Refractive index detector and liquid chromatograph

What is claimed is: 1. A refractive index detector comprising: a sample cell, made of a light transmitting container, including a sample cell inlet through which a liquid flows in, and a sample cell outlet through which a liquid flows out; a reference cell, made of a light transmitting container, including a reference cell inlet through which a liquid flows in, and a reference cell outlet through which a liquid flows out, the reference cell being arranged adjacent to the sample cell across a light transmitting partition wall; a measurement section including a light source for emitting light in such a way that the light passes through both of the sample cell and the reference cell from a side of one of the cells, and a photodetector for detecting displacement of the light which has passed through the sample cell and the reference cell; a liquid inlet port that leads to the sample cell inlet; a first outlet port for discharging a liquid; a second outlet port for discharging a liquid, provided separately from the first outlet port; and a switching mechanism including a reference liquid supply mode for forming a channel for connecting the reference cell outlet to one of the first outlet port and the second outlet port while connecting the sample cell outlet to the reference cell inlet, and an analysis mode for forming a channel for connecting the sample cell outlet to one of the first outlet port and the second outlet port while sealing the reference cell outlet; wherein a recycle channel for returning a liquid to a liquid supply section is to be connected to the second outlet port, and wherein the switching mechanism includes, as the reference liquid supply mode, a reference liquid normal supply mode for connecting the reference cell outlet to the first outlet port while connecting the sample cell outlet to the reference cell inlet, and a reference liquid recycled supply mode for connecting the reference cell outlet to the second outlet port while connecting the sample cell outlet to the reference cell inlet, and includes, as the analysis mode, a normal analysis mode for connecting the sample cell outlet to the first outlet port while sealing the reference cell outlet, and a recycle analysis mode for connecting the sample cell outlet to the second outlet port while sealing the reference cell outlet. 2. A liquid chromatograph comprising: a delivery pump for suction a solvent from a solvent container storing the solvent, and delivering the solvent; an analysis channel for delivering, as a mobile phase, the solvent taken in from the solvent container by the delivery pump; a sample introduction section provided on the analysis channel, on a downstream side of the delivery pump, the sample injection section being for introducing a sample into the analysis channel; an analytical column provided on the analysis channel, on a downstream side of the sample introduction section, the analytical column being for separating the sample introduced into the analysis channel by the sample introduction section into sample components; a refractive index detector according to claim 1 , provided on the analysis channel, on a downstream side of the analytical column, the refractive index detector including a liquid inlet port that is connected to an outlet of the analytical column, and a first outlet port and a second outlet port through which a liquid flows out, the refractive index detector being for detecting a sample component separated by the analytical column; and a recycle channel connecting the second outlet port of the refractive index detector and the solvent container, the recycle channel being for returning a liquid flowing out of the second outlet port to the solvent container. 3. The refractive index detector according to claim 1 , further comprising a control section for controlling an operation of the switching mechanism, the control section including a recycle analysis operation section for placing, based on a detection signal of the photodetector of the measurement section, the switching mechanism in the normal analysis mode when a sample is detected during analysis of the sample, and in the recycle analysis mode when a sample is not detected. 4. A liquid chromatograph comprising: a delivery pump for suction a solvent from a solvent container storing the solvent, and delivering the solvent; an analysis channel for delivering, as a mobile phase, the solvent taken in from the solvent container by the delivery pump; a sample introduction section provided on the analysis channel, on a downstream side of the delivery pump, the sample injection section being for introducing a sample into the analysis channel; an analytical column provided on the analysis channel, on a downstream side of the sample introduction section, the analytical column being for separating the sample introduced into the analysis channel by the sample introduction section into sample components; a refractive index detector according to claim 3 , provided on the analysis channel, on a downstream side of the analytical column, the refractive index detector including a liquid inlet port that is connected to an outlet of the analytical column, and a first outlet port and a second outlet port through which a liquid flows out, the refractive index detector being for detecting a sample component separated by the analytical column; and a recycle channel connecting the second outlet port of the refractive index detector and the solvent container, the recycle channel being for returning a liquid flowing out of the second outlet port to the solvent container. 5. The refractive index detector according to claim 1 , wherein the switching mechanism is configured by one rotary switching valve including ports to which the sample cell outlet, the reference cell inlet, the reference cell outlet, the first outlet port, and the second outlet port are connected, and a rotor for switching a connection between ports by rotating, the rotor being provided with a groove for connecting the ports. 6. A liquid chromatograph comprising: a delivery pump for suction a solvent from a solvent container storing the solvent, and delivering the solvent; an analysis channel for delivering, as a mobile phase, the solvent taken in from the solvent container by the delivery pump; a sample introduction section provided on the analysis channel, on a downstream side of the delivery pump, the sample injection section being for introducing a sample into the analysis channel; an analytical column provided on the analysis channel, on a downstream side of the sample introduction section, the analytical column being for separating the sample introduced into the analysis channel by the sample introduction section into sample components; a refractive index detector according to claim 5 , provided on the analysis channel, on a downstream side of the analytical column, the refractive index detector including a liquid inlet port that is connected to an outlet of the analytical column, and a first outlet port and a second outlet port through which a liquid flows out, the refractive index detector being for detecting a sample component separated by the analytical column; and a recycle channel connecting the second outlet port of the refractive index detector and the solvent container, the recycle channel being for returning a liquid flowing out of the second outlet port to the solvent container. 7. The refractive index detector according to claim 5 , wherein the switching valve includes one center port and a plurality of circumferential ports arranged on a circumference having the center port as a center, where the rotor includes two grooves provided in a circumferential direction so as to connect adjacent ports of the circumferential ports, and one gr