JP2013142652A - Analyzing device unit constructing system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an analyzing device unit constructing system capable of freely and easily constructing an analyzing device unit.SOLUTION: Analyzing device units 4 and 12 are respectively provided with relay portions 10 and 18 having network communicating means and radio communicating means. Each component is provided with radio communicating means for communicating with the relay portions. On the other hand, when the plurality of analyzing units exist, even if radio communication between the components included in an analyzing device unit is within a communication range of a different analyzing device unit, component identification tables 11 and 19 for identifying to which analyzing device unit each component belongs are provided at the relay portions so as to fix the structure of each analyzing device unit.

Description

  The present invention relates to a system for constructing one analyzer unit by combining a plurality of single analysis devices (components).

  In the present invention, the analyzer (analyzer unit) includes all kinds of devices that measure the physical quantity of the sample to be measured.

For example, an analyzer such as a chromatograph device, a spectrophotometer, or a mass spectrometer is usually connected to an analysis control device for controlling the analyzer or collecting data.
Conventionally, an analysis apparatus and an analysis control apparatus have been interconnected in a one-to-one manner using, for example, a cable such as RS-232C. However, this has a problem in that the analysis control device must be prepared for each analysis device, which is expensive. In addition, such communication cables are often limited in the usable length (for example, in the case of RS-232C cable, the maximum communicable length is about 15 m). In general, an analyzer and an analysis controller are arranged adjacent to each other. In this case, when a plurality of analyzers are installed at different locations, there is an inconvenience that an analyst has to bother to operate and control the locations where the analyzers are installed.

  In view of such circumstances, in recent years, by incorporating a network communication module into an analysis device, an analysis control device, etc., a system for monitoring and controlling the analysis device from a remote terminal through a network is becoming common (for example, Patent Document 1). With such a system configuration, a plurality of analyzers can be controlled remotely and collectively. The analysis control device is usually constituted by a personal computer (PC) in which predetermined control / processing software is installed.

  Conventionally, an analysis apparatus has been configured by integrating a plurality of analytical instruments. However, in recent years, analytical instruments are provided as independent components and can be analyzed as a unit rather than being combined according to the purpose. More and more devices are configured. For example, in the system shown in FIG. 3, the detector, the pump, the oven, and the autosampler are independent components, and a single analyzer unit is configured by combining these components. This analyzer unit is connected to a system controller that controls the operation of each component, and the system controller is further connected to a PC that is an analysis controller via a network (NW). The system controller receives a control command from the PC, controls each component, and transfers measurement data obtained from the component to the PC at a predetermined timing.

  In such a system, the analysis control device recognizes the configuration of the analysis device unit by connection with a component of the system controller. In the example of FIG. 3, only one analyzer unit is illustrated, but the same applies when there are a plurality of analyzer units.

JP 2004-012217 A

  As described above, by configuring a unit by combining a plurality of components, it is possible to finely construct an analysis device that meets the needs of the user. This is advantageous in terms of cost and easy to maintain. In addition, there is the flexibility that recombination can be performed by adding or removing components as needed. However, in the system as shown in FIG. 3, since the system controller and the components are conventionally connected by a wired cable, the wiring is troublesome and the cable becomes an obstacle and is not preferable in appearance. was there.

  The present invention is to solve the above problems, and a main object thereof is to provide an analyzer unit construction system capable of freely and easily constructing an analyzer unit.

The analyzer unit construction system according to the present invention, which has been made to solve the above problems,
An analysis unit is constructed by combining a plurality of components, which are independent analysis devices, and an analysis control unit controls one or more analysis unit units constructed in this way via a network. In the device unit construction system,
Each of the analyzer units has a relay unit that relays communication between the network and the component,
Each component that constitutes each analyzer unit and the relay unit each include wireless communication means for performing wireless communication with each other,
The relay unit includes a component identification table for identifying a plurality of components constituting the analyzer unit to which the relay unit belongs, and network communication means for performing network communication.
It is characterized by that.

  The relay unit may be provided in any of the components or may be a dedicated communication device.

  As described in the conventional example, the analyzer unit is usually provided with a system controller for controlling the operation of the component. In the conventional system, the analyzer unit and the system controller are provided on a one-to-one basis. However, in the system of the present invention, one system controller is connected to a plurality of relay units via a network and passes through the relay unit. Thus, a mode of controlling the operation of each component of the plurality of analyzer units may be used. Further, as in the prior art, the system controller and the analyzer unit may correspond one-to-one. Thus, when the system controller and the analyzer unit correspond one-to-one, the relay unit can be provided in the system controller.

