Cryogenic fluid shut-off valve

What is claimed is: 1 . A shut-off valve for use with cryogenic fluids, the shut-off valve comprising: a body including a valve inlet, a valve outlet, and one or more internal surfaces that define at least one void in fluid communication with the valve inlet and the valve outlet; a valve seat defined by the one or more internal surfaces of the body; a housing connected to the body; a valve spindle disposed within the housing, the valve spindle including a seat disc configured to sealingly engage with the valve seat; a buffer composed of a cryogenic temperature resistant material circumferentially surrounding and connected to at least a portion of the valve spindle and slidingly engaged with an internal surface of the housing; and a valve actuating member operatively connected to the valve spindle, the valve actuating member configured to cause an axial movement of the valve spindle, the seat disc, and the buffer to control a flow of a fluid from the valve inlet into the at least one void and the valve outlet. 2 . The shut-off valve of claim 1 , wherein the buffer comprises a first semi-circular portion joined to a second semi-circular portion. 3 . The shut-off valve of claim 1 , wherein the buffer comprises a plurality of outer surfaces that define a notch around a first circumference of a first portion of the buffer and a buffer collar around a second circumference of a second portion of the buffer opposite the first portion. 4 . The shut-off valve of claim 3 , wherein the valve spindle comprises an upper spindle and a lower spindle, and wherein the lower spindle comprises a spindle collar that extends into the notch of the buffer to align and position the buffer around the lower spindle. 5 . The shut-off valve of claim 3 , wherein the valve spindle comprises a spindle collar that extends into the notch of the buffer to align and position the buffer around the valve spindle. 6 . The shut-off valve of claim 1 , wherein the buffer comprises a plurality of buffer members, and wherein each buffer member of the plurality of buffer members comprise a plurality of outer surfaces that define a notch around a first circumference of a first portion of the buffer member and a buffer collar around a second circumference of a second portion of the buffer member opposite the first portion. 7 . The shut-off valve of claim 6 , wherein the valve spindle comprises a spindle collar that extends into a first notch of a first buffer member of the plurality of buffer members and a first buffer collar of the first buffer member of the plurality of buffer members extends into a second notch of a second buffer member of the plurality of buffer members. 8 . The shut-off valve of claim 1 , wherein the valve spindle comprises an upper spindle and a lower spindle, the lower spindle comprises an upper spindle engagement member and the upper spindle comprises a lower spindle engagement member operatively engaged with the upper spindle engagement member such that rotation of the upper spindle causes rotation of the lower spindle. 9 . The shut-off valve of claim 8 , wherein the upper spindle engagement member comprises multiple upper spindle engaging surfaces that define an upper spindle receiving bore, and wherein the lower spindle engagement member comprises multiple lower spindle engaging surfaces that correspond to and slidingly engage with the upper spindle engaging surfaces. 10 . The shut-off valve of claim 1 , wherein the valve actuating member comprises a power actuating member comprising a linear actuating member operatively connected to the valve spindle such that activation of the power actuating member causes a first axial movement of the valve spindle in a first direction such that the valve spindle, the buffer, and the seat disc move axially along a longitudinal axis away from the valve seat to actuate the shut-off valve into an unsealed position, and wherein deactivation of the power actuating member causes a second axial movement of the valve spindle in a second direction such that the valve spindle, the buffer, and the seat disc move axially along the longitudinal axis towards the valve seat to actuate the shut-off valve into a sealed position. 11 . The shut-off valve of claim 10 , wherein the valve actuating member comprises a solenoid. 12 . A shut-off valve for use with cryogenic fluids, the shut-off valve comprising: a body defining a valve inlet, a valve outlet, at least one void, and a valve seat, wherein the at least one void is configured to be in fluid communication with the valve inlet and the valve outlet; a housing including an internal surface and connected to the body; a valve spindle disposed within the housing and including a seat disc configured to sealingly engage the valve seat; a buffer circumferentially surrounding and connected to at least a portion of the valve spindle and slidingly engaged with the internal surface of the housing, wherein the buffer defines a notch extending circumferentially around a bottom portion of the buffer; and a valve actuating member operatively connected to the valve spindle, wherein the valve actuating member is configured to control axial movement of the seat disc via the valve spindle to control a flow of a fluid between the valve inlet and the valve outlet. 13 . The shut-off valve of claim 12 , wherein the valve spindle comprises a spindle collar that extends into the notch of the buffer to align and position the buffer around the valve spindle. 14 . The shut-off valve of claim 12 , wherein the valve actuating member is a handle. 15 . The shut-off valve of claim 12 , wherein the valve actuating member comprises a solenoid actuator. 16 . The shut-off valve of claim 12 , further comprising a vacuum jacket that encloses the body and at least a portion of the housing. 17 . The shut-off valve of claim 12 , wherein the housing comprises a valve tube connected to a valve stem, and wherein the valve tube includes the internal surface of the housing. 18 . The shut-off valve of claim 12 , wherein at least a portion of the valve spindle is slidingly engaged to the internal surface of the housing. 19 . The shut-off valve of claim 12 , wherein the buffer includes a buffer collar extending circumferentially around a top portion of the buffer. 20 . The shut-off valve of claim 12 , further comprising an O-ring disposed in a groove circumferentially formed around an outer surface of the valve spindle, wherein the O-ring is configured to sealingly engage the internal surface of the housing.