US1485188A - Suction cleaner - Google Patents

Description

Feb. 26 1924's .E. B. HOFF SUCTION CLEANER Filed Nov. 6, 1919 Fig 66' 66 50 0 Inventor: Earl BHoff,

His ttorneg Patented Feb. 26,1924.

EARL is. EOFE, or CLEVELAND, onto, nssienoa 'ro EL Taro vacuum at COMPANY, INC., A CQRPORATION OF NEW YORK.

SUCTION CL Application filed November 6,1919. Serial in}. 836,078.

To all whom it may concern:

. Be it known that I, EARL B. Home, a'citizen of the United States, residing at Cleveland, county of Cuyahog'a, ,State of Ohio, have invented certain new and useful Improvements in Suction Cleaners, of which the following is a specification.

The present invention relates toelectric suction or vacuum cleaners and particularly to cleaners of the portable type such as are primarily designed for household use and comprise essentially an electric motor which drives a suction fan, a ca'singhaving' a chamher in which the fan is locatedya suction nozzle communicating with the chamber, and.

a discharge conduit to which a dust bag is connected, the outer end of the dust bag being supported by the handle used in propelling the cleaner over the surface to be cleaned.

In such cleanersit is desirable to provide in the suction nozzle a suitable brush for loosening dirt, agitatingthe nap of a carpet or rug being cleaned, and picking up ravelings, bits of paper 'or other objects which have a tendency tostick to the surface being cleaned and are not readily taken upby'suction alone. Such a brush operates most efficiently when rotated, and the primary object of the present invention is to provide an improved structure and arrangement in a.

suction cleaner of the type wherein a rotary brush is'provided in the cleaner nozzle driven from the motor which drives the suction fan;

For a consideration f what I believe to be novel and my invention, attention is directed.

to the accompanying description and the claims-appended thereto.

- In the drawing, Fig. 1 is a central, vertical sectional view of a suction cleaner embodying my invention; Fig.2 is a side elevation on a smaller scale than Fig. 1; Fig. 3 is atop plan view of abelt drive; Figs. fl and 5 are detail-sideand end views respectively of a stop mechanism for the cleaner handle, and Fig. 6 is adetail sectional View through one of the floor wheels showing the holding and bearing arrangement for the motor driven brush. p

' Referring to the drawing, 10 indicates the bottom part or floor piece of thecleaner and 11 the motor part which carries the fan. and

forms a'unit in itself as will be pointed out merge smoothly by suitably curved surfaces.

- into. ne-another to give a pleasing appear- In the bottom wall of g ance to the cleaner.fan chamber 12 is an inlet opening 15 with which passage 13 communicates'and in-the top wall ofchamber 12 is an opening 16 through which the fan is introduced into Ichamber 12 and which is closed by the inner end ofthe motor casing. Connected withfan chamber 12 is a discharge conduit 12 (,Fig;

2) to which the inlet mouth ofadust bag 12 is connected. In the front wall of passage 13 is'anopening 17 normally closed by a hinged cover 18 which is held closed by a'spring tongue 19. Opening17 is adapted to to 'adaptthe cleaner for use with hose attachmentsfor cleaning walls, etc., in the .well known manner; The bottom wall of-nozzle 14'lies in a horizontal plane and contains the 'usualsuction inlet slot 20. Fixed in the end:

