The invention includes but is not limited to propane vacuum cleaners and systems.
The invention includes embodiments of a vacuum cleaner having a propane fuel source, a sealed vacuum chamber and a total weight of not more than forty pounds. In some embodiments, the total weight of the vacuum cleaner is within the range of between 22 to 26 pounds.
The invention further includes a vacuum cleaner system for a portable vacuum cleaner. The system includes a vacuum cleaner having a propane fuel source, a sealed vacuum chamber and a total weight of not more than forty pounds, and at least one removably attachable harness, at least one removably attachable carrier shoulder strap, at least one removably attachable set of wheels, at least one handle and/or at least one rolling tray.
The accompanying drawings, which are incorporated in and form a part of the specification, illustrate the embodiments of the present invention and, together with the description, serve to explain the principles of the invention.
Referring now to
Referring now to exemplary
For purposes of the definitions that follow the term “total weight” is intended to mean the weight of the vacuum cleaner and full propane power source. However, if a portability attachment, which could be but is not limited to, a harness, at least two wheels, at least one carrier shoulder strap, at least one rolling tray and/or at least one handle are removable, the total weight does not include the removable portability attachment or attachments. In some embodiments, the total weight of the vacuum cleaner 30 of the current invention is in the range of between 10.5 and 40 pounds. In some embodiments the total weight of the vacuum cleaner 30 is in the range of between 22 and 40 pounds. In some embodiments the total weight of the vacuum cleaner 30 is in the range of between 10.5 and 28 pounds. In some embodiments, the total weight of the vacuum cleaner 30 is not more than 26 pounds. In some embodiments, the total weight of the vacuum cleaner is between 10.5 and 26 pounds. In some embodiments the total weight of the vacuum cleaner 30 is in the range of 22 to 26 pounds. In some embodiments the total weight of the vacuum cleaner 30 is in the range of 22 to 26 pounds. In some embodiments, the total weight of the vacuum cleaner 30 is about 22 pounds. In some embodiments, the total weight of the vacuum cleaner 30 is about 23.5 pounds. In some embodiments, the total weight of the vacuum cleaner 30 is about 24.5 pounds. In some embodiments, the total weight of the vacuum cleaner 30 is about 20.5 pounds.
Power is delivered by a propane gas powered four stroke, internal combustion engine 36 with brake horsepower in the range of 1.5-1.6. In one embodiment, the engine 36 operates on propane fuel, with approximately 1.6 brake horsepower, and is an air cooled, splash lubricated, four stroke, single cylinder, spark ignition, internal combustion engine 36 with a swept displacement of approximately 25 to 35 cc.; the engine 36 can operate in any orientation with respect to the pull of gravity. In one embodiment, a Honda GX 35 engine can be used.
As previously known in the art, the fuel system can include a carburetor, pressure regulator, vacuum lock-off valve, and a fuel inlet fitting 38 to which the propane fuel canister is attached. The carburetor mixes the propane fuel with air in the correct proportions and introduces the mixture to the inlet manifold of the engine 36. The pressure regulator controls the pressure of the propane fuel so that it is constant at the carburetor regardless of the pressure in the propane fuel canister. The engine 36 will operate in a range of about 1,000 to 7,000 rpm. In some embodiments, the vacuum cleaner 30 can also include a manual shutoff valve.
In one embodiment, as known in the art, propane is delivered to the engine 36 initially through a fuel inlet fitting 38 that is an industry standard. The fuel flows through a first fuel line to a pressure regulator, through a second fuel line to a lock-off valve, and then through a third fuel line to the carburetor. In addition, as known in the art, there is a vacuum line between the lock-off valve and the intake manifold. The vacuum lock-off valve shuts off flow of the propane to the engine 36 when it is not running to prevent an unintended discharge of propane into the atmosphere. As known in the art, a vacuum sensor and solenoid valve can be used as an electronically controlled alternative to the mechanical lock-off valve. In that case, a solenoid valve would replace the lock off in the fuel line, a vacuum sensor would be installed in the intake manifold, and an electrical cable generally would run between the sensor and the solenoid generally along the path taken by the vacuum line. A manual shut off can be included in the fuel line between the propane canister 34 and the pressure regulator so that the operator can stop the flow of propane when the vacuum is not in use.
