Patent ID: 7398794
Filing Date: 2008-07-15
Classification: B63C,G05D,Y10T

Abstract:
1. A pressure reducing valve comprising a first stage regulator for scuba breathing apparatus, said first stage regulator having a valve body and a low pressure area with an outer boundary wall, said low pressure area including an outlet chamber ( 14 ) and a compensation chamber ( 3 ), wherein the outer boundary wall ( 114 ) of the low pressure area of the valve body having fins ( 19 , 19 ′) for heat exchange with the environment, wherein the first stage regulator has two axially adjacent chambers ( 3 , 4 ), separated by a partition wall ( 2 ), one of said adjacent chambers being said compensation chamber ( 3 ) having the function of automatically compensating outlet pressure with reference to ambient pressure and communicating with the outside environment through one or more holes ( 5 ) or apertures in the outer boundary wall ( 114 ), and the other of said adjacent chambers being a pressure chamber ( 4 ), communicating with a compressed air source, wherein a tubular plug ( 8 ) passes slidably and tightly through the partition wall ( 2 ), which plug is open at both ends, one end being in the compensation chamber ( 3 ) and the other end ( 108 ) being in the pressure chamber ( 4 ), the end situated in the compensation chamber ( 3 ) having a widened piston-like head ( 9 ) which is arranged to slide in a tight manner in the compensation chamber ( 3 ), and to separate said compensation chamber ( 3 ) from said outlet chamber ( 14 ) situated on the side of the piston ( 9 ) which is opposite to the partition wall ( 2 ), and in which the respective end of the tubular plug ( 8 ) opens, creating a passage for communication with the pressure chamber ( 4 ), a helical pressure spring ( 15 ), coaxial to the tubular plug ( 8 ), being interposed between said piston-like head ( 9 ) of the tubular plug ( 8 ) and the partition wall ( 2 ), which helical spring pushes the plug ( 8 ) toward the opening position, while the same plug ( 8 ) is pushed toward the closing position by the air pressure in the outlet chamber ( 14 ), wherein the holes ( 5 ) for communication between the compensation chamber ( 3 ) and the outside environment are arranged along a peripheral annular band of the outer boundary wall ( 114 ) of said compensation chamber ( 3 ), wherein a fin ( 19 ′) that is provided in the area with holes ( 5 ) has at least one additional annular fin ( 119 ′) disposed over the holes ( 5 ) at a certain distance therefrom, which leaves a communication passage from the compensation chamber ( 3 ) to the outside environment, whose axis is oriented transversely perpendicular, to the hole axis ( 5 ).