main body 11 . The part 3 may be an assembly formed by assembling a plurality of members, or may be a single member. The parts 3 are not particularly limited, and are replaced when deteriorated over time, such as plungers and plunger seals built in the pump of the liquid transfer device 2, as well as cells and valves. parts and the like. Below, the case where the component 3 is a plunger will be mentioned as an example. In this case, in this embodiment, it is assumed that two parts 3 are attached to different positions of the liquid transfer device 2 . Hereinafter, one of these two mounting positions will be referred to as "first mounting position P1", and the other mounting position will be referred to as "second mounting position P2". Also, the third storage section 19 arranged in the liquid transfer device 2 is referred to as a "third storage section 19A".

For example, if the part 3 is recalled, the part 3 needs to be replaced. Here, "recall" means that if it is found that there is a defect due to an error in the design or manufacturing of the part 3, it will be replaced free of charge at the discretion of the manufacturer or seller of the part 3. and other measures.

However, if the recalled part 3 is one of the two parts 3, which of the first mounting position P1 and the second mounting position P2 this recalled part 3 is mounted on? If this is not grasped, there arises a problem that it becomes difficult to locate and replace the recalled part 3 .

Therefore, the chromatography system 1 is configured to be able to eliminate such problems. This configuration and operation will be described below. The recalled part 3 is called "part 3A", and the non-recalled part 3 is called "part 3B". Further, the part 3A has already been given the lot number LN _3A when the part 3A is manufactured. Similarly, part 3B was assigned a lot number LN _3B when the part 3B was manufactured.

The third storage unit 19A of the liquid delivery device 2 stores first position information IF _3A regarding the first mounting position P1 of the component 3A and second position information IF _3B regarding the second mounting position P2 of the component 3B.
As shown in FIG. 3, the first position information IF _3A includes the name NA _3A of the part 3A, the lot number LN _3A , and the position name (name) PNA _3A of the first mounting position P1. Thereby, the third storage unit 19A can store the name NA _3A , the lot number LN _3A , and the position name PNA _3A of the part 3A as the first position information IF _3A . The first position information IF _3A may include the ID number of the first mounting position P1 corresponding to the position name PNA _3A .

The second position information IF _3B also includes the name NA _3B of the part 3B, the lot number LN _3B , and the position name (name) PNA _3B of the second mounting position P2. Thereby, the third storage unit 19A can store the name NA _3B , the lot number LN _3B , and the position name PNA _3B of the part 3B as the second position information IF _3B . The second position information IF _3B may include the ID number of the second mounting position P2 corresponding to the position name PNA _3B .

In the chromatography system 1 , the input of the first positional information IF _3A and the second positional information IF _3B to the third storage unit 19 can be performed via the input unit 17 . The input to the third storage unit 19 is manual input by the operator who performs the analysis work using the chromatography system 1 in the present embodiment, but is not limited to this, and may be an automatic input. . Further, the input to the third storage unit 19 is not limited to the input from the input unit 17, and may be the input from the cloud device 5 described later, for example.

As shown in FIG. 1, the chromatography system 1 includes a cloud device (cloud computer) 5 configured with, for example, a CPU that executes logical operations, a ROM, a RAM, and the like. The cloud device 5 is electrically connected to the system management device 10 of the device main body 11 . The connection method is not particularly limited, and may be, for example, a wired method, a wireless method, or a method via a network.

The cloud device 5 includes a search section 51 and a display section 53 .
The search unit 51 can search the mounting position of the part 3 to be replaced based on the first position information IF _3A or the second position information IF _3B stored in the third storage unit 19 .
The first location information IF _3A and the second location information IF _3B stored in the third storage unit 19 are transmitted to the search unit 51 via the system management device 10. FIG. As a result, in the cloud device 5, the mounting position of the part 3 to be replaced is grasped.

Also, the timing at which the first position information IF _3A is transmitted to the search unit 51 is, for example, when the part 3A is replaced. Similarly, the timing at which the second position information IF _3B is transmitted to the search unit 51 is, for example, when the part 3B is replaced. Other timings include, for example, when the system management device 10, the liquid transfer device 2, the autosampler 4, the column oven 6, and the detector 8 become communicable.
Display unit 53 is electrically connected to search unit 51 . The display unit 53 has a liquid crystal screen, and can display the search results of the search unit 51 on the liquid crystal screen.