have the end fixture of a hose fastened in it walls ofnozzle 14 are tubular stufifshafts-21 (see Fig-6) the outer ends of which form axles for side wheels'22 which are arranged to support the suction'inlet slot of the nozzle I a suitable distance abovethe'surface to be ing rings-25. i The inner ends ofstubshafts 21 are counterbored, and fixedin' such counterbores are bearing'bushings 26 in which arerotatable shaft holders 27. On 'their outer en'ds'shaft holders 27 are-provided withheads 28 against whichpress the inner ends of coiledsprings 29,plates 30 being pro- 1 vided between the; springs and the heads heads to turn on. Heads-28 are rounded as shown so there is only a'limited bearing cleaned. "Wheels 22 are held against shoulders 23cm the axles bywashers 24 and holdv which serve as thrust "bearing plates for, the I contact between them-andplateS 30 which' reduces friction between the heads and plates to a minimum. Also this arrangement makes it unnecessary for the parts to be accurately aligned for the bearing betweenplates 30 andheads 28 will be unaffected even thoughplates 30 do not stand at a right angle to the axis ofshaft holders 27. The outer ends ofsprings 29 are carried in cup-shaped spring holders 31 suitably fastened in the outer ends ofstub shafts 21 as by peening over the edges of the openings at spaced points as indicated in Fig. 6. Heads 28 present shoulders to the outer ends ofbushings 26 to limit inward movement of the shaft holders. In the inner ends ofshaft holders 27 arepolyhedral recesses 32 which receive suitablyshaped pieces 33 on the ends of the shaft of abrush 34 located in the nozzle inlet. It will thus be seen that the brush is carried in theshaft holders 27 and that it can be readily removed by first pushing it axially in one direction or the other until an end is freed from itsholder 27; and it can be easily replaced by putting one end in itsholder 27 and pushing it axially until the other end can be moved up in line with its holder. Thesprings 29 serve to center the brush axially. It will be notedthat thebushings 26,holders 27 andsprings 29 can be very easily and quickly assembled since they are slipped into place from the two ends of the stub shafts, and that when assembled the stub shaft, bushing, wheel, and holder form a unit which can be assembled prior to being mounted on the end wall ofnozzle 14. So far as removing and inserting the brush intoholders 27 is concerned, I need make only one of the end wheel-structures of the arrangement shown in Fig. 6. However, I preferably make them both of such structure so they are interchangeable and can be replaced as a unit. As shown in Fig. 6,slot 20 does not extend entirely acrossnozzle 14 but terminates short of the ends thereof leaving awall 20*. In operation the carpet or rug is sucked up into contact with thenozzle sealing slot 20 andwalls 20 serve as sealing walls for the slot endsand eliminate the possibility ofwheels 22 preventing the rug from sealing the slot.

The motor part 11 of the cleaner comprises the motor shell 35 in which is supported thefield 36 andarmature 37 of the motor.Field 36 is shown as being held in position byposts 38. The top of shell 35 terminates in a substantially round,flat plate 39 which has considerable thickness and which carries abearing sleeve 40 for the upper end of armature shaft 41. Fastened to the under side ofplate 39 is a lubricant cup 42 to which lubricant may be supplied through ahole 43. The lower end of armature shaft 41 is journaled in a bearing sleeve 44 carried by aplate 45 which closes the lower end of shell 35. On the lower end of shaft 41 is fixed ahub 46 which carries motor ventilating fan blades 47 and which rests against the upper end of sleeve 44 to support the weight of the armature. Fastened to the under side ofplate 45 is alubricant cup 48 to -which lubricant may be supplied through ahole 49.End plate 45 is fastened to shell 35 by theposts 38 which position themotor field 36. The lower end of shaft 41 extends beyondplate 45 andlubricant cup 48 and on its end is mounted a fan 50 which is located infan chamber 12 and forms the suction fan of the cleaner. Opening 16 in the top wall offan chamber 12 is surrounded by a flange 51 andend plate 45 has aflange 52 which slips inside it and ashoulder 53 which rests on top of it. The two flanges are fastened together by a suitable number of screws 54. This gives a firm, strong and easily assembled connection between the motor part and floor piece of the cleaner but one which at the same time is easily released to permit the motor part being removed from the floor piece.

