Sleeve actuated valve

A valve made up of a body and a sleeve telescopically received in the body. A hand wheel is concentrically received on the sleeve and threadably received on the body for moving the sleeve axially of the body. A seal is provided in the body between the body and the sleeve. The seal closes the flow passage between the body and the sleeve when the sleeve is moved to one extreme position and opens the flow passage when the sleeve is moved to another extreme position. The sleeve is noncircular so that it will not rotate relative to the body. The valve is suitable for use on hot water tanks and the like for closing off the flow of water. The body has axially extending hooks that engage the body when the seal is moved to the open position so that the relative movement of the sleeve and body are limited and the sleeve and body will not separate.

OBJECTS OF THE INVENTION 
It is an object of the invention to provide an improved valve with a stop 
to limit the relative movement of the valve body and sleeve. 
Another object of the invention is to provide a valve that is simple in 
construction, economical to manufacture, and simple and efficient to use. 
Another object of the invention is to provide an improved combination seal 
and sleeve arrangement. 
With the above and other objects in view, the present invention consists of 
the combination and arrangement of parts hereinafter more fully described, 
illustrated in the accompanying drawing and more particularly pointed out 
in the appended claims, it being understood that changes may be made in 
the form, size, proportions and minor details of construction without 
departing from the spirit or sacrificing any of the advantages of the 
invention. 
REFERENCE TO PRIOR ART 
This disclosure is an improvement over U.S. Pat. No. 3,856,262 issued Dec. 
24, 1974, to Chalmer C. Jordan.

DETAILED DESCRIPTION OF THE DRAWINGS 
Now, with more particular reference to the drawings, the valve shown has a 
body 10 and a sleeve 11 telescopically received in the body 10. The body 
10 has a hollow inlet end 19 and the sleeve 11 has a hollow outlet end 20 
providing a flow passage. Apertures 24 are provided in the end of the 
sleeve 11 adjacent the partition 23. The partition 23 closes the end of 
the sleeve 11, and when the sleeve 11 is in the closed position, the 
partition 23 blocks the flow passage and no liquid is permitted to move 
through the valves. When the valve 11 is moved to the open position, the 
O-ring 16 moves out of engagement of the inner periphery 36 of the body 10 
and liquid can flow through the inlet 19 around the partition 23 into the 
internal counterbore 18 in the body 10 and through the apertures 24 in the 
sleeve 11 to the outlet end 20. The hand wheel 15 threadably engages the 
body 10 with the threads 37 and engages the sleeve 11 at the groove 22. By 
turning the hand wheel 15 further onto the threads 37, the sleeve 11 is 
moved toward the closed position. The full-closed position is shown in 
FIG. 1. By turning the hand wheel 15 further off of the threads 37, the 
sleeve 11 is moved toward the open position. Hooks 41 on the sleeve 11 
engage the shoulder 40 on the body 10 when the valve is in the full-open 
position to prevent the hand wheel from running off of the end of the 
threads 37 on the body 10 as shown in FIG. 2. The body has external 
threads 13 which may be connected to a water heater or the like and 
external threads 27 which mate with the internal threads on the hand wheel 
15. An external groove 35 is formed in the body 10 which receives an 
O-ring 16 as shown. The O-ring 16 makes sliding contact with the inner 
cylindrical periphery 36 of the body 10. The body 10 has notches 28 formed 
in it at the inner edge of the inner periphery 36. Water can drain through 
these notches as the sleeve is moved to the open or closed position. The 
notches 28 permit a gradual increase or decrease in the flow of fluid 
through the valve as the valve is being opened or closed. Thus, accurate 
regulation of the amount of flow is permitted with this valve. The 
internal counterbore 18 is formed in the sleeve 11. O-ring 21 is received 
in groove 29. O-ring 21 makes sliding contact with the internal surface 
defining counterbore 18. 
The hand wheel 15 has internal threads 37 forming a nut which engages the 
external threads 27 on the body 10. The sleeve 11 has a smooth internal 
cylindrical bore 38 which is closed at the upstream end by the partition 
23. The laterally disposed apertures 24 allow water to flow outward and 
around the closed partition 23 when the sleeve is moved to the open 
position. Hand wheel 15 has a flange 31 which is received in groove 22 in 
the sleeve 11. To assemble the hand wheel 15 on the body 10, the threaded 
end 14 of the sleeve 11 is inserted in the opening in flange 31 of the 
hand wheel 15 from the end having threads 37. The flange 31 will be made 
of a material such as nylon which is slightly resilient and will slide up 
the inclined surface 32 and snap into the groove 22. The flange 31 rests 
in the groove 22 and against the retaining shoulder 30 in the sleeve 11. 
The body 10 has an external hexagonal portion 12 suitable for attaching a 
wrench or other tool. From the hexagonal portion 12 to the end 17, the 
exterior of the body 10 is generally circular. The internal counterbore 18 
in the body 10 is generally oval in cross-section. The exterior of section 
39 of sleeve 11 from the shoulder 30 to the partition 25 is generally oval 
in cross-section. Thus, the sleeve 11 cannot rotate relative to the body 
10. The internal bore 28 in the sleeve 11 can be circular or oval in 
cross-section. The outlet end 20 of the sleeve 11 is circular in 
cross-section. 
When the hand wheel 15 is rotated in either direction, the body 10 and 
sleeve 11 are restrained against relative rotation by the oval-shaped 
parts that mate. As the hand wheel 15 is unscrewed from the threads 27, 
the flange 31 pushes against the side of groove 22 adjacent the shoulder 
30 and pushes the body axially away from the sleeve thus opening the 
valve. In the full open position, hooks 41 engage the shoulder 40 limiting 
further movement. As the hand wheel 15 is screwed onto the threads 27, the 
flange 31 pushes against the side of groove 22 opposite the shoulder 30 
and pulls the body axially toward the sleeve and thus closes the valve. In 
the full closed position, the partition 25 engages the ridges 26 limiting 
further movement. The valve is assembled as follows: The sleeve 11 is 
inserted into the threaded end of the body 10 and the hooks 41 will 
slidably engage the inclined surface 26. The sleeve 11 is then forced 
further into the body 10 and the hooks 41 will slide inwardly along the 
inclined surface 26 and snap over the shoulder 40. The hand wheel 15 will, 
by this time, have reached the threads 27 and it can be rotated, thereby 
forcing the valve to closed position with the O-ring 16 engaging the 
internal cylindrical surface 36. 
The valve can be opened by rotating the hand wheel in the opposite 
direction until the hooks 42 again engage the shoulder 40. 
The foregoing specification sets forth the invention in its preferred, 
practical forms but the structure shown is capable of modification within 
a range of equivalents without departing from the invention which is to be 
understood is broadly novel as is commensurate with the appended claims.