Abstract:
To thoroughly clean, both the inside and outside of pipe and tubing, and both the threaded end and the coupling end of pipe and tubing, for a distance of 18 to 24 inches from end of pipe, a cleaner assembly includes at least one rotating brush that revolves around the outside of the pipe and at least one brush that rotates inside of the pipe. Preferaby one internal brush is provided for the threaded end and two brushes are provided for the coupling end. The second internal brush is larger and cleans the coupling threads as the pipe is moved into and from the cleaner. Cleaning fluid is introduced to the brushing areas, and is reclaimed during the cleaning operation. The cleaner is attached to a raising and lowering device that also accepts a removable spray cover and a pipe seal. The raising and lowering unit is mounted on a stand that contains the fluid collection, fluid cleaning and fluid storage system.

Description:
BACKGROUND OF THE INVENTION 
     In U.S. Pat. No. 2,838,778 issued to Von Arx in 1958 apparatus for cleaning the inside and thee outside of pipe is disclosed. However, the assembly for cleaning the interior of the pipe is complicated and expensive. 
     U.S. Pat. No. 3,436,783 discloses an apparatus for cleaning the interior of pipe. This apparatus is portable. 
     U.S. Pat. No. 4,433,448 discloses apparatus for cleaning the exterior of pipe and apparatus for varying the diameter of the brush assembly to treat the pipe. 
     U.S. Pat. No. 4,166,301 discloses brushes for treating the exterior of the pipe and a scraper or blade with a plurality of cutting edges rather than brushes to clean the interior of the pipe. 
     U.S. Pat. No. 4,372,003 discloses a portable unit for treating both the outside of treaded and the inside, but the apparatus does not allow the simultaneous treatment of both the inside and the outside of the pipe. 
     SUMMARY OF THE INVENTION 
     The object of the invention is to thoroughly clean both the inside and outside of both the threaded end and the coupling end of pipe and tubing of foreign matter, for a distance of 18 to 24 inches from end of pipe. 
     In accordance with the present invention a cleaner assembly includes at least one rotating brush that revolves around the outside of the pipe and at least one brush that rotates inside of the pipe. Preferably one internal brush is provided for the threaded end and two brushes are provided for the coupling end. The second internal brush is larger and cleans the coupling threads as the pipe is moved into and from the cleaner. Cleaning fluid is introduced to the brushing areas, held captive and reclaimed during the cleaning operation. 
     The cleaner assembly is attached to a raising and lowering device that also accepts a removable spray cover and pipe seal. 
     The raising and lowering unit is mounted on a stand that contains the fluid collection, fluid cleaning and fluid storage system. 
    
    
     THE DRAWINGS 
     FIG. 1 is a schematic perspective view illustrating pipe to be cleaned containing thread protectors at either end and pipe racks supporting the pipe, and thread protector removal assembly at either end of the pipe. 
     FIG. 2 is a schematic illustration of the tubing and pipe cleaning apparatus of the present invention with cleaning units located at opposite ends of the pipe to be treated. 
     FIG. 3 is a front elevation view of one of the cleaning assemblies of the present invention. 
     FIG. 4 is a side elevation view of the cleaning unit illustrated in FIG. 3. 
     FIG. 5 is a sectional view looking in the direction of the arrows along the line 5--5 in FIG. 4. 
     FIG. 6 is a vertical section view looking in the direction of the arrows along the line 6--6 in FIG. 5. 
     FIG. 7 is a sectional view looking in the direction of the arrows along the line 7--7 in FIG. 5. 
     FIG. 8 is an enlarged of a portion of FIG. 6. 
     FIG. 9 is a view looking in the direction of arrows along the line 9--9 in FIG. 8. 
     FIG. 10 and 10&#39; is a vertical sectional view looking in the direction of the arrows along the line 10--10&#39; in FIG. 5 with portions of the links support assembly removed for clarity. 
     FIG. 10A is a sectional view looking in the direction of the arrows along the line 10A--10A in FIG. 10. 
     FIG. 11 is a sectional view looking in the direction of the arrows along the line 11--11 in FIG. 10. 
     FIG. 12 is an enlarged view of a portion of FIG. 5. 
     FIG. 13 is a sectional view looking in the direction of the arrow, along the line 13--13 in FIG. 12. 
     FIG. 14 is a sectional view looking in the direction of the arrows along the line 14--14 in FIG. 12. 