Reference is now made to
It is to be understood that other ways that are known or to be discovered of securing at least one propane tank 34 to the vacuum cleaner 30 are intended to be included in the invention. Other ways of securing the propane tank 34 to the vacuum cleaner 30 include, but are not limited to screwing it into a fitting and using metal straps.
Reference is now made to exemplary
In some embodiments, the vacuum impeller 66 can be attached with an engine flywheel 72 such that the impeller 66 rotates at the same speed as the flywheel 72.
As illustrated in exemplary
In another embodiment, as exemplarily illustrated in
In addition, in some embodiments of this embodiment, at least one attacher, such as, but not limited to a retaining bolt 86 can also be used. When a retaining bolt 86 is used, the top of the adaptor shaft 80 has internal bolt threads 88 bored into it and the adaptor shaft is constructed to be slightly shorter than the height of the impeller 66 where it surrounds the adaptor shaft 80. A washer 90 is placed over the end of the adaptor shaft 80, and a bolt 86 is screwed into the top of the adaptor shaft 80, such that when the bolt 86 is fully screw into the threads, the washer 90 rests on the impeller 66 and compresses the impeller 66 toward the flywheel 72. Referring now to exemplary
In another embodiment, as exemplarily illustrated in
It is to be understood the above-described ways that the impeller 66 can be attached with the engine 36 are exemplary and that there are other ways in which the impeller 66 could be attached with the engine 36 such that the engine 36 would cause the impeller 66 to rotate at the same speed as the engine 36, and that additional attachments of the impeller 66 with the engine 36 are intended to be within the scope of the invention.
Referring now to exemplary
In some embodiments, the impeller housing 100 is made in two members, a first housing member 110 and a second housing member 112, that fit together and are sealed. In some embodiments, the first housing member 110 and second housing member 112 that fit together with a seal 114 between the members. In some embodiments, the seal 114 is an elastomeric seal. This arrangement allows easy access to the impeller 66 for assembly or servicing. The first 110 and second housing member 112 can be attached with one another by attachers 116 currently known in the art and to be discovered, including, but not limited to by: screws, draw latches, metal clips, pawl or cam action latches, and quarter turn fasteners.
In the embodiments exemplarily illustrated, the first housing member 110 contains the volute 106 shape and has more depth than the second housing 112 member, which is almost flat. However, it is to be understood that in some embodiments, both the first housing member 110 and the second housing 112 members could have depths of equal or varying sizes provided that when the housing members are attached with one another, there is sufficient room within the housing 100 for the impeller 66 to rotate.
As exemplarily illustrated in
Some embodiments have at least one of the following size ranges: the impeller 66 diameter is in the range of 9 inches to 12 inches; the impeller 66 blade height is in the range of 1 inch to 2 inches; the volute 106 swept angle is in the range of 300 degrees to 330.degrees; the volute 106 starting tip gap is in the range of 0.005 inches to 0.200 inches; the volute 106 exiting tip gap is in the range of 2.5 inches to 4.5 inches; the volute 106 starting height is in the range of 1.25 inches to 2.50 inches, and; the volute 106 exiting height is in the range of 2 inches to 4 inches.
Some embodiments have the following size ranges: the impeller 66 diameter is in the range of 9 inches to 12 inches; the impeller 66 blade height is in the range of 1 inch to 2 inches; the volute 106 swept angle is in the range of 300 degrees to 330 degrees; the volute 106 starting tip gap is in the range of 0.005 inches to 0.200 inches; the volute 106 exiting tip gap is in the range of 2.5 inches to 4.5 inches; the volute 106 starting height is in the range of 1.25 inches to 2.50 inches, and; the volute 106 exiting height is in the range of 2 inches to 4 inches.
Some embodiments have at least one of the following sizes: the impeller 66 diameter is 9.47 inches; the impeller 66 blade height is 1.25 inches; the volute 106 swept angle is 315 degrees; the volute 106 starting tip gap is 0.13 inches; the volute 106 exiting tip gap is 3.03; the volute 106 starting height is 1.65 inches, and the volute 106 exiting height is 2.85 inches.
