JP2018004623A - Liquid chromatograph column oven and liquid chromatograph - Google Patents

Abstract

PROBLEM TO BE SOLVED: To efficiently increase the accuracy and efficiency of detecting liquid leakage of the liquid chromatograph, improve the rate of recovering defects of the liquid chromatograph, and reduce the consumption of the solvent of a mobile phase.SOLUTION: The liquid chromatograph column oven includes: a column temperature adjusting unit, a separation column, a liquid leakage detection unit, and a liquid leakage temperature adjusting unit. The separation column is located in the column temperature adjusting unit, the temperature adjusting unit is for adjusting the temperature of the separation column, and the liquid leakage detection unit has a first temperature sensor and a second temperature sensor and detects the presence of a leakage of a liquid flowing in the separation column from the column temperature adjusting unit. The liquid leakage temperature adjusting unit is for making the difference between the second temperature and an environmental temperature smaller than a predetermined threshold, after the liquid leakage and the second temperature sensor conducting heat, by lowering the temperature of the leakage of the liquid flowing in the liquid leakage temperature adjusting unit.SELECTED DRAWING: Figure 1

Description

  The present invention relates to the field of liquid chromatography detection, and more specifically to a column oven for liquid chromatography and a liquid chromatograph.

  In high-performance liquid chromatographs, the separation column temperature must be kept constant during separation analysis in order to improve separation and improve reproducibility of analysis results. As shown in FIG. 4, in order to keep the temperature of the separation column 1 constant, it is necessary to place the separation column 1 in a column oven provided with a temperature adjustment mechanism 2. The temperature adjustment mechanism 2 is, for example, a block heating method that adjusts the temperature of the separation column by bringing the separation column 1 into direct contact with a heat source, or an air circulation heating method that circulates a fan for heating the heating block or the like in the column oven. As a block heating method, for example, a separation column is attached to a heating block of a heat source such as a rubber heater or a transistor or a Peltier element. In general, a column oven using a block heating method has an advantage of low cost because it has fewer components than an air circulation method.

  In the column oven, the separation column 1 is connected to the analysis flow path through the joint surface. However, the mobile phase may leak from the connection part due to erroneous operation of the connection work or deterioration of the connection member. Once the mobile phase leaks, normal analysis results cannot be obtained. Therefore, it is required to find the mobile phase leak in real time and take countermeasures. Therefore, the liquid leak detection sensor 3 is mounted on the liquid chromatograph. It is common.

  Normally, as shown in FIG. 4, the liquid leak detection sensor 3 detects the presence or absence of liquid leak by detecting a temperature difference generated between two corresponding thermistors. In such a system, one thermistor 4 (thermistor on the environmental temperature measurement side) measures the temperature of the environment where the liquid leak detection sensor is located, and another thermistor 5 (thermistor on the liquid leak detection side) Under normal conditions, the self temperature is maintained at a temperature higher than the environmental temperature (for example, 30 ° C. higher than the environmental temperature) by self-heating. If a liquid leak lower than the temperature itself is attached to the thermistor on the liquid leak detection side, the thermistor on the liquid leak detection side transmits the amount of heat to the liquid leak and lowers the temperature itself. When the temperature falls below the threshold, the liquid leak detection sensor 3 determines that a liquid leak has occurred. Such a liquid leak detection sensor has an advantage of low cost because of its simple structure.

  However, this liquid leak detection sensor has a drawback that it cannot detect a liquid leak close to the temperature of the thermistor on the liquid leak detection side. For example, in a liquid chromatograph column oven, the temperature of the separation column is often adjusted to a temperature higher than room temperature (for example, 60 ° C.) in order to improve the resolution of the analysis components. Under this circumstance, if the mobile phase leaks into the column oven (there is a liquid leak), the temperature of the leaked mobile phase is about the temperature adjustment temperature of the column oven (eg 60 ° C.). At this time, if the temperature of the thermistor on the liquid leak detection side is equal to or lower than the leaked mobile phase temperature (for example, the ambient temperature is 20 ° C., and the temperature of the thermistor on the liquid leak detection side is, for example, 50 ° C.) Since the heat quantity of the thermistor on the side cannot be transmitted to the liquid leak, the liquid leak cannot be detected.

