CS212512B1 - Relief valve for equalizing and maintaining the differential pressure in the pipeline system - Google Patents

Abstract

The relief valve according to the invention connected the heating pipe system is designed to maintain differential pressure between rising and back pipes. invention solves the problem of keeping the set value differential pressures in heating systems equipment, thereby refining the dosage heat input to radiators thus saving fuel. The solution according to the invention consists of a special flow control part of the relief valve, as main part in balancing and maintaining differential pressure in the pipe circuit central heating.

Description

BACKGROUND OF THE INVENTION The invention relates to a pressure relief valve for heating and maintaining differential pressure in a duct circuit, particularly in forced-circulation central heating systems.

In manifolds, in particular in forced-circuit heating systems, respectively in its individual branches, the desired differential pressure is set and maintained by means of piping valves or chokes of a certain hydraulic resistance. Such adjusting and maintaining the differential pressure is complicated, time consuming and the means required for inspection. The exact setting is only valid for a certain position of the plugs or throttles on the control elements arranged in the pipe circuit. The positions of the shut-off control elements in the heating duct circuit are constantly changing due to external climatic conditions.

Thus, for example, in the case of external warming, the automatically actuated control elements are closed and thus create conditions for increasing the differential pressure in the distribution heating circuit. Increased differential pressure results in an increase in the heat supply, especially for heaters that are not automatically controlled and have open closures.

This results in an undesirable overheating of some rooms and heat generation, which has been saved on automatically controlled control elements.

The undesirable increase in the differential pressure in the duct circuit causes an increased velocity of the circulating medium and thus a higher noise level of the heating system. The wear of the valve seats is also not negligible. The relief valves used abroad are of relatively complicated construction, they are dimensioned for individual dimensions of the pipeline, they do not reach sufficient accuracy in the whole range of used static pressure. The control mechanisms used are influenced by the circulation medium, they must be made of corrosion-resistant materials and are not capable of checking their function.

The above-mentioned drawbacks are substantially eliminated by a pressure relief valve for equalizing and maintaining the differential pressure in the duct circuit intended to equalize and maintain the differential pressure of the present invention, wherein the valve body seat is connected to the inlet port for the higher pressure inlet and the flow port connected with the inlet opening for the lower pressure inlet form a front surface which is covered by a diaphragm provided with connection apertures located above the flow opening, the bottom of the spring regulating mechanism lid and the top of the diaphragm forming the backpressure chamber space.

An advantage of the pressure relief valve with the separation of the pressure parts by the diaphragm and provided by the backpressure chamber according to the invention is that it makes it possible to equalize and maintain the differential pressure setpoint under different heating conditions and over a wide range of static pressures used. The watertight separation of the spring mechanism from the pressure portions of the circulating medium provides the spring with more permanently elastic properties, greater anti-corrosion resistance and better control of the operation of the control mechanism.

With a relatively small design, a good circulation flow condition is created at the diaphragm relief valve, so that even with a sudden increase in differential pressure, this is immediately reduced to the value set on the control mechanism. The spring support, provided with a signaling pin extending above the cover of the spring control mechanism, allows the operation of the relief valve to be checked by means of a marking line. A protruding portion of the signaling pin provided with a hole from the housing gives the possibility of securing the set position against unwanted manipulation of foreign persons by sealing the valve.

In the accompanying drawing, one example of an embodiment of a relief valve according to the invention is shown schematically in partial section along a vertical axis.

The relief valve body 6 has, in the vertical axis, a seating sleeve 2 connected to a connection 2,2512 connecting sleeve J through a higher pressure inlet terminated by a valve seat 6. The seat flange 2 surrounds the outer periphery of the annular flow opening J connected to the inlet opening 6 of the connecting pin over the lower pressure inlet. The front face 2 of the valve seat 6 and the flow orifice 4 is covered by a diaphragm 8 fixed to the relief valve body 6 by means of a slide pad 6 and a lid 60 of a spring-loaded control mechanism. The diaphragm 8 has connecting apertures 11 located above the flow aperture 6 above the lower pressure inlet from the inlet aperture 6 of the connection pin into the backpressure chamber 12 formed at the bottom by the bottom of the lid 10 and the top of the diaphragm 8.

In the center of the diaphragm 8, a push pin 13 is fastened through the seal 14 of the lid 10.

A support washer 15 is provided on the upper end of the push pin 13, which has in the center a signaling pin 1b projecting above the cover 17 of the tilt 18 of the spring mechanism.

The spring adjusting mechanism consists of a compression spring 19 of the washer 20 of the adjusting screw 21 with the hexagon for the adjusting ring and of the housing 8, in which the groove 22 for the movement of the stop 23 on the washer 20 is provided. a groove 22 on the surface of the jacket 18 where it also shows on the scale 24 the set value of the differential pressure in the duct circuit. The signaling pin 36 is provided with a marking line 27 and a hole 25 in the part projecting above the cover 17 to insert the sealing wire with the seal 26 to secure the set position.

When the bypass valve is mounted, the higher pressure from the piping circuit acts on the lower surface of the diaphragm in the seat of the valve seat 2 of the valve seat. The lower pressure in the flow orifice J due to the connection openings 11 in the diaphragm 8 and the backpressure chamber 12 acts in the opposite direction on the same surface. The additional force exerted by the spring-loaded control mechanism acts in the same direction and provides a balance of forces on the diaphragm 8 for the set differential pressure.

The balance of forces on the diaphragm 8 ensures the tightness of the valve seat 6 to maintain the set differential pressure. By increasing the differential pressure in the duct circuit, the equilibrium of forces on the diaphragm 8 is disrupted. The seat 6 opens, whereby the pressures in the individual pressure parts are equalized up to the differential pressure set on the spring control mechanism. The flow of the medium through the relief valve body 6 signals the insertion of the mark line 27 above the blood 17.

Claims (2)

A pressure relief valve for equalizing and maintaining a differential pressure in a duct circuit, comprising a body, a diaphragm, a cover with a cover and a spring-type control mechanism, characterized in that the valve body (1) is connected to the inlet (3) for the higher pressure inlet, and the flow orifice (5) connected to the lower pressure inlet (6), form a face (7) that covers the membrane (8) provided with the connecting orifices (11) positioned above the flow orifice (5), the bottom of the lid (10) of the spring control mechanism and the top of the diaphragm (8) form the space of the backpressure chamber (12). 2. The relief valve according to claim 1, characterized in that, in the spring control mechanism, the support pad (15) of the tension spring (19) has a signaling pin (16) formed in the center, extending beyond the cover (17) of the spring control mechanism.