SU22588A1 - Device for feeding steam boilers with water - Google Patents

Description

In the proposed device for supplying water to steam boilers, in order to compensate for the pressure drop in the valve when the boiler is powered, a cylindrical valve is connected to the inlet port in the supply valve box, which is connected by levers with harmonics that move it under the influence of pressure in the outlet pipe and steam line.

In FIG. 1 is a diagram of a device for feeding steam boilers with water; FIG. 2 is a vertical section of harmonics.

To regulate the boiler supply with water in the proposed device, a thermostatic tube 5 is used, fixed in some way, for example, with a rod 6. The tube 7 connects the tube 5 with the steam one, and the tube 8 with the water space of the boiler 4. Thus, the water level in tube 5 is always the same as in the boiler. One end of the tube 5 is hardened in the rod 6, while the other end can change its structure with the lever 10, the bolts 11, the lever 12, the rotating roller 36 in the valve box 13 and the lever 14

moves valve 15, which is included in the supply mains 30, 31. Water flows under the pressure of the supply system into pipe 30, flows through the holes of valve 15 into pipe 31 and from here to the boiler. When the steam flow rate increases, the water level in the boiler decreases, the thermostatic tube 5 receives more steam and therefore lengthens, the lever 10 is lowered, and the counterweight 32 moves the valve 15 upwards, opening a larger opening for the passage of water, so that the water level in the boiler does not fall below a certain ; with a rising water level in the boiler, the opposite effect is obtained. Increasing the orifice of the valve 15 has the effect of passing more water as well as reducing the pressure loss in the valve. Therefore, it is often possible that due to a decrease in pressure drop, despite the larger passage opening, the water flow to the boiler will be insufficient. When several boilers are connected to one battery and powered by one pump with the same water pressure in all supply valves, it is possible that

this will not quite correspond to the conditions of operation of individual boilers. Therefore, it is desirable to regulate the pressure drop in the valve depending on the operating conditions of the boiler.

To prevent the pressure difference from decreasing in front of and behind the valve 15 when the bore hole of the latter increases or the pressure difference increases before and behind the valve 15 with a reduced flow of water through the latter, there is a cylindrical valve 16 mounted on the inlet 30 and placed together with the valve 15 in one the same valve box 34, whereby the water flows first through valve 16, then through valve 15. In order to avoid a decrease in pressure drop in valve 15, it is sufficient to increase the passage opening to Apana 16. This is accomplished as follows. In part 41 of box 34, there is a differential pressure motor consisting of harmonics 19. The outer side of this harmonic is under water pressure in box 34, i.e. pressure when entering the valve 15. Outlet 3t valve 15 is connected by a tube 29 with a chamber 39 connected to the cavity of the harmonic 19; the outer end of the harmonic 19 is connected to the valve 16 by means of a lever 17 mounted on a roller 38 mounted in part 41. When the valve 15 rises, its orifice increases, and the difference in pressure before and behind it decreases; therefore, the outer (Harmonica 19 rises, moves upward the valve 16 and increases the throughput of its openings. This, in turn, increases the pressure in the chamber 34 so that it maintains almost constant pressure drop in the through openings of the valve 15 from the chamber 34 to outlet pipe 37. The valve 15 and the valve 1.6 are arranged so that their bore holes increase as they move upwards.

The pressure inside the harmonic 19 connected to the outlet side of the valve 15 will not fluctuate significantly, since the pressure on the outlet side of the valve 15 is almost equal to the pressure in the boiler, the difference is only in the pressure drop due to

friction in the pipe 31. Therefore, a decrease in pressure in the box 34 will cause an elongation of the harmonic 19, which, in turn, will increase the passage opening of the valve 16 until the pressure in the chamber 34 is balanced. The pressure inside the harmonic is 19 less than that of the outside, so the harmonic will tend to be shortened. To limit this tendency, there is a lever 18, mounted on a roller 38 outside the part 41, with a counterweight 33, which can be mounted on the lever 18 so that the pressure drop in the bore of the valve 15 is adjusted to the desired degree.

Sometimes it is desirable to regulate the pressure drop in the supply valve in accordance with the load of the individual boiler. In a boiler battery, the tendency of the load to oscillate between individual boilers is often shown, depending on the measure of supply water in the boiler. If one of the boilers receives too much water, then the load of this boiler due to its greater density of water will decrease and the water level will fall. In this case, the regulator of the supply water, as described above, will further increase the water intake and thus reduce the load. so a significant part of the load will be transferred from this boiler to the others. Therefore . it is sometimes advisable to increase the water supply in the boiler with increasing load and reduce the power by reducing the load to a greater extent than is achieved by automatic regulators.

As the boiler load increases, the vapor pressure in the steam pipe tends to fall. At point 28 of the steam pipe 27, for example, with an increase in the boiler load, the vapor pressure will decrease. To enhance this interaction, a diaphragm is installed in the pipe with a defined orifice 26. As the load increases, due to the diaphragm, the pressure drop increases, and at point 28 the pressure decreases. To use this increased pressure drop in the diaphragm, the vapor tube 27 is connected by tube 25 to box 22,

so that the pressure fluctuations at point 28 are transmitted inside the box 22. There is a harmonic 24 in the box 22, open towards the chamber 39. As the load increases, the pressure drop in the opening 26 of the diaphragm increases, the pressure in the chamber 22 decreases, and the harmonic 24 expands. The free end of the harmonic is connected by a lever 23 to a movable roller 40 of the box 22, on the outer end of which a lever 21 is attached, connected by a pull 20 to a lever 18. When the harmonic 24 is extended, the lever 21 does not have down the lever 18 and opens more valve 16 until the pressure in chamber 34 does not affect the harmonic 19 and will not restore balance.

Subject Patent a.

1. A device for supplying water to steam boilers, characterized in that, in order to change the pressure of the water in front of the feed valve, which is controlled automatically by the power regulator,

a cylindrical valve 16 mounted on the inlet nozzle in the box 34 of the valve 15 and articulated by a system of t and levers with the bottoms of harmonics 19 and 24, the cavity 39 between which is connected to the outlet nozzle 37, of which the harmonics 19 is placed in the box 34 and serves for moving the valve 16 in the direction corresponding to maintaining the constant pressure differential in front of and behind the valve 15, and the harmonic 24 is placed in the box 23 communicated with the steam pipe 27 of the boiler, and serves to move the valve 16 in the direction corresponding to the violation of the constants of the pressure difference in the direction of the effect caused by the valve 15.

2. With the device described in item 1, use of a diaphragm 26 installed in the steam pipe 27 with a hole designed to increase the pressure drop of steam in the pipe 27 in front of the adventure site of the pipe 25 that communicates the steam pipe to the box 22. to the patent of the company Northern Equipment K ° № 22588