DE876010C - Intermittently working regulator - Google Patents

Description

Intermittently operating regulators The subject of the invention is intermittent d working controller, as z. B. as a pressure regulator for komprees; s; i; ble media, such as compressed air for filling vehicle tires on a previously set Pressure, as a temperature controller, humidity controller, etc. are required. The; invention is that the intermittent working is achieved by @ that the Control impulses of the state to be regulated: initially in the opposite sense and first after a certain adjustable time in the normal sense on the feeling organ and thereby act on the regulating body. The controller according to the invention preferably has also known sensing organ a second "less effective sensing organ that, temporally - is seen, influenced before the known sensory organ and in the opposite sense so that the regulating body acts. With pressure regulators, the known and the after, the Invention of additional sensing element. be combined to a differential piston, wherein the large piston area from the control pressure via a throttle and the differential ring area are acted upon by the control pressure in an unthrottled manner. The small, piston area can thereby acted upon by a pressure «earth: which is taken from the pressure of the supply line and is kept at a constant height by a weight-loaded overflow valve. This ensures the load on the controller, and it can be on spring or Weight load can be waived. This measure achieves that d: ate with much smaller weights, and weight movements regulator can be operated. The burden of the: Überströmvontilis can make adjustment easier by a Waagebelken to be achieved; on which one sliding weight slides, which one. is displaceable by a threaded spindle @ l: With a temperature controller, e.g. B .. to keep temperatures constant in boiler rooms, the sensor tube opposite the feeler stick, made of a material of lesser Wämmeaws @ de @ hnüngskoeffIzienten best. At. If worming occurs, it will first look to the person and the flow through Hazmittel further open the way. Only after a certain time will (The feeler rod warms up and, thanks to its larger expansion coefficient, does that. Close valve. When cooling down, the reverse process occurs in the same order a. In the same way, the invention can be applied to all regulators.

The drawing contains details of the subject matter of the invention. shown. It shows Fig. Z a: Section through. a pressure regulator and FIG. 2 one; Section through a temperature controller.

According to Fig. i, the medium to be controlled occurs., e.g. B, compressed air, at i in the regulator and, should: through a long thin line 2 the large room. 3 Fill up to a certain pressure to be set on the controller. In the initial state, the double piston 4, which moves the valve disk 6 through the rod: 5, is in the lower position under the influence of the air pressure in the space 7. The air flows through the valve seat 8 into the control chamber 9 and through the line 2 into the space 3. In addition, the air flows through the line io into the space ii between the two pistons and acts on the ring cross-section of the double piston. below, so opening further. Finally, a tiny stream of air flows through: the small hole r2 into space 13 under the piston. After a certain time, the pressure in room 13 is the same as in room 9 and ii. The pressure in room 13 acts on a larger area than the pressure of the same size in room. ii, the moves slowly upwards. As soon as the valve disk 6 approaches the seat 8, the air flow is throttled and the pressure in the spaces 9 and ii is lower, while. the pressure in space 13 is caused by: the small bore IZ cannot relax as quickly, thereby continuing to act on the piston, lifting it and the valve disc and thereby closing the valve completely. The pressure in space 13 slowly escapes; up to .in: in rooms 9, 11 and 1 3 the same pressure prevails as in room 3. If this pressure is lower than that in chamber 7, it pushes the double piston downwards again and opens the valve. The pressure in spaces 9 and ii rises again, whereby the valve is again opened completely freely. This interplay repeats itself until the pressure prevailing in room 3 has reached the desired height set by the balance beam 17. The pressure in space 7 arises from the fact that a line 14 leads from supply line i via throttle 15 to space 7. The air flowing in here is through the: Übeerströ @ xnoentil 16 at a constant pressure which can be set by the sliding weight 18, which is movable on the balance beam 17. The switching speed of the pressure regulator can be adjusted by changing the cross section of the bore 12. The smaller the cross section of the bore 12, the slower the controller switches.

The device according to Fng. 2 consists of the housing i with the valve @ s, itz 2 as well as sensor tube 3 and sensor rod 4. The sensor tube 3 is fastened in the housing, the at 5 with: the feeler rod 4 is firmly connected. The feeler rod 4 wears on its lower one End of the valve plate 6, which in connection with the valve seat: 2 serve to warm or cooling equipment (luminous gas, steam, brine etc.) allow the passage or shut off. The pipe 3 consists, for example, of Flwßs, steel (thermal expansion coefficient = 147 - 1o-6) and the Fühls, tab 4 made of aluminum (thermal expansion coefficient = 23.7 - io-s). If the steam flowing through the valve causes heating of the Controller surrounding room, e.g. B. boiler room, a, so, this winds up first .the tube 3, which elongates and opens the valve further, while the rod 4, which is shielded against: the tube 3 by an insulating material 7, only after one certain time, which can be set by choosing the insulating material 7, the same temperature and only now closes the valve due to its double expansion. In the subsequent cooling process, the pipe 3 cools down first and takes effect continuing to close, - during the cooling of the rod 4 after == the valve opens again. One: The intervals can be set by suitable choice of insulating materials, the regulator metals or alloys.

Claims (6)

PATENT CLAIMS: i. Intermittently operating regulator, characterized in that the control pulses of the state to be regulated initially act in the opposite sense and only after a certain adjustable time in the regulating sense on the sensing element and thereby on the regulating element. 2. Regulator according to claim i, characterized in that besides the well-known Fühlongan he has a second, less effective sensing organ that, in terms of time, precedes the known sensing organ is influenced and acts in the opposite sense on the regulating organ. 3. Regulator according to claims i and 2, characterized in that in a pressure regulator a second, less effective; Sensing organ: from piston, membrane ad. Like. Attached is at once contrary, for the sense of regulation, while:: the known: usual feeling organ is only applied in the normal sense after a set time has elapsed. Pressure regulator according to claims 1, 2 and 3, characterized in that @ ß the known and the according to the invention additional sensing element to a differential piston. (4) united is., where the large piston area depends on the control pressure via a throttle (i2) and the differential ring area! e (zr) are acted upon by the regulating pressure in a reduced manner. 5. Pressure regulator according to the Claims. r to 4., characterized in that the small piston surface (7) of, a pressure is applied. Which is taken from the pressure of the supply line (r) and through a weight-loaded Gbe! rströminventi: l (r6) kept at a constant level. will. 6. Regulator nasch the claims z bit. 5, characterized d.aß the load of the overflow valve (z6) through a Wa'a'gebeken: (r7) on which a. Running weight (rh) slides, which is displaceable by a threaded spindle.