US2789306A - Vacuum cleaner attachment - Google Patents

Vacuum cleaner attachment Download PDF

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US2789306A
US2789306A US432409A US43240954A US2789306A US 2789306 A US2789306 A US 2789306A US 432409 A US432409 A US 432409A US 43240954 A US43240954 A US 43240954A US 2789306 A US2789306 A US 2789306A
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shaft
bearing
coupling
conduit
vacuum cleaner
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Norman A Kath
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    • AHUMAN NECESSITIES
    • A47FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
    • A47LDOMESTIC WASHING OR CLEANING; SUCTION CLEANERS IN GENERAL
    • A47L9/00Details or accessories of suction cleaners, e.g. mechanical means for controlling the suction or for effecting pulsating action; Storing devices specially adapted to suction cleaners or parts thereof; Carrying-vehicles specially adapted for suction cleaners
    • A47L9/02Nozzles
    • A47L9/04Nozzles with driven brushes or agitators
    • A47L9/0455Bearing means therefor

Definitions

  • This invention relates to an attachment for a vacuum cleaner and has for a primary object the provision of an attachment in which a rotary or otherwise drivable cleaning element is power-driven from the motor or power source of the basic vacuum cleaner unit.
  • vacuum cleaners are of a fewtbasic types.
  • One type will include a base unit having an electric motor and a housing provided with a relatively large suction port that is used primarily for cleaning horizontal surfaces, such as rugs, carpets, floors, etc.
  • the bsic unit does not itself include means for cleaning horizontal surfaces but has a suction port to which a floor-cleaning element is connectible as one of many attachments.
  • the same general characterization exists as to industrial cleaners and even those connected to a central source of vacuum as in hotels, for example.
  • efliciency such as it is, of the attachment depends solely on vacuum or suction and no successful commercial embodiment of an attachment having a rotary or otherwise drivable cleaning element is known.
  • Another object of the invention is to utilize, in a conduit of .the flexible type capable of axial shortening and lengthening, an internal coaxial drive shaft connected between bearings at opposite ends of the conduit in such manner that the conduit itself is retained against axial extension; as a matter of fact, the installation of the shaft is such as to place the conduit in slight axial com pression. This eliminates rubbing of the coaxial drive shaft against the inner wall surfaces of the conduit.
  • the invention features also the provision of an improved coupling which is enlarged in cross section to compensate for the area used up by the bearing and its support.
  • the invention has for a further feature the utilization with the radial support for the bearing of a rotatable arm that operates substantially in shearing relationship to the radial support so as to disintegrate large particles, such as cigaret butts, passing through the conduit.
  • the radial shear member is preferably made yieldable so that it may yield in the event that it encounters through the Patented Apr. 23, 1957 invention are the achievement of economy and simplicity;
  • Fig. l is a perspective view showing a preferred embodime'nt of the attachment in association with one type of basic vacuum cleaner.
  • Fig. 2 is a sectional view,"on an enlarged scale
  • Fig. 3 is an enlarged sectional view showing one means of temporarily closing the driving socket in the vacuum cleaner power shaft when the shaft and attachment are not used.
  • Fig. 4 is a transverse sectional view on the line 4-4 of Fig. 2.
  • Fig. 5 is a fragmentary sectional view, drawn to the scale of Fig. 2, as seen along the line 5-5 of Fig. 1.
  • Fig. 6 is an enlarged fragmentary sectional view as seen along the line 66 of Fig. 2.
  • Fig. 7 is an enlarged fragmentary sectional view as seen along the line l7 of Fig. 2.
  • Fig. 1 best illustrates the over-all arrangement, wherein the letter V designates generally a vacuum cleaner of one conventional type which has a motor housing 10, a floor-cleaning portion 12 and a conventional cleaner bag 14, the unit being supported on small wheels 16,- as is A and comprises a hollow cleaning head H, a conduit C an object of substantial resistance, such as a paper clip,
  • the internal characteristics of the coupling and its associated parts involve airfoil principles to eliminate obstructions to the passage of air and airand couplings X and Y for coupling opposite first and second ends of the conduit respectively to the head and to the vacuum cleaner V.
  • the conduit C is predominantly flexible but the couplings X and Y are relatively rigid to afiord support for internal drive means, as will presently appear.
  • the head H being hollow, has an internal chamber 18 to which leads an intake opening 20, which opening is defined by an elongated marginal portion 22 transverse to the longitudinal axis of a tubular part 24 which has an open rear end 26 communicating with the interior chamber 18.
  • the head as well as the couplings X and Y, may be of any suitable molded or cast construction, and it is immaterial, for patent purposes, whether it is metal or non-metal.
  • the marginal intake portion 22 and the tubular part 24 are molded or cast integrally with the body part of the head H.
  • a drivable cleaning element here in the form of an elongated rotary brush 28 journaled at its opposite ends respectively in bearings within the head, only one of whichbearings is visible at 30 in Fig. 5, it being understood that the construction at the opposite end is the same.
  • a hearing 32 is mounted within the chamber 18, coaxially with the tubular part '24 and is mountedor positioned by means of a'single radial support 34 preferably molded or cast integrally with the structure of the head H. The details of the hearing are shown in Fig. 7. This bearing journals a longitudinally coaxial driven shaft 36.
  • Journaling may be accomplished in any .-suitable manner, as by an oilimpregnated bearing 38; although, it will be obvious that roller bearings or even ball bearings may be used if desired.