    
    
     DESCRIPTION OF PREFERRED EMBODIMENTS 
     The usual procedure of pipe inspection is to roll the pipe P (FIG. 1) on pipe racks 2, 3 from one operation to another. First the thread protectors 4, 5 are removed, for example according to U.S. Pat. No. 4,442,737 and illustrated at 7 and 8. Next drifting and magnetizing of the pipe occurs which is not a part of this invention. However, drifting is discussed in U.S. Pat. No. 4,354,379. Then the pipe is rolled to the end area cleaning station. 
     At the end area cleaning station the pipe drops slightly off the pipe racks 2, 3 onto a series of power driven urethane vee rollers 9 (FIG. 2) that move the pipe laterally either direction into the pipe cleaners 10 and 12 of the present invention, first one end (FIG. 10) then the other. 
     The height of the pipe racks 2, 3, and vee rollers 9 is constant. Thus the height of pipe center line varies with the diameter of pipe. It becomes necessary to raise or lower the center line of the cleaners accordingly. 
     The cleaners 10 and 12 of the present invention are located at each end and are constructed in the same manner except where indicated. 
     Four legs 16a, 16b, 16c and 16d, two sides 14a and 14b and a pan 15 are welded together as a base for the system. A tank 17 of 1/4&#34; plate with a partition 19 (FIG. 6) is welded between channels (14). A screen basket 18 (FIG. 6) is placed in smaller compartment 17a of tanks (17) under spout (15s) of catch pan (15). 
     As shown in FIGS. 3 and 5, a channel frame (26a) and (26b) and two polish rods 27a, 27b are mounted on top of the two rear legs 16c and 16d of the base. A slide (28) consists of a steel plate (28a) welded (FIG. 5) between two steel tubes (28b) with a urethane bearing (28c, FIG. 7) cast into the tubes. The cleaner assembly 29 is fastened to the slide 28a with machine screws (27, FIG. 6). A partial ring (32) is welded to slide 28a and serves as a seat for the removable cover (31) that is held in place with suitable mechanical fasteners or catches (30) (FIGS. 3 and 5). 
     The bottom of cover (31) is open and the end (31a) opposite of the slide is machined to accept a urethane pipe seal (34), as shown in FIGS. 8 and 9. The pipe seal has a hole (34a) in the center that corresponds to the size of pipe being cleaned (FIG. 6) seal retaining ring (35) has a cam surface (35A) (FIGS. 8 and 9) and a series of notches (36) that correspond to cam followers (37) fastened to the cover (31) by small brackets (40) and fasteners (41). By placing the retaining ring (35) against the seal (34) with notches (36) in the ring matching cam followers (37), by turning the ring (35) several degrees clockwise, the ring engages cam followers (37) and holds seal (34) firmly in place. The ring (35) is turned counter-clockwise to remove the seal. 
     The slide (28a) is raised or lowered as a unit by the worm gear (41) having bearing covers (41a and 41b FIGS. 3 and 5). The gear (41) is operated manually by handwheel (42) connected to gear (41) by shaft (43) and coupling (44) through bearing (45). 
     The worm gear (41) is attached to a shaft (41c) which is connected to plate (28A) by gussets (28G). The shaft (41c) is movable within a housing (41d). 
     The urethane vee rollers (9a, 9b) are mounted on a channel (46) with gussets (46a) (FIG. 6) between side channels (14a, 14b). This vee rollers (9a, 9b) are the same height as the power rollers (9) and pipe racks 2, 3 (FIG. 1) and steadies the pipe P as it enters the cleaner. 
     A pump (48) is mounted on a base (48c) with suction side (48s) connected to the larger compartment (17b) of the tank (17) and the discharge (48d) connected by hoses (48h) to spray nozzles (49) and fluid coupling connection (58) (FIG. 10). 
     The flexible coupling FC may be connected directly to the coupling (48). Alternatively, a valve (200) may be provided and a conduit (202) is provided to cut-off communication between the separate cleaning unit (204) and the conduit (48H). The cleaning unit (204) for example, may be a hydro cyclone. Hydrocyclone (204) is not a part of this invention and will not be described further. 
     Clean fluid from the hydrocyclone (204) is conveyed by means of a conduit (208) to the lines (48h) and thence with nozzles 49 and into the coupling (58). Impure material is removed from the hydrocyclone (204) by means of a removable bottom (212) into a container (214) which may be periodically dumped. 
     In most instances, fluid is conveyed only to the hydrocyclone (204) when the cleaning unit (29) is operating. 
     A motor M is removably attached to a flange (47). Flange (47 is part of a tube (61) (FIG. 10&#39;). There are two openings (67) for access to flexible coupling (FC) which drivably engages mandril (77) at (77a). 