Some embodiments have the following sizes: the impeller 66 diameter is 9.47 inches; the impeller 66 blade height is 1.25 inches; the volute 106 swept angle is 315 degrees; the volute 106 starting tip gap is 0.13 inches; the volute 106 exiting tip gap is 3.03; the volute 106 starting height is 1.65 inches, and the volute 106 exiting height is 2.85 inches.
In some embodiments where the first housing member 110 has depth and the second housing member 112 is almost flat, at least one of the following sizes occurs: the impeller 66 diameter is 9.47 inches; the impeller 66 blade height is 1.25 inches; the volute 106 swept angle is 315 degrees; the volute 106 starting tip gap is 0.13 inches; the volute 106 exiting tip gap is 3.03; the volute 106 starting height is 1.65 inches, and the volute 106 exiting height is 2.85 inches.
In some embodiments where the first housing member 110 has depth and the second housing member 112 is almost flat, the following sizes occur: the impeller 66 diameter is 9.47 inches; the impeller 66 blade height is 1.25 inches; the volute 106 swept angle is 315 degrees; the volute 106 starting tip gap is 0.13 inches; the volute 106 exiting tip gap is 3.03; the volute 106 starting height is 1.65 inches, and the volute 106 exiting height is 2.85 inches.
In some embodiments where the first housing member 110 has depth and the second housing member 112 is almost flat, at least one of the following size ranges occurs: the impeller 66 diameter is in the range of 9 inches to 12 inches; the impeller 66 blade height is in the range of 1 inch to 2 inches; the volute 106 swept angle is in the range of 300 degrees to 330 degrees; the volute 106 starting tip gap is in the range of 0.005 inches to 0.200 inches; the volute 106 exiting tip gap is in the range of 2.5 inches to 4.5 inches; the volute 106 starting height is in the range of 1.25 inches to 2.50 inches, and; the volute 106 exiting height is in the range of 2 inches to 4 inches.
In some embodiments where the first housing member 110 has depth and the second housing member 112 is almost flat, the following size ranges occurs: the impeller 66 diameter is in the range of 9 inches to 12 inches; the impeller 66 blade height is in the range of 1 inch to 2 inches; the volute 106 swept angle is in the range of 300 degrees to 330 degrees; the volute 106 starting tip gap is in the range of 0.005 inches to 0.200 inches; the volute 106 exiting tip gap is in the range of 2.5 inches to 4.5 inches; the volute 106 starting height is in the range of 1.25 inches to 2.50 inches, and; the volute 106 exiting height is in the range of 2 inches to 4 inches.
Canister, hip, and upright vacuums can also be made using this engine system.
Referring to exemplary
Referring now to exemplary
The outer bag 136 can have at least one hose entry side 144, a top side 146 and a front side 148. In some embodiments the sealer is placed on the front side 148 for easy access. The hose entry side 144 includes a hose opening 150. In addition, the inside 152 of the hose entry side 144 can include a bag support 154 which gives the hose entry side additional supportive structure. In some embodiments the bag support 154 is made of ABS. In other embodiments, the bag support 154 can be made of materials including but not limited to, cardboard, wood and aluminum. In some embodiments, the inside 152 of the hose side 144 of the outer bag 136 has at least one elastic strap 156 member. The elastic strap 156 member is attached at its ends to the inside 152 of the hose side 144 of the outer bag 136, extends beyond both sides of the bag support 154, and traps the bag support 154 between it and the hose entry side 144 of the outer bag 136. In some embodiments, the inside 152 of the hose side 144 of the outer bag 136 has two elastic straps 156, with one being located above the hose opening 150 and one being located below the hose opening 150. The elastic straps 156 give additional support to the bag support 154 and help to keep it in place.
The outer filter bag 136 can have at least one attacher 260 with the framework 168 other than via the exhaust hose 130. As exemplarily illustrated in
Referring now to exemplary
Referring now to exemplary
The vacuum cleaner can include full or partial covering.
