DE60332891C5 - Vorrichtung zur Durchflussregelungsventil in ein Heizungs- oder Kühlungssystem - Google Patents

Abstract

A fluid regulating control valve (100a, 100b) for regulating a fluid in a heating or cooling system, comprising:- a housing (200, 300) having an upstream region (102, 214, 310), into which the fluid enters the valve (100a, 100b) via a conduit and a downstream region (104, 218, 314), from which the fluid leaves the valve (100a, 100b) via a conduit and having a control orifice (110, 110a, 110b) formed therein adjacent the downstream region;- an adjustment element (212) coupled to the housing (200, 300) for selectively constricting of the control orifice (110, 110a, 110b),- a piston (204) slidably disposed within the housing, the piston having- a fluid passage, through which the controlled flow passes, defining an intermediate region (252, 312) disposed between the upstream region (214, 310) and the downstream region (218, 314);- a flange portion (232, 324) with a top side (248) and a bottom side (250) and- a stem portion (234, 326) with an edge (231, 320) adjacent the upstream region, whereby the stem portion (234, 326) extends from the flange portion (232, 324) down to the edge (231, 320) and has an inside diameter for the fluid passage;- an elastic member (208, 306) disposed within the housing for opposing translation of the piston within the housing;- a throttling element (202, 302) adjacent the upstream region, the throttling element having a throttling surface (224,318) adjacent the edge of the pistqn, the throttling surface (224, 318) and the edge (321, 320) defining a throttling orifice (108, 108a, 108b) therebetween,- whereby the intermediate region (252, 312) is disposed between the throttling orifice (108, 108a, 108b) and the control orifice (110, 110a, 110b) in such a way that fluid enters into the intermediate region (252) via the throttling orifice (108, 108a, 108b) and then travels through the intermediate region (252, 312) and enters the downstream region (218, 314) via the control orifice (110, 110a, 110b), and- an equalization aperture (242, 328) formed in the housing to allow a fluid in the downstream region to enter an equalization chamber (246, 326) defined by a region between an inside surface of the housing and an outside surface of the piston, such that the pressure differential across the flange portion (232) is equal to the pressure differential across the control orifice (110, 110a, 110b).

Description

• Betreffend das europäische Patent 1 353 254 ( DE 603 32 891 )
  hat der 5. Senat (Nichtigkeitssenat) des Bundespatentgerichts auf Grund der mündlichen Verhandlung vom 29. November 2017 urch den Vo Bieringer für Recht erkannt:
• I. Das europäische Patent EP 1 353 254 wird mit Wirkung für das Hoheitsgebiet der Bundesrepublik Deutschland dadurch teilweise für nichtig erklärt, dass Patentanspruch 1, dem sich die Ansprüche 2 bis 10 der Schrift DE 603 32 891 C5 anschließen, folgende Fassung erhält:

Claims (10)

1. A fluid regulating control valve (100a, 100b) for regulating a fluid in a heating or cooling system, comprising: - a housing (200, 300) having an upstream region (102, 214, 310), into which the fluid enters the valve (100a, 100b) via a conduit and a downstream region (104, 218, 314), from which the fluid leaves the valve (100a, 100b) via a conduit and having a control orifice (110, 110a, 110b) formed therein adjacent the downstream region; - an adjustment element (212) coupled to the housing (200, 300) for selectively constricting of the control orifice (110, 110a, 110b), - a piston (204) slidably disposed within the housing, the piston having - a fluid passage, through which the controlled flow passes, defining an intermediate region (252, 312) disposed between the upstream region (214, 310) and the downstream region (218, 314); - a flange portion (232, 324) with a top side (248) and a bottom side (250) and - a stem portion (234, 326) with an edge (231, 320) adjacent the upstream region, whereby the stem portion (234, 326) extends from the flange portion (232, 324) down to the edge (231, 320) and has an inside diameter for the fluid passage; - an elastic member (208, 306) disposed within the housing for opposing translation of the piston within the housing; - a throttling element (202, 302) adjacent the upstream region, the throttling element having a throttling surface (224,318) adjacent the edge of the pistqn, the throttling surface (224, 318) and the edge (321, 320) defining a throttling orifice (108, 108a, 108b) therebetween, - whereby the intermediate region (252, 312) is disposed between the throttling orifice (108, 108a, 108b) and the control orifice (110, 110a, 110b) in such a way that fluid enters into the intermediate region (252) via the throttling orifice (108, 108a, 108b) and then travels through the intermediate region (252, 312) and enters the downstream region (218, 314) via the control orifice (110, 110a, 110b), and - an equalization aperture (242, 328) formed in the housing to allow a fluid in the downstream region to enter an equalization chamber (246, 326) defined by a region between an inside surface of the housing and an outside surface of the piston, such that the pressure differential across the flange portion (232) is equal to the pressure differential across the control orifice (110, 110a, 110b).
2. Apparatus according to claim 1, characterized in that the elastic member (208) is mounted within the housing for opposing translation of the piston (204).
3. Apparatus according to claim 1, characterized in that an equalization aperture (242) formed in the housing, in a sidewall (244) of the cap (206), allows a fluid in the downstream region to enter an equalization chamber (246) defined by a region between an inside surface of the housing or of the sidewall (244) and an outside surface of a piston (204), and thereby exists the pressure P3 on the piston (204).
4. Apparatus according to claim 1, characterized in that the flow regulating control valve comprising a seal (256) disposed between the housing and a perimeter of the piston (204) to prevent leakage of the fluid from the intermediate region (252) to the equalization chamber (246) and thereby preventing the pressure level P2 entering the equalization chamber.
5. Apparatus according to claim 1, characterized in that the regulating control valve (100) preferably comprises a square piston ring (258) disposed between a perimeter of the piston (204) and a inner surface of the housing or of the cap (206) for reducing leakage of the fluid there between and the piston ring is preferably formed from fluorocarbon and thereby preventing the pressure level P2 entering the equalization chamber.
6. Apparatus according to claim 1, characterized in that the regulating control valve, wherein an edge (226) of the piston (204) is square.
7. Apparatus according to claim 1, characterized in that the regulating control valve (100) and the piston (204) comprises a flange portion (232) and the steam portion (234) where the flange portion having a first side exposed to the intermediate region (252) and a second side exposed to the equalization chamber (246) and a perimeter slidably engaged with an inside surface of the housing or the cap (206).
8. Apparatus according to claim 1, characterized in that the throttling element (202) adjacent the upstream region, the throttling element having the throttling surface (224) adjacent a edge (231) of the piston (204) where the throttling surface and the edge are defining a throttling orifice there between.
9. Apparatus according to claim 1, characterized in that the throttling element (202) has a cavity formed in one end thereof, the cavity having an inclined surface (228) or sidewall and wherein the throttling surface is defined by an edge (508) of the throttling element and the sidewall.
10. Apparatus according to claims 1 and 9, characterized in that the throttling element (202) preferably has three ports (512) and where the ports configured to follow the following equation: $$W\left(x\right)=\frac{0.0004318d}{1.0055e^{-0.025x}-1}$$

    

    where d is the diameter of the piston, W is the width of each of the three ports and x is a distance from the edge of the piston to a fully closed position defined by a position of the piston in which the edge of the piston touches the inclined sidewall of the cavity of the throttling element. 11. nichtig

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