Abstract: The present invention relates to valve assemblies. In one embodiment of the invention, a temperature-sensitive safety valve assembly comprises a first region which contains a first pressurised fluid, and a second region which contains a second pressurised fluid. The second region comprises a heat-sensitive sealing means. A valve is arranged between the first and second regions. In a first configuration, the pressure of the second pressurised fluid in the second region overcomes the pressure of the first pressurised fluid to actuate the valve to open the first outlet. The heat-sensitive sealing means in the second region is, in a second configuration, arranged to fail at high temperature so as to de-pressurise the second region, thereby actuating the valve to move under the first pressurised fluid in the first region so as to close the first outlet and seal the first region. Other improvements to valve assemblies arc also disclosed.
Abstract: The present invention relates to a temperature-sensitive safety valve assembly. The valve assembly comprises a first pressurised fluid region, which region has a first outlet and a second pressurised fluid region, which region has a heat-sensitive sealing means. A valve between the first and second regions is adapted to be actuated by the pressure of a first pressurised fluid in the first region against biasing means to open the outlet. The heat-sensitive sealing means in the second region fails at high temperature so as to de-pressurise the second region, thereby actuating the valve to move under the biasing means to close the first outlet and seal the first region. The valve assembly comprises a relay unit, which is arranged to sense a parameter, and react to the sensing of the parameter by sealing the first region. The temperature-sensitive safety valve assembly is remotely electronically operable in a wireless manner.
Abstract: The present invention relates to a temperature-sensitive safely valve assembly (10). The assembly (10) comprising a first region (16) for a first pressurised fluid, a second region (20) for a second pressurised fluid, a valve (26, 28, 27, 26a and 26b) between the first and second regions (16, 20) designed to be actuated by the pressure of a first pressurised fluid in the first region against biasing means (58) to open an outlet (54), for a first pressurised gas, from the first region, and heat-sensitive sealing means (34) on the second region (20), being de-scalable at high temperature to de-pressurize the second region, thereby actuating the valve (26, 28, 27, 26a, 26b) to close the outlet and seal the first region (16).
Abstract: The present invention relates to a temperature-sensitive safety valve assembly. The valve assembly comprises a first pressurised fluid region, which region has a first outlet and a second pressurised fluid region, which region has a heat-sensitive sealing means. A valve between the first and second regions is adapted to be actuated by the pressure of a first pressurised fluid in the first region against biasing means to open the outlet. The heat-sensitive sealing means in the second region fails at high temperature so as to de-pressurise the second region, thereby actuating the valve to move under the biasing means to close the first outlet and seal the first region. The valve assembly comprises a relay unit, which is arranged to sense a parameter, and react to the sensing of the parameter by sealing the first region. The temperature-sensitive safety valve assembly is remotely electronically operable in a wireless manner.