Abstract: The present invention accurately estimates the opening state of a solenoid valve using a feature amount based on driving current information of the solenoid valve. A solenoid valve abnormality detection device, which uses a driving current pattern associated with valve opening of a solenoid valve and detected by a current sensor to detect an abnormality of the solenoid valve, comprises: a feature amount extraction unit that determines a feature amount of a driving current pattern associated with valve opening of the solenoid valve within a predetermined detection period; a feature amount correction unit that estimates the valve temperature of the solenoid valve; and an opening state estimation unit that estimates the opening state of the solenoid valve using the feature amount value corrected by the feature amount correction unit.

Abstract: A liquid feed device that feeds a liquid medium and a cell suspension to target containers by respectively suited liquid feed methods is provided. A pump 6 is connected between a first liquid bottle 12 containing a liquid medium and a second liquid bottle 2 containing a cell suspension, and a receptacle 8 to be used as a culture container is connected downstream of a second liquid bottle 12. The liquid medium in the first liquid bottle is sent to the receptacle through the pump 6 and a branch point 20 by opening a first supply valve 17, and the cell suspension in the second liquid bottle is sent to the receptacle by opening a first gas introducing valve 10, a second gas introducing valve 15, and a second supply valve 19 and transferring, by pressure, a gas supplied from the first gas introducing valve 10 to the second liquid bottle through the pump 6 and a branch point 16.

Abstract: An induction motor overheat monitoring method and device detects overheating of an induction motor from a detection value of a current sensor. A resistance calculation relationship data indicating a relationship between a resistance and a feature amount at the time of starting of the induction motor and a determination reference value for determining overheating are stored in advance. At each starting, a current of the induction motor is detected, a signal regarding a phase angle difference is calculated, and a feature amount of the motor is calculated from the signal regarding the phase angle difference. Further, a resistance of the induction motor is calculated by using the feature amount of the motor and the resistance calculation reference data stored in advance. Then, a temperature of the induction motor is calculated from the resistance of the induction motor, and it is determined if the motor is overheated.

Abstract: An induction motor overheat monitoring method and device detects overheating of an induction motor from a detection value of a current sensor. A resistance calculation relationship data indicating a relationship between a resistance and a feature amount at the time of starting of the induction motor and a determination reference value for determining overheating are stored in advance. At each starting, a current of the induction motor is detected, a signal regarding a phase angle difference is calculated, and a feature amount of the motor is calculated from the signal regarding the phase angle difference. Further, a resistance of the induction motor is calculated by using the feature amount of the motor and the resistance calculation reference data stored in advance. Then, a temperature of the induction motor is calculated from the resistance of the induction motor, and it is determined if the motor is overheated.

Abstract: A liquid delivery device includes a first and second container for a first and second liquid; a third container for receiving a first and second liquid; a fourth container into which a first and second liquid are discharged; a fifth container for a third liquid; a first liquid delivery tube for delivering a first liquid; a second liquid delivery tube for delivering a second liquid; a third liquid delivery tube connected to the first and second liquid delivery tube; a first liquid delivery pump on the third liquid delivery tube; a fourth liquid delivery tube for discharging a first liquid contained in the third container and delivering a third liquid to the third container; a fifth liquid delivery tube connected to the fourth liquid delivery tube; a sixth liquid delivery tube connected to the fourth liquid delivery tube; and a second liquid delivery pump on the fourth liquid delivery tube.

Abstract: A liquid feed device that feeds a liquid medium and a cell suspension to target containers by respectively suited liquid feed methods is provided. A pump 6 is connected between a first liquid bottle 12 containing a liquid medium and a second liquid bottle 2 containing a cell suspension, and a receptacle 8 to be used as a culture container is connected downstream of a second liquid bottle 12. The liquid medium in the first liquid bottle is sent to the receptacle through the pump 6 and a branch point 20 by opening a first supply valve 17, and the cell suspension in the second liquid bottle is sent to the receptacle by opening a first gas introducing valve 10, a second gas introducing valve 15, and a second supply valve 19 and transferring, by pressure, a gas supplied from the first gas introducing valve 10 to the second liquid bottle through the pump 6 and a branch point 16.