  Furthermore, in a column oven that is heated by an air circulation method, the environmental temperature of the sensor itself can be made the same as the temperature of the liquid leak by placing the liquid leak detection sensor inside the column temperature control unit. Since air is forced to circulate, there is also a risk of false detection due to the airflow depriving the thermistor on the liquid leak detection side.

  In order to solve the above problems, the present invention can effectively improve the liquid leak detection efficiency and accuracy of the liquid chromatograph, improve the fault elimination efficiency of the liquid chromatograph, and reduce the waste of the mobile phase. A liquid chromatograph column oven and a liquid chromatograph are disclosed.

In order to solve the above technical problem, an embodiment of the present invention discloses a column oven for liquid chromatography including a column temperature control unit, a separation column, a liquid leak detection unit, and a liquid leak temperature control unit,
The separation column is located in the column temperature control unit, and the temperature control unit is for adjusting the temperature of the separation column;
The liquid leak detection unit is for detecting the presence of a liquid leak that includes the first temperature sensor and the second temperature sensor and the liquid flowing through the separation column leaks from the column temperature control unit,
The first temperature sensor is used to detect an environmental temperature of a liquid leak detection sensor, and the second temperature sensor has a first temperature higher than the environmental temperature when there is no liquid leak flowing through the second temperature sensor. When the liquid leaks flowing through the second temperature sensor, heat is transferred to the liquid leak, and the temperature itself changes to the second temperature, and the liquid leak detection unit detects the second temperature and the environmental temperature. It is determined that the liquid leak exists when the difference between the two is smaller than a predetermined threshold,
The liquid leak temperature control unit reduces the temperature of the liquid leak flowing through the liquid leak temperature control unit, so that the second temperature and the environmental temperature are This is to make the difference between the values smaller than the predetermined threshold value.

  In another preferred embodiment, the liquid leakage temperature control unit includes a semiconductor cooler installed in the column oven.

  In each embodiment of the present invention, the liquid leakage temperature adjustment unit may be a temperature adjustment member that can adjust the liquid leakage temperature, and is not limited to a semiconductor cooler (Peltier element).

  In another preferred embodiment, the temperature sensor is a thermistor.

  In another preferred embodiment, the liquid leakage temperature adjusting unit adjusts the liquid leakage temperature in the same manner as the environmental temperature, for example, room temperature.

  In another preferred embodiment, the column temperature control unit has a heat insulating housing. Since the column temperature adjustment part has a heat insulating housing, even if a liquid leakage temperature adjustment part (for example, a semiconductor cooler) is arranged in the column oven, the temperature of the separation column does not change.

  In another preferred embodiment, the column oven includes a column oven housing, and the liquid leakage temperature adjustment unit includes a heat conducting member connected to the column oven housing so as to conduct heat. By connecting to the column oven housing in a heat conducting manner, the heat conducting member can transmit the temperature of the liquid leak to the column oven housing (typically held at room temperature).

  In another preferred embodiment, the heat conducting member is a metal having excellent heat conductivity.

  In another preferred embodiment, the heat conducting member is an extension in the column oven of the column oven housing. Compared with the case where a dedicated liquid leakage temperature control unit (for example, a semiconductor cooler) is added in the column oven, the heat conduction member is an extended part of the column oven housing, thereby reducing costs and simplifying the process. Can be made.

  In another preferred embodiment, the column oven housing is a metal with excellent thermal conductivity.

  In another preferred embodiment, the heat conducting member is a liquid leak recovery unit installed in the column oven. Compared to the case where a dedicated liquid leakage temperature control unit (for example, a semiconductor cooler) is added in the column oven, the existing liquid leakage recovery unit in the column oven is connected to the column oven housing so that heat conduction can be established. By using the tuning unit, the cost can be reduced and the process can be simplified.

