Quiet vacuum cleaner
A light-weight, quiet vacuum cleaner assembly for a backpack vacuum cleaner includes an air inlet for communicating with a vacuum cleaner hose and a filter; a vacuum motor for drawing air through the vacuum cleaner hose, air inlet, and filter; a quiet exhaust assembly module in communication with the vacuum motor for expelling and quieting exhaust from the vacuum motor, and wherein the vacuum cleaner assembly weighs 2-12 lbs. and includes a flow rate (CFM) to noise (dbA) ratio (flow rate/noise) of at least 0.6.
1. Field of the Invention
The present invention relates, in general, to vacuum cleaners, and, in particular, to backpack vacuum cleaners.
2. Background of the Invention
It is well-known that vacuum cleaning efficiency has been improved through the use of backpack vacuum cleaners. A backpack vacuum cleaner includes a backpack assembly, similar to that used in a hiking backpack, where the vacuum cleaner assembly is carried by a backpack frame of the backpack assembly. A vacuum cleaner hose extends from a top of the vacuum cleaner assembly and is connected to a vacuum cleaner wand. A distal end of the vacuum cleaner wand includes a vacuum cleaner floor tool. In use, the cleaner carries the backpack vacuum cleaner on his or her back using the backpack assembly, and directs the vacuum cleaner tool for cleaning the floor surface through the wand. Historically, much of the cleaning performed using backpack vacuum cleaners such as that done in office buildings or other commercial settings was done at night time, by night-time cleaning personnel and janitors. Noise made by the backpack vacuum cleaners was not that big of an issue because most workers and visitors were not present during the vacuum cleaning, so the noise would not bother workers in the office buildings or other commercial settings. However, more recently, there is a trend to clean during the daytime, when workers and visitors in the office buildings or other commercial settings are present. One of the complaints by workers and visitors in the office buildings or other commercial settings of vacuum cleaning is the noise. The noise sources are noises associated with the motor and air movement noise at the vacuum tools and exhaust.
Motor noise has been addressed in the past by placing sound absorbing materials in the flow path. This reduces the system performance to an unacceptable level and adds weight to the vacuum cleaner. By restricting the flow path in this manner the motor is susceptible to overheating because it is not getting sufficient air for cooling.
Therefore, a need exists for a vacuum cleaner, especially a backpack vacuum cleaner, that overcomes the problems with prior art vacuum cleaners, especially the problems with prior art backpack vacuum cleaners.
SUMMARYThe backpack vacuum cleaner of the present invention is light-weight and significantly reduces the noise levels associated with the motor and air movement noise at the vacuum tools and exhaust while maintaining good system performance. The vacuum cleaner maintains large cross-sectional areas for exhaust flow, allowing sufficient air flow to provide the required cooling for the motor. The vacuum cleaner also directs the air flow to unique foam surfaces to obtain the required sound deadening.
An aspect of the invention involves a light-weight, quiet vacuum cleaner assembly for a backpack vacuum cleaner including a backpack assembly for carrying the vacuum cleaner assembly on a user's back, a vacuum cleaner hose for vacuuming debris from a surface, and a filter for filtering out vacuumed debris. The light-weight, quiet vacuum cleaner assembly includes an air inlet for communicating with the vacuum cleaner hose and the filter; a vacuum motor for drawing air through the vacuum cleaner hose, air inlet, and filter; a quiet exhaust assembly module in communication with the vacuum motor for expelling and quieting exhaust from the vacuum motor, and wherein the vacuum cleaner assembly weighs 2-12 lbs. and includes a flow rate (CFM) to noise (dbA) ratio (flow rate/noise) of at least 0.6.
Another aspect of the invention involves a light-weight, quiet vacuum cleaner assembly for a backpack vacuum cleaner including a backpack assembly for carrying the vacuum cleaner assembly on a user's back, a vacuum cleaner hose for vacuuming debris from a surface, and a filter for filtering out vacuumed debris. The light-weight, quiet vacuum cleaner assembly includes an air inlet for communicating with the vacuum cleaner hose and the filter; a vacuum motor for drawing air through the vacuum cleaner hose, air inlet, and filter; a quiet exhaust assembly module in communication with the vacuum motor for expelling and quieting exhaust from the vacuum motor, and wherein the vacuum cleaner assembly weighs 2-12 lbs. and includes a suction (in. (H2O)) to noise (dbA) ratio (suction/noise) of at least 0.6.
