UA156458U - COMBINED VALVE - Google Patents

Abstract

The combined valve contains a fixed cover, a movable spindle with a spool and an elastic element, connected by means of a thread to the cover, a fixed seat connected through an elastic element to the spindle. It is additionally equipped with a temperature sensor made in the form of a bellows with the first and second contact ends connected to the upper and lower movable flanges, respectively. The upper flange is hingedly connected to the lower part of the spindle. The lower flange is connected by a spring and a nut to a spool with an elastic element held by a nut through a washer.

Description

The useful model belongs to the field of water supply and sewage engineering and can be used as a water supply valve in the construction of water supply and sewage facilities, heat lines, as well as to protect them from accidents caused by possible defrosting as a result of an unexpected decrease in the temperature of the surrounding environment and the presence of water in them .

A known pipeline shut-off valve for turning on or off the pipeline, as well as for supplying liquid, gas or steam moving along the pipeline, containing a fixed cover, a movable spindle with a spool and a resilient element, connected by means of a thread to the cover, a fixed seat, connected through an elastic element and a spool with a spindle | see book

Moskvityn A.S., Moskvityn V.A., Mironchyk H.M., Shapiro R.K. edited by A.S. Moskvitina

The plumbing and sewerage equipment is constructed. - M.: Stroyizdat, 1973, p. 312, fig. MI.I, a (installer's guide)).

However, the disadvantage of the known valve is its limited functionality, since it does not automatically protect water supply systems from defrosting in the event of a sudden drop in the temperature of the surrounding environment and in the presence of water in them. Usually, in such cases, water is drained from the heating system by manually opening the drain valve.

If, for various reasons, this is not done in time, all the elements of the system will defrost and it will not function for a certain time. In order to restore the efficiency of the system, it is necessary to use additional materials, spend time and labor, which in general will cause certain material losses to the national economy. In addition, manual maintenance of the system requires additional involvement of service personnel, costs of manual labor and time, which causes great inconvenience.

Therefore, the known shut-off valve has limited functionality and associated inconveniences, and when defrosting, the system does not work for a certain time, since it is necessary to spend materials, time and labor to restore its functionality, as well as involve additional specialists, which limits the scope of its application .

The useful model is based on the task of creating a combined valve containing a fixed cover, a movable spindle with a spool and an elastic element connected by means of a thread to the cover, a fixed seat connected through an elastic element to the spindle, which, according to the useful model , additionally equipped with a temperature sensor made in the form of a bellows with the first and second contact ends connected to the upper and lower movable flanges, respectively, while the upper flange is hingedly connected to the lower part of the spindle, and the lower flange is connected through a spring and a nut connected to a spool with a spring element held through a washer by a nut.

The combined valve makes it possible to drain water from the system independently, by automatically opening the spool, or to do it manually, as well as to prevent it from draining at all. In the first case, as the water cools, the volume of the working fluid in the bellows of the temperature sensor decreases, as a result, the lower movable flange of the bellows of the sensor, and together with it, the spool connected by a spring, will move up. At the same time, the valve will provide automatic draining of water even before it freezes in the system elements, preventing their defrosting.

In the second case, when it is necessary for various reasons to drain the water at a temperature that is much higher than the freezing temperature, it is necessary to raise the spindle by turning the handle, and with it, the temperature sensor and the spool up. As a result of opening the drain hole, water from the system will flow out at any positive temperature.

In the third case, when it is necessary to pour water into the system without losses, preventing water from draining, when the lower movable flange of the temperature sensor is in its upper position, is also carried out using the handle to control the position of the spindle, turning it to the interaction of the elastic element of the spool with the seat and full this closed drain hole.

Thus, the combined valve has extended functionality, providing water draining in both automatic and manual modes, and also prevents the loss of water when pouring it into the system at low ambient temperatures and, due to its simplicity and reliability, can find wide application to protect heating systems and other water supply systems from defrosting in the event of a decrease in the temperature of the water in its elements.

The presented drawing schematically shows the general appearance of the combined valve.

The combined valve of water supply facilities includes a body 1 with a seat 2 and a cover with a Z 60 nut 4. A spindle 5 is installed in the cover C on a thread. The valve is additionally equipped with a temperature sensor b, made in the form of a bellows 7 with the first and second contact ends connected, respectively with upper 8 and lower U movable flanges. At the same time, the upper movable flange 8 is hingedly connected to the lower part of the spindle 5, and the lower movable flange 9 through the spring 10 and the nut 11 is connected to the spool 12, with the elastic element 13, held through the washer 14 by the nut 15. In the upper part of the spindle 5, the nut 16 of the adjustable stop with the counter nut 17 is placed, and the handle 18 is pressed by the nut 19.