  • the oil-impregnated type lends itself to the construction because of its relatively small size.
  • the shaft 36 includes a forward or driving portion in the form of a sheave or pulley 40 having formed integrally therewith an annular flange 42 that establishes a dust cap over the forward end of the bearing 36.
  • the sheave 40 as best seen in Fig. 2, is in vertical alinement with but has its axis transverse to the axis'of the rotary brush 28.
  • Driving means interconnects the sheave 40 and the brush 28, such driving means here taking the form of is crossed belt 44.
  • the forward portion or nose of the head H has a coaxial removable cap 46 threaded into the head and removable, as by means of a screwdriver slot 48, to provide accessto the sheave and belt.
  • the radial support 34 for the bearing 32 may be drilled at 50 to establish an oil hole for lubrication of the bearing, wl'hich oil hole is normally closed by a removable threaded p ug 52.
  • the sheave 40 prevents axial displacement of the shaft 36 in a rearward direction and forward axial displacement of the shaft is prevented by a sleeve 54 that encircles the shaft 36 just behind the bearing 38.
  • the shaft includes a rearward coaxial extension that forms a driven or input portion 56, and this portion is of square cross section and has a tapered rear end 58 to facilitate coaxial or telescopic connection to and disconnection from a flexible drive shaft 60 that extends coaxially through the conduit C.
  • Figs. 2 and 7 illustrate that the drive shaft 60 has a forward end portion 62 that has an axial socket therein for telescopically receiving the male or driven portion 56 of the head shaft 36.
  • the coupling X is of tubular construction and its rigid wall has interiorly thereof a radial support 66 which bridges radially between the inner periphery of the coupling wall and the shaft 60 and which mounts an integral coaxial bearing 68.
  • a radial support 66 which bridges radially between the inner periphery of the coupling wall and the shaft 60 and which mounts an integral coaxial bearing 68.
  • an oil-impregnated bushing 70 within this bearing is an oil-impregnated bushing 70, but again any other type of bearing or bushing could be used.
  • An oil hole or lubricating passage 72 normally closed by a threaded plug 74 received in the associated apertured wall of the coupling X, extends radially through the support 66 to the bushing or bearing 70.
  • the shaft 62 includes a rearwardly opening coaxial socket 76 within which is soldered, brazed, crimped or otherwise secured the forward end 78 of the drive shaft 60, the arrangement being such that the shaft 60 and shaft 62 are rotatable in unison.
  • the bearing 68 has an integral rearward coaxial extension 80 which receives a coaxial casing or housing 82 that surrounds the shaft 60.
  • a set screw 84 represents one form of means for securing the forward portion of the housing 82 within the bearing sleeve extension 80, thus securing the housing 82 against rotation.
  • the cross-sectional area of the housing 82 is materially reduced as compared with the cross-sectional area of the conduit C, thus affording the minimum obstruction to passage of air through the conduit.
  • the shaft 60 is of materially less cross-sectional area, being housed within the casing or housing 82.
  • Coaxial coupling or connection of the coupling X to the head H is eflected by means of a forwardly tapered coaxial extension 86 on the coupling X, which is received within the tubular part 24, said part having an interior taper 88 that corresponds to and receives the tapered extension 86 of the coupling X.
  • Tapered con nections of this character are conventional in some types of cleaners and are effective from the standpoint of permitting ready connection and disconnection. All that is required is to fit the parts together and rotate them slightly relative to each other and a suitable air-tight connection is established.
  • the interior of the coupling X is of increased cross-sectional compensate for the area used up by the bearing 68 and bearing support 66.
  • Another purpose is to cause a drop in the velocity of the material passing through the conduit, realizing that the bearing and bearing support 66 form some obstruction. By dropping the velocity at this point (Bernoulli effect), accumulation or entanglement of string-like objects in the air stream is minimized.
  • the change in cross section from the smaller cross section 8688 to the larger cross section at 90 (intermediate the ends of the coupling X) and back to the smaller cross section of a tubular coaxial rearward extension 92 of the coupling X is effected gradually, as by tapered portions at 94 and 96 in the interior of the coupling.
  • the extension 92 of the coupling X is conventionally associated with the forward end of the conduit C to establish a swivel (not shown, because such swivels are well known).
  • a preferred form of such means comprises an arm 100, constructed of rubber, fiber board, spring wire, etc., and secured to the shaft 62 just ahead of and substantially in shearing relationship to the forward' edge of the bearing 66.
  • a dust cap 102 that embraces the forward end of the bearing 68, the relationship being identical to that shown at 3242 in Fig. 7. It will be noted that the dust caps all point downstream as respects the air flow.
  • the arm tapers toward its free end so that centrifugal force tends to dislodge wrapping objects.
  • the coupling Y is very similar to the coupling X but is reversed in several respects.
  • This coupling has an intermediate portion 104 of a cross-sectional area enlarged over the mean cross-sectional area of the conduit C. Integral with the intermediate portion 104 of the coupling are a forward extension 106 and a rearward extension 108.
  • the extension 106 establishes a conventional type of swivel connection with the rear end of the conduit C, a rubber ring 110, identical to the ring 98, being shown as completing the external characteristics of the connection.
  • the coupling Y mounts in its interior by means of a radial support 112 a coaxial bearing 114 that has many of the attributes of the bearing arrangement in the coupling X.