  In another preferred embodiment, the liquid leakage recovery part is a metal having excellent thermal conductivity.

  The embodiment of the present invention further discloses a liquid chromatograph including the column oven for liquid chromatography in the above embodiment.

  According to the column oven for liquid chromatography according to the present invention, by adjusting the liquid leakage temperature within the detection range of the liquid leakage detection unit, the liquid leakage can be detected in real time when the liquid leakage temperature changes. Can be ensured, the liquid leakage detection efficiency and accuracy can be improved, the failure elimination efficiency of the liquid chromatograph can be improved, and the waste of the mobile phase can be reduced.

It is a structure schematic diagram of the column oven for liquid chromatography which concerns on 1st embodiment of this invention. It is a structure schematic diagram of the column oven for liquid chromatography which concerns on 2nd embodiment of this invention. It is a structure schematic diagram of the column oven for liquid chromatography which concerns on 3rd embodiment of this invention. It is a structure schematic diagram of the column oven for liquid chromatographs by a prior art.

  In the following, numerous technical details are set forth in order to provide a thorough understanding of the present invention. However, for those skilled in the art, even without this technical detail, various changes and modifications based on the following embodiments can also realize a technical solution that each claim of the present invention requires protection.

  In order to further clarify the objects, technical solutions, and advantages of the present invention, embodiments of the present invention will be described below in further detail in combination with the drawings. In the following description of the drawings, the same or similar reference numerals indicate the same or similar members and assemblies, and further description may be omitted.

  The first embodiment of the present invention relates to a column oven for liquid chromatography. FIG. 1 is a structural schematic diagram of the column oven for liquid chromatography.

  Specifically, as shown in FIG. 1, the column oven for liquid chromatography includes a column temperature adjustment unit 2, a separation column 1, a column oven housing 6, a liquid leak detection unit 3, a liquid leak collection unit 7, and a liquid leak. The temperature control unit 8 is included, the separation column 1 is located in the column temperature control unit 2, the column temperature control unit 2 is used to adjust the temperature of the separation column 1, and the liquid leak detection unit 3 is a first temperature sensor 4 and the second temperature sensor 5 are used to detect the presence of a liquid leak in which the liquid flowing through the separation column leaks from the column temperature control unit, and the first temperature sensor 4 detects the environmental temperature in the column oven. The second temperature sensor 5 maintains its own temperature at a first temperature higher than the environmental temperature when there is no liquid leakage flowing through the second temperature sensor, and the second temperature sensor 5 When there is a liquid leak L flowing through Heat is transferred to the leak L, the temperature itself changes to the second temperature, and if the difference between the second temperature and the environmental temperature is smaller than the predetermined threshold, the liquid leak detection unit 3 determines that the liquid leak L exists, The temperature control unit 8 reduces the temperature of the liquid leak L flowing through the liquid leak temperature control unit 8, so that the difference between the second temperature and the environmental temperature is increased after the liquid leak L and the second temperature sensor 5 transfer heat. It is used to make it smaller than a predetermined threshold value. For example, the liquid leakage temperature adjusting unit adjusts the liquid leakage temperature in the same manner as the environmental temperature, for example, room temperature. Preferably, in each embodiment of the present invention, the temperature sensor is a thermistor.

  In another embodiment of the present invention, the liquid leak detection unit 3 may include a temperature sensor other than the thermistor, and is not limited to the thermistor, and here, the amount of heat of itself is transmitted to the liquid leak. As long as the temperature sensor has an operation principle for detecting the presence of liquid leakage, it can be used without limitation.

  In the present embodiment, preferably, the column temperature adjustment unit includes a heat insulating housing, and the liquid leakage temperature adjustment unit 8 includes a semiconductor cooler installed inside the column oven, that is, a Peltier element. Since the column temperature control unit has a heat insulating housing, even if a liquid leakage temperature control unit (for example, a semiconductor cooler) is installed in the column oven, the temperature of the separation column does not change.

