Ball circulation pump skid and related method

Abstract

In a hydraulic circuit including a ball circulation pump skid, a single pump, and a set of valves in a manifold of the ball circulation pump skid, the pump and valves are operated to move all fluid in the hydraulic circuit alternately along two paths through an operative device and a ball collection capsule in the manifold, so that none of the balls ever enter the pump. The first path enables (a) ball-containing fluid flow from the operative device to the ball collection capsule and (b) ball-free fluid flow from the ball collection capsule to the exactly one pump and back to the manifold. The second path provides for (c) ball-free fluid flow from the pump to the ball collection capsule and (d) ball-entraining flow from the ball collection capsule to the operative device.

Claims

1. A hydraulic method for use with a ball circulation pump skid, comprising: providing a hydraulic circuit having exactly one pump for moving fluid through the hydraulic circuit, said hydraulic circuit including an external device and a manifold of the ball circulation pump skid, a plurality of cleaning balls being disposed in said fluid; operating said exactly one pump to move fluid through said hydraulic circuit including said external device and said manifold; during the operating of said exactly one pump, selectively actuating valves in said manifold; and by virtue of the selective actuation of said valves: (a) during a first of exactly two modes of fluid-flow of the hydraulic circuit, said first of said exactly two modes being implemented by a first state of actuation of said valves, directing fluid from said external device only along a first path, extending in part through said manifold and through a ball collection capsule in said manifold, to thereby capture, in said ball collection capsule, cleaning balls in the fluid flowing from said external device in said first state of actuation of said valves, and form ball-free fluid, (b) during said first of said exactly two modes of fluid-flow, guiding the ball-free fluid from said ball collection capsule along said first path directly to said pump only and from said pump directly only back to said manifold, (c) during a second of said exactly two modes of fluid-flow of the hydraulic circuit, said second of said exactly two modes being implemented by a second state of actuation of said valves different from said first state of actuation, directing all of the ball-free fluid from said pump along a second path directly to said manifold only and through said ball collection capsule therein to entrain the cleaning balls therein and to thereby form ball-entraining fluid, and (d) during the second of said exactly two modes of fluid-flow, moving the ball-entraining fluid from said ball collection capsule in said manifold along said second path directly only to said external device.

2. The method defined in claim 1 wherein the directing of said ball-containing fluid from said external device through said ball collection capsule includes feeding the fluid from said external device through at least one opening at one end of said ball collection capsule.

3. The method defined in claim 2 wherein the guiding of said ball-free fluid from said ball collection capsule to said pump includes flowing said ball-free fluid through a filter screen or panel at an end of said ball collection capsule opposite said at least one opening.

4. The method defined in claim 3 wherein the directing of the ball-free fluid from said pump through said ball collection capsule during said second of said exactly two modes of fluid-flow of the hydraulic circuit includes moving said ball-free fluid through said filter screen or panel from a side thereof opposite said at least one opening.

5. The method defined in claim 4 wherein the moving of the ball-entraining fluid from said ball collection capsule includes guiding cleaning balls and fluid from said ball collection capsule through another opening at said one end of said ball collection capsule.

6. A hydraulic method for use with a ball circulation pump skid, comprising: providing a hydraulic circuit having exactly one pump for moving fluid through the hydraulic circuit, a plurality of cleaning balls being disposed in said fluid, said hydraulic circuit including an external device and a manifold of the ball circulation pump skid, said manifold including a ball collection capsule and a plurality of valves; operating said exactly one pump and said valves to move said fluid in said hydraulic circuit, including said external device and said manifold, alternately along a first path and a second path, said manifold being configured so that none of the balls ever enter said exactly one pump, wherein said first path enables (a) ball-containing fluid flow from said external device directly to said manifold only and to said ball collection capsule therein and (b) ball-free fluid flow from said ball collection capsule and from said manifold directly to said exactly one pump only and from said exactly one pump directly back to said manifold only, wherein said second path provides for (c) said ball-free fluid flow from said exactly one pump directly to said manifold only and to said ball collection capsule therein and (d) ball-entraining flow from said ball collection capsule and said manifold directly only to said external device.