  • the bearing .114 may contain an internal bushing to which lubricant may be supplied by a radial oil hole 116 normally closed by a removable threaded plug 118.
  • the rear or second end of the shaft 60 is rigidly united with a shaft sleeve 120 and projects beyond the bearing as a male telescopic connecting portion 122.
  • a second sleeve 124 is secured to the shaft behind the bearing 114 and serves as means to prevent axial displacement of the shaft in a forward direction.
  • a rotating arm 126 very much like the arm 100 although preferably constructed of metal, is carried by the shaft 60 just ahead of the bearing 114 and operates substantially in shearing relationship to the front edge of the bearing support 112. The arm also secures the shaft against axial displacement in a rearward direction.
  • the housing 82 includes an end sleeve 128 secured to the housing as by a set screw 130 and cooperative' with a shaft collar 132, which serves as means for connecting the housing against axial displacement.
  • the base of the rotating arm 126 is in the form of a dust cap 134 that effectively seals the front end of the bearing 114 and is of the nature of the dust cap 42 on the sheave 40.
  • a similar dust cap 136 is provided at the rear end of the front shaft sleeve 54 for cooperation with the forward end of the front flexible shaft extension 62 (Fig. 7).
  • the airfoil nature of the bearing support 112 is best shown in Fig. 6, it being understood that the cross section of the front bearing support 34, as well as that of the intermediate bearing support 66, will be the same.
  • the enlargement of the cross-sectional area of the coupling Y is the same and is for the same purposes as the enlarged cross-sectional area of the coupling X. Since the two are the same, separate descriptions are not required.
  • the basic vacuum cleaner unit V has in the front of its housing a suction port 138 (Fig. 2) to which connection is made by the rear end 108 of the coupling Y.
  • the cleaner housing 10 will have around the port 138 a coupling flange 140 which cooperates with a complementary flange 142 on the coupling part 108 for encirclement by an internally cammed ring 144, the connection being such that the parts 140 and 142 are jutaposed and the ring 144 is given a partial turn in a clockwise direction to secure the flanges 140 and 142 together and thus to connect the conduit C to the housing 10 via the coupling Y. Since the nature of this connection may be varied according to the vacuum cleaner for which the attachment is designed, further detailed description is deemed to be unnecessary.
  • a part of the basic cleaner unit V is a motor or power shaft 146, axially into the forward end of which is formed a female connecting or socket portion 148, which is preferably square in cross section to receive the squared rear end 122 of the shaft 60, thus effecting a telescopic connection that is achieved in unison with the coupling at 140142144.
  • Fig. 3 illustrates how the recess 148 in the power shaft 146 may be closed by a removable cap 150.
  • This cap has a pair of spring fingers 152 that secure the cap in place and thus prevent the entrance of dirt into the connecting recess or bore 148 when the attachment is not in use.
  • the conduit C is of a conventional type, constructed of reenforced fabric and rubber material so that in addition to its flexibility transverse to its principal axis when straight, it is also capable of at least slight axial changes in dimension, and is therefore capable of being elongated or shortened.
  • the conduit be placed in a slight state of axial compression, which compression is maintained by connecting the shaft housing 82 and shaft 60 in such manner between the bearings 68 and 114 that the axial distance between the said bearings is somewhat shorter than the maximum axial distance between the bearings as measured on the conduit were the conduit stretched to its maximum length.
  • the shaft 60 and housing 82 are, of course, of such construction as to be normally incapable of elongation.
  • the distance of the head H from the cleaner V may be varied by varying the length of the conduit C. This may be accomplished in several ways, one of which obviously consists in changing the length of the conduit itself. Another system would be to utilize separate conduits, some of which may be in the form of rigid tubular members internally equipped with shaft sections connectible, for example, between the .front end of the shaft 62 and the head shaft portion 56. Since it is conventional practice in vacuum cleaner attachments of well known types to use extension tubes or wands, the foregoing general characterization of the possibility is deemed to be sufficient disclosure in the present instance.
  • the advantages flowing from the combination of the rotary element or brush 28 in the intake port or opening of the head H may be readily realized in the cleaning of furniture or the. upholstery of automobiles, for example, in service stations and the like.
  • the swivel connection at 98 enables free use of the attachment, the conduit C being flexible, in a preferred embodiment of the invention, to accommodate various changes in position between the head and the cleaner V.
  • the attachment is of relatively light weight and has no external parts to interfere in any manner with its use.
  • the bearings, in a commercial embodiment, would be'of such nature as to require only infrequent lubrication and virtually no maintenance, assuring the attachment of the characteristics of long life, simplicity and economy.
  • An attachment for a vacuum cleaner of the type having a housing including a suction port and a power shaft coaxial with the port comprising: a hollow cleaning head formed with an intake opening, said head having connected thereto a tubular conduit including a free end provided with coupling means selectively connectible to and discounectible from the housing coaxially with the port; bearing means mounted coaxially in the said coupling means; a drivable cleaning element carried in the head and cooperative with the intake opening; a drive shaft of materially reduced cross-section as compared to the cross-section of the conduit and extending through the conduit and coupling means, said shaft having one end portionconnected to the drivable cleaning element and its other end portion coaxially connectible to and detachable from the power shaft in unison with connection and disconnection of the aforesaid coupling means, said shaft having a portion thereof journaled in said bearing means; said bearing means having a support extending radially from the shaft to the inner periphery of thecoupling means, said support having a
  • the arm means is constructed at least in part Off resilient material so as to be capable of yielding in an axial direction upstream relative to the radial edge of the support.