  When a component transmits and receives data by wireless communication, if a plurality of analyzer units are close to each other, a component included in one analyzer unit may be recognized as belonging to another analyzer unit, or There is a possibility that even an analysis control device connected to the network acquires such erroneous recognition, and erroneous control is performed. Therefore, the system of the present invention solves this problem by providing a component identification table in the relay unit that relays between the component and the network so that the analyzer unit is correctly recognized.

  As described above, in the system of the present invention, even if data is transmitted / received by wireless communication, it can function as a single analyzer unit without any problem, so that it is not necessary to perform wiring when constructing the analyzer unit. , The user's labor is greatly reduced. Further, the cable does not get in the way as in the prior art, and the appearance is also preferable.

  The component (analytical device) in the present invention includes a gas chromatograph and a liquid chromatograph that perform analysis itself, and a pump and an autosampler used for the analysis. Further, the system controller of each unit may be provided as an independent device, or may be attached to a component such as a gas chromatograph or a detector.

  In the present invention, the connection between each relay unit and the network may be wired or wireless. In the case of wireless, a system or protocol different from the wireless communication used in each analyzer unit is used.

  In the analyzer unit construction system according to the present invention, the analyzer unit is constructed by wireless communication. Therefore, it is not necessary to perform wiring as in the conventional case, and labor for constructing the analyzer unit is greatly reduced. At the same time, the cable does not get in the way and the appearance is improved.

The schematic block diagram which shows one Example of the analyzer unit construction system which concerns on this invention. The schematic block diagram which shows the other Example of the analyzer unit construction system which concerns on this invention. The structural example of the analyzer unit construction system which concerns on a prior art.

  Hereinafter, an embodiment of an analyzer unit construction system according to the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a schematic configuration diagram of an embodiment of an analyzer unit construction system according to the present invention. The analyzer unit construction system 1 (hereinafter, abbreviated as “this system” as appropriate) of the present embodiment has a configuration described below.

  In the present invention, the type of analyzer unit is not limited at all. In addition, the types and the number of various devices such as devices, devices, servers, and computers connected to the system network NW are not limited to those shown in this embodiment.

  Connected to a system network NW such as a LAN is a computer 2 as an analysis control device for inputting various instructions for controlling the analysis device unit by a user operation. The computer 2 can also confirm analysis data acquired from the analyzer unit. In addition, the computer 2 includes a configuration recognition unit 3 (details will be described later) that are realized by the CPU executing a predetermined program.

  An analyzer unit A4 and an analyzer unit B12 are connected to the system network NW. The analyzer unit A4 includes a detector A5, a pump A6, an oven A7, and an autosampler A8, which are independent components. Each of these components includes wireless communication means. In this system 1, the detector A5, the pump A6, the oven A7, and the autosampler A8 are connected to each other only by piping or the like, and wired connection for data communication is not performed.

  The analyzer unit A4 includes a system controller A9 that controls the operation of each component. The system controller A9 has a relay unit A10 having wireless communication means and network communication means. The relay unit A10 performs wireless communication with itself by wireless communication means included in itself and each component. Further, it is connected to the network NW by network communication means, and communicates with the computer 2 via the network NW. The connection between the relay unit A10 and the network NW may be wired or wireless.

  The relay unit A10 holds the component identification table A11 in a storage unit (not shown). In this component identification table A11, the detector 5A, the pump A6, the oven A7, and the autosampler A8 are associated with IDs a, b, c, and d as components constituting the analyzer unit A4. It is registered.

  The analyzer unit B12 has the same configuration as the analyzer unit A4, and includes a detector B13, a pump B14, an oven B15, and an autosampler B16 as components. Each of these components 13-16 has a wireless communication means. The analyzer unit B12 also includes a system controller B17 that controls the operation of each of these components. The system controller B17 includes a relay unit B18 that includes wireless communication means and network communication means. The relay unit B18 holds a component identification table B19 that stores which component the analyzer unit B12 is configured in a storage unit (not shown). Also regarding the component identification table B19, as shown in FIG. 1, each component of the detector B, the pump B, the oven B, and the autosampler B is registered in association with their respective IDs e, f, g, and h. Has been.

