DE958975C - Safety valve - Google Patents

Description

ISSUED FEBRUARY 28, 1957

St 4492 XII147 g

has been named as the inventor

Friedrich Stumpf, Munich

Safety valve

The invention relates to a safety valve for systems that have a limited height, but fluctuating inflow pressure are fed and where the return flow from the system into the inflow line is prevented by a check valve. Find such facilities primarily in water supply networks that are supplied from an elevated tank where the network pressure is considerable due to the different consumption during the day and at night May be subject to fluctuations. As a result, the connected boiler at night with the high pressure that then prevails in the network is charged and that the pressure only increases again the next time a tap or valve is opened on the boiler relaxed, but then suddenly under unnecessary stress on the valve and the rest of the system and with corresponding noise development. These disturbances are avoided if, according to the invention, a safety valve it is provided that, like the previously known safety valves, this does not affect the overpressure in the boiler responds to the free atmosphere, but to the overpressure against the inflow pressure before the Check valve.

The pressure in the system can then only rise by an amount above the inflow pressure, the before z. B. can be adjusted by a spring

can. If the inflow pressure drops, the pressure at which the safety valve opens also drops. During the periods of low pressure, the system can relax if necessary, and it occurs as a result a material relief, so that signs of fatigue are avoided.

The tension spring provided for the safety valve according to the invention only needs relatively to be performed weakly because they ίο do not absorb the inflow pressure plus the overpressure has, but to keep the valve in the closed position only with a slight excess pressure Has. The overpressure can be adjusted relatively precisely with the weak spring. Further details can be found in the following description and the drawings. These represent some exemplary embodiments, namely FIG

Fig. Ι the new safety valve in the vertical Middle section with pipe connections,

Figs. 2 and 3 further embodiments. First of all, the embodiment according to FIG. 1 in conjunction with the explanation of the Function described.

The liquid or gaseous medium; flows through line 1, flows through the non-return valve 2 and flows through line 3 to the pressure vessel or the like. At the same time, through a supply pressure line 4 and an overpressure and evacuation line 7, the inflow pressure chamber 5 and the overpressure and compensation chamber 8 evenly filled with the printing medium. The two chambers are separated from one another by a membrane 6 separated. The additional pressure resulting from the overpressure and evacuation valve 9 is balanced by the pressure compensation membrane. With this there is a complete balance of forces both in the supply pressure chamber 5 and in the overpressure and compensation chamber 8 manufactured. The pressure spring 11, the pressure of which is adjustable, therefore only receives the necessary Overpressure. When overpressure occurs in the line 3, 7, the membrane 6 and the Pressure compensation membrane 10 lifted with simultaneous pressing of the overpressure spring 11, whereby the valve spindle 12 and thus' the overpressure and Drain valve 9 is raised so that the overpressure medium can escape here. After compensation the overpressure, d. H. as soon as the two chambers 5 and 8 are again in a state of equilibrium, the overpressure spring 11 closes the overpressure and drain valve 9. This process is repeated for each subsequent occurrence of Overprint compared to the inflow pressure. To check the safe function of the valve 9 a removable test lever 14 is provided through which the drain valve by means of the spindle 12 9 is raised so that the pressure medium flows into the drain line 15. The removable Trial key 14 enables control of the functioning of the safety valve at any time and furthermore, in a manner known per se, the complete emptying of the pressure vessel without special Drain valve with drain line. This makes pipe installation easier and more pleasing.

Fig. 2 shows a further embodiment of the safety valve, without compression springs; in their place there is a pressure cell 17 with pressure pipe 16. The pressure of the inflow medium enters the Feed chamber 5 and through a bore 18 into the pressure pipe 16 and becomes the pressure cell 17 supplied in the overpressure chamber 8. The precisely calculated excess pressure is used to open the excess pressure and drain valve 9 is used and is determined by the dimensioning of the diameter of the pressure cell certainly. In the embodiment according to FIG. 2, the overpressure spring 11 of FIG. 1 is omitted; in their place comes the unchangeable regulation by the can. Unwanted changes in pressure by unauthorized persons are therefore excluded. The valve offers great security for constant, 'even functioning.

Another embodiment is shown in FIG. In place of the membrane 6 of FIG. 1 is here a sliding piston 19 is provided. The housing of the overpressure spring 11 is designed as a pressure chamber 5. The outlet 15 is through the overpressure spring 11 and at the same time from the overpressure line 7 acted upon piston slide 19 controlled. This embodiment of the invention is Although not as advantageous as in particular the embodiment according to FIG. i due to the piston friction which occurs, the implementation is also here the invention possible in a simple manner. In this embodiment (Fig. 3) occurs also a completely automatic regulation of the pressure conditions.

Claims (3)

Patent claims: 1. Safety valve for systems that _{are fed with J 00} a limited in height, but fluctuating inflow pressure, the backflow from the system in the inflow line is prevented by a check valve, characterized in that the safety valve on the excess pressure in the System responds against the inflow pressure upstream of the check valve. 2. Safety valve according to claim 1, characterized by a housing, which is supported by a spring-loaded regulating shaft (12) connected membrane (6 or piston 19) into a pressure chamber under the inflow pressure (5) and is divided into an overpressure chamber (8) behind the check valve (2) with the pressure line (3) leading to the point of consumption and through one of the closing spring (11) influenced valve (9) is connected to the drain (15). 3. Safety valve according to claim 1, characterized iao characterized in that a pressure cell (17) serves as a control element, the interior of which is the pressure of one side of the check valve (2) is fed through the hollow spindle (16) of the valve and which is acted upon by the pressure on the other side of the non-return valve. 4 · Safety valve according to one of the preceding Claims, characterized in that the overpressure in the system acts on a piston (19, Fig. 3) which is on its the other side is acted upon by the inflow pressure and the overpressure spring (11) and the at the same time is designed as a slide piston that opens the outlet when the fuse is activated releases the medium into the drain (15). Considered publications: German Patent Specifications No. 378 953, 565 360, 565862, 610 513, 675575, 676340, 690930, Ö99 ⁸ 57> 724 on. 1 sheet of drawings © 609 616/275 8.56 (609809 2.57)