  In each embodiment of the present invention, the liquid leakage temperature adjustment unit may be any temperature adjustment member capable of adjusting the liquid leakage temperature, and is not limited to a semiconductor cooler (Peltier element).

  By adjusting the liquid leak temperature within the detection range of the liquid leak detector, it is possible to ensure that the liquid leak is detected in real time even if the liquid leak temperature changes, improving the liquid leak detection efficiency and accuracy. Furthermore, the failure elimination efficiency of the liquid chromatograph is improved and the solvent waste of the mobile phase is reduced.

  The second embodiment of the present invention relates to a column oven for liquid chromatography. FIG. 2 is a structural schematic diagram of the column oven for liquid chromatography.

  Specifically, as shown in FIG. 2, in this embodiment, the structure of the column oven includes a liquid leakage temperature adjusting unit 8 and a heat conducting member connected to the column oven housing 6 so as to conduct heat. This is almost the same as the first embodiment. By connecting to the column oven housing 6 so as to be able to conduct heat, when the temperature of the liquid leakage is higher than the temperature of the column oven housing 6 (for example, room temperature), the heat conduction member transmits the temperature of the liquid leakage to the column oven housing. Can do. Preferably, the heat conducting member is a metal having excellent heat conductivity.

  In an example of the present embodiment, the heat conducting member is an extending portion in the column oven of the column oven housing, and the column oven housing is a metal having excellent heat conductivity, such as copper or iron. Compared with the case where a dedicated liquid leakage temperature control unit (for example, a semiconductor cooler) is added in the column oven, the heat conduction member is an extended part of the column oven housing, thereby reducing costs and simplifying the process. Can be made.

  The third embodiment of the present invention relates to a column oven for liquid chromatography. FIG. 3 is a structural schematic diagram of the column oven for liquid chromatography.

  Specifically, as shown in FIG. 3, the structure of the column oven in the embodiment is a liquid installed in the liquid oven at the liquid leakage temperature adjusting unit 8 and connected to the column oven housing 6 so as to conduct heat. Except for including the leak recovery part 7 ', it is almost the same as the first embodiment. When the liquid leakage temperature is higher than the temperature of the column oven housing 6 (for example, room temperature) by connecting the liquid leakage recovery unit 7 'and the column oven housing 6 so as to be able to conduct heat, the temperature of the liquid leakage in the liquid leakage recovery unit 7' Is transferred to the column oven housing 6 to further reduce its temperature. Preferably, both the liquid leakage recovery part 7 ′ and the column oven housing 6 are manufactured from a metal conductor having excellent thermal conductivity.

  In one example of the present embodiment, the liquid leakage recovery part 7 ′ is an extended part of the column oven housing 6.

  Compared with the case where a dedicated liquid leakage temperature control unit (for example, a semiconductor cooler) is added in the column oven, the existing liquid leakage recovery unit in the column oven and the column oven housing are connected so as to be able to conduct heat, thereby By using the adjustment section, the cost can be reduced and the process can be simplified.

  The fourth embodiment of the present invention further discloses a liquid chromatograph including the column oven for liquid chromatographs of each embodiment of the present invention.

  Furthermore, in each embodiment of the present invention, the operation process of the column oven is as follows.

  After the liquid is transported to the separation column 1 by a liquid feed pump, it is separated by the separation column 1 held at a desired separation temperature by the column temperature control unit 2 and sent to the detector. In the separation process, when the liquid leak L occurs, the liquid leak L flows through the liquid leak temperature adjustment unit 8, and the temperature is close to or higher than the detection range of the liquid leak detection unit 3 (for example, the temperature of the second temperature sensor 5 itself). Exceeding the (high)), the liquid leakage temperature is lowered, thereby lowering the temperature of the second temperature sensor 5 to the second temperature when it flows to the second temperature sensor 5, and the second temperature and the environmental temperature. Is lower than a predetermined threshold value, and the liquid leak detector 3 can detect the presence of the liquid leak.