Another aspect of the invention involves a light-weight, quiet vacuum cleaner assembly for a backpack vacuum cleaner including a backpack assembly for carrying the vacuum cleaner assembly on a user's back, a vacuum cleaner hose for vacuuming debris from a surface, and a filter for filtering out vacuumed debris. The light-weight, quiet vacuum cleaner assembly includes an air inlet for communicating with the vacuum cleaner hose and the filter, the air inlet including an intake area; a vacuum motor for drawing air through the vacuum cleaner hose, air inlet, and filter; a quiet exhaust assembly module in communication with the vacuum motor for expelling and quieting exhaust from the vacuum motor, and wherein the quiet exhaust assembly module includes a stage of exhaust openings having a total area and the ratio of the total area of the stage of exhaust openings to the intake area of the air inlet is at least 3:1.
BRIEF DESCRIPTION OF THE DRAWINGSThe details of the present invention, both as to its structure and operation, may be gleaned in part by the accompanying drawings, in which like reference numerals refer to like parts, and in which:
With reference to
Although the quiet vacuum cleaner 100 is shown and described as a backpack vacuum cleaner, the features of the vacuum cleaner 100 that make it a quiet, high-performance vacuum cleaner may be applied to additional types of vacuum cleaners such as, but not by way of limitation, canister vacuum cleaners and upright vacuum cleaners.
After reading this description it will become apparent to one skilled in the art how to implement the invention in various alternative embodiments and alternative applications. However, although various embodiments of the present invention will be described herein, it is understood that these embodiments are presented by way of example only, and not limitation. As such, this detailed description of various alternative embodiments should not be construed to limit the scope or breadth of the present invention as set forth in the appended claims.
With reference to
With reference additionally to
The vacuum cleaner assembly 110 includes a main housing assembly 200, a top cap hose and air inlet 210 at a top end, and an opposite exhaust end 220. A two-speed switch assembly with switch box 230 and a power cord assembly 240 are connected to a lower electrical section 260 (
With reference additionally to
With reference to
The vacuum motor 290 is a two-stage vacuum motor having a cylindrical head with an underside.
The annular gasket 300 is a neoprene gasket with an adhesive on one side. The annular gasket 300 is disposed between the underside of the cylindrical head of the vacuum motor 290 and an upper surface of the motor housing 310.
Threaded fasteners 380 are used to attach the vacuum motor 290 to the motor housing 310.
The motor housing 310 has a generally cylindrical wall 382 with Stage 1 elongated lateral slots 384 near a bottom of the motor housing 310. In the embodiment shown, the motor housing 310 includes four (4) Stage 1 slots 384 with three (3) of the slots having a dimension of 3.25 in.×0.5 in. (3 Slots @ 3.25″×0.5″=4.875 sq. in.), and the last slot having a dimension of 2.25 in.×1.0 in. (1 Slot @ 2.25″×1.0″=2.25 sq. in.). Stage 1 air flow occurs through these slots 384. The total area of the Stage 1 slots 384 is 4.875 sq. in.+2.25 sq. in.=7.125 sq. in. The bottom of the motor housing 310 includes a plurality of ribs 386 extending outwardly from the wall 382. The ribs 386 include threaded bosses.
Threaded fasteners 390 threadably engage the threaded bosses of the ribs 386 to attach the quiet module housing 320 to the motor housing 310.
The quiet module housing 320 includes a top surface 392 with star-shaped, radiating ridges extending therefrom. The top surface 392 of the quiet module housing 320 forms the bottom or floor of the motor housing 310 when the quiet module housing 320 is connected to the motor housing 310. The quiet module housing 320 has a frustoconical wall 394 with Stage 2 elongated lateral slots 396 near a top of the quiet module housing 320. In the embodiment shown, the quiet module housing 320 includes four (4) Stage 2 slots 396 having a dimension of 3.00 in.×0.5 in. (4 Slots @ 3.00″×0.5″=6.0 sq. in.). Stage 2 air flow occurs through these slots 396. As indicated above, the total area of the Stage 2 slots 396 is 6.0 sq. in.