  • the arm is of tapering shape in a radially outward direction to tend to centrifugally dislodge objects encountered thereby.
  • the bearing has a cylindrical portion facing upstream -generally proximate to the radial edge of the support; and the radial arm means has a hub portion shaped as-a cup facing downstream and closely covering said cylin drical portion.

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  • Nozzles For Electric Vacuum Cleaners (AREA)

Description

April 23, 1957 N. A. KATH 2,789,306
VACUUM CLEANER ATTACHMENT Filed May 26, 1954 lIg.
United States Patent "ice 1 .vAcUUM CLEANER ATTACHMENT Norman A. Kath, Davenport, Iowa Application May 26, 1954, set-n1 No. 432,409
4 Claims. (Cl. -339 This invention relates to an attachment for a vacuum cleaner and has for a primary object the provision of an attachment in which a rotary or otherwise drivable cleaning element is power-driven from the motor or power source of the basic vacuum cleaner unit.
As is well known, vacuum cleaners are of a fewtbasic types. One type will include a base unit having an electric motor and a housing provided with a relatively large suction port that is used primarily for cleaning horizontal surfaces, such as rugs, carpets, floors, etc. In the socalled tank type, .the bsic unit does not itself include means for cleaning horizontal surfaces but has a suction port to which a floor-cleaning element is connectible as one of many attachments. In both types of cleaners, there are several attachments for various purposes, such as for cleaning walls, Venetian blinds, furniture, etc. The same general characterization exists as to industrial cleaners and even those connected to a central source of vacuum as in hotels, for example. In all of these cleaners, efliciency, such as it is, of the attachment depends solely on vacuum or suction and no successful commercial embodiment of an attachment having a rotary or otherwise drivable cleaning element is known.
Previous attempts have been made to design attachments having power-driven cleaning elements in association with the intake ,or suction port but these have in the main proven unsuccessful, primarily because of the failure of earlier designers to solve the problem of transmitting drive from the basic vacuum cleaner to the drivable element in the attachment head. According to the present invention, this problem is simply and lflciently solved by the provision of a coaxial flexible dve shaft having telescopic connections at opposite en respectively to the vacuum cleaner power shaft and td the drivable element in the attachment head. It is an important object of the invention to provide an improvefattachment head and conduit therefor including one or more couplings, each of which has a novel bearing support. Another object of the invention is to utilize, in a conduit of .the flexible type capable of axial shortening and lengthening, an internal coaxial drive shaft connected between bearings at opposite ends of the conduit in such manner that the conduit itself is retained against axial extension; as a matter of fact, the installation of the shaft is such as to place the conduit in slight axial com pression. This eliminates rubbing of the coaxial drive shaft against the inner wall surfaces of the conduit. A
further object of the invention is to utilize a flexible drive shaft including a non-rotatable casing or housing. The invention features also the provision of an improved coupling which is enlarged in cross section to compensate for the area used up by the bearing and its support. In this respect, the invention has for a further feature the utilization with the radial support for the bearing of a rotatable arm that operates substantially in shearing relationship to the radial support so as to disintegrate large particles, such as cigaret butts, passing through the conduit. The radial shear member is preferably made yieldable so that it may yield in the event that it encounters through the Patented Apr. 23, 1957 invention are the achievement of economy and simplicity;
the use of couplings both at the basic cleaner unit'and at the attachmenthead; the utilization as far as possible of conventional components so that the attachment may be readily interchanged with a. large variety of cleaners and other attachments; and the achievement of light weight so that the attachment may be readily used by the average housewife as well as by personnel in service stations, hotels, etc.
- The foregoing and other important objects and desirable features inherent in and encompassed by the invention will become apparent as a preferred embodiment of the invention is disclosed in detail in'the following specification and accompanying sheet of drawings, the
several figures of which will be described immediately below.
Fig. l is a perspective view showing a preferred embodime'nt of the attachment in association with one type of basic vacuum cleaner.
Fig. 2 is a sectional view,"on an enlarged scale, and
' with intermediate portions omitted, as seen substantially along the line 1-2 of Fig. 1. I
Fig. 3 is an enlarged sectional view showing one means of temporarily closing the driving socket in the vacuum cleaner power shaft when the shaft and attachment are not used. I
Fig. 4 is a transverse sectional view on the line 4-4 of Fig. 2. t
, Fig. 5 is a fragmentary sectional view, drawn to the scale of Fig. 2, as seen along the line 5-5 of Fig. 1.
Fig. 6 is an enlarged fragmentary sectional view as seen along the line 66 of Fig. 2.
Fig. 7 is an enlarged fragmentary sectional view as seen along the line l7 of Fig. 2.
Fig. 1 best illustrates the over-all arrangement, wherein the letter V designates generally a vacuum cleaner of one conventional type which has a motor housing 10, a floor-cleaning portion 12 and a conventional cleaner bag 14, the unit being supported on small wheels 16,- as is A and comprises a hollow cleaning head H, a conduit C an object of substantial resistance, such as a paper clip,
bobby pin, etc. The internal characteristics of the coupling and its associated parts involve airfoil principles to eliminate obstructions to the passage of air and airand couplings X and Y for coupling opposite first and second ends of the conduit respectively to the head and to the vacuum cleaner V. The conduit C is predominantly flexible but the couplings X and Y are relatively rigid to afiord support for internal drive means, as will presently appear.