Abstract: Maintaining pressure inside a culturing vessel is difficult when minimizing the size of a liquid supply path that supplies liquid and gas to a cell culturing vessel that performs two-level culturing (co-culturing). This cell culturing device includes: culturing vessels; a flow path having at least first supply ports capable of supplying liquid or gas to the culturing vessels and first discharge ports that discharge the gas from the culturing vessels, said flow path discharging gas from the first discharge ports to the atmosphere; and a filter in the flow path. A trap bottle is provided between the first discharge ports and the filter upon the flow path to collect moisture from the discharged gas. Thus, a liquid phase and a gas phase are separated in the trap bottle; moisture is prevented from reaching the filter; filter clogging is prevented; and the internal pressure of the culturing vessels can be maintained.

Abstract: The purpose of the present invention is to provide a valve mechanism which features a simple structure adapted to collectively control the supply of gas or culture medium to a plurality of cultivation containers for simultaneous cultivation and to enhance the reliability of the valve mechanism. The valve mechanism of the invention is a valve mechanism for opening and closing passages for liquid or gas. The valve mechanism includes: clip members adapted to close a plurality of tube passages, respectively; a multiple cam member for opening the clip members in sequence by making contact with the clip members; and a rotational mechanism for rotating the multiple cam member. The clip member includes: a spring for closing a clip thereof; and a clip contact portion for a cam contact portion of the multiple cam member to make contact therewith.

Abstract: There is the problem that a liquid culture medium fed by a pump has a high frequency of contact with a gas during movement in a tube, and the pH value of the liquid culture medium before and after feeding changes easily. In a liquid feeder and a cell culture apparatus provided therewith, a feed pipe 7 is connected with a gas bag 14, the liquid to be fed into the feed pipe 7 is fed so as to be sandwiched by a gas for suppressing the qualitative changes of the liquid. Furthermore, the gas bag is connected with a container 8 for holding a liquid, and holds the gas for suppressing qualitative changes of the liquid in a gas phase of the container.

Abstract: The liquid feeder includes a liquid feeding pipe having a liquid introduce port and a liquid discharge port, a housing container which holds liquid to be introduced from the liquid introduce port, a liquid feed mechanism which feeds the liquid in the liquid feeding pipe to the liquid discharge port, a gas introduce unit which introduces gas into the liquid feeding pipe, and a liquid level detection unit which detects an advancing liquid level of the liquid to be fed in the liquid feeding pipe. The gas introduce unit is connected to a branch part provided in the liquid feeding pipe on the upstream side of the liquid feed mechanism. The liquid level detection unit is provided on the downstream side of the branch part.

Abstract: A liquid delivery device includes a first and second container for a first and second liquid; a third container for receiving a first and second liquid; a fourth container into which a first and second liquid are discharged; a fifth container for a third liquid; a first liquid delivery tube for delivering a first liquid; a second liquid delivery tube for delivering a second liquid; a third liquid delivery tube connected to the first and second liquid delivery tube; a first liquid delivery pump on the third liquid delivery tube; a fourth liquid delivery tube for discharging a first liquid contained in the third container and delivering a third liquid to the third container; a fifth liquid delivery tube connected to the fourth liquid delivery tube; a sixth liquid delivery tube connected to the fourth liquid delivery tube; and a second liquid delivery pump on the fourth liquid delivery tube.

Abstract: An automatic culture device which employs closed-system culture vessels and in which, when a passage part (2) and a rotational valve mechanism (3) are configured, the multiple culture vessels in a culture vessel part (1) can be rendered equal in liquid-feeding conditions by, for example, regulating the length of each passage. As a result, the evenness in quality of cells incubated in the multiple culture vessels is rendered possible. Furthermore, by providing a mechanism which enables a user to normally set passages in the device, the evenness in quality of the cells is rendered possible likewise.

Abstract: Provided is a cell culturing vessel for holding and culturing cells. It has a first vessel that stores a culture medium and cells or only a culture medium, a second vessel that is placed above the first vessel and stores a culture medium and cells or only a culture medium, a main vessel that holds the first vessel and houses the second vessel, and a lid member that engages with the main vessel. The main vessel has a pressing member that fixes and holds the first vessel in the main vessel and the second vessel is eccentrically held in the first vessel by the pressing member.

