Patent Description:
Further, the present invention relates to a device and method that determines analysis information to meet each country's legislation on high molecular weight compounds among chemical substances and automatically provides obligations according to the corresponding country's legislation on corresponding chemical substances according to the results of the determination.

Thousands of types of chemicals are registered and managed in the country in accordance with the recently tightened chemicals-related laws nationwide or worldwide. Chemicals are registered by their manufacturers and importers, and the country manages and identifies whether chemicals are safely distributed according to the registered contents.

In general, impurities and by-products inevitably remain along with target chemicals in the process of producing the raw materials for chemical products and other products.

Chemicals remaining along with impurities and by-products must be removed through, e.g., refining for each purpose but, in chemical industry in which annual production reaches tons, the time and costs required for removal must be taken into consideration. If residual impurities and by-product chemicals are hazardous chemicals, problems may arise.

Hazardous chemicals are defined as chemicals that are, or are likely to be, hazardous or risky, such as toxic substances, permitted substances, restricted substances, and prohibited substances.

Hazardous chemicals and intensively controlled substances are not allowed to remain even in a trace, or if the maximum residue limit is exceeded, product distribution is prohibited according to the Chemicals Control Act or must be handled through strict management. Accordingly, the value of the product may be lowered, and it is nearly impossible to check all the matters to be considered in industrial handling, previously in the R&D stage.

When a target chemical is developed in lab, the impurities and by-products generated in the chemical reaction are identified mainly by qualitative analysis, and their content is calculated by quantitative analysis.

Further, most petroleum-based chemicals are UVCB substances (Unknown or Variable composition, Complex reaction products or Biological materials). UVCB substances refer to substances whose chemical structure is unknown or variable, complex reaction products, or biological substances. Since it is difficult to determine the constituents of UVCB substances, one whose specific constituents have a specific distribution as a result of complex analysis and identification using several measurement devices is defined as a corresponding chemical.

A criterion for classifying petroleum-based chemicals as hazardous chemicals and intensively controlled substances is the presence or absence of major harmful factors (aromatic carbon compounds, etc.) among the constituents.

Therefore, qualitative and quantitative analysis of hazardous chemical substances and intensively controlled substance products, R&D substances and petroleum-based substances is required.

In relation to the above analysis, an individual analysis method is determined for each chemical. For example, in the case of petroleum-based substances, the CONCAWE consortium involved in the fulfillment of the EU REACH registration of petroleum-based substances presents the composition, process and analysis methods of petroleum-based substances.

Further, producers, importers, and exporters of chemicals and products must interpret the analysis data of the products they handle in accordance with the laws of each country and fulfill their obligations.

However, the task of understanding and applying each country's chemical regulations and identifying obligations requires a lot of time and manpower.

Among other chemicals, high molecular weight compounds are considered to be much less harmful or hazardous than other chemicals because of their general characteristics that they are difficult to penetrate biological membranes due to their particularly large molecular weight.

For this reason, each country's laws and regulations related to chemicals define conditions for high molecular weight compounds and exempt companies from the registration procedure required for conforming chemicals or simplify the registration procedure.

Each country has substantially the same definition for high molecular weight compounds by their national laws and regulations but has a different fulfillment procedure.

Further, it is required to determine whether high molecular weight compounds meet their definitions, interpret the results according to the national laws and perform fulfill the obligations. Thus, a lot of time and manpower are needed to understand each country's chemicals-related laws and regulations and to apply them to identify the obligations. Document <CIT> discloses methods and systems for deriving chemical compositions that. are present in a chemical product to be manufactured to provide regulatory compliance information for chemical compositions, including reactants, non-reactants, and chemical intermediaries, in a production process.

Document <CIT> discloses systems for manufacturing detection assays.

The present invention aims to provide a device and method for reviewing legislation on chemical substances, which determines analysis information to meet each country's legislation on chemical substances and chemical products and automatically provides obligations according to the corresponding country's legislation on corresponding chemical substances according to uses.

The present invention also aims to provide a device and method that performs analysis of chemical substance structure and content, such as GC, HPLC, GC, MS, and LC/MS, on chemical substances or products, to determine analysis information to allow the chemical substance or product to meet each country's legislation, and automatically provides obligations according to legislation on the corresponding chemical substance according to the purpose.

