SU1068391A1 - Liquid sampling device - Google Patents

Description

The invention relates to liquid samples for sampling and can be used to take medium samples of liquids flowing through a pipeline. A sampler is known that contains a dispenser divided into a flexible tube number 5 into chambers, sampling tubes located in a process pipe equipped with a diaphragm, and a drain tank connected to the metering tube by drawbacks of this device. Closest to the proposed technical essence and achievable, the result is a device containing a sampling tube connected to a dispenser equipped with a flexible membrane and a drain valve. The disadvantages of the known device are the rather low quality of sampling, the relatively large pressure losses in the pipeline and the structural sensitivity is relatively low. The aim of the invention is to increase the representativeness of the samples and expand the range of use of the device. This goal is achieved. In the device for sampling liquids from a pipeline containing a sampling tube connected by a nozzle with a dispenser equipped with a flexible membrane and a drain valve, the pipeline and the nozzle are equipped with cylinders with rotors installed inside them. the groove while the rotors are equipped with spring-loaded partitions installed in the grooves, and a rigid connecting axis, and the nozzle is installed co-axially with the sampling tube; in addition, the device is equipped with a reducer mounted on a rigid axis. The drawing shows a schematic diagram of the device. The sampler includes a tube 2 vertically installed in the pipeline 1 and a sampling tube 2 in which holes 3 are made, which are oriented towards the flow. Sampling device, tube 2 and nozzle 4 are mounted concentrically and communicated respectively by nozzle 5 and tube b with an externally mounted metering unit 7, equipped with a flexible meter 8. On nozzle 5 is installed: f provided with radial grooves 12 and 13 with movable partitions 14 and 15, between which a spring 16 is installed. The rotor 11 is connected by an axis 1.7 to the rotor 18 of a volume counter 19 installed in pipeline 1, the rotor 18 is eccentrically placed in cylinder 20 and removed Abgen radial grooves 21 and 2 2 placed in them movable baffles and 23 and 24, between which is located the spring 25 Between the volumetric counter 9 and the dispenser 7 on the nozzle 5 are installed two-way valve 26 with a drain pipe 27 gear 28 (shown by the dotted line). The device operates as follows. In the initial state, the rotors 11 and 18 volumetric counters 9 and 19 are in an arbitrary position, the flexible membrane 8 is located at the bottom of the dispenser T g filled with fluid from pipe 1 through pipe 4, tube b. to such a position, when the dispenser 7 is in communication with the volumetric counter 9. When the rail is moving in the pipeline 1 in the direction indicated by the shooter,; the baffle 23 is under pressure, which forces the rotor 18. rotate clockwise, the baffles 23 and 24 at this time being pressed against the shapes of the cylinder 20 in the right direction 25, fixing a certain volume between them. The rotation of the rotor 18 through the axis 17 is provided to the rotor 11, which also rotates clockwise, and its movable partitions 14 and 15, pressed by the spring 16 to form the cylinder 10, fix a certain volume of fluid moving from the sampling tube. 2 through the pipe 5 into the metering device 7. This expels the liquid from the metering device 7 through the pipe 6, the pipe 4 into the pipe 1, and the flexible membrane 8 moves upwards. The dispenser 7 is filled with a sample. To drain the sample into the container, the two-way valve 26 is placed in position when the dispenser 7 is disconnected from the volume counter 9 and connected to the drain pipe 27 and the sample under the pressure of the fluid flowing from pipe 1 through pipe 4 to tube b into the above-membrane space of dispenser 7 through the drain tube 27 into the container. The membrane 8 is flexible while moving down. After the sample has been drained, the two-way valve 26 is placed in position when the dispenser 7 is connected to the volume counter 9, the device returns to its original state and the cycle repeats.

To increase the ratio between the volumes of fluids flowing through the pipeline 1 and the nozzle 5, a reducer 28 is used, which is mounted on the axis 17, which expands the scope of application of the samplers.

The proposed device allows to expand the functionality of the device for the introduction of a 4 volume counter, which performs accounting functions; reduce the pressure loss in the pipe line by not using the diaphragm; to knock up the sensitivity of the device due to the practical incompressibility of the fluid and the rigid connection of volumetric counting, when the slightest movement of fluid in the pipeline leads to rotation of the rigidly connected with the tetchki and therefore to the selection of the corresponding sample volume, which cannot be said about the basic object; . improve the quality of sampling, since, knowing the gear ratio on volumetric counters /, it is always possible to determine from the sample volume the amount of fluid that this sample is

0 sets (the amount of flow through the fluid pipeline), which is especially important when determining the integral quality indicators, as weighted averages.

five

Claims (2)

1. A DEVICE FOR LIQUID SAMPLING from a pipeline, containing a sampling tube connected by a nozzle to a dispenser, equipped with a flexible membrane, and a drain cock, distinguished by the fact that, in order to increase the representativeness of the samples and expand the range of use of the device, the pipeline and pipe are equipped with cylinders with rotors with radial grooves installed inside them, while the rotors are equipped with spring-loaded partitions installed in the grooves and a rigid connecting axis, and the pipe and sampling tube are installed vle ^1, coaxially with us. 2. The device p.p. 1, the fact that it is equipped with a gearbox mounted I on a rigid axis X Yeo ί