In some embodiments, a shroud 166 can be mounted to the chassis 54 plate. In one embodiment, the shroud 166 is made of Kydex (PVC). It is to be understood that the shroud 166 could also be made of other materials, including, but not limited to, fiberglass composite, ABS, Polycarbonate, carbon fiber composites, or Kevlar composites, and aluminum. The shroud 166 can have at least one vent slot 236 in the top end through which exhaust can escape.
The chassis 54 can be mounted to a framework 168. In some embodiments, the chassis 54 is mounted to a framework 168 in a manner which reduces the amount of the vibration from the engine 36 that is transferred to the frame. In some embodiments, the chassis 54 is mounted to the frame via at least one vibration reducer. Vibration reducers include vibration reducers currently known in the art and to be discovered, such as, but not limited to vibration isolators 170, springs, hydraulics, rubber, elastomeric material and spongy material. In some embodiments, the chassis can be attached with the frame by at least one strap such that the chassis does not make contact with the frame to reduce the amount of vibration transferred from the engine to the frame. In some embodiments the chassis can be attached with the frame via at least one vibration isolator. In some embodiments the chassis can be attached with the frame via four vibration isolators. In some embodiments the chassis can be attached with the frame via more than four vibration isolators.
Referring now to
As exemplarily illustrated in
Referring now to exemplary
In addition, in some embodiments the inlet hose 126 could exit the back cover 194 at at least one opening in the top of the back cover 194 and/or in the bottom of the back cover such that the inlet hose 126 could be directed to either the right or the left of the vacuum cleaner after exiting the cover. In some of these embodiments, the inlet hose 126 will be able to exit the back cover 194 from at least one opening generally in the center of the top of the back cover 194 and/or from at least one opening generally in the center of the bottom of the back cover 194.
The bottom of the back cover 194 can also include at least one bottom opening 200, which can be used to give access to at least one bottom foot pad 202 and/or at least two wheels 204 to mount to the frame. In some embodiments, the bottom of the back cover 194 can include more than one bottom opening 200. In some embodiments, the bottom of the back cover 194 includes two bottom openings 200. In some embodiments, the bottom of the back cover 194 includes three bottom openings 200. In some embodiments, the bottom of the back cover 194 includes four bottom openings 200. The back of the back cover 194 can also include at least one harness slot 206, which can be used to give the shoulder straps 208 access to the frame 168 for attachment. In some embodiments, the back of the back cover 194 includes at two harness slots 206.
In some embodiments, at least three foot pads 202, currently known in the art, can be included on the vacuum cleaner 30. The foot pads 202 can be attached with the frame and they would impact the surface, such as the floor, on which the vacuum cleaner 30 could be placed. In one embodiment, the vacuum cleaner 30 will have four foot pads 202, one being place in each corner of the bottom of the vacuum cleaner 30. Wheels can be attached to at least one foot pad in ways currently known in the art or to be discovered. In one embodiment, as currently known in the art, the bottom of each of the foot pads 202 can have an opening into which the stem 222 of a wheel can be removably inserted.
In some embodiments, at least one bottom foot pad is attached with the frame. In some embodiments, more than one bottom foot pad is attached with the frame. In some embodiments, two bottom foot pads are attached with the frame. In some embodiments, three bottom foot pads are attached with the frame. In some embodiments, four bottom foot pads are attached with the frame.
In some embodiments, the vacuum cleaner includes at least one wheel. The at least one wheel can be attached to the vacuum cleaner in any way currently known in the art or to be discovered. In some embodiments, as further known in the art, the wheels 204 can be caster wheels 204 that would have 360 degree rotational capabilities.
In some embodiments, at least two wheels are attached with the frame. In some embodiments, more than two wheels are attached with the frame. In some embodiments, two wheels are attached with the frame. In some embodiments, three wheels are attached with the frame. In some embodiments, four wheels are attached with the frame.
In some embodiments, at least one wheel is attachable with the frame. In some embodiments, at least two wheels are attachable with the frame In some embodiments, more than two wheels are attachable with the frame. In some embodiments, two wheels are attachable with the frame. In some embodiments, three wheels are attachable with the frame. In some embodiments, four wheels are attachable with the frame.
