JP2013201965A5 - - Google Patents

Claims (6)

The reaction liquid is mounted with a reaction container having a specific gravity different from that of the reaction liquid and filled with a liquid immiscible with the reaction liquid, and including a flow path in which the reaction liquid moves along the opposing inner wall. And
A temperature gradient forming unit that forms a temperature gradient in a direction in which the reaction solution moves with respect to the flow path when the reaction vessel is mounted on the mounting unit;
When the mounting portion and the temperature gradient forming portion have a component perpendicular to the direction in which gravity acts, and the reaction vessel is mounted on the mounting portion, the reaction solution moves through the flow path. A drive mechanism that rotates about a rotation axis having a component perpendicular to the direction;
Including
The temperature gradient forming unit includes:
A first heat conductor that has a first heat dissipating part that dissipates heat and heats the first region of the flow path to a first temperature when the reaction vessel is attached to the attachment part;
And a second heat conductor that heats the second region of the flow path to a second temperature when the reaction vessel is attached to the attachment portion. In claim 1,
The first temperature is a heat cycle device lower than the second temperature. In claim 1 or claim 2,
The second heat conductor is a heat cycle device further including a second heat radiating portion for radiating heat. In any one of Claims 1 thru | or 3,
The thermal cycle device, wherein the first heat radiating part or the second heat radiating part is a fin. In any one of Claims 1 thru | or 4,
A thermal cycle apparatus further comprising a fan for blowing air to at least the first heat radiation unit. A mounting part capable of mounting a reaction liquid and a reaction container including a flow path through which the reaction liquid moves;
A temperature gradient forming unit that forms a temperature gradient in a direction in which the reaction solution moves with respect to the flow path when the reaction vessel is mounted on the mounting unit;
When the mounting portion and the temperature gradient forming portion have a component perpendicular to the direction in which gravity acts, and the reaction vessel is mounted on the mounting portion, the reaction solution moves through the flow path. A drive mechanism that rotates about a rotation axis having a component perpendicular to the direction;
Including
The temperature gradient forming section includes a first heat conductor that has a first heat radiating section that dissipates heat, and heats the first region of the flow path to a first temperature when the reaction container is mounted on the mounting section. And a second thermal conductor that heats the second region of the flow path to a second temperature when the reaction vessel is mounted on the mounting portion.