Abstract: In culture vessels for producing biological samples, it is possible to prevent decrease in a temperature at the time of taking out the culture vessels from an automatic culture apparatus and during delivery of the culture vessels which have been taken out from the automatic culture apparatus. This invention includes a culture vessel 201 holding a biological sample therein, a heat storage portion 701 holding the culture vessel, and a heat insulation portion 601 surrounding the heat storage portion. The whole circumference or a part of 609, 610, and 611 of the heat insulation portion 601 is removable depending on an arrangement environment.

Abstract: The present invention provides a culture vessel and a measuring device for measuring a cell sheet thickness nondestructively during culturing. A culture vessel having a lid 4 has a float 8 installed in the interior and the float is structured so as to be uplifted by a culture medium in the culture vessel. Further, a cell sheet thickness measuring device having a sensor head 10 having a light-emitting element 10A and a light-receiving element 10B to detect a positional variation of the float in the vertical direction and a controller 11 to process a signal of the sensor head is configured.

Abstract: To provide a closed system culture vessel for realizing culturing in which an aseptic state is maintained at the time of culturing, and making the reduction of the shear stress generated during conveyance after manufacturing possible. A closed system culture vessel 201 holds a second vessel 302 consisting of an insert vessel on the inside of a first vessel 301, and a lid portion 303 of the closed system culture vessel 201 forms a closed space with the first vessel 301 and has a convex portion 305 contacting the entire outer circumference of the second vessel 302. During conveyance, the closed system culture vessel is conveyed in a state in which the culture medium for conveyance is filled within the second vessel 302.

Abstract: There is the problem that a liquid culture medium fed by a pump has a high frequency of contact with a gas during movement in a tube, and the pH value of the liquid culture medium before and after feeding changes easily. In a liquid feeder and a cell culture apparatus provided therewith, a feed pipe 7 is connected with a gas bag 14, the liquid to be fed into the feed pipe 7 is fed so as to be sandwiched by a gas for suppressing the qualitative changes of the liquid. Furthermore, the gas bag is connected with a container 8 for holding a liquid, and holds the gas for suppressing qualitative changes of the liquid in a gas phase of the container.

Abstract: A culture which maintains an aseptic state at the time of culturing is achieved, the avoidance of damage to a closed-system culture vessel and of an influence to the cells due to impacts and oscillation is possible during transportation after being manufactured. The closed-system culture vessel 101 has culture vessels 201, 202 for maintaining the cells and/or the culture medium, and a culturing space which is closed by holding members 203, 204 for holding the culture vessels, and the holding member has a semi-open cavity 221 independent of the culturing space. Further, the holding member, by being provided with a lid fixing ring 220 surrounding a connector part 214, is not damaged even when impacts are applied during transportation.

Abstract: Disclosed is a cell culture vessel of the present invention, which is composed of a space enclosed by a housing that supports a medium and a cell attachment part, disposed on the bottom surface of the space, that attaches and supports the cells, the cell attachment part having a cell immobilizing mechanism that guides the cells in the space to the cell attachment part to immobilize there and a cell detachment mechanism that detaches the cells attached in the cell attachment part, the cell immobilizing mechanism having a step of applying a voltage to an electrode disposed in the cell attachment part to generate a heterogeneous electric field in the space, and the cell detachment mechanism having a step of applying a voltage to an electrode disposed in the cell attachment part to induce electrolyte in the space.

Abstract: Maintaining pressure inside a culturing vessel is difficult when minimizing the size of a liquid supply path that supplies liquid and gas to a cell culturing vessel that performs two-level culturing (co-culturing). This cell culturing device includes: culturing vessels; a flow path having at least first supply ports capable of supplying liquid or gas to the culturing vessels and first discharge ports that discharge the gas from the culturing vessels, said flow path discharging gas from the first discharge ports to the atmosphere; and a filter in the flow path. A trap bottle is provided between the first discharge ports and the filter upon the flow path to collect moisture from the discharged gas. Thus, a liquid phase and a gas phase are separated in the trap bottle; moisture is prevented from reaching the filter; filter clogging is prevented; and the internal pressure of the culturing vessels can be maintained.