Still referring to FIGS. When assembled, the pole 1370 is positioned throughout the filter bag 1356 in order to keep same in correct orientation. 1-16B, have been designated by corresponding reference numerals elevated by two thousand. Unless otherwise stated, the modified version of FIGS. It ought to be noted that the cleaner 1010 can have numerous modifications and variations. Adjacent to the seam 1375, a pouch 1410 is formed for receiving the top 1374 of the pole 1370 (see FIGS. FIGS. 23A and 23B illustrate a modified version of the water distribution system 104 of the embodiment proven in FIGS. A mounting strip 1412 (see FIG. 19A) is attached to the filter bag 1356 adjacent the debris collection space 1394, whereas a slot 1414 is formed within the cover 1022 (see FIGS. 1-16B. Elements illustrated in FIGS. 23A and 23B, which correspond, both identically or considerably, to the elements described above with respect to the embodiment of FIGS.
More significantly, when the mode selection gap 312c is chosen, the top/bottom mode cam 304 engages the relief valves 240, 254 for a considerably equal period of time, thereby attaining a 1:1 high mode/backside mode ratio. The mode choice hole 312b has a high mode/backside mode ratio ranging between 1:1 and 0:1 (e.g., Orlando weekly pool maintenance 1:2), while the mode choice hole 312d has a high mode/backside mode ratio ranging between 1:1 and 1:Zero (e.g., 2:1). Due to the mode part holes 312a-312e, the highest mode/bottom mode ratio might be easily adjusted by coupling the link 314 to a desired one of many mode selection holes 312a-312e. The top mode/bottom mode ratios related to the mode part holes 312a-312e are summarized hereinbelow. In contrast, the mode choice hole 312e has a 1:0 top mode/backside mode ratio (i.e., the cleaner 10 is at All Listings times in the highest mode), while the mode selection gap 312a has a 0:1 prime mode/backside mode ratio (i.e., the cleaner 10 is all the time in the underside mode).
FIGS. 25-27 illustrate modified versions of various components of the embodiment proven in FIGS. Unless in any other case acknowledged, the modified versions illustrated in FIGS. Referring to FIGS. 25-27, a cleaner 3010 has a deck 3068 outfitted with an access opening 3074 formed therein. 1-16B, have been designated by corresponding reference numerals elevated by three thousand. 25-27 are constructed and Sitemap assembled and operate in the same primary method as their counterparts proven in FIGS. 25-27 might be utilized within the embodiment illustrated in FIGS. 25-27, which correspond, either identically or substantially, to the weather described above with respect to the embodiment of FIGS. 1-16B. The modified variations proven in FIGS. 1-16B. Elements illustrated in FIGS. A cap 3078 is removably attached to the deck 3068 for overlaying the access opening 3074. In this regard, quick-launch connectors 3420, 3422 (e.g., bayonet-kind connectors) are provided on the cap 3078 and the deck 3068, respectively, for removably attaching the cap 3078 to the deck 3068. Fingers 3424 depend from the cap 3078 for functions to be mentioned hereinafter.
More particularly, the fluid distribution system includes a housing having an inlet for receiving a supply of pressurized fluid, a pair of outlet openings and a valve chamber positioned between the inlet and the outlet openings. The piston additionally includes a primary facet, which is located adjacent the first aspect of the piston chamber and has a primary size, Author Profile and a second facet, which is positioned adjacent the second side of the piston chamber and has a second dimension which is greater than the first size of the primary side of the piston. The housing also includes a piston chamber positioned on one aspect thereof and having a primary facet, which is positioned adjoining the valve chamber and is in fluid communication with the valve chamber, and a second side, which is spaced outwardly from the first facet. A piston is movably mounted within the piston chamber so as to be movable between a primary place, wherein the piston causes one of many outlet openings to be closed, and a second position, through which the piston causes another of the outlet openings to be closed.
