SU1765589A1 - Valve for cryogenic tanks equipped with vacuum jacket - Google Patents

Description

the casing is respectively connected by means of hinges.

The drawing shows a general view of a valve for cryogenic vessels.

The valve consists of a cold body 1 in which the valve 2 with the saddle 3, the rod 4, the return spring 5, is placed, sealed by a bellows 5.

The shutter 2 with the saddle 3 is positioned so that the valve is closed due to the thrust of the stem 4. The valve is manually actuated, which consists of a flywheel with a threaded bushing 7, a stem 8 with a threaded shaft, a bellows 9 and a flexible element 10, which seal the internal cavity of the vacuum casing 11 from the environment. The shutter 2 and the drive are connected by a thrust 13c with a coaxially arranged support 12. Th. ha 13 and support 12 have hinges 14, 15, 16. Th. ha 13 is made in the form of a thin rod of high-strength wire (cable) eg from EN steel 33. Bearing 12 is a thin-walled pipe made of heat insulating material, for example, fiberglass. The valve is located on a cold casing 1, the drive is on a vacuum case 11.

The valve operates as follows.

When the threaded bushing 7 rotates, the rod 8 makes a forward movement. In this case, the thrust 13 compresses the spring 5, the shutter 2 is pressed against the saddle 3, as a result of which the flow of the working medium is blocked. The force that occurs when the valve closes through the support closes on the actuator. When the threaded bushing 7 rotates in the opposite direction, the force transmitted by the thrust 13 decreases, the spring 5 through the rod 4 retracts the bolt 2 to its original position. During the closing and opening of the valve, the gas bar 13 only works for stretching and its lateral dimensions are determined only by the strength condition of the material.

With linear and angular movements of the inner vessel 1 relative to the vacuum casing 11, the flexible element 10, for example the bellows, is stretched and bent, while the pull 13, the support 12 and the actuator turn relative to the hinges 14, 15,

16. Despite the fact that the valve moves along with the inner vessel 1, the position of the shutter 2 relative to the seat 3 does not change, since the thrust length 13 and its position remain constant.

Thus, the use of tensile pulling tools allows one to choose its minimum cross section, which significantly reduces heat leakage to the valve. The location of the saddle and shutter from the side

opposite to the drive, allows the spring to be set to a minimum size, since its task is to retract the bolt from the seat, and not to create the effort required for sealing

this reduces the size and weight of the valve and reduces the cryogenic product loss for cooling. The presence of a flexible element connecting the actuator and the vacuum jacket, as well as the presence of hinges, allows the valve to perform linear and angular movements. In addition to the manual actuator, the valve can operate with pneumatic, electric and other actuators.

Claims (1)

Invention Formula Valve for cryogenic vessels with a vacuum jacket, containing a cold body with a saddle, a valve stem mounted in the housing, a valve actuator coupled to the valve stem through a thermal bridge, characterized in that, in order to improve reliability by compensating for linear and angular movements of the cold housing with respect to the vacuum jacket and the reduction of heat leakage, the thermal bridge is made in the form of a rod, coaxially of which is placed a bearing connecting the drive with the housing, and a pull with the stem of the gate, the support with the housing and the drive with a vacuum mindy the casing is respectively connected by means of hinges.