For example, when one of the two parts 3 is recalled and the part 3A is specified as the recalled part, the search unit 51 of the cloud device 5 is operated to obtain the first position information IF _3A , that is, , to start searching for lot number LN _3A .

The search result by the search unit 51 is displayed on the display unit 53 in a tabular format as shown in FIG. 3, for example. The first location information IF _3A and the second location information IF _3B are displayed on the display unit 53. In particular, the lot number LN _3A and the location name PNA _3A included in the first location information IF _3A are highlighted, for example. It is highlighted by a light display.

With such a configuration, it is possible to confirm the position name PNA _3A and grasp the first mounting position P1 corresponding to the position name PNA _3A . Thereby, it is possible to grasp to which of the first mounting position P1 and the second mounting position P2 the recalled component 3A is mounted. Therefore, the part 3A can be easily found, and the new part 3A that has not been recalled can be quickly replaced. In the chromatography system 1 , when the component 3A is replaced with a new component 3A, the lot number LN _3A of the new component 3A is rewritten in the third storage unit 19 . In addition, in the chromatography system 1, the time from the occurrence of the recall to the replacement can be shortened as much as possible, so that the reduction in the operating rate of the chromatography system 1 can be suppressed.

When replacing the part 3A, the replacement button BT _3A displayed on the display section 18 is operated. As a result, a form (not shown) for inputting the lot number LN _3A is displayed on the display section 18 as the input section 17 . When the lot number LN _3A is entered in this form, the lot number LN _3A is recorded in the third recording section 19 . When replacing the part 3B, the replacement button BT _3B displayed on the display unit 18 is operated.

Also, the first location information IF _3A and the second location information IF _3B are stored in the first storage unit 16 in the present embodiment, but are not limited to this. ) may be stored.
The first positional information IF _3A and the second positional information IF _3B may further include the product number of the part 3 and the like.

Also, the name NA 3B of the component 3A and the name NA _3B of the component _3B are the same name, but are not limited to this and may be different from each other.
Also, the cloud device 5 can be electrically connected to a plurality of device bodies 11 . This makes it possible to collectively search for the position information of the component 3 in each device main body 11 .

Moreover, the search result by the search unit 51 may be displayed on the display unit 18 of the system management device 10 . In this case, the search result of the search section 51 is transmitted from the search section 51 to the display section 18 . Thereby, the search result by the search unit 51 can be displayed on the display unit 18 .

Also, the location information is searched by the cloud device 5 in the present embodiment, but it is not limited to this. For example, the device body 11 may have the function of the search section 51 and search for position information.

As described above, the chromatography system of the present invention has been described with reference to the illustrated embodiments, but the present invention is not limited to this, and each part constituting the chromatography system may have any configuration capable of exhibiting similar functions. can be replaced with Moreover, arbitrary components may be added.

[Aspect]
It will be appreciated by those skilled in the art that the multiple exemplary embodiments described above are specific examples of the following aspects.

(Section 1) The chromatography system (1) according to one aspect is
An apparatus body (11) having a channel (13) through which a liquid sample passes, and an analysis column (121) arranged in the middle of the channel (13) for separating the sample into a plurality of components, A chromatography system (1) capable of analyzing the sample under a plurality of analysis conditions,
a replaceable part (3) attached to the apparatus main body (11);
and a storage unit (19) for storing positional information relating to the mounting position of the component (3) with respect to the apparatus main body (11).

According to the chromatography system described in item 1, when a replaceable part attached to the apparatus main body is recalled, for example, the part is recalled based on the position information stored in the storage unit. It is possible to grasp where the parts are attached to the device main body, that is, the positions of the parts in the device main body.
(Section 2) The chromatography system (1) of Section 1 is
comprising a plurality of identical replaceable parts (3A, 3B) as the replaceable part (3);
2. The chromatography system according to claim 1, wherein the storage unit (19) stores position information ( _IF3A , _IF3B ) relating to mounting positions of each of a plurality of identical replaceable parts (3A, 3B).

According to the chromatography system described in paragraph 2, when a plurality of identical replaceable parts attached to the apparatus body are recalled, for example, based on the position information stored in the storage unit , it is possible to grasp where in the apparatus body the part is attached, that is, the position of the part in the apparatus body.

(Section 3) The chromatography system (1) according to Section 1 or 2,
The storage section (19) is arranged in the apparatus main body (11).

According to the chromatography system of item 3, for example, the storage units can be distributed and arranged in a plurality of locations within the apparatus main body.