     The tube (61) has a flange (65) which is fastened to a sun gear (66) with four machine screws (62). The sun gear (66) accepts a spherical roller bearing and a double row ball bearing (73). The front bearing (71) is retained by a bearing retainer (74) and socket head cap screws (73a). Sleeve (72) spaces bearings (71) and (73) a proper distance apart. The bearing retainer (74) also serves as a seal housing for a rotary seal (74a). Lock washer (75) and lock nut (75a) retain mandril (77). 
     Bearing housing cap (76) with an o-ring (76a) is fastened to housing portion (66a) of sun gear (66) with screws (76b). This cap also serves as seal housing for rotary seal (76c). 
     A rotary fluid coupling (80) having a body portion (80a) is positioned on mandril (77) with two retaining rings (81, 81a), and two washers (81a, 82). Body portion (80a) includes an opening (80b) for solvent, and openings (80c) and to receive o-rings (80d). 
     Plug (83) with an o-ring (83a) is positioned with a dowel (84). 
     A spacer ring (85) is fastened to the sun gear (66) with socket head cap screws (85a). A gear housing (87) is fastened to the spacer ring (85) with machine screws (87a). 
     The mandril (77) is a steel tubular shaft with a hub (88) and a flange (89). A planetary bearing housing (90) includes a transverse portion (90a) and a longitudinal portion (90b). The planetary bearing housing transverse portion (90a) fastens to mandril flange (89) with six machine screws (90c). 
     Three planetary shafts (92) (FIG. 5) are keyed at (92k) for planet gears (93) (FIG. 10&#39;) on one end and are machined at (92a) to accept three brush shaft links (113) (FIGS. 5 and 13) on the other end and three rotary seals (94) with rear planetary bearings (95). The rear planetary bearings (95) are ball bearings and retained with a retainer (96) and screws (96a). 
     A urethane seal (97) seals between gear housing (87) and planetary bearing housing portion (90a) and is retained by retainer ring (96) and machine screws (96a). The three front planetary bearings (99) are ball bearings with a snap ring (99a). 
     The internal brush holders (100) and (100&#39;) are mounted upon mandril (77). They are molded of urethane in various diameters depending on pipe size. Grooves (101) (FIG. 11) accept replaceable strip brushes (102). The number various with the diameter of brush holder. The brush holder (100) seats against mandril hub (88). The dowels (103) are compatible with holes (104) in the brush holder (100). Brush retaining plate (105) is held against brush holder with a nut (105a) (FIG. 10) on threads (105b). The outside diameter of the brush retaining plate (105) is only slightly less than that of the brush holder so that the retaining plate holds strip brushes in their respective grooves. A different diameter plate (105) is needed for each size brush holder. The internal brush holder is elminated from the cleaner assembly (12) at the pin end of the pipe (FIG. 2). 
     Hub (106) is keyed to the mandril (77) but may be removed by hand. The internal pipe brush holds (110&#39;) fits against hub (106) and dowels (103&#39;) and is held in place with brush retaining plate (107). 
     Threads (105b) retainer (105), opening (100a) and brush (102) and dowels (103) are omitted on the mandril (47) for the cleaner (12) at the pin end of the pipe (FIG. 2). 
     A nut (109) for the wiper seal (110) serves a nut to screw on threads (105b), a cap for the bore through the mandril (77) and as a mandril for a urethane wiper seal (110) (FIG. 6). 
     The three brush adjusting bracket and link support (112) assemblies are installed over planetary shafts (92). They are secured to planetary bearing housing portion (90b) which is ring shaped (FIG. 12) with a machine screw (118a) (FIG. 13) having a nut (118b) through adjusting slot (118c) and a clamp (118d) held in place by a machine screw (118e) and washer (118f). 
     The brush shaft link (113) is shown as a weldment (FIG. 13) consisting of a bearing housing (114), arm (115) and eccentric housing (116). This may be a casting or forging. A bronze bushing (117) is pressed into housing (114). The bearing surface is between the bushing (117) and the support (118). The retaining ring (119) and steel washer (119a) secure the brush shaft link to the support (118). 
     The eccentric bearing housing (116) houses two ball bearings (120, 122) that are positioned by a spacer (121) a retaining ring (122a) and bearing retainer (123) held in place with machine screws (124). 
     The brush shaft (125) is held in bearings (120, 122) by a retaining ring (125a). A sprocket (126) is keyed to shaft (125) and is aligned with a sprocket (92b) that is keyed to planetary shaft (92) having a threaded stud (92c) held in place with a nut (92d). A roller chain (127) connects the two sprockets (92b) and (126). Chain tightness is adjusted by rotating eccentric bearing housing (116), and is held in adjustment by set screw (128). A gear belt and gear belt pulley may be used in lieu of the roller chain and sprockets illustrated. 