The head H, being hollow, has an internal chamber 18 to which leads an intake opening 20, which opening is defined by an elongated marginal portion 22 transverse to the longitudinal axis of a tubular part 24 which has an open rear end 26 communicating with the interior chamber 18. The head, as well as the couplings X and Y, may be of any suitable molded or cast construction, and it is immaterial, for patent purposes, whether it is metal or non-metal. Preferably, the marginal intake portion 22 and the tubular part 24 are molded or cast integrally with the body part of the head H.
,Associated with the head is a drivable cleaning element, here in the form of an elongated rotary brush 28 journaled at its opposite ends respectively in bearings within the head, only one of whichbearings is visible at 30 in Fig. 5, it being understood that the construction at the opposite end is the same. A hearing 32 is mounted within the chamber 18, coaxially with the tubular part '24 and is mountedor positioned by means of a'single radial support 34 preferably molded or cast integrally with the structure of the head H. The details of the hearing are shown in Fig. 7. This bearing journals a longitudinally coaxial driven shaft 36. Journaling may be accomplished in any .-suitable manner, as by an oilimpregnated bearing 38; although, it will be obvious that roller bearings or even ball bearings may be used if desired. However, the oil-impregnated type lends itself to the construction because of its relatively small size.
The shaft 36 includes a forward or driving portion in the form of a sheave or pulley 40 having formed integrally therewith an annular flange 42 that establishes a dust cap over the forward end of the bearing 36. The sheave 40, as best seen in Fig. 2, is in vertical alinement with but has its axis transverse to the axis'of the rotary brush 28. Driving means interconnects the sheave 40 and the brush 28, such driving means here taking the form of is crossed belt 44. The forward portion or nose of the head H has a coaxial removable cap 46 threaded into the head and removable, as by means of a screwdriver slot 48, to provide accessto the sheave and belt. The radial support 34 for the bearing 32 may be drilled at 50 to establish an oil hole for lubrication of the bearing, wl'hich oil hole is normally closed by a removable threaded p ug 52.
The sheave 40 prevents axial displacement of the shaft 36 in a rearward direction and forward axial displacement of the shaft is prevented by a sleeve 54 that encircles the shaft 36 just behind the bearing 38. The shaft includes a rearward coaxial extension that forms a driven or input portion 56, and this portion is of square cross section and has a tapered rear end 58 to facilitate coaxial or telescopic connection to and disconnection from a flexible drive shaft 60 that extends coaxially through the conduit C. Figs. 2 and 7 illustrate that the drive shaft 60 has a forward end portion 62 that has an axial socket therein for telescopically receiving the male or driven portion 56 of the head shaft 36.
The coupling X is of tubular construction and its rigid wall has interiorly thereof a radial support 66 which bridges radially between the inner periphery of the coupling wall and the shaft 60 and which mounts an integral coaxial bearing 68. Within this bearing is an oil-impregnated bushing 70, but again any other type of bearing or bushing could be used. An oil hole or lubricating passage 72, normally closed by a threaded plug 74 received in the associated apertured wall of the coupling X, extends radially through the support 66 to the bushing or bearing 70. The shaft 62 includes a rearwardly opening coaxial socket 76 within which is soldered, brazed, crimped or otherwise secured the forward end 78 of the drive shaft 60, the arrangement being such that the shaft 60 and shaft 62 are rotatable in unison. The bearing 68 has an integral rearward coaxial extension 80 which receives a coaxial casing or housing 82 that surrounds the shaft 60. A set screw 84 represents one form of means for securing the forward portion of the housing 82 within the bearing sleeve extension 80, thus securing the housing 82 against rotation. As will be seen, the cross-sectional area of the housing 82 is materially reduced as compared with the cross-sectional area of the conduit C, thus affording the minimum obstruction to passage of air through the conduit. The shaft 60 is of materially less cross-sectional area, being housed within the casing or housing 82.
Coaxial coupling or connection of the coupling X to the head H is eflected by means of a forwardly tapered coaxial extension 86 on the coupling X, which is received within the tubular part 24, said part having an interior taper 88 that corresponds to and receives the tapered extension 86 of the coupling X. Tapered con nections of this character are conventional in some types of cleaners and are effective from the standpoint of permitting ready connection and disconnection. All that is required is to fit the parts together and rotate them slightly relative to each other and a suitable air-tight connection is established.
It is one of the features of the invention th t the interior of the coupling X is of increased cross-sectional compensate for the area used up by the bearing 68 and bearing support 66. Another purpose is to cause a drop in the velocity of the material passing through the conduit, realizing that the bearing and bearing support 66 form some obstruction. By dropping the velocity at this point (Bernoulli effect), accumulation or entanglement of string-like objects in the air stream is minimized. The change in cross section from the smaller cross section 8688 to the larger cross section at 90 (intermediate the ends of the coupling X) and back to the smaller cross section of a tubular coaxial rearward extension 92 of the coupling X is effected gradually, as by tapered portions at 94 and 96 in the interior of the coupling. The extension 92 of the coupling X is conventionally associated with the forward end of the conduit C to establish a swivel (not shown, because such swivels are well known). A
conventional rubber ring 98 is illustrated as establishing an airand dust-tight seal.