  In each embodiment of the present invention, the temperature of the second temperature sensor 5 itself, the value of the liquid leakage temperature decrease by the liquid leakage temperature adjustment unit 8, and the predetermined threshold may all be set as necessary. Not.

  Furthermore, the liquid leakage temperature is close to the temperature of the second temperature sensor itself (for example, the temperature difference between the liquid leakage and the second temperature sensor is smaller than the temperature difference threshold value of the liquid leakage that can be detected by the second temperature sensor) or higher. In the above-described embodiment, the case where the liquid leakage temperature adjusting unit mainly reduces the temperature of the liquid leakage, but in other embodiments of the present invention, the present invention improves the liquid leakage temperature with the liquid leakage temperature adjusting unit. Applicable to the case.

  In the claims and specifications of this patent, for example, related terms such as “first” and “second” only distinguish entities or operations. It does not necessarily require or suggest that there is a relationship or order. In addition, the terms “comprising”, “containing” or any other form of variation means non-exclusive inclusions, whereby a process, method, article or device comprising a plurality of elements only includes these elements. And includes other elements not explicitly shown, or further includes specific elements of such a process, method, article or device. In the absence of further restrictions, an element defined by "including" does not exclude the presence of other identical elements in a process, method, article, or device that includes the element.

  While the invention has been illustrated and described with reference to certain preferred embodiments thereof, it will be apparent to those skilled in the art that various changes in form and detail may be made without departing from the spirit and scope of the invention. can do.

DESCRIPTION OF SYMBOLS 1 Separation column 2 Column temperature control part 3 Liquid leak detection part 4 1st temperature sensor 5 2nd temperature sensor 6 Column oven housing 7, 7 'Liquid leak collection part 8 Liquid leak temperature control part

Claims (8)

A column oven for liquid chromatography, comprising a column temperature adjustment unit, a separation column, a liquid leakage detection unit, and a liquid leakage temperature adjustment unit,
The separation column is located in the column temperature control unit, and the temperature control unit is for adjusting the temperature of the separation column;
The liquid leak detection unit is for detecting the presence of a liquid leak that includes the first temperature sensor and the second temperature sensor and the liquid flowing through the separation column leaks from the column temperature control unit,
The first temperature sensor is used to detect an environmental temperature in the column oven, and the second temperature sensor sets the temperature itself to a first temperature higher than the environmental temperature when there is no leakage of liquid flowing through the second temperature sensor. When there is a liquid leak flowing through the second temperature sensor, heat is transferred to the liquid leak, and the temperature itself changes to the second temperature, and the liquid leak detection unit detects the second temperature and the environmental temperature. When the difference is smaller than a predetermined threshold, it is determined that the liquid leakage exists,
The liquid leak temperature control unit reduces the temperature of the liquid leak flowing through the liquid leak temperature control unit, so that the second temperature and the environmental temperature are A column oven for liquid chromatography, wherein the difference is less than the predetermined threshold value.   2. The column oven for liquid chromatography according to claim 1, wherein the liquid leakage temperature adjustment unit includes a semiconductor cooler installed inside the column oven.   2. The liquid chromatograph column according to claim 1, wherein the column oven includes a column oven housing, and the liquid leakage temperature adjusting unit includes a heat conducting member connected to the column oven housing so as to conduct heat. oven.   4. The column oven for liquid chromatography according to claim 3, wherein the heat conducting member is a liquid leakage recovery unit installed in the column oven.   4. The column oven for liquid chromatography according to claim 3, wherein the heat conducting member is an extending portion of the column oven housing in the column oven.   The column oven for liquid chromatography according to any one of claims 1 to 5, wherein the temperature sensor is a thermistor.   The column oven for liquid chromatography according to claim 6, wherein the column temperature adjusting unit has a heat insulating housing.   It is a liquid chromatograph, Comprising: The liquid chromatograph characterized by including the column oven for liquid chromatographs of any one of Claim 1 to 7.