     Brush shaft link stops (129) and (130), FIG. 14 are welded to the brush adjusting bracket and link support (118). Link stop (129) is bored to accept a plunger (132), spring (134) and adjusting screw (136). Catch (138) is integral with stop (129). The removable cage bar (140) is secured by catch (138) and machine screw (142) which is threaded into stop (130). 
     Thus it is seen that the Basic Cleaner Stator includes sun gear (66) with bearing housing (87), motor to cleaner housng (61) and spacer ring (85) shown in FIG. 10. 
     The Basic Cleaner Rotor includes a tubular mandril (77), planetary bearing housing (90), three planetary shafts (92) (FIG. 5) with planetary gears (93) (FIG. 10&#39;) and three brush shaft links (113). 
     OPERATION 
     A motor M is mounted on mounting flange (47) and connected to the mandril (77) through a flexible coupling (FC) and keyed to mandril keyway (77a). The planetary bearing housing (90) rotates with the mandril (77), revolving the three planet gears (93) around sun gear (66). This rotates the three planetary shafts (92) at a ratio of 4:1 or 5:1 to the motor and mandril (77). 
     The rotary motion of the planetary shafts (92) is transmitted through the adjustable brush shaft links (113) (FIG. 13) by chains (127) to the brush shafts (125) and wheel brushes (125b) attached to brush shafts (125) by threads (125t) and nut (125N) (FIG. 6). These external brushes are adjusted for various size pipe by loosening screws (118a) and (118d) and rotating the adjusting bracket and link support (118) towards or away from the center of the cleaner, depending upon the diameter of pipe to be cleaned and then locking in desired position with nuts (118b) and (118e). The spring (134) and plunger (132) permit the brush shaft link to rotate slightly on bushing (117) allowing brushes (125a) to move out for pipe couplings. 
     Cleaning fluid or solvent is pumped from tank (17b) to a hose fitting (58), through groove (80b) in rotary coupling (80) through opening (77b) into center of mandril (77), then through opening (100a) and/or (100a&#39;) into grooves (110b), and/or (100b&#39;) of brush holder (100 and/or 100&#39;) thus into the cleaning area inside the pipe being cleaned. Fluid is prevented from moving into the pipe farther than the cleaning area by a nut (109) from urethane wiper seal (110) of proper diameter on threaded portion (109a) (FIG. 10). This wiper seal also wipes out fluid and foreign matter when the pipe being treated is withdrawn. 
     With the cleaner running and the pump (48) pumping cleaning fluid from tank (171) to nozzles (49) in cover (31) and rotary fluid coupling (58) (FIG. 10) on brush mandril (77), the pipe P is moved over the vee roller (9a), wiper (110), through seal (34), over internal brushes (102&#39;) and between the external brushes (125b) as far as the cleaner will permit. Then as pipe is withdrawn from the cleaner the wiper (110) wipes fluid and loosened debris from inside of pipe. After cleaning the pipe in cleaner unit (10), the pipe is inserted into cleaner (12) as shown in FIG. 2 and the cleaning process is repeated. 
     The cleaning fluid from pump (48) through mandril (77) and internal brushes (100), 100&#39; is the cleaning agent at the brush area inside the pipe. The cleaning fluid from pump through nozzles (49) is the cleaning agent at the brush area on the outside of the pipe. All the cleaning fluid introduced into the brush areas is held captive by the wiper (110), pipe seal (34), cover (31) and catch pan (15). The catch pan directs fluid into a fine mesh screen basket (18) through spout (15s). 
     The filtered fluid overflows from the smaller compartment (17a) over a vein 19 into the large compartment of tank (17b) completing fluid cycle. 
     The flexible coupling (48h) may connect directly to nozzles 49 and to the coupling (58). Alternatively, a valve (200) may be provided and a conduit (202) provided to a separate cleaning unit (204). A valve (206) is provided to cut off communication between the separate cleaning unit (204) and the conduit (48h). The cleaning unit (204), for example, may be a hydro cyclone. The hydro cyclone (204) is not a part of this invention and will not be described further. Cleaning fluid from the hydro cyclone (204) is conveyed by means of a conduit (208) to the line (48h) and thence into nozzles (49) and coupling (58). Impure material is removed from the hydro cyclone (204) by means of a removable bottom (212) into a container (214) which may be periodically dumped. 
     In most instances fluid is conveyed only to the hydro cyclone (204) when the cleaning unit (29) is in operation.