The present invention also aims to perform GPC analysis on high molecular weight compounds among chemical substances, identify the state of registration exemption, the state of residual monomer test, and the state of general chemical substance registration based on, e.g., information about the country to manage high molecular weight compounds according to a user input, GPC measurement data according to the GPC analysis, per-country legislation information according to the country information, and monomer information necessary for legislation interpretation, and to provide guide information or automatically create related documents according to the identified state.

The present invention may determine analysis information to meet each country's legislation on chemical substances and chemical products and automatically provide obligations according to the corresponding country's legislation on corresponding chemical substances according to uses.

Further, it is possible to perform analysis of chemical substance structure and content, such as GC, HPLC, GC, MS, and LC/MS, on chemical substances or products, to determine analysis information to allow the chemical substance or product to meet each country's legislation, and to automatically provide obligations according to legislation on the corresponding chemical substance according to the purpose.

It is also possible to perform GPC analysis on high molecular weight compounds among chemical substances, identify the state of registration exemption, the state of residual monomer test, and the state of general chemical substance registration based on, e.g., information about the country to manage high molecular weight compounds according to a user input, GPC measurement data according to the GPC analysis, per-country legislation information according to the country information, and monomer information necessary for legislation interpretation, and to provide guide information or automatically create related documents according to the identified state.

<FIG> is a block diagram illustrating a configuration of a device <NUM> for reviewing legislation on chemical substances according to an embodiment of the present invention.

As shown in <FIG>, the device <NUM> for reviewing legislation on chemical substances includes an analysis unit <NUM>, a communication unit <NUM>, a storage unit <NUM>, a display unit <NUM>, an audio output unit <NUM>, and a controller <NUM>. All of the components of the device <NUM> for reviewing legislation on chemical substances shown in <FIG> are not essential components, and the device <NUM> for reviewing legislation on chemical substances may be implemented with more or less components than those shown in <FIG>.

According to an embodiment, the device <NUM> for reviewing legislation on chemical substances may be applicable to various terminals or devices, such as smartphones, portable terminals, mobile terminals, foldable terminals, personal digital assistants (PDAs), portable multimedia players (PMPs), telematics terminals, navigation terminals, personal computers, laptop computers, slate PCs, tablet PCs, ultrabook computers, wearable devices, such as smartwatches, smart glasses, head-mounted displays, etc., Wibro terminals, Internet protocol television (IPTV) terminals, smart TVs, digital broadcast terminals, audio video navigation (AVN) terminals, audio/video (A/V) systems, flexible terminals, or digital signage devices.

The analysis unit <NUM> may perform a qualitative analysis function on any chemical substance or product to grasp the structure of the chemical substance or the constituent chemical substances of the chemical product, and determine the name of the chemical substance or produce based on the grasped results so as to check legislation on the chemical substance or product.

For example, for a paint sample, the analysis <NUM> may perform a GC/MS analysis function on the sample, identify the constituent chemical substances of the product, and assign a chemical abstract service (CAS) number, e.g., methyl ethyl ketoxime and titanium dioxide, to the product.

The controller <NUM> may check whether the chemical substance or product falls under registration and evaluation, whether it falls under the Cosmetics Act, whether it falls under the Pharmaceutical Affairs Act, or whether it falls under the Narcotic Control Act in the order according to the laws based on the name and purpose and usage of the chemical substance or product, and the legislation information about the applicable country and search for obligations according to the relevant laws and regulations.

For example, the controller <NUM> may identify whether the chemical substance/product is subject to registration and evaluation based on the purpose and usage of the chemical substance with a specific CAS number and applicable country legislation information and, if so, the controller <NUM> may search for obligations according to the relevant legislation. Otherwise, the controller <NUM> may identify whether it falls under the Cosmetics Act, the Pharmaceutical Affairs Act, the Narcotics Control Act, and other laws in the order according to the laws and, if it is the case, search for obligations according to the corresponding law. For example, the <NPL> and no. <NPL> substances may be identified as the existing chemical substances KE-<NUM> and KE-<NUM>, and the <NPL> substance may be identified as a hazardous chemical substance.

