A method for fills and/or cleans the measurement cell of a measuring instrument, namely a viscometer and/or density measuring instrument, in particular of a rotational viscometer. A sample is introduced via a sample line into the measurement cell by a pump, and wherein a dynamic viscosity and/or density of the sample is determined in the measurement cell. A funnel-shaped, reversibly openable receiving container, in particular a filling funnel, for the sample, is arranged in the sample line, between the pump and the measurement cell. The receiving container is opened and the sample is introduced into the receiving container. The receiving container is connected to the pump via a pressure line in such a way that, when pressure is applied into the receiving container, a proportion of the sample is dispensed out of the receiving container and introduced into the measurement cell.

Measurement arrangement for determining a constituent substance or quality parameter of water by thermal decomposition in a reaction module, delivery of the reaction product to a detector in a carrier gas flow, and evaluation of a detector signal for deriving a value of the constituent substance or quality parameter, wherein the reaction module is a vessel of vertical orientation during operation having an internal resistance heating or infrared heating, and has a head section into which the sample is introduced, a reaction zone, where the thermal decomposition is performed, as well as a foot section, from which the reaction product is output in the carrier gas flow, wherein the head section of the reaction module has an injection port for temporarily introducing an injection needle or permanently supporting a small supply tube, which injection port comprises an O-ring which is internally spring-loaded by a silicon padding or an inserted spring.

The invention discloses an atomic fluorescence analysis method and device using water as a carrier fluid, belonging to the atomic fluorescence analysis in the field of analytical chemistry; the method is to replace hydrochloric acid and a reducing agent with water as the carrier fluid in the conventional sampling and fluid delivery process to carry the test liquid and reagent into the reactor to complete a reaction. The invention effectively overcomes the memory effect by using water as the carrier fluid and improves the determination sensitivity and accuracy, which saves a large amount of high-purity hydrochloric acid and reducing agent at the same time, greatly reducing the analysis cost, and significantly improving the operating environment, which is the innovation of atomic fluorescence analysis technology.

Measurement arrangement for determining a constituent substance or quality parameter of water by thermal decomposition in a reaction module, delivery of a reaction product to a detector, and evaluation of a detector signal for deriving a value of the constituent substance or quality parameter, wherein the reaction module is an elongated vessel having internal heating, and has a head section into which the sample is introduced, a reaction zone, as well as a foot section, from which the reaction product is output, wherein the reaction module, the heating, and means for the supply of samples and carrier gas are configured such that during the operation of the measurement arrangement an outer head temperature is T.sub.H≤80° C., and an outer foot temperature is T.sub.F≤150° C. at a maximum temperature in the reaction zone of T.sub.MAX≥1150° C.

An injector includes an injection device and a round turret provided on a front side of the injection device. A sampler is provided with a vial holder and a conveyance arm. The injector has an accessible structure in which a moving path of the conveyance arm of one sampler arranged on the side of the two injectors for accessing the round turret of each of the two injectors is secured regardless of the size of the round turret, when two injectors are arranged so that the back sides of the injection devices face to each other.

The present invention comprises an aggregate sample device comprising an air compression system mounted to one side of an aggregate conveyor belt frame. Mounted on the opposite side of the conveyor is a crossover housing that is joined to a discharge chute. The compression system is comprised of a compressor that charges an air tank. Projecting out of the air tank is a air discharge line that has on its terminal head a nozzle which is inserted into an aperture located in an end plate of the crossover housing such that the nozzle is in direct proximity to aggregate traveling on an aggregate conveyor. The compression system is charged such that the air tank reaches an ideal pressure and then an operator deploys a switch which releases a volume of air at high pressure such that a sample of aggregate on the conveyor is blown off the conveyor, constrained by the crossover housing and directed into the discharge chute where the aggregate is directed downward into a sample receptacle.

The present invention provides an analytical system comprising a sample management module. A pressure delivery assembly is configured to compress and deform a mixing chamber containing a sample preparation, and simultaneously open a plug of the mixing chamber to release the sample preparation. The system can be manufactured as a sample box combinable to a detector box, and is particularly convenient for patients to use at home, for example, screening colorectal cancer with their fecal sample.

The invention discloses an atomic fluorescence analysis method and device using water as a carrier fluid, belonging to the atomic fluorescence analysis in the field of analytical chemistry; the method is to replace hydrochloric acid and a reducing agent with water as the carrier fluid in the conventional sampling and fluid delivery process to carry the test liquid and reagent into the reactor to complete a reaction. The invention effectively overcomes the memory effect by using water as the carrier fluid and improves the determination sensitivity and accuracy, which saves a large amount of high-purity hydrochloric acid and reducing agent at the same time, greatly reducing the analysis cost, and significantly improving the operating environment, which is the innovation of atomic fluorescence analysis technology.

A device for the sampling and extraction of a granular solid in a pack of granular solids, containing a sampling probe (1), a sample collector (2) connected to said sampling probe (1), and a controller (3), the sampling probe (1) comprising a sampling tube (4) and at least one transfer tube (5), the sampling tube (4) and transfer tube (5) containing at least one central conduit and at least two lateral conduits, wherein the central conduit (6a) of the sampling tube (4) contains a collection chamber (10) containing a system (11) for retaining the granular solid, and the lateral conduits (7a, 7b) of the sampling tube (4) and transfer tube (5) are connected to a source of gaseous fluid (12) which is capable of extracting the granular solid retained in the collection chamber (10) via the lateral conduits (8a, 8b) of the sampling tube (4) and transfer tube (5).

The present invention provides an analytical system comprising a sample management module. A pressure delivery assembly is configured to compress and deform a mixing chamber containing a sample preparation, and simultaneously open a plug of the mixing chamber to release the sample preparation. The system can be manufactured as a sample box combinable to a detector box, and is particularly convenient for patients to use at home, for example, screening colorectal cancer with their fecal sample.