KR101927663B1 - Interating sphere with temperature controllable sample cell - Google Patents

Abstract

To measure temperature quenching efficiency according to the temperature of a phosphor used in LED light or the like, a technology capable of controlling the temperature of a phosphor sample at a high temperature in real time is required. To this end, provided is an integrating sphere having a temperature adjusting unit. The present invention relates to an integrating sphere provided with a sample holder cartridge including an integrating sphere body and a sample holder for fixing a cuvette containing a measuring sample in the integrating sphere. By using the sample holder as a heat conductor capable of transferring heat, the front surface and the side surface of the cuvette are opened to allow light to optically pass through the front surface and the side surface of the cuvette. Also, upper and lower portions are provided in a rectangular ring shape in which the cuvette can pass through. A cartridge heater in which a temperature sensor and a heater are integrally vertically formed in the sample holder is provided at the rear of the cuvette. The cartridge heater is thermally coupled to the sample holder. A heat insulation unit for blocking heat transfer between the cartridge heater, the sample holder, and the sample holder cartridge is provided. According to the configuration as described above, the fluorescent properties of a sample can be measured in real time along with temperature information in the integrating sphere.

Description

INTERATING SPHERE WITH TEMPERATURE CONTROLLABLE SAMPLE CELL "

The present invention relates to a sample cell holder module for use in an integrating sphere, and more particularly, to an integrating sphere having a sample cell holder module capable of temperature control at 300 ° C for measurement of luminescence spectrum including fluorescence at a sample operation temperature .

Prior art prior to the filing of the present invention includes a holder body having a holder chamber for holding a sample; A thermoelectric element disposed in contact with the holder body so as to be capable of heat transfer; A heat sink disposed in contact with the rear surface of the thermoelectric element so as to allow heat transfer therethrough; And a sample cell holder including a fin disposed in contact with the heat sink so as to be heat-transferable.

Published Patent Application No. 10-2015-0131887

Phosphors used in LEDs must have sufficient fluorescence efficiency and thermal stability at operating temperatures. A typical fluorescence material exhibits a temperature quenching phenomenon where the fluorescence intensity decreases as the temperature rises. This is because the motion of the fluorescent molecules becomes active at high temperature, and energy transfer due to the collision or crossing between the cells is likely to occur.

It is not easy to control the temperature of the sample because the spectrometer measuring the fluorescence phenomenon using the conventional integrating sphere is used in a slight temperature controlled or in a constant temperature and humidity chamber.

Therefore, in order to measure the temperature quenching efficiency according to the temperature of the phosphor used for the LED light, a technique capable of controlling the temperature of the phosphor sample at high temperature in real time is needed. For phosphors used in LEDs, it is necessary to adjust the temperature around 300 ℃.

In order to solve the above problems,

An integrating sphere including a sample holder cartridge including an integrating sphere body and a sample holder for fixing a cuvette containing a measurement sample to the integrating sphere, characterized in that the sample holder is optically light- And a cartridge heater having a temperature sensor and a heater integrally formed at the rear of the cuvette and vertically inside the sample holder, Wherein the cartridge heater is thermally coupled to the sample holder and is provided with a heater insulator holder which is a heat insulating part for interrupting heat transfer between the cartridge heater and the sample holder and the sample holder cartridge. Integral sphere is provided.

Further, in order to couple the sample holder and the sample holder cartridge, a sample holder fixing pin is further provided.

The cuvette further includes a thermocouple for thermally connecting the bottom edge and the vertical edge of the cuvette with the sample holder so that heat can be transferred to the cuvet more quickly and stably. Lt; / RTI >

The cuvette further includes a temperature sensor capable of measuring the temperature of the sample on the bottom surface of the cuvette, wherein the temperature sensor and the external circuit connect the optically transparent film electrode or the common electrode with the thermoelectric element There is provided an integrating sphere provided with a temperature adjusting section.