The display unit <NUM> may output the obligations according to the laws, searched by the controller <NUM>. For example, the display unit <NUM> may output obligations under the Act on Registration and Evaluation of Chemical Substances corresponding to the manufacture of <NUM>-<NUM> tons of existing chemical substances and obligations under the Hazardous Chemicals Control Act, etc..

Meanwhile, the analysis <NUM> performs a GPC (Gel Permeation Chromatography) analysis function on any chemical for the user (or manager) to determine whether the chemical is a high molecular weight compound and generates GPS measurement data (or results of the GPS analysis). In this case, the analysis unit <NUM> may include a pump (not shown), an injector (not shown), a GPC column (not shown), a detector (not shown), and a data system (not shown) to perform the GPS analysis function. Here, the GPC measurement data includes a retention volume (or retention time), the molecular weight corresponding to the retention volume, an area and a height (differential distribution), a content, and the like.

The communication unit <NUM> forms a communication connection with any internal component or at least one external terminal via a wired/wireless communication network. In this case, the external terminal may include an externally configured database (not shown), a server (not shown), and the like. Wireless Internet technology which may be adopted for transmission over the wireless communication network may include at least one of wireless LAN (WLAN), digital living network alliance (DLNA), wireless broadband (Wibro), world interoperability for microwave access (Wimax), high speed downlink packet access (HSDPA), high speed uplink packet access (HSUPA), IEEE <NUM>, long-term evolution (LTE), LTE-advanced (LTE-A), LTE V2X (C'V2X), wireless mobile broadband service (WMBS), or <NUM> communication. The communication unit <NUM> may transmit or receive data according to at least one wireless Internet technology which may include not only the above-enumerated techniques but also other non-mentioned Internet techniques. Short-range communication techniques that may be adopted according to an embodiment may include Bluetooth, radio frequency identification (RFID), infrared data association (IrDA), ultra-wideband (UWB), ZigBee, near-field communication (NFC), ultrasound communication (USC), visible light communication (VLC), Wi-Fi, or Wi-Fi direct. Wired communication techniques that may be adopted according to an embodiment may include power line communication (PLC), universal serial bus (USB) communication, Ethernet, serial communication, or optical/coaxial cable communication.

The communication unit <NUM> may communicate information or data with any terminal via a USB.

The communication unit <NUM> transmits or receives wireless signals to/from at least one of a base station, the database, or the server over a mobile communication network established as per mobile communication standards, protocols, or schemes, such as global system for mobile communication (GSM), code division multiple access (CDMA), CDMA2000, enhanced voice-data optimized or enhanced voice-data only (EV-DO), wideband CDMA (WCDMA), high speed downlink packet access (HSDPA), high speed uplink packet access (HSUPA), long term evolution (LTE), or LTE-advanced (LTE-A).

Further, the communication unit <NUM> transmits the GPC measurement data (or GPC analysis result) for the chemical substance to the server or another terminal under the control of the controller <NUM>.

The storage unit <NUM> stores various user interfaces (Uls) and graphic user interfaces (GUIs).

The storage unit <NUM> stores a program and data necessary for the device <NUM> for reviewing legislation on chemical substances to operate.

In other words, the storage unit <NUM> may store a plurality of application programs or applications driven on the device <NUM> for reviewing legislation on chemical substances and data and commands for operation of the device <NUM> for reviewing legislation on chemical substances. At least some of the application programs may be downloaded from an external server via wireless communication. Further, at least some of these application programs may exist on the device <NUM> for reviewing legislation on chemical substances from the time of shipment for basic functions of the device <NUM> for reviewing legislation on chemical substances. Meanwhile, the application program may be stored in the storage unit <NUM>, installed on the device <NUM> for reviewing legislation on chemical substances, and driven by the controller <NUM> to perform operations (or functions) of the device <NUM> for reviewing legislation on chemical substances.

The storage unit <NUM> may include at least one type of storage medium of flash memory types, hard disk types, multimedia card micro types, card types of memories (e.g., SD or XD memory cards), RAMs (Random Access Memories), SRAMs (Static Random Access Memories), ROMs (Read-Only Memories), EEPROMs (Electrically Erasable Programmable Read-Only Memories), PROMs (Programmable Read-Only Memories), magnetic memories, magnetic disks, or optical discs. The device <NUM> for reviewing legislation on chemical substances may operate web storage which performs the storage function of the storage unit <NUM> over the Internet or may operate in association with the web storage.