In some embodiments, at least one wheel is attached to at least one foot pad that is attached or attachable with the frame. In some embodiments, at least two wheels are attached to at least one foot pad that is attached or attachable with the frame. In some embodiments, more than two wheels are attached to at least one foot pad that is attached or attachable with the frame. In some embodiments, two wheels are attached to at least one foot pad that is attached or attachable with the frame. In some embodiments, three wheels are attached to at least one foot pad that is attached or attachable with the frame. In some embodiments, four wheels are attached to at least one foot pad that is attached or attachable with the frame.
In some embodiments, at least one wheel is attachable to at least one foot pad that is attached or attachable with the frame. In some embodiments, at least two wheels are attachable with at least one foot pad that is attached or attachable with the frame. In some embodiments, more than two wheels are attachable with at least one foot pad that is attached or attachable with the frame. In some embodiments, two wheels are attachable with at least one foot pad that is attached or attachable with the frame. In some embodiments, three wheels are attachable with at least one foot pad that is attached or attachable with the frame. In some embodiments, four wheels are attachable with at least one foot pad that is attached or attachable with the frame. The outside of the back cover 194 can have at least one back pad 210 attached to it. The back pad 210 can be made of or include a material that provides some cushion for the back of the user when the user is wearing the vacuum cleaner 30. Examples of materials of which the back pad 210 could be made include, but are not limited to, foams, such as, but not limited to, polyurethane foam. In one embodiment, two rectangular back pads 210 are included that are attached to the back cover 194, with one back pad 210 being located below each of the harness slots 206 and extending down most of the rest of the back cover 194.
The back cover 194 and the shroud 166 can be attached with each other by attachers currently known in the art or to be discovered. In some embodiments, the back cover 194 and the shroud 166 are attached with each other with a latch 212 and latch support 214 assembly.
In some embodiments, a backpack harness 216 is also mounted to the framework 168. The backpack harness can be mounted at the shoulder straps 208, and it can be fixedly attached or removably attached. If it is removably attached, at least one attacher can be included for each shoulder strap, which could include, but are not limited to, snaps 218, buckles, hook and loop material 60, and buttons. The harness can also include a hip belt 220. In some embodiments, as known in the art, the harness is adjustable to fit various sized users. In some embodiments, as known in the art, the harness is reversible. In some embodiments, as known in the art, the harness is reversible and adjustable.
In some embodiments, at least one carry handle 224 can also be included. At least one carry handle 224 can be attached with the vacuum cleaner in a variety of ways currently known in the art. In addition, at least one carry handle can be either fixedly or removably attached with the vacuum cleaner. In some embodiments, at least one handle could be molded into the cover of the vacuum cleaner. In some embodiments, at least one carrier strap 228 can be attached with the vacuum cleaner in a variety of ways currently known in the art. In addition, at least one carrier strap 228 can be either fixedly or removably attached with the vacuum cleaner.
As exemplarily illustrated in
Referring now to exemplary
In some embodiments, the bottom end 234 of the shroud 166 is open to the top side 146 of the outer filter bag 136. In some embodiments the bottom end 234 of the shroud 166 touches the top of the filter bag 136 and thereby at least partially enshrouds it. It is to be noted that at least some of the exiting air flow from the filter bag will flow upward on the inside side 230 of the shroud 166 toward the engine 36, displacing hot stagnant air out vent slots 236 in the top of the shroud 166 and having the effect of providing some cooling to the engine 36. In some embodiments the flow of the exiting air flow to the engine 36 creates a cooled area, which could be described as a kind of bubble of cooler air, next to the engine 36.
Referring now to exemplary
In some embodiments, vacuum power can be user adjustable via control of the engine 36 revolutions per minute (RPM). Some embodiments can have an automatic gas shutoff system that can shut off the flow of propane gas to the engine 36. Referring now to exemplary
In some embodiments, the thumb knob will at minimum have three positions for operation. The first position will be slow or idle, the second will be medium and will be the approximate middle of the engine's RPM range. The third position will be full or fast and will be the maximum attainable RPM for which the engine 36 is designed. The operating positions can be designated by markings on the control box 226. In some embodiments, the operating positions will have a feature integral to the assembly of the control box 226 and the thumb knob so that the thumb knob cannot freely move along its direction of travel without moving the thumb knob perpendicular to its said direction of travel. In some embodiments, the control box 226 will contain an electrical switch 102 to turn off or kill the engine 36. This electrical switch will be of momentary contact, single or multiple poles and can be of either rocker or push button in design. The control box can also include a flat spring 250.