The relief valve 254 illustrated in FIG. 10A is engaged by neither the top/backside mode cam 304 nor the spin-out mode cam 306, and is therefore in its closed place. In such circumstances, pressurized water provided to the tube 256 is prevented from being released via the relief valve 254, and the tube 256 becomes pressurized to a level that's considerably identical to the strain degree of the valve chamber 124. As discussed above, because of the stepped construction of the piston 202 (i.e., the surface adjoining to the upstream facet has an space smaller than that of the surface adjacent to the downstream aspect), a higher pressure is exerted on the piston 202 from the downstream aspect thereof, therefore positioning the piston 202 in its retracted position (see FIG. 10A). Consequently, the valve member 198 is positioned over the spin-out mode outlet 184, leaving solely the highest mode outlet 170 open.
More significantly, when the mode selection gap 312c is chosen, the top/bottom mode cam 304 engages the relief valves 240, 254 for a considerably equal period of time, thereby attaining a 1:1 high mode/backside mode ratio. The mode choice hole 312b has a high mode/backside mode ratio ranging between 1:1 and 0:1 (e.g., Orlando weekly pool maintenance 1:2), while the mode choice hole 312d has a high mode/backside mode ratio ranging between 1:1 and 1:Zero (e.g., 2:1). Due to the mode part holes 312a-312e, the highest mode/bottom mode ratio might be easily adjusted by coupling the link 314 to a desired one of many mode selection holes 312a-312e. The top mode/bottom mode ratios related to the mode part holes 312a-312e are summarized hereinbelow. In contrast, the mode choice hole 312e has a 1:0 top mode/backside mode ratio (i.e., the cleaner 10 is at All Listings times in the highest mode), while the mode selection gap 312a has a 0:1 prime mode/backside mode ratio (i.e., the cleaner 10 is all the time in the underside mode).
FIGS. 25-27 illustrate modified versions of various components of the embodiment proven in FIGS. Unless in any other case acknowledged, the modified versions illustrated in FIGS. Referring to FIGS. 25-27, a cleaner 3010 has a deck 3068 outfitted with an access opening 3074 formed therein. 1-16B, have been designated by corresponding reference numerals elevated by three thousand. 25-27 are constructed and Sitemap assembled and operate in the same primary method as their counterparts proven in FIGS. 25-27 might be utilized within the embodiment illustrated in FIGS. 25-27, which correspond, either identically or substantially, to the weather described above with respect to the embodiment of FIGS. 1-16B. The modified variations proven in FIGS. 1-16B. Elements illustrated in FIGS. A cap 3078 is removably attached to the deck 3068 for overlaying the access opening 3074. In this regard, quick-launch connectors 3420, 3422 (e.g., bayonet-kind connectors) are provided on the cap 3078 and the deck 3068, respectively, for removably attaching the cap 3078 to the deck 3068. Fingers 3424 depend from the cap 3078 for functions to be mentioned hereinafter.
More particularly, the fluid distribution system includes a housing having an inlet for receiving a supply of pressurized fluid, a pair of outlet openings and a valve chamber positioned between the inlet and the outlet openings. The piston additionally includes a primary facet, which is located adjacent the first aspect of the piston chamber and has a primary size, Author Profile and a second facet, which is positioned adjacent the second side of the piston chamber and has a second dimension which is greater than the first size of the primary side of the piston. The housing also includes a piston chamber positioned on one aspect thereof and having a primary facet, which is positioned adjoining the valve chamber and is in fluid communication with the valve chamber, and a second side, which is spaced outwardly from the first facet. A piston is movably mounted within the piston chamber so as to be movable between a primary place, wherein the piston causes one of many outlet openings to be closed, and a second position, through which the piston causes another of the outlet openings to be closed.
The relief valve 254 illustrated in FIG. 10A is engaged by neither the top/backside mode cam 304 nor the spin-out mode cam 306, and is therefore in its closed place. In such circumstances, pressurized water provided to the tube 256 is prevented from being released via the relief valve 254, and the tube 256 becomes pressurized to a level that's considerably identical to the strain degree of the valve chamber 124. As discussed above, because of the stepped construction of the piston 202 (i.e., the surface adjoining to the upstream facet has an space smaller than that of the surface adjacent to the downstream aspect), a higher pressure is exerted on the piston 202 from the downstream aspect thereof, therefore positioning the piston 202 in its retracted position (see FIG. 10A). Consequently, the valve member 198 is positioned over the spin-out mode outlet 184, leaving solely the highest mode outlet 170 open.