DE1754756U - AUTOMATIC PRESSURE REGULATING VALVE. - Google Patents

Description

Automatic pressure control valve.

The innovation concerns an automatic pressure control valve that controls the pressure controls between a maximum and a minimum pressure in a hydraulic line.

So far, one has the oil requirement in such a line, the oil consumption adapted by using oil pumps with adjustable flow rates or In the case of oil pumps with a constant delivery rate, the excess oil volume through Pressure relief valve derived.

After all, even with large pressure differences and proportionally long periods between the pressure fluctuations by the drive motor of the pump known pressure switch electrically switched on and off.

When the pressure fluctuations change in short time intervals, of the methods mentioned, practically only the one that works with a pressure relief valve. In a known embodiment of a valve for carrying out this method, a double piston and a flow line are provided. The double piston covers slots that are connected to a reflux line tion are related. Overpressure takes place a lifting of the piston and the slots are released according to the size of the overpressure. So there is an energy-destroying choke effect.

A valve should also be mentioned as belonging to the state of the art, that uses a multiple piston, two of the same size and one much smaller Has piston. Apart from the more expensive one Design of the case itself, an additional application line for the third piston must be here are provided.

Finally, a pressure control valve is known, the piston of which on the one hand by the utility line pressure and on the other hand by a spring is acted upon, the utility line and the pump line connected between the two pistons of the double piston / and the Inner edge of a piston controls the return line. The end face of the one piston acted upon by the useful line pressure is covered by an extension of the housing cover in such a way that the piston surface covered by the extension is not acted upon in the initial position. Only when the piston has shifted slightly will the previously covered area be acted upon and the piston jerks into the other extreme position the piston is subjected to excessive pressure.

To the disadvantages of the previously known automatic pressure control valves to fix, a valve is proposed according to the innovation, which also a double piston is used, which is driven at one end by the utility line pressure and is acted upon by a spring at the other end, the useful line and the pump line is connected between the piston and the inner edge of a piston the reflux line controls.-According to the innovation, the entire face of the larger Piston of the double piston at all times with the useful line pressure and that of the smaller, the piston controlling the return line is acted upon exclusively by the spring.

The advantage of the innovation is that the valve is not energy-destructive Exerts a throttling effect, but that the return line channel is always either completely open or is completely closed. The innovation is mainly for hydraulic circuits Suitable for use with oil pressure accumulators because pressure accumulators are loaded with springs or air the change in storage volume always with a Pressure change connected is.

In the drawing, the innovation is exemplary and schematic shown. axMax eottummm aKmg: Kb: bB! 6BtN3QEedM? MNBet The double piston 1 consists of the larger piston 2 with the diameter D and the smaller piston 3 with the smaller diameter d. Both pistons are connected to form a double piston by a piston rod with a diameter smaller than d. The cylinder 4 is stepped according to the different diameters of the pistons 2 and 3. The feed line 5 coming from the pump opens into the cylinder 4 between the pistons 2 and 3, which continues beyond the cylinder and leads via a return valve 6 as a line 7 to the consumer or to the pressure accumulator. A line 8 branches off from the ring line 7 located behind the check valve 6 and opens into the cylinder 4 in such a way that it acts on the end face 9 of the piston 2. A spring 11 presses against the end face 10 of the piston 3.

In the position of the double piston 1 shown in Fig. 1, the same pressure p acts in the lines 5, 7 and 8. The compression spring 11 is dimensioned so that it holds the double piston 1 in the upper end position shown as long as the maximum permissible pressure is not exceeded. Since the pressure on the end face 9 of the piston 2 Ir. T. p and this fluid pressure of 4 acting on the inner ring surfaces of pistons 2 and 3 oo D * J- <L * jT \ counteracts, the spring 11 must "" 4 ""'T"' P 2 animal pressure d ... p exercise when the double piston is 1 in - r- this upper position is to be held. Since this position is to be maintained until the maximum permissible pressure pmov is reached, the spring pressure must be.) T. p -.

4 @ max If the pressure now rises above Pmax, ie dt is p 4th d2. # 4. Pmax'so the spring force is overcome by the fluid pressures acting on the double piston and the piston moves downwards. The small piston 3 releases the return line 12 to the oil container and the pressure in the cylinder quickly drops to atmospheric pressure. Acts on the double piston so only D 'in terms of fluid pressure. TT. p that essential 4th is greater than the spring pressure applied to d..p inax is. The double piston 1 therefore moves very quickly into its lower end position. The oil pump works exclusively against the pipe resistance.

Since no more pressurized oil passes through the check valve 6 into the line 7 and thus to the points of consumption, the pressure in the lines 7 and 8 drops until it hits the end face 9 9 9 effective fluid pressure ck -Tp / dT. p (spring pressure) d2 4 4 and thus p becomes T * Pmax. At this moment the JHenE Spring 11 to push the double piston 1 back into its upper end position. The reflux line 12 is then closed by the piston 3 and consequently it arises in the supply line 5 and in the Cylinder 4 a liquid pressure, so that the spring pressure again by the pressure D2Td'f. p supports and the double 4th piston 1 is shifted abruptly into its upper end position. The difference in the diameters of pistons 2 and 3 is determined the pressure interval Pmax-Pmin and can therefore be determined according to the operating requirements, namely according to the relationship; D2 Pmax. d2 pmin

Claims (2)

Protection claims: 1.) Automatic pressure control valve that regulates the pressure in a hydraulic or pneumatic line between a peak and a Minimum pressure controls, with a double piston acting at one end by the utility line pressure and is acted upon by a spring at the other end, the useful line and the pump line is connected between the piston and the inner edge of a piston controls the return line, characterized in that the entire end face (9) of the larger piston (2) of the double piston at all times with the useful line pressure and that of the smaller piston (3) controlling the return flow line (12) only are acted upon by the spring (11). 2.) Control valve according to claim 1, characterized in that behind the valve and before the branching off the one acting on the face of the larger piston (2) Line (8) a check valve (6) is installed.