Further, the storage unit <NUM> stores the GPC measurement data (or GPC analysis result) for the chemical substance under the control of the controller <NUM>.

The display unit <NUM> may display various contents, e.g., various menu screens, using the Ul and/or GUI stored in the storage unit <NUM> under the control of the controller <NUM>. The contents displayed on the display unit <NUM> include a menu screen including various pieces of text or image data (including various information data), icons, a list menu, combo boxes, or other various pieces of data. The display unit <NUM> may be a touchscreen.

The display unit <NUM> may include at least one of a liquid crystal display (LCD), a thin film transistor-liquid crystal display (TFT-LCD), an organic light-emitting diode (OLED), a flexible display, or a three-dimensional (3D) display, an e-ink display, or a light emitting diode (LED) display.

Further, the display unit <NUM> displays, under the control of the controller <NUM>, the GPC measurement data (or GPC analysis results) for the chemical substance and, if the chemical substance is a high molecular weight compound, relevant documents necessary to be exempt from registration under the related laws.

The audio output unit <NUM> outputs audio information included in a signal signal-processed by the controller <NUM>. The audio output unit <NUM> may include, e.g., a receiver, a speaker, and a buzzer.

The audio output unit <NUM> outputs a guidance (or instruction) audio generated by the controller <NUM>.

Further, the audio output unit <NUM> outputs, under the control of the controller <NUM>, audio information (or sound effect) corresponding to the GPC measurement data (or GPC analysis results) for the chemical substance and, if the chemical substance is a high molecular weight compound, relevant documents necessary to be exempt from registration under the related laws.

The controller (or micro-controller unit (MCU)) <NUM> executes an overall control function of the device <NUM> for reviewing legislation on chemical substances.

Further, the controller <NUM> executes an overall control function of the device <NUM> for reviewing legislation on chemical substances using programs and data stored in the storage unit <NUM>. The controller <NUM> may include a RAM, a ROM, a central processing unit (CPU), a graphics processing unit (GPU), and a bus, and the RAM, ROM, CPU, and GPU may be interconnected via the bus. The CPU may access the storage unit <NUM> and boot the operating system (OS) stored in the storage unit <NUM>. The CPU may perform various operations using various programs, contents, and data stored in the storage unit <NUM>.

Further, the controller <NUM> determines (or identifies) whether the chemical substance is a high molecular weight compound exempt from registration, based on, e.g., information about the country to manage the high molecular weight compound, the GPC measurement data (or GPC analysis results) according to the GPC analysis, legislation information for each country according to corresponding country information, and monomer information necessary for interpreting legislation. Here, the country information and the monomer information may be previously input and stored in the storage unit <NUM> by a user input (or the user's/manager's touch/selection/control) or may be input in real-time. The legislation information for each country is chemical substance-related legislation for each country. The legislation information includes the Act on the Registration and Evaluation of Chemicals, the Chemicals Management Act, the Industrial Safety and Health Act, the Dangerous Substances Safety Management Act, and the High Pressure Gas Safety Management Act of the Republic of Korea, and Section <NUM> of the TSCA (Toxic Substance Control Act, Federal Toxic Substances Control Act) of the U. Further, the monomer information includes the CAS no. , molecular weight, molecular formula, and structural formula of the monomer, and the like.

As a result of the determination (or the identification), when it is determined that the chemical substance is a high molecular compound exempt from registration, the controller <NUM> automatically creates related documents that should be submitted to the relevant organization (or government agency) to be exempt from the registration procedure for the chemical substance determined to be the high molecular weight compound. Here, the related documents may differ for each country. In the case of Korea, the related documents include a GPC analysis report and homogeneity data and, in the case of the United States, the related documents include CS (Certification Statement) required for record keeping.

As such, the controller <NUM> may automatically create related documents to be submitted to be exempt from the registration procedure when the chemical substance is determined to be less hazardous high molecular weight compound.

Further, the controller <NUM> displays, on the display unit <NUM>, the created related documents that must be submitted to the related organization (or government agency) to be exempt from the registration procedure for the chemical substance determined to be the high molecular weight compound.