Another feature of the invention is the means for disintegrating or otherwise ridding the coupling X of possible entanglements of air-borne objects that may encounter the bearing support 66. A preferred form of such means comprises an arm 100, constructed of rubber, fiber board, spring wire, etc., and secured to the shaft 62 just ahead of and substantially in shearing relationship to the forward' edge of the bearing 66. Combined with the arm 100, or at least fixed to the shaft 62, is a dust cap 102 that embraces the forward end of the bearing 68, the relationship being identical to that shown at 3242 in Fig. 7. It will be noted that the dust caps all point downstream as respects the air flow. The arm tapers toward its free end so that centrifugal force tends to dislodge wrapping objects.
The coupling Y is very similar to the coupling X but is reversed in several respects. This coupling has an intermediate portion 104 of a cross-sectional area enlarged over the mean cross-sectional area of the conduit C. Integral with the intermediate portion 104 of the coupling are a forward extension 106 and a rearward extension 108. The extension 106 establishes a conventional type of swivel connection with the rear end of the conduit C, a rubber ring 110, identical to the ring 98, being shown as completing the external characteristics of the connection.
The coupling Y mounts in its interior by means of a radial support 112 a coaxial bearing 114 that has many of the attributes of the bearing arrangement in the coupling X. For example, the bearing .114 may contain an internal bushing to which lubricant may be supplied by a radial oil hole 116 normally closed by a removable threaded plug 118.
The rear or second end of the shaft 60 is rigidly united with a shaft sleeve 120 and projects beyond the bearing as a male telescopic connecting portion 122. A second sleeve 124 is secured to the shaft behind the bearing 114 and serves as means to prevent axial displacement of the shaft in a forward direction. A rotating arm 126, very much like the arm 100 although preferably constructed of metal, is carried by the shaft 60 just ahead of the bearing 114 and operates substantially in shearing relationship to the front edge of the bearing support 112. The arm also secures the shaft against axial displacement in a rearward direction. The housing 82 includes an end sleeve 128 secured to the housing as by a set screw 130 and cooperative' with a shaft collar 132, which serves as means for connecting the housing against axial displacement. The base of the rotating arm 126 is in the form of a dust cap 134 that effectively seals the front end of the bearing 114 and is of the nature of the dust cap 42 on the sheave 40. A similar dust cap 136 is provided at the rear end of the front shaft sleeve 54 for cooperation with the forward end of the front flexible shaft extension 62 (Fig. 7).
The airfoil nature of the bearing support 112 is best shown in Fig. 6, it being understood that the cross section of the front bearing support 34, as well as that of the intermediate bearing support 66, will be the same.
The enlargement of the cross-sectional area of the coupling Y is the same and is for the same purposes as the enlarged cross-sectional area of the coupling X. Since the two are the same, separate descriptions are not required.
The basic vacuum cleaner unit V has in the front of its housing a suction port 138 (Fig. 2) to which connection is made by the rear end 108 of the coupling Y. In the commercial type of vacuum cleaner unit V, chosen for the purposes of illustration here, the cleaner housing 10 will have around the port 138 a coupling flange 140 which cooperates with a complementary flange 142 on the coupling part 108 for encirclement by an internally cammed ring 144, the connection being such that the parts 140 and 142 are jutaposed and the ring 144 is given a partial turn in a clockwise direction to secure the flanges 140 and 142 together and thus to connect the conduit C to the housing 10 via the coupling Y. Since the nature of this connection may be varied according to the vacuum cleaner for which the attachment is designed, further detailed description is deemed to be unnecessary.
Also a part of the basic cleaner unit V is a motor or power shaft 146, axially into the forward end of which is formed a female connecting or socket portion 148, which is preferably square in cross section to receive the squared rear end 122 of the shaft 60, thus effecting a telescopic connection that is achieved in unison with the coupling at 140142144. Fig. 3 illustrates how the recess 148 in the power shaft 146 may be closed by a removable cap 150. This cap has a pair of spring fingers 152 that secure the cap in place and thus prevent the entrance of dirt into the connecting recess or bore 148 when the attachment is not in use.
The conduit C is of a conventional type, constructed of reenforced fabric and rubber material so that in addition to its flexibility transverse to its principal axis when straight, it is also capable of at least slight axial changes in dimension, and is therefore capable of being elongated or shortened. In order to minir ize contact between the internal shaft housing 82 and the inner surface of the conduit C, and further to maintain the housing shaft 62 centrally of the conduit at all times, it is preferred that the conduit be placed in a slight state of axial compression, which compression is maintained by connecting the shaft housing 82 and shaft 60 in such manner between the bearings 68 and 114 that the axial distance between the said bearings is somewhat shorter than the maximum axial distance between the bearings as measured on the conduit were the conduit stretched to its maximum length.
The shaft 60 and housing 82 are, of course, of such construction as to be normally incapable of elongation.
vFrom the foregoing description it will be understood that the distance of the head H from the cleaner V may be varied by varying the length of the conduit C. This may be accomplished in several ways, one of which obviously consists in changing the length of the conduit itself. Another system would be to utilize separate conduits, some of which may be in the form of rigid tubular members internally equipped with shaft sections connectible, for example, between the .front end of the shaft 62 and the head shaft portion 56. Since it is conventional practice in vacuum cleaner attachments of well known types to use extension tubes or wands, the foregoing general characterization of the possibility is deemed to be sufficient disclosure in the present instance.
in the use of the attachment, the advantages flowing from the combination of the rotary element or brush 28 in the intake port or opening of the head H may be readily realized in the cleaning of furniture or the. upholstery of automobiles, for example, in service stations and the like. The swivel connection at 98 enables free use of the attachment, the conduit C being flexible, in a preferred embodiment of the invention, to accommodate various changes in position between the head and the cleaner V. Because of the coaxial mounting of the shaft 60 and its housing 82, the attachment is of relatively light weight and has no external parts to interfere in any manner with its use. The bearings, in a commercial embodiment, would be'of such nature as to require only infrequent lubrication and virtually no maintenance, assuring the attachment of the characteristics of long life, simplicity and economy.
