SU1006979A1 - Device for measuring liquid density - Google Patents

Abstract

DEVICE MEASURING THE DENSITY OF A LIQUID CONTAINING A CONTAINER CAPACITY, the bottom of which is made in the form of an elastic element on which is installed a shadow resistor, included in the pavement measuring circuit, which is designed to provide a capillary tube for accelerating the process of analyzing the micro-quantity of the liquid. a cylindrical bowl located in the upper part of the capillary, the lower end of which is provided with a supporting cylindrical container in which. The gun is installed. . but with so

Description

The invention relates to a measuring technique, in particular to a device for measuring the density of liquid media, and can be used, for example, to measure the density of micro quantities of biological fluids. $

A pycnometer is known for very small amounts of liquid, the so-called micropictometer, which is a capillary tube equipped with a scale. The test liquid is sucked into the capillary 1® using a siphon or a medical syringe, the needle of which is inserted into the capillary, or by vacuum [1J.

This pycnometer does not provide 15 rapid analysis, which is important for biological fluids.

Closest to the invention in technical essence is a device for measuring the density of liquid media, in which a tank is provided, the bottom of which is made in the form of an elastic element, on which a strain gauge is mounted, which is included in the bridge measurement circuit 75 [23.

However, the known device does not allow to analyze the density of micro-quantity of liquid.

The aim of the invention is obes. “• Baking of a rapid analysis of the density of biological fluids of insignificant volume.

The goal is achieved by the fact that in the device for measuring the density of a liquid containing a container, the bottom of which is made in the form of an elastic element on which a strain gauge is fixed, which is included in the bridge measuring circuit, the tank, made in the form of a capillary, is equipped with a cylinder bowl located in. the upper part of the capillary, the lower end of which is equipped with a supporting cylindrical container in which the jet device is installed. ‘45

The drawing shows a diagram of the device.

The device contains a container made in the form of a capillary tube 1,. 50, the upper part of which is made in the form of a cylindrical bowl 2, and the lower part is also made in the form of a cylindrical support vessel 3, on the lower part of which an elastic dia-55 of fragment 4 of elastic thin rubber is fixed. The diaphragm 4 is fixed standard gage 5 of known type, connected to the measuring system mo'stovoy known type (did not regard, but _n). The elastic membrane 4 is fixed® ⁰ in the support tank 3, for example, using a nut 6.

On the supporting tank 3 there is a device for discharging air when filling the device with liquid and purging the device when it is released from the test liquid, made in the form of a pipe 7 with a locking element movably installed in it - nozzle 8. A pipe 9 is fixed to the pipe for connecting it to the suction and pumping devices.

The device operates as follows.

First, the pipe 9 is connected to a suction device (not shown) and the locking element is removed from the pipe 7. Then, the test liquid is poured into the bowl 3, which fills the capillary tube 1 and the container 3 until the liquid appears in the pipe 7, after which the element is installed in this pipe 8 and the test liquid is additionally poured into the cup 2 to a certain calculated level (not shown). The estimated level is determined in a known manner in determining the estimated height of the liquid column.

In connection with the execution of the upper and lower parts of the capillary tube in the form of expanded cups, the test fluid freely fills the capillary tube 1, as well as the container 3 and exerts corresponding pressure on the diaphragm 4, which moves and changes the resistance of the strain gauge 5. In connection with a change in the resistance of the strain gauge imbalance of a previously balanced bridge measuring circuit, the value of which is used to judge the density of a liquid. In this case, the imbalance is proportional to the density of the liquid and is measured using a pointer device of a known type, the scale of which is calibrated in units of density.

After the next density measurement of this fluid, for example, a patient’s blood sample, the device is washed by simply pumping the washing liquid through the channel of the capillary tube 1 or by means of a pumping or suction device connected to the nozzles 7 and 9. Then the measurement cycle is repeated; ^

Thus, the device provides the ability to measure the density of a liquid of small volumes and can be used to measure the density of biological fluids.

VNIIIPI Order 2128/66 Circulation 871 Subscription '

Branch of PPP Patent, Uzhgorod, Project 4,

Claims (1)

DEVICE FOR MEASURING DENSITY OF A LIQUID, containing a tank, the bottom of which is made in the form of an elastic element; on which a strain gauge is mounted, which is included in the bridge measuring circuit, characterized in that, in order to accelerate the process of analyzing the micro-quantity of liquid, a container made in the form of a capillary is provided * on a cylindrical bowl located in the upper part of the capillary, the lower end of which is equipped with a supporting cylindrical container, wherein. installed jet device. 6Z69001 ^ON W