As another solution, there is provided an integrating sphere including a sample holder cartridge including an integrating sphere body and a sample holder for fixing a cuvette containing a measurement sample to the integrating sphere, wherein the sample holder is connected to the front surface of the cuvette The side surface of which is optically open to allow light to pass therethrough, the upper and lower portions being provided in the form of a square ring through which the cuvette can pass, and an induction heating coil vertically disposed inside the sample holder behind the cuvette, And a conductor for converting the energy of the induction heating coil into heat energy is provided on the rear surface of the optical path of the cuvette.

Further, in order to couple the sample holder and the sample holder cartridge, a sample holder fixing pin is further provided.

The cuvette further includes a temperature sensor capable of measuring the temperature of the sample on the bottom surface of the cuvette, wherein the temperature sensor and the external circuit connect the optically transparent film electrode or the common electrode with the thermoelectric element There is provided an integrating sphere provided with a temperature adjusting section.

Wherein the temperature sensor connects the upper portion of the temperature sensor to a position immediately below the center of the sample so that the temperature of the center portion of the sample can be measured.

According to the above configuration, one sample can be measured in real time with the temperature information in accordance with the temperature of the sample in the integrating sphere.

BRIEF DESCRIPTION OF THE DRAWINGS Fig.
2 is a view showing a sample holder cartridge of the present invention
3 is a cross-sectional view of the sample holder cartridge of the first embodiment of the present invention
4 is a cross-sectional view of the sample holder cartridge of the second embodiment of the present invention
5 is a cross-sectional view of the sample holder cartridge of the third embodiment of the present invention

The operation and effect of the present invention will be described below with reference to the drawings.

Fig. 1 shows an overall configuration of an integrating sphere used in the present invention. And a sample holder cartridge detachably coupled to the integrating sphere body and the integrating sphere body. The sample holder cartridge fixes a rectangular optically transparent cuvette containing a sample during measurement. In the present invention, a cartridge heater having a temperature sensor and a heater is vertically installed in the sample holder cartridge.

The temperature of the sample was adjusted by heating the cuvette by thermally connecting the sample holder and the sample holder to fix the cuvette. For this purpose, the sample holder is formed using a thermal conductor, and the front and the side are opened so that fluorescence can be measured, and the upper part is formed into a square ring shape so that the cuvette can be fixed, The holder cartridge is coupled with the sample holder fixing pin.

Further, the temperature of the sample placed in the cuvette can be controlled by controlling the temperature of the cartridge heater. However, since the cartridge heater is not in direct contact with the sample, It is also possible to provide a temperature sensor on the inner lower portion so as not to interfere with the fluorescence measurement and measure the temperature by contacting the temperature of the sample by wiring the wire to the back of the cuvette. Further, in order to accurately measure the temperature of the portion where fluorescence is generated, the temperature may be measured directly below the site where the fluorescence is generated by providing an entirety of the thermocouple perpendicularly to the surface of the temperature sensor.

The electrode of the temperature sensor may be a light-transmitting electrode.

Also, to quickly increase the temperature of the sample in the cuvette, a thermometer is provided on the inner edge of the cuvette and thermally coupled with the sample cartridge heater or the sample holder thermally coupled to the cartridge heater to induce rapid heat transfer have.

Further, the temperature of heat generated by the cartridge heater can be up to 700 ° C., so that air expansion due to heat can also occur. Therefore, the sample holder cartridge is provided with an integrating sphere pressure regulating valve, .

In addition, in addition to the above-mentioned cartridge heater, induction heating coil type heating can be performed. In this case, the sample holder should be provided as a non-conductor, and a conductor may be provided in the cuvette so that the conductor may generate heat And the temperature of the sample can be controlled by providing a temperature sensor inside the cuvette.

The present invention may include a temperature controller (not shown) for temperature control.

In particular, when the induction heating coil system is used, a method of fixing the conductor to the inner side of the cuvette or separating and coupling the conductor as necessary may be used.

2 and 3 show an example of Embodiment 1 using the cartridge heater of the present invention.