Further, when a registration menu (or registration button/item) configured on one side of the display unit <NUM> is selected, the controller <NUM> may transmit, to a related organization server (or government agency server) (not shown), through the communication unit <NUM>, the created related documents required to be submitted to the related organization (or government agency) to be exempt from the registration procedure for the chemical substance determined to be a high molecular weight compound, in conjunction with the related organization server (or government agency server).

Further, if the process for being exempt from the registration procedure for the chemical substance by the transmitted related documents is normally performed, the controller <NUM> may control the communication unit <NUM> to information indicating that the procedure to be exempt from the registration on the chemical substance determined to be a high molecular weight compound has been normally performed, from the related organization server.

Further, the controller <NUM> outputs, through the display unit <NUM> and/or the audio output unit <NUM>, the received information indicating that the procedure to be exempt from the registration on the chemical substance determined to be a high molecular weight compound has been normally performed.

Further, it is determined (or identified) that the chemical substance is not a high molecular weight compound that meets the registration exemption condition, the controller <NUM> identifies obligations for the chemical substance based on the information about the country to manage the high molecular weight compound, GPC measurement data according to the GPC analysis, per-country legislation information according to the country information, and monomer information necessary for legislation interpretation and displays the identified obligations (or information about the obligations) on the display unit <NUM>. In this case, the obligations may differ depending on the per-country legislation information.

As such, if the chemical substance is not determined to be the high molecular weight compound, the controller <NUM> may identify the obligations to be performed according to the country's legislation in relation to the chemical substance and output the identified obligations to be identified by the user (or manager).

As such, it is possible to determine analysis information to meet each country's legislation on high molecular weight compounds among chemical substances and automatically provide obligations according to the corresponding country's legislation on corresponding chemical substances according to the results of the determination.

A method for reviewing legislation on high molecular weight compounds according to an embodiment of the present invention is described below in detail with reference to <FIG> and <FIG>.

<FIG> and <FIG> are flowcharts illustrating a method for reviewing legislation on chemical substances according to an embodiment of the present invention.

First, to check legislation on the chemical substance or product according to an embodiment, as shown in <FIG>, the analysis unit <NUM> may perform a qualitative analysis function on any chemical substance or product (S501) to grasp the structure of the chemical substance or the constituent chemical substances of the chemical product (S502), and determine the name of the chemical substance or produce based on the grasped results (S503).

For example, as shown in <FIG>, for a paint sample, the analysis <NUM> may perform a GC/MS analysis function on the sample (S501), identify the constituent chemical substances of the product (S502), and assign a chemical abstract service (CAS) number, e.g., methyl ethyl ketoxime and titanium dioxide, to the product (S503).

Thereafter, the controller <NUM> may receive the name, purpose of use, and usage of the chemical substance or product (S505) and the legislation information of the applicable country (S507) and, based on the received information, identify whether the chemical substance or product falls under registration and evaluation (S509), whether it falls under the Cosmetics Act (S510), whether it falls under the Pharmaceutical Affairs Act (S511), whether it falls under the Narcotic Control Act (S512), and whether it falls under other laws (S513) in the order according to the laws and, if so in each identification process, search for obligations according to the legislation (S514).

For example, as shown in <FIG>, after receiving the purpose of use and usage of the chemical product with a specific CAS number (S505) and receiving applicable country legislation information (S507), the controller <NUM> may identify whether the chemical substance/product is subject to registration and evaluation based on the received information and legislation information according to the applicable country information for the chemical substance or product (S509) and, if so, the controller <NUM> may search for obligations according to the corresponding legislation (S514). Otherwise, the controller <NUM> may identify whether it falls under the Cosmetics Act, the Pharmaceutical Affairs Act, the Narcotics Control Act, and other laws in the order according to the laws (S510 to S513) and, if it is the case, search for obligations according to the corresponding law. For example, the <NPL> and no. <NPL> substances may be identified as the existing chemical substances KE-<NUM> and KE-<NUM>, and the CAS no. <NUM>-<NUM>-<NUM> substance may be identified as a hazardous chemical substance (S514).