The acoustic panel 330 includes two half-cylindrical members with an outer surface 398. The acoustic panel 330 is made of a unique, light-weight, high-temperature, fire-retardant foam material. The foam material is produced in flat sheets. An adhesive is added to a side of a flat 0.032 in. polycarbonate sheet, and the polycarbonate sheet is laminated to a side of the flat sheet of foam material. Two flat sheets of foam material and polycarbonate are bent into the half-cylinder configuration shown, with the polycarbonate sheet on the outer side of the acoustic panel 330. The two half-cylindrical members are placed together to form a cylinder around the quiet exhaust assembly module 270, as shown in
The annular director plate 340 is a thin, annular sheet of polycarbonate material that serves as a barrier and directs air flow towards the center of the quiet exhaust assembly module 270.
The annular foam air diffuser 350 serves to break up some line of sight in the quiet exhaust assembly module 270 and attenuate the air flow sound waves. The annular foam air diffuser 350 is made of a reticulated flexible polyester urethane foam that has a completely open cell, three-dimensional structure of skeletal strands which give them special filtering properties. The foam material used in the diffuser 350 is sold as 20 PPI, SIF Z under the name FOAMEX® by Foamex Technical Products of Eddystone, Pa. The homogeneous structure of the diffuser 350 helps minimize the possibility of open channels which could drastically affect filter efficiency. Each cell in the medium is completely interconnected with all surrounding cells. This allows for free passage of air and at the same time provides high surface-area contact for impingement of dust particles. The resilience and strength of the diffuser 350 helps prevent and strand displacement under normal operating conditions. In the embodiment shown, the diffuser 350 includes a 20 pore size (average number of pores-per-linear-inch). At this porosity, the diffuser 350 includes a density of 1.9 lb/ft3, a tensile strength of 25 psi, an ultimate elongation of 320%, a tear strength of 5.5 lb/in., a 50% compression set of 7, a 25% compression deflection of 0.42 psi, and a 65% compression deflection of 0.67 psi. The diffuser 350 has excellent high-temperature characteristics. It can withstand intermittent temperatures as high as 225° F. At temperatures above 500° F., the material beings to melt with decomposition and vaporization.
The annular acoustic panel 360 is made of the same material as the acoustic panel 330 described. The above description of the material used in the acoustic panel 330 is incorporated by reference here as though set forth in full.
The quiet module cap 370 includes a circular dish-like configuration with an annular recess that receives the acoustic panel 360. A central boss 399 receives threaded fastener 400 to mount the quiet module cap 370 and hold the intermittent components of the quiet module housing 320 together. The quiet module cap 370 is made of a polycarbonate material and includes eight (8) Stage 3 slots 402 having a dimension of 2.0 in.×0.36 in. (8 Slots @ 2.00″×0.36 in =5.76 sq. in.). Stage 3 air flow occurs through these slots 402. As indicated above, the total area of the Stage 3 slots 402 is 5.76 sq. in. The quiet module cap 370 and threaded fastener 400 allow the quiet exhaust assembly module 270 to be easily field serviced. To service the quiet exhaust assembly module 270, a user simply unscrews the threaded fastener 400, and removes the quiet module cap 370. This provides easy access to the components of the quiet exhaust assembly module 270 for repair or replacement of the components. The entire quiet exhaust assembly module 270 can also be easily replaced in this manner. As a result, the backpack vacuum cleaner 100 is never down because of something in the quiet exhaust assembly module 270 of the backpack vacuum cleaner 100.
A motor control module 410 is electrically coupled to the vacuum motor 290, two-speed switch assembly with switch box 230, and power cord assembly 240. The motor control module 410 provides two-speed control of the vacuum motor 290. The motor control module 410 also includes a thermal protection device for shutting off the vacuum motor 290 when the temperature exceeds approximately 95° C.
The backpack vacuum cleaner 100 will now be described in use. When the user is in the area desired for vacuuming, the user dons the backpack vacuum cleaner 100 using the backpack strap system 160 in the same manner as putting on a backpack for hiking. This is easily performed because the backpack vacuum cleaner 100 is light-weight (2-12 lbs.). In the embodiment shown, the vacuum cleaner assembly 110 weighs 11 lbs., 3 oz. The user's arms are placed through the shoulder straps 180 and the shoulder straps 180 are tightened to a snug, yet comfortable condition on the user's shoulders. The waist belt 190 is clipped together, and tightened to a snug, yet comfortable condition around the user's waist. Prior to or after donning the backpack vacuum cleaner 100, the plug of the power cord assembly 240 is plugged into an electrical outlet. In an embodiment of the backpack vacuum cleaner 100 where the backpack vacuum cleaner 100 has an onboard power source (e.g., one or more batteries, fuel cells), plugging the power cord assembly 240 into an electrical outlet to power the backpack vacuum cleaner 100 may not be necessary. The backpack vacuum cleaner 100 is switched on using the two-speed switch assembly 230. The two-speed switch assembly 230 is also used to control the speed of the vacuum motor 290 between a high setting and low setting. In alternative embodiments, the backpack vacuum cleaner 100 may have a number of settings other than two settings (e.g., 1, 3, 4, etc.).