4 is an example in which the cigarette is provided with the thermo conductor according to the second embodiment of the present invention.

5 is an example using an induction heating coil according to a third embodiment of the present invention.

The above-described operation and effect are achieved by the following arrangement.

The present invention provides an integrating sphere including a sample holder cartridge including an integrating sphere body and a sample holder for fixing a cuvette containing a measurement sample to the integrating sphere, A cartridge having a temperature sensor and a heater integrally formed inside the sample holder at the rear of the cuvette, the temperature sensor and the heater being integrally provided at an upper portion and a lower portion of the sample holder, Wherein the cartridge heater is thermally coupled to the sample holder and is provided with a heater adiabatic holder 440 as a thermal insulating part for interrupting heat transfer between the cartridge heater and the sample holder cartridge. Thereby providing an integrated sphere.

Further, in order to couple the sample holder and the sample holder cartridge, a sample holder fixing pin is further provided.

The cuvette further includes a thermocouple for thermally connecting the bottom edge and the vertical edge of the cuvette with the sample holder so that heat can be transferred to the cuvet more quickly and stably. Lt; / RTI >

The cuvette further includes a temperature sensor capable of measuring the temperature of the sample on the bottom surface of the cuvette, wherein the temperature sensor and the external circuit connect the optically transparent film electrode or the common electrode with the thermoelectric element There is provided an integrating sphere provided with a temperature adjusting section.

As another solution,

 An integrating sphere including a sample holder cartridge including an integrating sphere main body and a sample holder for fixing a cuvette containing a measurement sample in the integrating sphere, characterized in that the sample holder is connected to a negative electric conductor so that front and side surfaces of the cuvet are optically light- And the upper and lower portions are provided in the form of a square ring through which the cuvette can pass, and an induction heating coil is provided vertically inside the sample holder at the rear of the cuvette, and the energy of the induction heating coil And a conductor for converting into thermal energy is provided on the rear surface of the optical path of the cuvette.

Further, in order to couple the sample holder and the sample holder cartridge, a sample holder fixing pin is further provided.

The cuvette further includes a temperature sensor capable of measuring the temperature of the sample on the bottom surface of the cuvette, wherein the temperature sensor and the external circuit connect the optically transparent film electrode or the common electrode with the thermoelectric element There is provided an integrating sphere provided with a temperature adjusting section.

Wherein the temperature sensor connects the upper portion of the temperature sensor to a position immediately below the center of the sample so that the temperature of the center portion of the sample can be measured.

100: Integral sphere
110: Sample holder cartridge
200: Cuvette
300: Ball plunger
400: Sample holder
410: Cartridge Heater
420: Integral sphere pressure regulating valve
430: Sample holder fixing pin
440: heater insulation holder
450: Archipelago
460: Temperature sensor
500: induction heating coil
510: conductor
520: Temperature sensor
530: thermoconductor

Claims (8)

An integrating sphere including a sample holder cartridge including an integrating sphere main body and a sample holder for fixing a cuvette containing a measurement sample in the integrating sphere, characterized in that the sample holder is connected to a negative electric conductor so that front and side surfaces of the cuvet are optically light- And the upper and lower portions are provided in the form of a square ring through which the cuvette can pass, and an induction heating coil is provided vertically inside the sample holder at the rear of the cuvette, and the energy of the induction heating coil A conductor for converting into thermal energy is provided on the back side of the optical path of the cuvette,
A sample holder fixing pin for coupling the sample holder and the sample holder cartridge; And
Further comprising a temperature sensor capable of measuring a temperature of a sample on a bottom surface of the cuvette, wherein the temperature sensor and the external circuit are formed by insulating an optically transparent film electrode from the conductor,
Connecting the upper portion of the temperature sensor to a position directly under the center of the sample so that the temperature sensor can measure the temperature of the center portion of the sample to be measured,
Wherein the sample holder cartridge is provided with an integrating sphere pressure regulating valve to adjust the pressure when the pressure of the sample holder cartridge rises. delete delete delete delete delete delete delete

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