Various other specific features of the preferred embodiment of the invention illustrated, not categorically enumerated herein, will undoubtedly occur to those versed in the art, as will many modifications and alterations in the preferred construction illustrated, all of which may be achieved without departing from the spirit and scope of the invention as defined in the appended claims.
What is claimed is:
1. An attachment for a vacuum cleaner of the type having a housing including a suction port and a power shaft coaxial with the port, comprising: a hollow cleaning head formed with an intake opening, said head having connected thereto a tubular conduit including a free end provided with coupling means selectively connectible to and discounectible from the housing coaxially with the port; bearing means mounted coaxially in the said coupling means; a drivable cleaning element carried in the head and cooperative with the intake opening; a drive shaft of materially reduced cross-section as compared to the cross-section of the conduit and extending through the conduit and coupling means, said shaft having one end portionconnected to the drivable cleaning element and its other end portion coaxially connectible to and detachable from the power shaft in unison with connection and disconnection of the aforesaid coupling means, said shaft having a portion thereof journaled in said bearing means; said bearing means having a support extending radially from the shaft to the inner periphery of thecoupling means, said support having a radial edge facing upstream as respects air flow through the conduit; and radial arm means fixed to the shaft for rotation therewith closely upstream of and substantially in shearing relationship with the radial edge of the support.
2. The invention defined in claim 1, in which: the arm means is constructed at least in part Off resilient material so as to be capable of yielding in an axial direction upstream relative to the radial edge of the support. 1
3. The invention defined in claim 1, in which: the arm is of tapering shape in a radially outward direction to tend to centrifugally dislodge objects encountered thereby.
4. The invention defined in claim 1, in which: the bearing has a cylindrical portion facing upstream -generally proximate to the radial edge of the support; and the radial arm means has a hub portion shaped as-a cup facing downstream and closely covering said cylin drical portion.
References Cited in the file of this patent UNITED STATES PATENTS 1,714,287 Wilson May 21, 1929 1,856,136 Orr May 3, 1932 1,929,345 Brown ct a1. Oct. 3, 1933 2,309,583 Frantz Ian. 26, 1943 2,511,497 Dauphinee June 13, 1950 2,679,061 Baker May 25, 1954 FOREIGN PATENTS 280,323 Germany Nov. 12, 1914 360,612 Great Britain Nov. 12, 1929 463,735 Great Britain Apr. 5, 1937
US432409A 1954-05-26 1954-05-26 Vacuum cleaner attachment Expired - Lifetime US2789306A (en)

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Cited By (14)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3189933A (en) * 1963-12-03 1965-06-22 Signal Mfg Company Vacuum cleaner with rotatable nozzle
WO1999056607A1 (en) * 1998-05-05 1999-11-11 Windsor Industries, Inc. Combination of main scrubbing machine and attachment scrubbing machine
US6170119B1 (en) * 1999-06-01 2001-01-09 Fantom Technologies Inc. Method and apparatus for reducing the size of elongate particulate material in a vacuum cleaner head
US20040078922A1 (en) * 2002-10-23 2004-04-29 Lg Electronics Inc. Suction nozzle for vacuum cleaner
US20040255426A1 (en) * 2003-06-17 2004-12-23 Davis Ron E. Upright vacuum cleaner equipped with electrified hose and wand
US9072416B2 (en) 2013-03-15 2015-07-07 Aktiebolaget Electrolux Vacuum cleaner agitator cleaner with brushroll lifting mechanism
US9192273B2 (en) 2008-03-17 2015-11-24 Aktiebolaget Electrolux Brushroll cleaning feature with overload protection during cleaning
US9295362B2 (en) 2008-03-17 2016-03-29 Aktiebolaget Electrolux Vacuum cleaner agitator cleaner with power control
US9314140B2 (en) 2011-10-26 2016-04-19 Aktiebolaget Electrolux Cleaning nozzle for a vacuum cleaner
US9775477B2 (en) 2013-05-02 2017-10-03 Aktiebolaget Electrolux Cleaning nozzle for a vacuum cleaner
US9820626B2 (en) 2008-03-17 2017-11-21 Aktiebolaget Electrolux Actuator mechanism for a brushroll cleaner
US9993847B2 (en) 2012-02-02 2018-06-12 Aktiebolaget Electrolux Cleaning arrangement for a nozzle of a vacuum cleaner
US10045672B2 (en) 2012-12-21 2018-08-14 Aktiebolaget Electrolux Cleaning arrangement for a rotatable member of a vacuum cleaner, cleaner nozzle, vacuum cleaner and cleaning unit