  As described above, the relay units A10 and B18 and each component include wireless communication means. This wireless communication means comprises a short-range wireless interface capable of communication within a range of several meters. As a short-range wireless standard, for example, ZigBee (IEEE802.15.4), Wibree, ZigBee (registered trademark), communication based on the Ultra Wide Band standard, Bluetooth (registered trademark), infrared communication, and the like can be used. Of course not.

  The configuration recognition unit 3 in the computer 2 communicates with relay units (in this embodiment, the relay unit A10 and the relay unit B18) connected to the computer 2 via the system network NW, and each component identification table (component identification) By referring to the table A11 and the component identification table B19), the components constituting the analyzer unit (analyzer unit A4, analyzer unit B12) to which the network communication units 10 and 18 belong are confirmed.

  The component identification table is set by, for example, performing a predetermined operation on the relay unit, and automatically acquiring the ID of the component that the relay unit has recognized from the time when the operation is performed until the next operation is performed. May be performed. Alternatively, the user may set the component identification table for each relay unit in the configuration recognition unit 3 of the computer 2 and reflect it in each relay unit. If an incorrect configuration has been recognized, the above operation may be performed again at the relay unit, or each component identification table may be corrected at the computer 2.

  Through the above operation, the specified components are stored in association with the respective IDs in the component identification tables A11 and B19. The information stored in the component identification tables A11 and B19 may be acquired every time the computer 2 connects to the table, and the information is stored in a predetermined storage area in the computer 2 in synchronization. It doesn't matter if you do.

  In the example described above, in each analyzer unit, the components communicate with the relay unit without communicating with each other. However, communication may be performed between components, and only one component may communicate with the relay unit. For example, in the example shown in FIG. 1, communication may be performed in the form of detector A5—pump A6—oven A7—autosampler A8—network communication unit A10 (this communication order is an example, and component The order of the system controller does not matter). By adopting such a connection form, even if it is difficult to communicate with a relay unit by short-range wireless communication because a certain component is physically separated, the relay unit in the analyzer unit It is possible to realize a reliable connection. In addition, by performing communication between components, temporal synchronization between components can be easily performed.

  In the above embodiment, one system controller is included in each analyzer unit. However, only one system controller may be provided in the entire system 1 (FIG. 2). By adopting such a system configuration, all the analyzer units connected to the system 1 can be controlled via only one system controller, so that the cost can be reduced.

  As mentioned above, the analyzer unit construction system according to the present invention has been described with reference to the embodiments. However, it is obvious that the above is only an example, and changes, modifications, or additions are appropriately made within the scope of the present invention. You can go.

DESCRIPTION OF SYMBOLS 1 ... Analyzer unit construction system 2 ... Computer 3 ... Configuration recognition part 4 ... Analyzer unit A
5 ... Detector A
6 ... Pump A
7 ... Oven A
8 ... Autosampler A
9 ... System controller A
10. Network communication part A
11 ... Component identification table A
12 ... Analyzer unit B
13 ... Detector B
14 ... Pump B
15 ... Oven B
16 ... Autosampler B
17 ... System controller B
18 ... Network communication part B
19 ... Component identification table B
NW ... System network

Claims (7)

An analysis unit is constructed by combining a plurality of components, which are independent analysis devices, and an analysis control unit controls one or more analysis unit units constructed in this way via a network. In the device unit construction system,
Each of the analyzer units has a relay unit that relays communication between the network and the component,
Each component that constitutes each analyzer unit and the relay unit each include wireless communication means for performing wireless communication with each other,
The relay unit includes a component identification table for identifying a plurality of components constituting the analyzer unit to which the relay unit belongs, and network communication means for performing network communication.
An analyzer unit construction system characterized by that.   The analyzer unit construction system according to claim 1, wherein the relay unit is provided in one of the components in each analyzer unit.   The analyzer unit construction system according to claim 1 or 2, wherein each analyzer unit includes a system controller that controls the operation of components belonging to the analyzer unit.   The analyzer unit construction system according to claim 3, wherein the relay unit is provided in the system controller.   3. The analyzer control unit according to claim 1, wherein a system controller that controls all components belonging to one or a plurality of analyzer units connected to the network is provided on the network. Construction system.   The analysis control device includes a configuration recognition unit that recognizes the configuration of an analysis device unit to which the component identification table belongs by referring to one or a plurality of component identification tables existing on the network. Item 6. The analyzer unit construction system according to any one of Items 1 to 5.   The analysis apparatus unit construction system according to claim 6, wherein a component stored in the component identification table is set via the relay unit and / or the configuration recognition unit.

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