SU27861A1 - A device for transmitting to a distance various phenomena of processes, states, etc. - Google Patents

Description

The present invention relates to a device for transmitting various phenomena, procedures, etc., in which transmission is carried out using a gaseous medium and which is equipped with two systems operating in opposite directions to the pointing device, one of which serves for perceive all factors affecting the device, and other factors affecting the same factors, with the exception of the transmitted and measurable factors.

According to the invention, the proposed device consists of a sensing device and a compensating one, each connected to the air spaces of the vessels filled with liquid, one of which, in turn, is siphoned to the vessel’s container, and the other to the other vessel floating in the vessel. first and equipped with a float and a pointer or transmitter.

In FIG. 1 shows a device diagram; FIG. 2 and 3 are its modifications. The device is designed in such a way that its readings do not depend on fluctuations in temperature and ambient atmospheric pressure. It consists

from two main parts: perceiving and compensating. The perceiving part, in the case of using a device for detecting harmful gases, consists of a porous vessel 1, serving as its sensing device, connected via a pipe 2 to an air space of a closed vessel 3, partially filled with liquid and equipped with a valve 13 and an appendage 16 (Fig. 1 ). By means of the siphon 4, the liquid of the vessel 3 communicates with the liquid of the vessel 5 in which the vessel 7 floats, filled with liquid and equipped with floats 6 and a pointer 8. The compensating part of this device consists of the vessel 15 connected by pipeline 9 to the air space of the vessel 10 equipped with a porous appendage 12 and the valve 14 and partially filled with liquid, which is communicated by means of a siphon 11 with the liquid of the vessel 7. In this case, it is necessary that the vessels 1 and 12 are equal to each other, and the vessel 15 is equal to the appendage 16. Difference of the vessel 1 from vessel 15, the pores of vessel 15, on the inside, are coated with glaze or the like. In addition, and all other similar

parts of the receiving and transmitting systems must be respectively equal in volume to each other.

Vessels 1 and 15 are installed at the point of detection of harmful gases, vessels 3, 5, and 10 are installed in the control room, and it is desirable to cover them with a glass cap or the like. If harmful gases appear, they are of a different density than air, the pressure in the vessel 1 will change, which will lead (as understood from the diagram) to the movement of siphon 4 from vessel 3 into vessel 5 or vice versa and, following the level change, vessel 7 will rise up or down. By means of the pointer or transmitter 8 acting on one or another signaling device, the control point will be notified of the danger.

Changes in temperature or ambient pressure will not reflect on the readings and operation of the device, since with these changes, the elasticity of air in both parts of the device, both in the sensing part and in the compensating part, will change in the same way. When the pressure on the surface of the liquid in the vessel 5 is lowered, the level of the liquid in it will begin to rise, since the air in the vessel 3 still has the same high pressure and will squeeze 4 the liquid from the vessel 3 into the vessel 5. In the absence of a compensating system, this would result raising the floating vessel 7. But if such a vessel exists, vessel 7 will not rise, since the air enclosed in vessel 10 and having the same initial pressure as in vessel 3 will displace this amount of water into vessel 7 (provided that the vessels one and that the same liquid and that their volumes are equal to each other), that vessel 7 will sink as much as it has tended to rise.

- To check the health of the device using taps 13 and 14, air is admitted to vessels 3 and 10 at the same pressure. If both systems are working, the floating vessel 7 will remain stationary. But the same can happen when both systems fail, so you need to blow each of them separately. With the complete health of the entire system, vessel 7 must first change

its position, then when another valve is opened, return to the zero position.

FIG. Figure 2 shows a diagram of a modification of the device described above in the application of the latter to the limnigraf. In this modified device, the reservoir 3 in its lower part communicates with the vessel 5 by means of an opening 17, and the sensing device 1 has the form of a balloon with an opening 19 in the lower side wall.

When the water level in the reservoir changes, a column of water in the cylinder l connected to the reservoir through hole 19, rising or falling will cause compression or depression of air in pipeline 2 and vessel 3. This change in air pressure will affect the level change. fluid in vessel 5, whereby vessel 7 rises or falls. Attached to the last feather 8 will note these vibrations on the rotating drum 18 belt. The effect of the replacement part is that when the conditions in the external environment change, the pressure in the air in the cylinder 15, pipeline 9 and vessel 10 will change by means of a siphon 11 water in the vessel 7. The latter circumstance will lead to a change in the buoyancy of the vessel 7. In the same way, due to the same reasons, the change in air pressure in the transmitter system of the device to the effect on the buoyancy of vessel 7 direction will be compensated. The hole 19 is made so large that the swell on the surface of the water does not affect the operation of the device in the transmission system. Vessel 1 is filled with an antifreeze, and poorly evaporating liquid is poured into vessels 5 and 7. FIG. Figure 3 shows a schematic of a different modification of a device in which a liquid is used as a transfer medium. In this device, vessels 5 and 7 are directly connected to pipelines 9 and 2, respectively. When using this device for temperature measurement, a reservoir 1 filled with a large expansion coefficient fluid and connected to pipeline 2 serves as a sensing device, the other end of which

The vessel is filled with liquid 5. The compensating system consists of pipeline 9, one end of which is sealed and the other is: lowered into the liquid of vessel 7, floating in vessel 5 and fitted with a float 6 and indicator 8,

The subject matter of the invention.

Claims (5)

1. A device for transmitting to a distance various phenomena, processes, states, etc., in which, as a transmitter, a gaseous medium is used, which is cleared by using a vessel 7 floating in a liquid, filled with liquid and supplied with a float and an indicator or transmitter 8, wherein the liquids of the tanks 5 and 7 communicate with the siphons 4 and 11 with the liquid of the closed vessels 3 and respectively 10, the air spaces of which are connected by pipelines 2 and 9, one gs receiving device, and the other with compensating (FIG. . one). 2. In the device according to claim 1, in the case of using it to detect harmful gases, use, as a receptacle, a porous vessel 1 fixed to pipeline 2, and as a compensating device a similar solid vessel 15 fixed to pipeline 9, vessels 3 and 10 are equipped with cranes 13 and 14 and appendages 16 and 12 (Fig. 1). 3. The device change according to claim 1 and 2 as applied to the limnigraph, characterized in that the vessel 3 in its lower part is located at the contact point with the vessel 5, and the receiving device has the form of a cylinder with an opening in the lower side wall (Fig. 2) . 4. Video device change according to claim 1, characterized in that, when used as a fluid transmitter, vessels 5 and 7 are directly connected to pipelines 2 and 9 (Fig. 3). 5. In the device according to claim 4, when used for measuring temperatures, use, as a sensing device, a reservoir 1-e liquid connected to the pipeline 2 (Fig. 3). .Shig.1 - /