US10117553B2 (en) 2008-03-17 2018-11-06 Aktiebolaget Electrolux Cleaning nozzle for a vacuum cleaner

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US1714287A (en) * 1925-03-30 1929-05-21 Wilson Leonard Dale Vacuum-cleaner attachment
GB360612A (en) * 1930-10-13 1931-11-12 Ervin Adams Improvements in and relating to apparatus for cleaning blackboards and blackboard erasers
US1856136A (en) * 1927-11-12 1932-05-03 Company The Cleveland Trust Suction cleaner
US1929345A (en) * 1932-06-16 1933-10-03 Raymond S Brown Upholstery washer
GB463735A (en) * 1935-10-04 1937-04-05 Frederick William Taylor Improvements in or relating to suction cleaning machines for floors, walls and furniture and like surfaces
US2309583A (en) * 1941-02-20 1943-01-26 Apex Electrical Mfg Co Suction cleaner
US2511497A (en) * 1946-08-16 1950-06-13 W B Connor Engineering Corp Portable odor adsorption device
US2679061A (en) * 1949-08-31 1954-05-25 Elliott Co Rotary tube cleaner

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Publication number Priority date Publication date Assignee Title
DE280323C (en) *
US1714287A (en) * 1925-03-30 1929-05-21 Wilson Leonard Dale Vacuum-cleaner attachment
US1856136A (en) * 1927-11-12 1932-05-03 Company The Cleveland Trust Suction cleaner
GB360612A (en) * 1930-10-13 1931-11-12 Ervin Adams Improvements in and relating to apparatus for cleaning blackboards and blackboard erasers
US1929345A (en) * 1932-06-16 1933-10-03 Raymond S Brown Upholstery washer
GB463735A (en) * 1935-10-04 1937-04-05 Frederick William Taylor Improvements in or relating to suction cleaning machines for floors, walls and furniture and like surfaces
US2309583A (en) * 1941-02-20 1943-01-26 Apex Electrical Mfg Co Suction cleaner
US2511497A (en) * 1946-08-16 1950-06-13 W B Connor Engineering Corp Portable odor adsorption device
US2679061A (en) * 1949-08-31 1954-05-25 Elliott Co Rotary tube cleaner

Cited By (23)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3189933A (en) * 1963-12-03 1965-06-22 Signal Mfg Company Vacuum cleaner with rotatable nozzle
WO1999056607A1 (en) * 1998-05-05 1999-11-11 Windsor Industries, Inc. Combination of main scrubbing machine and attachment scrubbing machine
US5993563A (en) * 1998-05-05 1999-11-30 Windsor Industries, Inc. Combination of main scrubbing machine and attachment scrubbing machine
US6170119B1 (en) * 1999-06-01 2001-01-09 Fantom Technologies Inc. Method and apparatus for reducing the size of elongate particulate material in a vacuum cleaner head
US20040078922A1 (en) * 2002-10-23 2004-04-29 Lg Electronics Inc. Suction nozzle for vacuum cleaner
US7051401B2 (en) * 2002-10-23 2006-05-30 Lg Electronics Inc. Suction nozzle for vacuum cleaner
US20040255426A1 (en) * 2003-06-17 2004-12-23 Davis Ron E. Upright vacuum cleaner equipped with electrified hose and wand
US9295362B2 (en) 2008-03-17 2016-03-29 Aktiebolaget Electrolux Vacuum cleaner agitator cleaner with power control
US9820624B2 (en) 2008-03-17 2017-11-21 Aktiebolaget Electrolux Vacuum cleaner brushroll cleaner configuration
US9295364B2 (en) 2008-03-17 2016-03-29 Aktiebolaget Electrolux Brushroll cleaning feature with spaced brushes and friction surfaces to prevent contact
US10117553B2 (en) 2008-03-17 2018-11-06 Aktiebolaget Electrolux Cleaning nozzle for a vacuum cleaner
US9192273B2 (en) 2008-03-17 2015-11-24 Aktiebolaget Electrolux Brushroll cleaning feature with overload protection during cleaning
US9375122B2 (en) 2008-03-17 2016-06-28 Aktiebolaget Electrolux Automated brushroll cleaning
US9820626B2 (en) 2008-03-17 2017-11-21 Aktiebolaget Electrolux Actuator mechanism for a brushroll cleaner
US9833115B2 (en) 2011-10-26 2017-12-05 Aktiebolaget Electrolux Cleaning nozzle for a vacuum cleaner
US9314140B2 (en) 2011-10-26 2016-04-19 Aktiebolaget Electrolux Cleaning nozzle for a vacuum cleaner
US9839335B2 (en) 2011-10-26 2017-12-12 Aktiebolaget Electrolux Cleaning nozzle for a vacuum cleaner
US10376114B2 (en) 2011-10-26 2019-08-13 Aktiebolaget Electrolux Cleaning nozzle for a vacuum cleaner
US9993847B2 (en) 2012-02-02 2018-06-12 Aktiebolaget Electrolux Cleaning arrangement for a nozzle of a vacuum cleaner
US10045672B2 (en) 2012-12-21 2018-08-14 Aktiebolaget Electrolux Cleaning arrangement for a rotatable member of a vacuum cleaner, cleaner nozzle, vacuum cleaner and cleaning unit
US9615708B2 (en) 2013-03-15 2017-04-11 Aktiebolaget Electrolux Vacuum cleaner agitator cleaner with agitator lifting mechanism
US9072416B2 (en) 2013-03-15 2015-07-07 Aktiebolaget Electrolux Vacuum cleaner agitator cleaner with brushroll lifting mechanism
US9775477B2 (en) 2013-05-02 2017-10-03 Aktiebolaget Electrolux Cleaning nozzle for a vacuum cleaner

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