A photometric dispensing nozzle unit, a photometric dispensing apparatus, and a photometric dispensing method are for preventing an increase in apparatus scale and have a simple structure to be easily handled. A nozzle performs suction/discharge of gas through a distal end opening and can have a dispensing tip attached thereto. A light guide end portion is provided in the nozzle and can receive or irradiate light at a distal end of the nozzle. A dispensing cylinder has a cylinder having a cavity therein, a plunger that is slidable in the cavity, and a suction/discharge port that performs suction/discharge of gas. A suction/discharge flow path passes through the nozzle and communicates with the suction/discharge port and the distal end opening of the nozzle. A light guide path is optically connected to the light guide end portion through the nozzle but not through the dispensing cylinder.

Disclosed are a reagent holder, a testing apparatus assembly, an aqueous humor collection device and an aqueous humor collection method. The reagent holder (9) comprises a holder body and a functional station arranged on the holder body, wherein the functional station comprises a fluid holding tube insertion hole (91) and an elastic component. The elastic component can elastically act on a fluid holding tube (106) in the case where the fluid holding tube (106) is inserted into the liquid holding tube insertion hole (91) so as to enable the fluid holding tube (106) to elastically move in the direction of the central axis of the hole of the fluid holding tube insertion hole (91). By means of using the reagent holder to elastically fix the fluid holding tube (106), the rigid collision between a fluid drawing device and a bottom wall of the fluid holding tube (106) can be converted into an elastic collision, so as to prevent a testing apparatus from triggering a firing pin protection function during the fluid drawing process, such that the depth to which the fluid drawing device can extend into the tube cavity of the fluid holding tube (106) is greatly increased, and the sample extraction amount is thus effectively increased.

The present disclosure provides better aspiration and dispensing by a common innovative mechanism by (i) offsetting the diameter of a bottom piston (tube) with a slightly narrower top piston (rod) when the two are swept together by O-rings to give extremely fine resolution, thereby eliminating the need for any filamentous piston and sealing means, (ii) letting the bottom tube be swept alone without offset to give high flow (iii) using a tapered top rod with thick-walled compliant O-ring seals to increase the resolution multiplier another order or magnitude, (iv) an at-the-ready interpiston space for contact-free blowoff, including viscous samples, (v) dead space filler mandrels and an integrated small valve to reduce or eliminate interpiston and disposable tip space prior to aspiration, and (vi) a mechanism for storing energy during disposable tip pickup to shoot dispensed samples contact-free down into long tubes.

A device for a multi-channel pipetting system, comprising a piston holder, a guide rod of the piston holder, which guide rod is mounted slidably in a guide member, a plurality of pistons having a bottom end housed slidably in a suction chamber, and a piston head mounted on the piston holder by way of a mechanical connection. The mechanical connection comprises two contact points which conjointly define a piston-head rotation axis oriented orthogonally with respect to the transverse direction and to the longitudinal central axis of the pipetting system, and the device additionally comprises, associated with the piston, return spring which force the piston head upward against the piston holder, so as to establish the two contact points.

A dropper includes a bulb, a pipette coupled to the bulb, and a cap coupled to the bulb. The dropper is composed entirely of recyclable material that complies with specifications of a same recycle code. In one embodiment, the bulb, the pipette and the cap each includes a cycle symbol for cycle code “5”. The dropper is recyclable as a single unit. In one embodiment, the pipette includes an undercut on an inside of the pipette nearest the bulb. In one embodiment, the dropper also includes a button and a collar, and the dropper is attached to a bottle such that depressing the button squeezes the bulb and causes the dropper to dispense contents of bottle. In one embodiment, the dropper includes a combined bulb and cap composed entirely of recyclable material that complies with recycle code of “5” specifications.

A pipette comprises a pipette housing, a neck configured to clamp on a pipette tip, and a drive apparatus. The drive apparatus comprises a drive element configured to displace a displacement element to draw a liquid sample into the pipette tip and to eject the liquid sample from the pipette tip. A scanning apparatus comprises a scanning element positioned proximate the neck and configured to be displaced relative to the pipette housing by a collar of the pipette tip when clamping the pipette tip onto the neck. A mechanical display apparatus is coupled to the scanning apparatus and comprises a display. When the pipette tip is clamped to the neck the scanning apparatus is configured to adjust the display depending on a height of the collar of the pipette tip relative to the neck, and the neck is configured to accommodate different collar heights.

The present disclosure provides better aspiration and dispensing of liquids by an innovative mechanism by (i) offsetting the diameter of a bottom tube with a narrower and tapered top piston when the two are moved together in the same chamber to give extremely fine resolution, thereby eliminating the need for any skinny or filamentous piston, (ii) using thick walled compliant O-rings to seal against the different diameters of the tapered piston to given an additional order of magnitude range of resolution, (iii) letting the bottom tube move in the chamber alone without offset to give high Row, and (iv) an at-the-ready space between the tube and piston in the chamber to permit contact-free blowoff, including viscous samples.

An apparatus, system, and method combining a liquid transfer device with a non-contact liquid fill height sensor to improve the reliability, accuracy, and precision of liquid transfers and to determine liquid fill height and liquid volume in a container before or after liquid transfers.

An adapter for connecting an array of pipette tips having through bores with conical upper ends to a multichannel air displacement pipettor having a plurality of ports with compliant internal sealing surfaces. The adapter comprises a planar base with an array of openings extending between its top and bottom surfaces. Sealing tubes project upwardly from the top surface, and tip mounting tubes project downwardly from the bottom surface, with pairs of sealing tubes and tip mounting tubes being arranged coaxially and in communication with respective ones of the openings in the base. The tip mounting tubes are externally dimensioned and configured for insertion into the conical upper ends of the pipette tips, and the sealing tubes are externally configured and dimensioned for insertion into the ports of the pipettor and into sealing interengagement with their compliant internal sealing surfaces.

A lab-on-chip type system, capable of identifying antibiotic sensitivity at the point of care of patients, especially in rural areas, clinics, hospitals that do not have care 24/7, hospitals with low level of equipment, among others, from the extraction of a sample, comprising a micro device or medical base device and a dispenser, wherein said micro device comprises a plurality of microwells, arranged in a circular fashion on one of the faces of the micro device, and wherein the micro-dispenser comprises a central plunger for taking and supplying the sample, a chamber for storage and distribution of the sample and a plurality of microdispensers arranged in a circular manner through which the sample is introduced into the microwells of the micro device.