Patent Number: 041475895
Section: claims

1. A control rod assembly adapted for use in a nuclear reactor, said control rod assembly comprising a control rod having a shoulder, a drive shaft assembly, a coupling connecting said drive shaft assembly to said control rod and cooperating pin and cylindrical detent members connected to said drive shaft for operating said coupling to couple and uncouple said drive shaft assembly from said control rod, said cylindrical detent member being formed to captively hold said pin member in contact with said detent member in one of two axially spaced positions, one position creating coupling and the second position creating uncoupling of the drive shaft assembly from the control rod, said detent member being moved from one position to the other by a predetermined unidirectional rotation of said detent member which results from a lowering and subsequent lifting of said drive shaft assembly, said coupling including a plunger member and a radially biased resilient member having a shoulder cooperatively configured to engage said control rod shoulder, said resilient and plunger members being affixed to said drive shaft assembly and axially movable with respect to one another upon said movement of said detent member so as to radially move said resilient member shoulder into and out of engagement with said control rod shoulder. 2. The control rod assembly of claim 1, wherein said drive shaft assembly includes a rigid drive shaft, said detent member comprising a grooved cylinder which is mounted to said drive shaft for rotational movement thereon, a cylindrical member slidingly mounted onto said drive shaft, said cylindrical member having said pin member fixedly connected to the wall thereof, and a biasing member positioned to act on said cylinder member and said drive shaft such that said pin member is forcefully held in either of said two axially spaced positions in said detent member. 3. The control rod assembly of claim 2, wherein said grooved cylinder includes a pair of axially spaced arrays of grooves formed in said cylinder, with said pair of arrays of grooves being spaced by a portion of said grooved cylinder having its surface coplanar with the bottom surface of said grooves, said groove arrays being rotated relative to each other by an amount substantially equal to one-half the pitch distance between grooves, the entranceway to each groove from said spacing portion of the cylinder having a corner cut away so as to form a cammed surface, said grooves thereby being arranged to rotate said grooved cylinder one pitch distance by the force exerted by said pin member on said cammed surfaces during one lowering and lifting cycle of said drive shaft assembly, and during said lowering and lifting cycle, said pin member being positioned in one of said axial positions and then the other. 4. The control rod assembly of claim 3, wherein said pair of arrays of grooves in said grooved cylinder comprise a first array with each groove extending coextensively, and a second array with adjacent grooves extending alternately to one and then the other of said axially spaced positions of said pin member, said second array thereby having alternate grooves extending coextensively. 5. The control rod assembly of claim 1, wherein said detent member comprises a cylinder mounted to said drive shaft for rotational movement thereon and having two axially spaced arrays of grooves formed therein, said grooves serving to guide said movement of said detent member, said groove arrays being operationally interconnected by a portion of said detent cylinder having its surface coplanar with the bottom surface of said grooves, said groove arrays being rotated relative to each other by an amount substantially equal to one-half the pitch distance between grooves, and the entrance to each groove being cammed. 6. A control rod assembly adapted for use in a nuclear reactor, said control rod assembly comprising a control rod, a drive shaft assembly, a coupling connecting said drive shaft assembly to said control rod and cooperating pin and cylindrical detent members connected to said drive shaft for coupling and uncoupling said drive shaft assembly from said control rod, said detent member being formed to captively hold said pin member in contact with said detent member in one of two axially spaced positions, one position creating coupling and the second position creating uncoupling of the drive shaft assembly from the control rod, said detent member being unidirectionally rotatable such that said pin is positioned in one of said axial positions and then the other, said unidirectional rotation of said detent member resulting from a lowering and subsequent lifting of said drive shaft assembly, said coupling of the control rod with the drive shaft assembly including a shouldered indentation formed within the coupling end of said control rod, and a plurality of resilient members having a shouldered protrusion thereon for engaging with said shouldered indentation to couple the control rod with the drive shaft assembly, said plurality of resilient members being biasly formed radially so as to be normally disengaged from said shouldered indentation, the resilient members being mounted concentric with said drive shaft assembly, and such that an enlarged end of the drive shaft assembly having a cross-sectional configuration greater than an opening circumscribed by said resilient members is located axially adjacent the ends of said resilient members, whereby motion of the drive shaft assembly relative to the resilient members causes said enlarged end of the drive shaft to force the ends of said resilient members radially outward into engagement with said shouldered indentation in the control rod. 7. The control rod assembly of claim 6, wherein said resilient members are mounted to a cylinder member being concentrically mounted to said drive shaft and axially movable with respect thereto, and said axial position of the enlarged end of the drive shaft assembly so as to couple the control rod with the drive shaft by forcing the resilient members into engagement with the indentation in the control rod is fixed by the relative axial position of said pin member in said detent member. 8. A control rod assembly adapted for use in a nuclear reactor, said control rod assembly comprising a control rod, a drive shaft assembly, and a coupling connecting said control rod to said drive shaft assembly, said coupling including cooperating lug and detent means for connecting and disconnecting said control rod from said drive shaft assembly, said detent means including a cylinder mounted to said drive shaft assembly for unidirectional rotational movement thereon and being formed to hold said lug means in engagement therewith so as to connect said drive shaft assembly to said control rod, and to allow said lug means to be disengaged from said detent means so as to disconnect said drive shaft assembly from said control rod, said lug means being moved from engagement to disengagement with said detent means by a predetermined rotation of said detent means which results from a lowering and subsequent lifting of said drive shaft assembly, said detent cylinder further comprising three axially spaced arrays of grooves formed therein, with a first and second of said arrays of grooves being axially adjacent and serving to guide the movement of the lug means from engagement to disengagement with said detent means, and the third array of grooves being axially adjacent said second array and serving to allow axial separation of said lug means from said detent means, each of said arrays of grooves being operationally interconnected by portions of said detent cylinder having its surface coplanar with the bottom surface of said grooves, the first and second of said groove arrays having an equal number of grooves, said first and second groove arrays being rotated relative to each other such that each groove of each array is positioned along an axial line which lies between adjacent grooves in the opposite array, said third array of grooves having one half the number of grooves of said first and second arrays, with the grooves in said third array being aligned axially with every other groove in said second array, said first and said second arrays having the entranceway to each groove cammed such that movement of said lug means from a groove in one array to the other causes a rotation of said detent cylinder about its axis an amount corresponding to the pitch distance between opposite grooves in said first and said second arrays of grooves. 9. The control rod assembly of claim 8 wherein said lug means comprises at least one protruding member fixedly mounted to said control rod, and said control rod assembly further comprises a biasing member included with said drive shaft assembly positioned to hold said lug means against a shoulder formed within said detent cylinder so as to maintain connection of said drive shaft assembly with said control rod.