SU17834A1 - Aspirometer - Google Patents

Description

The proposed aspirometer serves to take a gas sample by sucking gas into a chamber with liquid, with a determination of the capacity taken, directly from the determined amount of liquid flowing into another chamber, the same as the first; herewith, thanks to the application of the tilting hourglass principle, the size of the sample, which can be arbitrarily large, is simple and b) simple accounting. The device is intended, in particular, to take air samples, for the purpose of studying its composition, in solving problems of occupational hygiene, for example, in the occupational health and safety of production.

In FIG. 1 shows a vertical section of the aspirometer along its axis; FIG. 2-diagram in the same projection; FIG. 3 is a diagram of the device with two cameras, side view; FIG. 4-diagram of the device with six cameras ..

The aspirometer consists of two (FIG. 3) or more, but an even number (FIG. 4) of completely identical empty chambers 11, rotatable when

the aid of the sleeve 12 on the fixed axis 4. The chambers communicate in pairs in a certain position with each other through the through holes in the sleeve 1 and 1 when they become opposite to the vertical channel in the axis 10. The other through holes in the sleeve 2 and 2 are alternately connected in same position with the help of cranked channels 3 and 3, made by device 4, with outside air (Fig. 1, 2, 3): hole 2-with input channel 5 in the axis of device 4, through the cranked channel 3, through a U-shaped pipe 6 inside the chamber and through: the semi-circular channel 7 (in the upper part of the axis), and from 2-ERSTU the branch pipe 8 into the tool axis 4 through the crankshaft passage 3. At the same time krnts U-shaped tube 6 of the lower chamber are not connected with axial kang1lami and the pipe remains completely closed. If the lower chamber is filled with a certain amount of liquid through the outlet pipe 8, channel 3 and channel 2 against the direction of the arrows in the drawing, and then rotate the aspirometer 180 ° around

axis 4, i.e. so that the lower chamber filled with liquid passes upwards, the liquid rushes through the through holes 1 and 1, which are connected at this moment by the linear channel 10 in axis 4. The vacuum of the inner space of the upper chamber will cause air entrainment in the inlet channel 5 through channel 3, through pipeline b, the semicircular canal 7, and through channel 2, the air will be blown out into the chamber above the surface of the outflowing fluid. Filling the bottom chamber, the liquid will force the air through channels 2 and 1 and through the discharge pipe 8 in the axis of the device.

When all the liquid passes from the upper chamber to the lower p, you need to turn the aspirometer through 180 ° again, and then the same phenomena will repeat. Thus, only the position of the chambers changes by rotating the device around its axis 4; any amount of air can be sucked. Work on the rotation of the device can be done either manually, with little work, or mechanically. For larger lab work, a counter can be installed indicating the number of changes in the chambers' position, and multiplying with IT: the number of circulating liquid capacity, you can quickly and accurately determine the amount of sucked air or other gas mixture.

Predgyet patent.

1. An aspirator, characterized by the use of pivotally mounted on a fixed axis 4 with 3, 3, 10 and 7 channels of one or more pairs of hollow chambers worn on a designated axis by means of a sleeve 12 tightly attached to it, equipped with through holes 1, 1, 2 and 2, mating with axial channels 10, 7, 3 and 3 and U-shaped curved pipes 6 and 6, which coincide in the upper position with the openings of the channels 3 of Ich7 facing upward, so that when installed in the upper position of the chamber, filled with water or other liquid, last flowed into the lower chamber through the channel 10, the air is forced out of it through the exhaust pipe 8 and the intake air is drawn in through the channel S, which flows in through the pipe 6 and the upper opening 2 that is separated in bubbles through the water filling the chamber turned upwards .;

2. The form of the discharge of the aspirometer indicated in paragraph 1, characterized in that instead of paired chambers a drum is used, divided by partitions 13 into an even number of compartments 11, connected in pairs by a channel 10 and apertures 11 (Fig. 4) .

, 54 and g

"| EIP2