Patent ID: 8794592
Filing Date: 2014-08-05
Classification: F16J,F16K,Y10T

Abstract:
1. A bidirectional pressure self-balancing stop valve, comprising: a valve body, a valve disc, a press ring, a valve bonnet, a valve rod and a balance hole; the valve disc is located inside a chamber of the valve body, the press ring is disposed on the upper side of the chamber of the valve body, the valve bonnet is fixedly connected with the valve body, the valve rod passes through the valve bonnet and the lower end of the valve rod is movably connected with the valve disc, an excircle of the valve disc, the press ring and the valve body form an annular groove, inside which is disposed with a composite seal ring that is high temperature resistant or corrosion resistant, wherein the composite seal ring includes an upper washer, an upper seal ring, an upper distance ring, a blocking ring, a lower distance ring, a lower seal ring and a lower washer from top to bottom; the upper seal ring and the lower seal ring are made of high temperature resistant or corrosion resistant sealing materials; the upper washer, the upper distance ring, the lower distance ring and the lower washer are made of high temperature resistant rigid materials or corrosion resistant rigid materials. a lower end surface of the upper washer and an upper end surface of the upper distance ring are in the shapes of a conical surface, an inclined plane or a spherical surface, formed by squeezing the upper seal ring towards the internal direction of the valve disc, in order to enable both the upper washer and the upper distance ring to squeeze the upper seal ring inwards by tightening the press ring, and to obtain a larger sealing pre-tightening force on an incircle surface of the upper seal ring than that obtained on an excircle surface of the upper seal ring, wherein a pressure medium infiltrating into the excircle surface of the upper seal ring having the lower pre-tightening force via an aperture between the upper washer and the valve disc, to squeeze the excircle surface of the upper seal ring to force the incircle surface of the upper seal ring to be further against the excircle surface of the valve disc, such that the self-sealing occurs when the upper seal ring applies pressure to the valve disc; a lower end surface of the upper distance ring and an upper end surface of the lower distance ring are in the shapes of a cylindrical surface, a conical surface, an inclined plane or a spherical surface, formed by squeezing the blocking ring towards the external direction of the valve body, such that a passage between the excircle surface of the upper seal ring and an excircle surface of the lower seal ring is blocked; and a lower end surface of the lower distance ring and an upper end surface of the lower washer are in the shapes of a conical surface, an inclined plane or a spherical surface, formed by squeezing the lower seal ring towards the internal direction of the valve disc, such that a larger sealing pre-tightening force is obtained on an incircle surface of the lower seal ring than that obtained on the excircle surface of the upper seal ring, wherein the pressure medium infiltrates to the excircle surface of the lower seal ring having lower pre-tightening force via an aperture between the lower washer and the valve body, which forces the incircle surface of the lower seal ring to be further against the excircle surface of the valve disc, such that self-sealing occurs when the lower seal ring applies pressure to the valve disc.