A throttle cable 248 can be extended from the control box 226 to the throttle. The throttle cable 248 can be fixedly or removably attached with other elements of the vacuum cleaner 30 between the control box and the throttle for convenience and so that is will not get caught on unintended things.
The control box can have a Velcro strip 60 running through the bottom of the control box 226 and around the hose 126.
It is to be noted that when the control box 226 is attached with the inlet hose 126, and the user wants to pass the control box 226 and inlet hose 126, along with the throttle cable 248, through an inlet hose opening 150 in the back cover 194, the opening has to be large enough for them to pass. If the opening is not large enough for them to pass while assembled, the control box 226 can be disconnected from the inlet hose 126, and the inlet hose 126 and control box can be passed through the hose opening 198 separately. The control box 226 can be removably attachable to the inlet hose 126 by attachers 256 such as, but not limited to, Velcro straps 60, elastomeric straps, and metal straps. The throttle cable 248 can be removably attached with the inlet hose 126 by attachers known in the art or to be discovered, such as, but not limited to, hook and loop material 60, tie backs and the like.
The vacuum cleaner can include at least one removable portability attachment that can be used the transport the vacuum cleaner. Referring now to
It is further to be understood that while the portability attachments that are listed as follows are identified, other portability attachments currently known in the art and to be discovered are intended to be included in the invention: at least two wheels; a shoulder harness 208 and hip belt 220; a shoulder harness without a hip belt; at least one rolling tray 58; at least one carrier strap 228; and at least one handle 224. All combinations of removably and fixedly attached portability attachments are intended to be included in the invention.
Reference is now made to FIGS. 1 and 20-20E, which are illustrations of a specific embodiment of the vacuum cleaner 30 of the current invention, wherein
This application is a continuation-in-part of and claims the benefit of co-pending non-provisional applications of Richard B. Patrono, Leonard C. Wagner, Jeff Kiersh and Andrew Lees, Ser. No. 13/219,600, filed on Aug. 26, 2011, entitled: Propane Vacuum and of Richard B. Patrono, Leonard C. Wagner, Jeff Kiersh and Andrew Lees, Ser. No. 13/219,603, filed on Aug. 27, 2011, entitled: Propane Vacuum. The entire disclosures of parent patent applications of Richard B. Patrono, Leonard C. Wagner, Jeff Kiersh and Andrew Lees, Ser. No. 13/219,600, filed on Aug. 26, 2011, entitled: Propane Vacuum of Richard B. Patrono, Leonard C. Wagner, Jeff Kiersh and Andrew Lees, Ser. No. 13/219,603, filed on Aug. 27, 2011, entitled: Propane Vacuum and Ser. No. 13/219,600 filed on Aug. 26, 2011, entitled: Propane Vacuum, are incorporated herein by reference. This application is related to, claims priority under and claims the benefit of the earliest available effective filing dates from the following listed applications: provisional application of Richard B. Patrono, Leonard C. Wagner, and Andrew Lees Ser. No. 61/377,411, filed on Aug. 26, 2010, entitled: Propane Vacuum; non-provisional application of Richard B. Patrono, Leonard C. Wagner, Jeff Kiersh and Andrew Lees, Ser. No. 13/219,600, filed on Aug. 26, 2011, entitled: Propane Vacuum, and; non-provisional application of Richard B. Patrono, Leonard C. Wagner, Jeff Kiersh and Andrew Lees, Ser. No. 13/219,603, filed on Aug. 27, 2011, entitled: Propane Vacuum
Number | Date | Country | |
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61377411 | Aug 2010 | US |
Number | Date | Country | |
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Parent | 13219600 | Aug 2011 | US |
Child | 13596010 | US | |
Parent | 13219603 | Aug 2011 | US |
Child | 13219600 | US |