SU50216A1 - Fluid meter - Google Patents

Description

According to the author's certificate No. 50214 there is a device of the same author for measuring the fluid, consisting of a camera included in the main line with a double measuring bucket enclosed in it. To accelerate the discharge of the measured amount of fluid, the latter is subjected to the same pressure at which it came to measurement.

According to the invention, such a device is used to power steam boilers, and its distinguishing feature is its installation above the water horizon in the boiler, with the measuring bucket chamber communicating on one side with the steam space of the boiler and on the other with the water space of the same boiler.

Existing closed water metering devices for steam supply boilers, both volumetric, semi-volumetric and high-speed, have a rather complicated and very sensitive mechanism both in terms of supply pressure under high pressure, and in relation to high and variable feedwater temperature, and therefore their very insignificant.

Owing to the foregoing, open Eckardt-type meters and others are often used to accurately measure the amount of feed water, characterized by simplicity of the device, measurement accuracy and durability, but the use of open meters requires double pumping of water or additional tanks that measure the amount of water in general and, in features, hot feed water is a significant inconvenience.

The proposed meter has all the positive qualities of open meters, but at the same time, the device, when closed, is installed directly on the discharge line from the feed pump to the steam boiler; it does not require the installation of additional intermediate tanks, and there is no secondary pumping of water.

The author believes that both by the simplicity of the device i, the measurement accuracy, and

and the operating time of the proposed device will exceed the corresponding foreign devices.

FIG. Figure 1 of the drawing shows a meter in a longitudinal vertical section with pipelines connecting it with a steam boiler; FIG. 2 is the same in a transverse vertical section; and FIG. 3 - top view of the meter with the cover removed.

According to FIG. 1, the device consists of a hermetically sealed chamber / containing a measuring bucket 2 which is double and tilting with the weight of water, swinging on prisms 5 and being installed in a proper slope by means of adjusting screws 4.

The device is installed above the steam boiler 5 so that the height from the highest water horizon in the boiler to the bottom of the device is at least 1 meter.

A pressure pipe from the feed pump is supplied to the valve 6 of the device; through a pipe with a valve 7, the device is connected to the steam space of the boiler and through a pipe with a valve 8 to the water space of the steam boiler.

Under the action of the device, all valves 6, 7 8 are open. In this position of the valves, the feed water entering through the valve 6 flows along the guide tube 9 and pours into the left half of the measuring bucket 2. Water, filling the half of the bucket, with its weight overturns it and brings the right half of the bucket 2 ( the drawing, the position of the tilted bucket is shown by a dotted line). When the right half is filled, the bucket is tipped back over, and the left half of the bucket 2 is emptied before and again fits the tube. Thus, the successive tilting of the bucket and having a strictly defined bucket volume accurately measures the amount of water entering the device through the registration of the bucket turns with a counter 10.

The water entering the device due to the fact that the chamber / device is filled with steam from the boiler through a pipe with an open valve 8, as a result of which the pressure in the device is equalized with the pressure in the boiler, and due to gravity flows into the pipe with valve 5, and It enters the water space of the boiler 5.

During a break in the feed water supply, only the valve on the discharge pipe from the feed pump, which is installed at the beginning of this pipe at the pump (not shown in the drawing), closes. At the same time, the valves 6, 7 Vt 8 remain all the time open, and their closure is provided only in case the device is turned off for inspection or additional adjustment.

The rotational speed (overturning) of the bucket (Fig. 2) is recorded by the revolution counter W, which is actuated by the following method. Through the chamber wall / passed through the gland seal corner arm / 2. The swinging end of the lever 12 inside the chamber, when the bucket 2 tilts, swings the lugs attached to the bucket. .. / It should be remembered that the action of the ears 7J on the lever 12 occurs only when the bucket develops some manpower during tipping, therefore, the impact does not cause the bucket to brake at the beginning of its tipping. Due to this, there is no violation of the accuracy of measuring the amount of water. The pivoting end of the lever 12, which is outside the gauge, is connected by means of additional elbows and levers to the revolution counter W, which is what drives the latter.

The subject matter of the invention.

Claims (2)

1. A device for measuring the amount of liquid according to the author's certificate No. 50214, characterized in that in order to use it to power steam boilers, it is installed above the water horizon in the boiler, and its measuring chamber 7 is connected to the boiler’s steam and water spaces pumping water from the device into the boiler. 2. When using the device according to claim 1, in order to eliminate the braking of the bucket, the device for acting on the counter, consisting of ears 13 on the bucket and a rotary lever 12 mounted on the wall of the measuring chamber and connected to the counter Y.