In the embodiment shown, the backpack vacuum cleaner 100 performs (about 70 CFM with about 70 in. (H2O) of lift @ about 65 dbA on a high-speed motor setting, and about 40 CFM with about 40 in. (H2O) of lift @ about 61 dbA on a low-speed motor setting. In a preferred embodiment, the backpack vacuum cleaner 100 includes a flow rate (CFM) to noise (dbA) ratio (flow rate/noise) of at least 0.6 and a suction (in. (H2O)) to noise (dbA) ratio (suction/noise) of at least 0.6. In a more preferred embodiment, the backpack vacuum cleaner 100 includes a flow rate (CFM) to noise (dbA) ratio (flow rate/noise) of at least 1.0 and a suction (in. (H2O)) to noise (dbA) ratio (suction/noise) of at least 1.0.
With the vacuum motor 290 activated, air, dirt, and debris are drawn through the vacuum cleaner floor tool 150, vacuum cleaner wand 140, vacuum cleaner hose 130, and air inlet 210 into the intake filter/refuse bag 265 (
With reference to
The exhaust assembly module 270 incorporates the principles of “Line of Sight” and non-reflective surfaces to diminish sound levels (db). In the quiet exhaust assembly module 270, the vacuum motor 290 is encapsulated in a housing, and air flow is directed to high-temperature acoustic foam covered surfaces and through a condensed labyrinth of passages.
The above features minimize the weight of the backpack vacuum cleaner 100, maximize dissipation of sound levels in the backpack vacuum cleaner 100, and maximize air flow in the backpack vacuum cleaner 100.
The above description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles described herein can be applied to other embodiments without departing from the spirit or scope of the invention. Thus, it is to be understood that the description and drawings presented herein represent a presently preferred embodiment of the invention and are therefore representative of the subject matter which is broadly contemplated by the present invention. It is further understood that the scope of the present invention fully encompasses other embodiments that may become obvious to those skilled in the art and that the scope of the present invention is accordingly limited by nothing other than the appended claims.
Claims
1. A light-weight, quiet vacuum cleaner assembly for a backpack vacuum cleaner including a backpack assembly for carrying the vacuum cleaner assembly on a user's back, a vacuum cleaner hose for vacuuming debris from a surface, and a filter for filtering out vacuumed debris, comprising:
- an air inlet for communicating with the vacuum cleaner hose and the filter;
- a vacuum motor for drawing air through the vacuum cleaner hose, air inlet, and filter;
- a quiet exhaust assembly module in communication with the vacuum motor for expelling and quieting exhaust from the vacuum motor,
- wherein the vacuum cleaner assembly weighs 2-12 lbs. and includes a flow rate (CFM) to noise (dbA) ratio (flow rate/noise) of at least 0.6.
2. The light-weight, quiet vacuum cleaner assembly of claim 1, wherein the vacuum cleaner assembly includes a flow rate (CFM) to noise (dbA) ratio (flow rate/noise) of at least 1.0.
3. The light-weight, quiet vacuum cleaner assembly of claim 1, wherein the vacuum cleaner assembly includes a suction (in. (H2O)) to noise (dbA) ratio (suction/noise) of at least 0.6.
4. The light-weight, quiet vacuum cleaner assembly of claim 3, wherein the vacuum cleaner assembly includes a suction (in. (H2O)) to noise (dbA) ratio (suction/noise) of at least 1.0.
5. A light-weight, quiet vacuum cleaner assembly for a backpack vacuum cleaner including a backpack assembly for carrying the vacuum cleaner assembly on a user's back, a vacuum cleaner hose for vacuuming debris from a surface, and a filter for filtering out vacuumed debris, comprising:
- an air inlet for communicating with the vacuum cleaner hose and the filter, the air inlet including an intake area;
- a vacuum motor for drawing air through the vacuum cleaner hose, air inlet, and filter;
- a quiet exhaust assembly module in communication with the vacuum motor for expelling and quieting exhaust from the vacuum motor,
- wherein the quiet exhaust assembly module includes a stage of exhaust openings having a total area and the ratio of the total area of the stage of exhaust openings to the intake area of the air inlet is at least 3:1.
