SU649954A1 - Liquid or gas sample metering-out apparatus - Google Patents

Description

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The invention relates to devices for metering liquid or gas samples to a chromatograph or other analyzing device under pressure or under normal conditions, as well as samples that are not allowed to come into contact with the environment.

A device is known for sampling, metering and feeding a sample of a product containing a rod-pipette, which is movably mounted in a tube equipped with inputs of a carrier gas and the product to be analyzed, with a blind plug at the end, and a plunger with a stuffed seal, which can be moved along the rod. pipette 1.

However, the known device includes a large number of complex assemblies and parts, which makes it difficult to manufacture and operate. In addition, when using the device, the analyzer must be equipped with an additional stabilized carrier gas line and a special squeeze device.

Of the known devices, the closest in technical essence to the proposed is a syringe for dispensing samples of liquid or gas into a chromatograph, comprising a housing located inside it

piston with rod, needle with axial bore and locking device 2.

The disadvantage of the known syringe is that in it, after collection, it is sealed

only that portion of the specimen that is in the cylindrical body, and the portion of the specimen that is in the needle is in communication with the environment. It is possible as the output of this part of the sample, if it is

under pressure, into the environment, and diffusion of environmental products into the needle channel with a change in the composition of this part of the sample. This is significantly dosing accuracy, since part of the sample is from

The needle channel first enters the analyzer and tells you the test results.

The purpose of the invention is to improve the accuracy of dosing.

The goal is achieved by the fact that in the lower part of the needle there are made in the same plane radial holes, in the needle channel between them and its end there is a stopper, and a stop

the device is made in the form of a hollow cylinder, one end of which, ending in a ledge, rests on a stop fixed on the needle above the radial holes, and the other on the spring-loaded

a sleeve with a gland mounted on the needle with the possibility of movement.

FIG. 1 shows the proposed device in section; in fig. 2, a, b, c-device at various stages of its operation (a - at the time of collection of the sample; b - after the collection of the sample at the time of transfer; c - when the sample is introduced into the analyzer).

A piston 2 with a stem is mounted inside the housing 1, a needle 4 is attached to the housing by means of a cannula 3, the radial holes 5 are made at the end, and a stopper 7 is located in the axial channel 6. A locking device consisting of a hollow cylinder 8 is mounted in the axial channel 6 the end of which, ending with step 9, rests on the stop 10 fixedly mounted on the needle with a screw 11, and the second end is connected to the sleeve 13, a spring-loaded spring 14 and provided with a gland 15 mounted on the needle for movement. The gland portion 16 facing the end of the needle is made protruding from a spring-loaded sleeve 13 to provide a tight connection between the device and the point of sampling and insertion.

The device works as follows.

Before sampling, the piston 2 fits tightly with the bottom of the housing 1, while during the movement of the piston to the bottom, the oil seal 15 is lifted, opening the radial holes 5, and after the piston joins the bottom of the body, the oil seal 15 is released, and it moves down and seals radial holes 5. The device, ready for sampling, brings the product under test to vessel 17 and, holding the cylinder 8 at the bottom of the cylinder, at the end of the needle, tip the plug 18 and attach the projecting portion 16 of the stuffing box to it, ensuring tightness between the gland and glushka. Next, by compressing the spring 14, a needle is inserted into the vessel and a set of samples is made upward by piston movement (Fig. 2, a).

When the needle 4 is withdrawn from the vessel, the oil seal 15 under the action of the spring 14 moves along the needle down to its end and seals the radial holes 5 of the needle, the compartment of the sampled sample from the environment (Fig. 2.6). The sampled lossless and its contact with the environment is transferred to the analyzing device 19, where it is entered (Fig. 2, c). The needle sticks the plug 20, while ensuring tightness between the gland 15 and the plug 20 in the same way as when taking a sample, then the needle is inserted into the channel of the device, and the sample is pushed by the action of the piston 2 into

device

Thus, the proposed device makes it possible to seal the needle at the moment of taking a lumber, when it is irradiated with the device.

Ф О рм Л and inventions

A device for dispensing a sample of a liquid or gas, comprising a housing, inside it a norn hole with a stem,

a needle with an axial channel and a locking device, characterized in that, in order to improve metering accuracy, radial holes arranged in one plane are made in the same plane, a stopper is installed in the needle channel between them and its end, and the locking device is designed as a hollow cylinder , one end of which, terminating by usuiom, rests on the support fixed still

on the needle above the radial holes, and the other on the spring-loaded bushing with the oil seal mounted on the grip with the possibility of movement.

Information sources,

taken into consideration at the examination

1. Author's certificate of the USSR. To 382966, cl. G 01F 11/04, 1970.

2. USSR author's certificate number 384013, cl. G 01F 11/04, 1970.

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