(Section 4) The chromatography system (1) according to Section 3 is
The device main body (11) comprises a plurality of units including a liquid transfer device (2), an autosampler (4), a column oven (6) and a detector (8),
The storage unit (19) is provided in each of the liquid transfer device (2), the autosampler (4), the column oven (6) and the detector (8),
4. The method according to claim 3, wherein position information ((8)) relating to a mounting position is stored in said storage section (19) provided in a unit to which said replaceable part (3) is attached, among said storage sections (19). The chromatographic system described.

According to the chromatography system according to item 4, when the replaceable parts attached to the liquid transfer device, the autosampler, the column oven and the detector are recalled, they are stored in each storage unit Where the component is installed in the delivery system, autosampler, column oven and detector, i.e. the position of the component in the delivery system, autosampler, column oven and detector based on the positional information provided can be grasped.

(Item 5) The chromatography system (1) according to any one of items 1 to 4,
The storage unit (19) stores the name of the part (3) or the lot number (LN _3A , etc.) assigned when the part (3) was manufactured, and the name of the mounting position as the position information. remember as

According to the chromatography system of item 5, position information can be managed easily and accurately.

(Section 6) The chromatography system (1) according to Section 5 is
A retrieval unit is provided for retrieving the mounting position from the name of the part (3) or the lot number (LN _3A , etc.) stored in the storage unit (19).

According to the chromatography system according to item 6, it is possible to quickly search for the attachment position of the component.

(Section 7) The chromatography system (1) according to Section 5 or 6 is
A display section (18) for displaying the name of the part (3) or the lot number (LN _3A , etc.) and the name of the mounting position is provided.

According to the chromatography system of item 7, the position of the component can be easily and accurately grasped via the display unit.

1 Chromatography System 2 Liquid Transfer Device 3 Part 3A Part 3B Part 4 Autosampler 5 Cloud Device (Cloud Computer)
51 Search Unit 53 Display Unit 6 Column Oven 8 Detector 10 System Management Device 11 Apparatus Body 12 Column Unit 121 Analysis Column 122 Second Storage Unit 13 Channel 14 Analysis Condition Setting Unit 15 Judgment Unit 16 First Storage Unit 17 Input Unit 18 Display unit 19 Third storage unit 19A Third storage unit BT _3A exchange button BT _3B exchange button P1 First mounting position P2 Second mounting position IF _3A first position information IF _3B second position information LN _3A lot number LN _3B lot number NA _3A Name NA _3B Name PNA _3A Position Name (Name)
PNA _3B position name (name)
Q mobile phase

Claims (8)

A device body having a flow path through which a liquid sample passes, and an analysis column arranged in the flow path to separate the sample into a plurality of components, so that the sample can be analyzed under a plurality of analysis conditions. A chromatography system,
a replaceable part attached to the device main body;
and a storage unit that is arranged in the device main body and stores positional information regarding the mounting positions of the components with respect to the device main body. comprising a plurality of identical replaceable parts as the replaceable parts,
2. The chromatography system according to claim 1, wherein said storage unit stores positional information regarding an attachment position of each of said plurality of identical replaceable parts. The device main body comprises a plurality of units including a liquid transfer device, an autosampler, a column oven and a detector,
The storage unit is provided in each of the liquid transfer device, the autosampler, the column oven and the detector,
2. The chromatography system according to claim 1 , wherein position information relating to an attachment position is stored in said storage part provided in a unit to which said replaceable part is attached among said storage parts. 4. The storage unit according to any one of claims 1 to 3 , wherein the storage unit stores a name of the part or a lot number assigned when the part is manufactured, and a name of the mounting position as the position information. chromatography system. 5. The chromatography system according to claim 4 , further comprising a search unit that searches for the mounting position from the name of the component or the lot number stored in the storage unit. 6. The chromatography system according to claim 4 , further comprising a display section for displaying the name of the component or the lot number and the name of the mounting position. A system management device electrically connected to the liquid delivery device, the autosampler, the column oven, and the detector, wherein a storage unit of the system management device stores positional information about the mounting position of the component with respect to the device main body. 7. The chromatography system according to any one of claims 3 to 6, which stores: It is connected to the system management device by an electrical method including a wireless method, a wired method, or a method via a network, and acquires position information regarding the mounting position of the component with respect to the device main body via the system management device. 8. The chromatography system of claim 7, comprising a cloud device that

Images