6. The light-weight, quiet vacuum cleaner assembly of claim 5, wherein the quiet exhaust assembly module includes a motor housing with the stage of exhaust openings therein.
7. The light-weight, quiet vacuum cleaner assembly of claim 5, wherein the quiet exhaust assembly module includes a second stage of exhaust openings having a total area and the ratio of the total area of the second stage of exhaust openings to the intake area of the air inlet is at least 3:1.
8. The light-weight, quiet vacuum cleaner assembly of claim 7, wherein the quiet exhaust assembly module includes a quiet module housing with the second stage of exhaust openings therein.
9. The light-weight, quiet vacuum cleaner assembly of claim 5, wherein the quiet exhaust assembly module includes a third stage of exhaust openings having a total area and the ratio of the total area of the third stage of exhaust openings to the intake area of the air inlet is at least 3:1.
10. The light-weight, quiet vacuum cleaner assembly of claim 9, wherein the quiet exhaust assembly module includes a quiet module cap with the third stage of exhaust openings therein.
11. The light-weight, quiet vacuum cleaner assembly of claim 5, wherein the vacuum cleaner assembly weighs 2-12 lbs. and includes a flow rate (CFM) to noise (dbA) ratio (flow rate/noise) of at least 0.6.
12. The light-weight, quiet vacuum cleaner assembly of claim 5, wherein the vacuum cleaner assembly weighs 2-12 lbs. and includes a flow rate (CFM) to noise (dbA) ratio (flow rate/noise) of at least 1.0.
13. The light-weight, quiet vacuum cleaner assembly of claim 5, wherein the vacuum cleaner assembly weighs 2-12 lbs. and includes a suction (in. (H2O)) to noise (dbA) ratio (suction/noise) of at least 0.6.
14. The light-weight, quiet vacuum cleaner assembly of claim 5, wherein the vacuum cleaner assembly weighs 2-12 lbs. and includes a suction (in. (H2O)) to noise (dbA) ratio (suction/noise) of at least 1.0.
15. The light-weight, quiet vacuum cleaner assembly of claim 5, wherein the quiet exhaust assembly module includes a light-weight, high-temperature, fire retardant foam material having a density no greater than 0.4 lb/ft3 to attenuate the exhaust sound.
16. The light-weight, quiet vacuum cleaner assembly of claim 15, wherein the light-weight, high-temperature, fire retardant foam material is a high-performance polyimide foam.
17. The light-weight, quiet vacuum cleaner assembly of claim 5, wherein the quiet exhaust assembly module includes a light-weight foam air diffuser having a density no greater than 1.9 lb/ft3 to attenuate the exhaust sound and filter out exhaust particles.
18. The light-weight, quiet vacuum cleaner assembly of claim 17, wherein the light-weight foam air diffuser is a reticulated flexible polyester urethane foam.
19. The light-weight, quiet vacuum cleaner assembly of claim 5, wherein the quiet exhaust assembly module includes an outer acoustic panel surrounding substantially all of the quiet exhaust assembly module, the acoustic panel including an outer surface with a polycarbonate sheet laminated thereto, and the polycarbonate sheet including hoop stress therein that causes the acoustic panel to be held in place, surrounding substantially all of the quiet exhaust assembly module, without any adhesive.
20. A light-weight, quiet vacuum cleaner assembly for a backpack vacuum cleaner including a backpack assembly for carrying the vacuum cleaner assembly on a user's back, a vacuum cleaner hose for vacuuming debris from a surface, and a filter for filtering out vacuumed debris, comprising:
- an air inlet for communicating with the vacuum cleaner hose and the filter;
- a vacuum motor for drawing air through the vacuum cleaner hose, air inlet, and filter;
- a quiet exhaust assembly module in communication with the vacuum motor for expelling and quieting exhaust from the vacuum motor,
- wherein the vacuum cleaner assembly weighs 2-12 lbs. and includes a suction (in. (H2O)) to noise (dbA) ratio (suction/noise) of at least 0.6.
Type: Application
Filed: Sep 30, 2005
Publication Date: Aug 2, 2007
Inventors: Christopher Murray (Boise, ID), Richard Vinson (Nampa, ID), Michael Shideler (Boise, ID)
Application Number: 11/240,660
International Classification: A47L 5/00 (20060101);