For ease of assembly and disassembly work, the lower 9 and upper 8 movable flanges are equipped with 20 and 21 easily attached covers, respectively.

Adjustment of the necessary stroke of the spool 12, as a result of the rotation of the handle 18, at a certain water temperature, in the system ensuring tightness in the connection of the saddle - elastic element, is carried out by nuts 4, 16 and 17.

Let's consider the principle of operation of the combined valve in the following main modes of its operation: - during automatic draining of water from the system; - with manual draining; - when pouring hot water into the system in case of low ambient temperature.

In the first case, as the water cools, the volume of the working fluid in the bellows 7 of the temperature sensor 6 decreases. As a result, the upper movable flange 8, and together with it, connected by means of a spring 10 and a nut 11, the spool 12 will move up. If the stiffness of the spring 10 is adjusted accordingly and the spool 12 moves at the same time, the water will be drained before it freezes in the system, preventing the defrosting of its elements as a result of possible freezing of the water. In this case, nut 16 should be on the stop of nut 4.

In the second case, when the temperature of the water in the system is higher than the temperature at which the valve is automatically activated, the spool 12 is pressed by its elastic element to the seat 2 through the spring 10 and the lower movable flange 9.

To drain the water in this case, it is necessary, by turning the handle 18, together with the water temperature sensor b, to raise the spool up. At the same time, through the drainage hole formed between the elastic element and the seat 2, water will flow out from the cavity of the water system at any positive temperature. After draining the water from the system, turning the handle 18 returns the elastic element 13 to the original position on the saddle 2, completely covering the drain hole.

In the third case, in order to prevent the loss of the filled hot water when filling the system with it in the case of low ambient temperatures, when the water temperature sensor 6 has the temperature of the ambient environment and the drain hole of the valve is fully open, it is necessary to unscrew the nuts 16 and 17 and move them up along the spindle 5, providing it with an additional possible downward movement from the rotation of the handle 18. Further, by rotating the handle 18, the spindle 5 is moved, and together with it the water temperature sensor b and the elastic element 13 down to the seat 2, completely covering it, formed by the cooling of the water temperature sensor 6, drain hole, as the water temperature sensor 6 warms up, the possible downward movement of the lower movable flange 9 will be ensured by the compression of the spring 10. After the sensor is heated, there is a water temperature in the system, by rotating the handle 18 in the closing direction, the spindle 5, together with the sensor 6, must be turned in initial position, up to a constant level at which normal operation is ensured, excluding water draining through their connection.

Thus, the combined valve provides automatic draining of water from heating and other systems in case its temperature drops to the value at which it begins to freeze, preventing this destruction by defrosting its elements and makes it possible to drain water from the cavity of the water system at any positive temperature , as well as water losses when filling its heating system at low ambient temperatures. Simplicity of design and use, high reliability in operation and the absence of the necessary involvement of an additional energy source will contribute to its wide application in other water supply and sewage systems.

The use of a combined valve compared to the already known one will make it possible to: - expand the functionality of the valve, additionally protecting water systems from defrosting and preventing hot water losses when filling the system; - to protect elements of heating and other systems from defrosting in the event of an unforeseen sharp drop in the ambient temperature;

- save hot water losses when filling heating systems in case of low ambient temperatures; - increase the reliability and durability of heating systems, preventing their possible defrosting; - to improve the supply of heating objects with thermal energy; - reduce operating costs of heating systems by reducing possible accidents by defrosting them; - improve convenience and reduce time spent on system maintenance; - reduce material costs, time and labor costs for restoration and repair of thawed water systems; - to expand the scope of application of the combined valve; - to improve the culture of maintenance of heating and other water systems; - exclude accidents related to defrosting of systems, and thereby reduce the number of failures in the heat supply of objects, which in general will give the national economy a certain economic effect.

Claims (1)

UTILITY MODEL FORMULA A combination valve containing a fixed cover, a movable spindle with a spool and an elastic element connected by means of a thread to the cover, a fixed seat connected through an elastic element to the spindle, which is characterized by the fact that it is additionally equipped with a temperature sensor, made in the form of a bellows with the first and second contact ends connected to the upper and lower movable flanges, respectively, while the upper flange is hingedly connected to the lower part of the spindle, and the lower flange is connected to the spool with an elastic element through a spring and a nut , held through the washer by a nut.