Uneven wear causes degradation of the individual parts of a syringe pump. Specifically, a seal piece composed of a soft material is easily damaged by uneven wear. To solve this problem, an automatic analysis device has a syringe pump that feeds and aspirates a liquid into and from a dispensing unit. The syringe pump has a syringe tube that stores a liquid, a plunger that moves up and down in the syringe tube, a plunger upper pressing component that contacts the plunger, a motive force transmitting part that transmits motive force to the plunger via the plunger upper pressing component, and a plunger lower pressing component that contacts the motive force transmitting part. The plunger upper pressing component and the motive force transmitting part make point contact with each other, and the motive force transmitting part and the plunger lower pressing component make point contact with each other.

The present disclosure relates to a method and a solid phase microextraction sampling instrument for inserting into or through a solid or semisolid material to extract a component of interest from a sample, comprising a support structure at least partially coated with an extraction phase for extracting the component of interest, a protrusion that shields the coating during insertion, where the distances within a cross-sectional plane of the sampling instrument are greater than or equal to the corresponding distances in all of the cross-sectional planes located between the cross-sectional plane of interest and the insertion end of the sampling instrument. The present disclosure also discusses methods of making the instrument, desorption chambers, and methods for desorbing a component of interest from the instrument.

Disclosed in the present invention is a full-automatic western blot processing system, comprising a housing, and further comprising: an incubation shaker mounted in the housing; a constant-temperature unit mounted in the housing; a membrane box chamber configured to carry a membrane box body and provided on the incubation shaker; a pipetting unit mounted on the incubation shaker and configured to complete pipetting, liquid addition, and liquid discharge in the membrane box body; a control unit mounted in the housing, the incubation shaker, the constant-temperature unit and the pipetting unit being all connected to the control unit, and the control unit being electronically connected to a mains supply; and a human-computer interaction unit mounted on the surface of the housing and connected to the control unit.

This invention relates to devices and methods for purifying, detecting and using biological cells. A variety of cell types including viable tumor, stem, immune and sperm cells can be purified from a complex biological sample using a column, including a pipette tip column. Methods of the invention can aid research, diagnosis and treatment of cancer. Purified viable cells can be detected on the column or eluted from the column and detected. Cells on a column can be used as a stationary phase for liquid chromatography. Cells may be removed, recovered and analyzed.

A pipette tip includes a main body section; and a straight pipe section disposed at the leading end of the main body section, in which the inner diameter of the straight pipe section is 0.8 mm to 1.5 mm inclusive, and the length of the straight pipe section is 5 mm to 15 mm inclusive.

The present invention relates to a system for conducting the identification and quantification of micro-organisms, e.g., bacteria in biological samples. More particularly, the invention relates to a system comprising a cooling, heating and fan arrangement for maintaining a predetermined optimum temperature of the samples during testing; a visual, circumferential and axial alignment system for aligning the samples within the carousel; a transfer system for transferring the samples from the carousel to the centrifuge; a balancing system of minimizing the rotational vibrations of the centrifuge; a safety system and anti-tipping design for the sample containing system; liquid dispensing arms for dispensing the buffered saline solution; and discharge ports for discharging and disposing of the liquid removed from the samples to a location external of the system.

A pipette tip supply mechanism includes: a pipette tip storage unit for storing a plurality of tapered shaped pipette tips; a belt for transporting a pipette tip supplied from an opening of the pipette tip storage unit; and a belt drive unit that drives the belt in a transport direction. The belt is inclined upwards toward the transport direction so that the pipette tip is rotatable around a longitudinal axis of the pipette tip on a surface of the belt and the pipette tip is rolled to orient the longitudinal axis of the pipette tip along the transport direction in conjunction with the drive of the belt in the transport direction.

This invention relates to devices and methods for purifying biological cells. For example, viable tumor, stem, immune and sperm cells can be purified from a complex biological sample using a pipette tip column. Methods of the invention can aid research, diagnosis and treatment of cancer.

The present invention is concerned with an autonomous sampling system for use in a pharmaceutical facility in order to effect the autonomous sampling of pharmaceutical substances being manufactured in the facility and/or for effecting the autonomous sampling or monitoring of environmental conditions within the facility.

This invention relates to devices and methods for purifying biological cells. For example, viable tumor, stem, immune and sperm cells can be purified from a complex biological sample using a pipette tip column. Methods of the invention can aid research, diagnosis and treatment of cancer.