Thereafter, as shown in <FIG>, the display unit <NUM> may output the obligations according to the laws, searched by the controller <NUM> (S515). For example, as shown in <FIG>, the display unit <NUM> may output obligations under the Act on Registration and Evaluation of Chemical Substances corresponding to the manufacture of <NUM>-<NUM> tons of existing chemical substances and obligations under the Hazardous Chemicals Control Act, etc..

<FIG> is a flowchart illustrating a method for reviewing legislation on high molecular weight compounds according to an embodiment of the present invention.

The analysis unit <NUM> performs GPC analysis on a first chemical substance to generate first GPC measurement data.

As another example, the analysis unit <NUM> performs GPC analysis on a second chemical substance to generate second GPC measurement data (S610).

Thereafter, the controller <NUM> determines (or identifies) whether the chemical substance is a high molecular weight compound exempt from registration, based on, e.g., information about the country to manage high molecular weight compounds among any chemical substances or products, the GPC measurement data (or GPC analysis results) according to the GPC analysis, legislation information for each country according to corresponding country information, and monomer information necessary for interpreting legislation. Here, the country information and the monomer information may be previously input and stored in the storage unit <NUM> by a user input (or the user's/manager's touch/selection/control) or may be input in real-time. The legislation information for each country is chemical substance-related legislation for each country. The legislation information includes the Act on the Registration and Evaluation of Chemicals, the Chemicals Management Act, the Industrial Safety and Health Act, the Dangerous Substances Safety Management Act, and the High Pressure Gas Safety Management Act of the Republic of Korea, and TSCA Section <NUM> of the U. Further, the monomer information includes the CAS no. , molecular weight, molecular formula, and structural formula of the monomer, and the like.

For example, the controller <NUM> determines whether the first chemical substance is exempt from registration based on information about a first country (e.g., Korea) to manage the high molecular weight compound, the first GPC measurement data, legislation information according to the first country information, and pre-configured first monomer information necessary for legislation interpretation.

In other words, as shown in <FIG>, the controller <NUM> determines whether the content (or component) less than a molecular weight of <NUM> in the first GPC measurement data for the first chemical substance is <NUM>% or less, whether the content less than a molecular weight of <NUM> is <NUM>% or less, whether the content less than a molecular weight of <NUM> is <NUM>% or less, whether the content less than a molecular weight of <NUM> is <NUM>% or less, whether the number average molecular weight is <NUM> or more, whether the number average molecular weight is <NUM> or more, whether the monomer is a new chemical substance, intensively controlled substance, or hazardous chemical substance, and it meets the definition of the high molecular weight compound, based on information about a first country (e.g., Korea) to manage the high molecular weight compound, the first GPC measurement data, legislation information according to the first country information, and pre-configured first monomer information necessary for legislation interpretation.

As another example, the controller <NUM> determines whether the second high molecular weight compound is exempt from registration based on information about a second country (e.g., the United States) to manage the high molecular weight compound, the second GPC measurement data, legislation information according to the second country information, and pre-configured second monomer information necessary for legislation interpretation.

In other words, as shown in <FIG>, the controller <NUM> determines whether it is composed of only specific components, whether it is composed of monomers in the TSCA inventory, whether the content less than a molecular weight of <NUM> is <NUM>% or less, whether the content less than a molecular weight of <NUM> is <NUM>% or less, whether the content less than a molecular weight of <NUM> is <NUM>% or less, whether the content less than a molecular weight of <NUM> is <NUM>% or less, whether the number average molecular weight is <NUM> or more, whether the number average molecular weight is <NUM> or more, whether it contains reactive functional groups, and whether it is a polyester polymer, based on information about a second country (e.g., the United States) to manage the high molecular weight compound, the second GPC measurement data, legislation information according to the second country information, and pre-configured second monomer information necessary for legislation interpretation (S620).

As such, the controller <NUM> may automatically create related documents to be submitted to be exempt from the registration procedure when the chemical substance is determined to be a high molecular weight compound.

As an example, as shown in <FIG>, if it is determined that the content less than a molecular weight of <NUM> in the first GPC measurement data for the first chemical substance is <NUM>% or more, the content less than a molecular weight of <NUM> is <NUM>% or more, and it meets the definition of the high molecular weight compound (or in the case of the path <NUM>-<NUM>-<NUM>), the controller <NUM> determines that a residual monomer test should be performed and displays information about a residual monomer test on the first chemical substance on the display unit <NUM> (S630).

