Patent Number: 050251589
Section: description

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT Referring now to FIGS. 1 and 2, a stepping apparatus for advancing a hydroball detector string is generally referred to by numeral 10. The stepping apparatus 10 is spliced into a tube 12 leading from the reactor core (not shown) and extending to the gamma counter (not shown). A body member 14 has an axial passageway 16, the opposite ends of which are connected in line with end portions 12a and 12b of the tube 12. To maintain a pressure boundary, the ends 12a and 12b of the tube 12 are secured by, for example, welding or other suitable means. The stepping apparatus 10 includes two gate means 18 and 20 which are disposed upstream of the gamma counter for blocking movement of the string without blocking fluid flow through the tube 12, as will be described in greater detail below. Each gate means includes a gate element 22 and 24, each of which is slidably movable in respective transverse bores in the body member 14 which insect the axial bore 16. The gate elements 22 and 24 are driven by solenoid actuators 26 and 28, respectively. Each solenoid actuator includes a coil portion 30 and 32 and a core portion 34 and 36, respectively. When the solenoid actuators are electrically energized, the corresponding gate elements are driven downwardly by virtue of their being connected to the core portions 30 and 32. Return springs 38 and 40 bias the gate elements 22 and 24, respectively, back to the initial position. As shown in FIG. 2, gate element 22 (which is identical to gate element 24) has a first passage 42 which is substantially circular and has a diameter sufficiently large to permit passage of the detector string including both the cable and balls. A second passage 44 is a vertically extending slot which permits passage of the cable of the string detector but not the balls. Thus, when the gate element 22 is lifted upwardly so that the second passage 44 is aligned with the axially bore 16 of the body member 14, balls of the string detector will be blocked by abutment with the gate member 22 at the second passage 44. Other features of the stepping apparatus 10 include guides or stops 46 and 48 which are fixedly received in axial bores, and which are parallel to the axial bore 16 and intersect the transverse bores in which the gate elements 22 and 24 are received. The stops have end portions which extend into the transverse bores for abutment with an axial slot 50 provided in the end of each gate element, so that when the gate element is in the open position, such that the first passage 42 is aligned with the axial bores 16, the bottom of the slot 50 will abut the end of the stop 46 or 48. FIGS. 3a-3c are schematic, sequential steps showing the method of advancing a detector string 52 towards a gamma counter. The detector string 52 includes a cable 54 which carries a plurality of balls 56, 58, 60 and 62. FIG. 3a is a starting position in which a first ball 58 abuts the first gate element 22 so that the detector string is prevented from advancing. In this position, the gate element 22 is in a lower position in which the second passage 44 is aligned with the axial passageway 16. Although the ball abuts the passage 44, fluid under pressure can pass through the passage. At the same time, gate element 24 is in a retracted position, such as what is illustrated in FIG. 1. In a first step to advance the detector string 52, the gate element 24 is moved to a blocking position, in which the second passage is moved into alignment with the axial bore 16. Then, the gate element 22 is moved out of the blocking position so that the first ball is no longer abutting the second passage of the gate element. The detector string 52 advances under fluid pressure until the ball 60 which is adjacent to the first ball 58 comes into abutment with the second passage of the gate element 24. Next, the gate element 22 is moved back into the blocking position behind the first ball 58, and then the second gate element 24 is moved out of the blocking position so that the detector string advances once again until the adjacent ball 60 abuts the first gate element 22. These steps are repeated in sequence to advance the detector string 52 one ball at a time to the gamma counter. The solenoid actuators 26 and 28 can be controlled by a controller and timer so that the gamma counter can count each ball for a predetermined time. At the end of the gamma counting process, both gate elements are moved to the open position so that the entire detector string can be retracted under reverse flow of fluid. Numerous modifications and adaptations of the present invention will be apparent to those skilled in the art and thus, it is intended by the following claims to cover all such modifications and adaptations which fall within the true spirit and scope of the invention.