7. The method defined in claim 6, further comprising preventing the cleaning balls from traveling to or entering said pump, while enabling the flow of ball-free fluid from said manifold to said pump both along both said first path and said second path.

8. The method defined in claim 6 wherein said first path extends through or traverses a filter screen or panel of said ball collection capsule.

9. The method defined in claim 6 wherein said second path extends through or traverses a filter screen or panel of said ball collection capsule, further comprising moving ball-free fluid from said pump into said ball collection capsule through a filter screen or panel of said ball collection capsule.

10. A hydraulic method for use with a ball circulation pump skid, comprising: providing a hydraulic circuit having exactly one pump for moving fluid through the hydraulic circuit, said hydraulic circuit including an external device and a manifold of the ball circulation pump skid, said manifold including a plurality of valves, a plurality of cleaning balls being disposed in said fluid; and operating said exactly one pump and said valves to move fluid in said hydraulic circuit through said hydraulic circuit, including said external device and said manifold, alternately along a first path and a second path to: channel fluid flow in said hydraulic circuit along said first path from said external device directly to said manifold directly and through a ball collection capsule in said manifold to capture, in said ball collection capsule, the cleaning balls from the fluid flow therethrough, guide ball-free fluid along said first path from said ball collection capsule and from said manifold directly to said exactly one pump only and from said exactly one pump directly only back to said manifold, flow the ball-free fluid from said exactly one pump along said second path directly to said manifold only and to said ball collection capsule therein and through same to entrain the cleaning balls captured therein, and move ball-entraining fluid along said second path from said ball collection capsule and directly from said manifold only to said external device.

11. The method defined in claim 10, further comprising preventing balls from traveling from said manifold to said pump, while enabling the flow of ball-free fluid from said manifold to said pump both along said first path and said second path.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is an isometric view of a ball circulation pump skid in accordance with the present invention.

(2) FIG. 2 is a top plan view of the pump skid of FIG. 1.

(3) FIG. 3 is a front elevational view of the pump skid of FIGS. 1 and 2.

(4) FIG. 4 is a side elevational view of the pump skid of FIGS. 1-3.

(5) FIG. 5 is a front elevational view of a central vertical conduit in the pump skid of FIGS. 1-4.

(6) FIG. 6 is a side elevational view of the central vertical conduit of FIG. 5.

(7) FIG. 7 is a cross-sectional view taken along line VII-VII in FIG. 4, on a larger scale.

(8) FIG. 8 is an isometric view of a ball collection capsule housed in the central vertical conduit of FIGS. 1-7.

(9) FIG. 9 is a side elevational view of the ball collection capsule of FIG. 8.

(10) FIG. 10 is a cross-sectional view taken along line X-X in FIG. 9.

(11) FIG. 11 is a top plan view of a pipe included in the pump skid of FIGS. 1-4.

(12) FIG. 12 is a side elevational view of the pipe of FIG. 11.

(13) FIG. 13 is an isometric view of a base frame of the pump skid of FIGS. 1-4.

DETAILED DESCRIPTION

(14) A ball circulation pump skid comprises a base frame 20, a pump 22 mounted to the base frame, and a piping manifold 24 also mounted to the base frame. Piping manifold 24 has a first inlet 26 and a first outlet 28 (FIG. 7) connected to pump 22 via respective truncated U-shape pipes 30 and 32 (FIGS. 11 and 12). Manifold 24 is further provided with a second inlet 34 and a second outlet 36 (FIG. 7) connectable to an external device (not shown), such as a condenser or heat exchanger.

(15) Manifold 24 houses a ball collection capsule 38 (FIGS. 7-10) configured to permit flow of fluid and entrained cleaning balls into the ball collection capsule in a first flow direction 40 (FIG. 7) and to permit flow of fluid and entrained cleaning balls out of the ball collection capsule in a second flow direction 42. Ball collection capsule 38 is adapted to permit flow of only fluid, without entrained cleaning balls, through the ball collection capsule in both the first flow direction 40 and the second flow direction 42.