As another example, as shown in <FIG>, if it is determined that the content less than a molecular weight of <NUM> in the first GPC measurement data for the first chemical substance is <NUM>% or more, the content less than a molecular weight of <NUM> is <NUM>% or more, and it does not meet the definition of the high molecular weight compound (or in the case of the path <NUM>-<NUM>-<NUM>), the controller <NUM> determines that the first chemical substance is registered as a regular chemical substance, automatically creates other related documents to be submitted to a related organization to register the first chemical substance as a regular chemical substance, and displays the created other related documents on the display unit <NUM>. Further, if an additional test is required for the first chemical substance, the controller <NUM> displays information related to the additional test on the display unit <NUM>.

As such, if the chemical substance is not determined to be a less hazardous high molecular weight compound, the controller <NUM> may identify the obligations to be performed according to the country's legislation in relation to the chemical substance and output the identified obligations to be identified by the user (or manager).

As an example, as shown in <FIG>, if it is determined that the content less than a molecular weight of <NUM> in the first GPC measurement data for the first chemical substance is less than <NUM>%, the content less than a molecular weight of <NUM> is less than <NUM>%, and it meets the definition of the high molecular weight compound (or in the case of the path <NUM>-<NUM>-<NUM>), the controller <NUM> determines that a residual monomer test should be performed and displays information about a residual monomer test on the first chemical substance on the display unit <NUM>.

As another example, as shown in <FIG>, if it is determined that the content less than a molecular weight of <NUM> in the first GPC measurement data for the first chemical substance is less than <NUM>%, the content less than a molecular weight of <NUM> is less than <NUM>%, and it does not meet the definition of the high molecular weight compound (or in the case of the path <NUM>-<NUM>-<NUM>), the controller <NUM> determines that the first chemical substance is registered as a regular chemical substance, automatically creates other related documents to be submitted to a related organization to register the first chemical substance as a regular chemical substance, and displays the created other related documents on the display unit <NUM>. Further, if an additional test is required for the first chemical substance, the controller <NUM> displays information related to the additional test on the display unit <NUM>.

As another example, as shown in <FIG>, if it is determined that the second chemical substance is not composed of only specific components (or in the case of the path <NUM>), the controller <NUM> displays an obligation indicating that pre-manufacture notices need to be done according to TSCA Section <NUM> on the display unit <NUM> (S640).

According to embodiments of the present invention, as described above, any chemical substance or product and analysis information to allow high molecular weight compounds among chemical substances to meet legislation of each country are determined and, according to a result of the determination, obligations according to the legislation on the corresponding chemical substance of the corresponding country are automatically provided according to the purpose. Thus, it is possible to save time and efforts to check legislation related to chemical substances and fulfill obligations.

Claim 1:
A device for reviewing legislation on a chemical substance, comprising:
an analysis unit performing a qualitative and quantitative analysis function on a chemical substance or product to grasp a structure and concentration of the chemical substance or constituent chemical substances of the chemical product and determining a name and content of the chemical substance or product based on results of the performed qualitative and quantitative analysis function;
a controller identifying whether the chemical substance or product falls under registration and evaluation, whether the chemical substance or product falls under a cosmetics act, whether the chemical substance or product falls under a pharmaceutical affairs act, or whether the chemical substance or product falls under a narcotic control act in an order according to the acts based on the determined name, purpose of use, and usage of the chemical substance or product, and legislation information about an applicable country and searching for obligations according to legislation; and
a display unit displaying the obligations according to the legislation, searched by the controller,
wherein the analysis unit further generates GPC measurement data by performing a GPC analysis function on any chemical substance, wherein the controller determines whether the chemical substance is a high molecular weight compound exempt from registration based on information about a country to manage the high molecular weight compound, the GPC measurement data, per-country legislation information according to the country information, and monomer information required for legislation interpretation and, when the chemical substance is determined to be the high molecular weight compound exempt from registration, automatically creates a related document to be submitted to a related organization to be exempt from a registration procedure for the chemical substance determined to be the high molecular weight compound, and wherein the display unit further displays the related document.