JP2013068462A5 - - Google Patents

Claims (8)

The reaction liquid, different specific gravity from that of the reaction liquid, and the liquid immiscible with the reaction liquid is filled, either the liquid immiscible with the reaction solution and the reaction solution is, light of a predetermined wavelength a mounting portion which includes a fluorescent substance, attaching the reaction vessel containing a flow path in which the reaction solution is moved to emit,
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 reaction vessel is attached to the attachment part, the arrangement of the attachment part and the temperature gradient forming part is the first arrangement, and the position of the lowest point of the flow path in the direction in which gravity acts is the first position. a drive mechanism for switching between a different second configuration to the first configuration,
A detection unit for detecting the intensity of light of the predetermined wavelength from within the reaction vessel;
A control unit for controlling the drive mechanism;
Including
The controller is
A switching timing that is a timing for switching the placement of the mounting portion and the temperature gradient forming portion between the first placement and the second placement by the driving mechanism;
Based on the detection timing, which is the timing at which the intensity of the light detected by the detection unit changes across a reference value,
A thermal cycle device that determines a holding time that is a time for holding the placement of the mounting portion and the temperature gradient forming portion in at least one of the first placement and the second placement by the driving mechanism. The thermal cycle apparatus according to claim 1, wherein
The controller is
Measuring means for measuring the time from the switching timing to the detection timing;
Determining means for determining the holding time based on the time measured by the measuring means;
Including a heat cycle device. The reaction liquid, different specific gravity from that of the reaction liquid, and the liquid immiscible with the reaction liquid is filled, either the liquid immiscible with the reaction solution and the reaction solution is, light of a predetermined wavelength a mounting portion which includes a fluorescent substance, attaching the reaction vessel containing a flow path in which the reaction solution is moved to emit,
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 reaction vessel is attached to the attachment part, the arrangement of the attachment part and the temperature gradient forming part is the first arrangement, and the position of the lowest point of the flow path in the direction in which gravity acts is the first position. a drive mechanism for switching between a different second configuration to the first configuration,
A detection unit for detecting the intensity of light of the predetermined wavelength from within the reaction vessel;
A control unit for controlling the drive mechanism;
Including
The controller is
Until the predetermined time has elapsed from the detection timing, which is the timing at which the intensity of the light detected by the detection unit changes across a reference value, the arrangement of the mounting unit and the temperature gradient forming unit is arranged by the drive mechanism. A thermal cycle device that is held in at least one of the first arrangement and the second arrangement. In the heat cycle apparatus according to any one of claims 1 to 3,
The said detection part is a heat cycle apparatus which detects the intensity | strength of the said light from the area | region containing the lowest point in the direction which gravity acts in the said flow path when it becomes the said 1st arrangement | positioning. In the heat cycle apparatus according to any one of claims 1 to 4,
The reaction solution filled in the reaction vessel contains the fluorescent substance,
The said control part is a thermal cycle apparatus which makes the detection timing the timing when the intensity | strength of the said light detected by the said detection part exceeded the said reference value. In the heat cycle apparatus according to any one of claims 1 to 4,
The liquid immiscible with the reaction liquid filled in the reaction vessel contains the fluorescent substance,
The said control part is a thermal cycle apparatus which makes the said detection timing the timing when the intensity | strength of the said light detected by the said detection part fell below the said reference value. The reaction liquid, and the different specific gravity from the reaction liquid, the reaction liquid and the liquid immiscible is filled with a mounting portion for mounting a reaction vessel containing a flow path in which the reaction liquid is moved,
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 reaction vessel is attached to the attachment part, the arrangement of the attachment part and the temperature gradient forming part is the first arrangement, and the position of the lowest point of the flow path in the direction in which gravity acts is the first position. a drive mechanism for switching between a different second configuration to the first configuration,
A control method for a heat cycle apparatus including:
Either one of the reaction liquid filled in the reaction container and the liquid immiscible with the reaction liquid contains a fluorescent substance that emits light of a predetermined wavelength,
Based on the switching timing, the arrangement of the mounting part and the temperature gradient forming part is switched between the first arrangement and the second arrangement by the driving mechanism;
Detecting a detection timing that is a timing at which the intensity of light of a predetermined wavelength from within the reaction vessel changes across a reference value;
Based on the switching timing and the detection timing, the drive mechanism holds the placement of the mounting portion and the temperature gradient forming portion in at least one of the first placement and the second placement. Determining the retention time;
A control method for a thermal cycle device. The reaction liquid, and the different specific gravity from the reaction liquid, the reaction liquid and the liquid immiscible is filled with a mounting portion for mounting a reaction vessel containing a flow path in which the reaction liquid is moved,
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 reaction vessel is attached to the attachment part, the arrangement of the attachment part and the temperature gradient forming part is the first arrangement, and the position of the lowest point of the flow path in the direction in which gravity acts is the first position. a drive mechanism for switching between a different second configuration to the first configuration,
A control method for a heat cycle apparatus including:
Either one of the reaction liquid filled in the reaction container and the liquid immiscible with the reaction liquid contains a fluorescent substance that emits light of a predetermined wavelength,
Detecting a detection timing that is a timing at which the intensity of light of a predetermined wavelength from within the reaction vessel changes across a reference value;
Holding the arrangement of the mounting part and the temperature gradient forming part in at least one of the first arrangement and the second arrangement by the drive mechanism until a predetermined time has elapsed from the detection timing;
A control method for a thermal cycle device.