(16) Ball collection capsule 38 is provided at a lower end (not designated) with a perforate wall or panel 44 configured to permit fluid passage and to prevent ball passage. End wall or panel 44 and, optionally, a cylindrical sidewall 46 of capsule 38 are formed as screens or filter panels that block passage of cleaning balls but permit liquid flow through. Ball collection capsule 38 is provided at an upper end (not designated) with at least one opening 48 and preferably two opposed openings 48 and 50 large enough to permit passage of fluid together with entrained balls alternately into and out of the ball collection capsule (depending on the phase of the operating cycle, as described hereinafter). Flow direction 40 extends from opening 48 at the second end towards end wall or panel 44, while the second flow direction 42 extends from wall or panel 44 towards opening 50 at the top or upper end of ball collection capsule 38.

(17) Six valves 52-57 are mounted to manifold 24 for controlling the flow of fluid therethrough. More particularly, valves 52-57 are jointly operative to create alternately a first fluid flow path 58 and a second fluid flow path 60 through the piping manifold. Flow path 58 includes a first leg 58a from inlet 34 to outlet 28 through ball collection capsule 38, overlapping the first flow direction 40, and further includes a second leg 58b from inlet 26 to outlet 36. Flow path 60 includes a leg 60a from inlet 26 to outlet 36 through ball collection capsule 38, coinciding in part with the second flow direction 42, and additionally includes a leg 60b from inlet 34 to outlet 28.

(18) Piping manifold 24 includes two primary conduits 62 and 64 and three secondary conduits 66, 68, 70. Each of secondary conduit 66, 68, 70 extends between primary conduits 62 and 64. Ball collection capsule 38 is disposed in a first one 66 of the three secondary conduits 66, 68, 70. Inlet 26 and outlet 28 are located at opposite ends of one primary conduit 62, while inlet 34 and outlet 36 are located at opposite ends of the other primary conduit 64.

(19) Valves 52-57 include a first valve 52 in primary conduit 64 between inlet 34 and secondary conduit 66, a second valve 53 in primary conduit 62 between secondary conduit 66 and outlet 28, a third valve 54 in a second secondary conduit 68, a fourth valve 55 in a third secondary conduit 70, a fifth valve 56 in primary conduit 62 between inlet 26 and secondary conduit 66, and a sixth valve 57 in primary conduit 64 between secondary conduit 66 and outlet 36.

(20) The two primary conduits 62 and 64 extend horizontally, primary conduit 64 disposed vertically above primary conduit 62 and parallel thereto. Secondary conduits 66, 68, 70 preferably extend vertically in parallel to each other, secondary conduit 66 being disposed between conduits 68 and 70.

(21) The ball circulation pump skid may further comprise a control unit 72 mounted to base frame 20. Control unit is a numerical-control unit or more preferably a microprocessor operatively connected to pump 22 and valves 52-57 for coordinating or synchronizing the operation and actuation thereof.

(22) Third valve 54 is disposed in a lower end portion (not separately designated) of secondary conduit 68, while fourth valve 55 is positioned in a lower end portion (not separately designated) of secondary conduit 70. Manifold 24 further houses a filter screen 74 in an upper end portion (not separately designated) of secondary conduit 68 and a filter screen 76 in an upper end portion (not separately designated) of secondary conduit 70. Filter screens 74 and 76 are fastened to respective secondary conduits 68 and 70, internally thereof. Filter screens 74 and 76 together with perforate wall or panel 44 and optionally cylindrical sidewall 46 of capsule 38 serve to isolate the pump from the cleaning balls, preventing the balls from ever reaching or entering the pump.

(23) As depicted in FIGS. 8-10, ball collection capsule 38 includes a cap member 100 with a pair of opposed sidewalls 102 and 104 in the form of cylindrical sections that together define opening 48 on one side and opening 50 on another side. Cap member 100 is provided with a cover plate 106 removably attached to the upper end of cap member 100 via a wing nut 108 and bolt 110. A U-shaped rod 112 serves as a hand grip.

(24) Although the invention has been described in terms of particular embodiments and applications, one of ordinary skill in the art, in light of this teaching, can generate additional embodiments and modifications without departing from the spirit of or exceeding the scope of the claimed invention. Accordingly, it is to be understood that the drawings and descriptions herein are proffered by way of example to facilitate comprehension of the invention and should not be construed to limit the scope thereof.