Formed integral with the rear side of shell 35 is atube 55, the upper portion of which merges into shell 35 except at its top, where it maintains its tubular shape as indicated at 55 The upper end oftube 55 terminates flush with the outer surface ofplate 39 and the same are connected together byintegral side walls 39 which curve smoothly into and form an integral part of motor shell 35. Or viewed from another aspect it may be considered that motor shell 35 is provided at its rear with walls forming a rather flat integral extension running lengthwise of the shell, the contour of which is best indicated in Fig. 2, such extension continuing beyond the lower side of the motor shell in the form of a tube. The lower portion oftube 55 projects below shell 35 to a point flush with the bottom offan chamber 12. In the twoendsof tube 55 are bearingbushings 56 which carry ashaft 57. On the upper end ofshaft 57 is abelt wheel 58 and on the lower end is a belt wheel 59. The upper end of motor shaft 41 projects beyond the top surface ofplate 45 and carries abelt wheel 60 which is connected tobelt wheel 58 by abelt 61. A belt tightener is provided forbelt 61 comprising anarm 62 pivoted at one end onplate 39 and carrying at its other end aroller 63 which is pressed againstbelt 61 by aspring 64.Belt wheels 58 and 60 andbelt 61 are covered by acap 65 which is held in position by projecting pins 65 (Fig. 3) which Formed. integral with the floor piece .10 on its bottom and running crosswise of it are two spaced walls 67 which form achannel 68, one end'of which opens intonozzle 14 adjacent the central portion ofbrush 34. Walls 67 pass through chamber 13 as shown in Fig. 1 and are closed at the top by an integral wall 67 The other end ofchannel 68 is closed by anintegral end wall 69 and such end houses belt wheel 59. At the central portion ofbrush 34, its shaft is provided with abelt wheel 70 and located inchannel 68 is abelt 71 which connects belt wheels 59 and 7 0. A pair of idler wheels orrollers 72 are provided inchannel 68 over whichbelt 71 passes, such idler wheels serving to space thet'wo strands of the belt, bring the one end of the belt into the, plane of belt'whee'l 59 and guide the belt in its movement. Preferably the twowheels 72 are placed a distance apart which is either greater or less than the diameter of belt wheel 59 at the bottom of its groove thereby maintaining a slight side pressure onbelt 71 which prevents it from running off. The open side ofchannel 68 is closed by acover plate 73, one end of which rests on the rear wall of the nozzle, as indicated at 74, the other end being provided withspring fingers 75 which engagegrooves 76 in the faces of walls 67. By this arrangement cover plate 7 2 is positively held at its front end so it can never drop down.

At the same time the cover plate can be quickly and easily removed and replaced. At the rear, walls 67 are extended to form a pair ofspaced ears 77 between which a rear roller orwheel 78 is pivoted.Wheel 78 is well crowned or rounded on its head 'to permit of easy sidewise sliding of the rear end of the cleaner when in use and it is of quite large diameter so it will roll over obstacles freely and easily.

With the above described arrangement it will be clear that when the motor is in operation one end of motor shaft 41 drives suction fan 50 and the other end drivesbrush 34 through the medium ofbelt 61,shaft 57 andbelt 71. It will be noted thatbelt w el 58 is larger thanbelt wheel 60 and that b It wheel 59 is smaller thanbelt wheel 70 that I obtain a double reduction in speed between the motor shaft and the brush. This is very important as the motor of a suction cleaner in order to pump the desired volume of air must run at a much higher speed than it is desirable to run the brush, since such high speed of the brush produces undue wear ofthe rug or carpet being cleaned and at the same time does no more efficient work.

By means of my arrangement of double rethat of the motor shaft. For example, I

find that I can reduce the speed of the brush to from 1 5 to 1/7 of that of the motor shaft and at the same time I am not required to unduly enlarge any part of the cleaner to accommodate large belt wheels.

By utilizing both ends of the motor shaft for driving purposes, one end driving the suction fan and the other end the brush, I obtain a better balance for the driving motor and also a structure wherein the belts can be made readily accessible. In this connection it is to be noted thatbelt 61 andbelt wheels 58 and 60 are above the motor shell 35 and are rendered accessible by removingcap 64 and thatbelt 71 and belt wheel, 59 are below the fancasing and are rendered accessible by removing cover plate '73.Belt wheel 70 is readily accessible throughnozzle slot 20 andchannel 68.' At the same time the belt wheels and belts are normally wholly en- .closed.

Furthermore the arrangement of belts and belt wheels and ofshaft 57 renders the original work of assembling simple and easy.

Sincetube 55 which carries thebearings 56 for the two. ends ofshaft 57 is formed as an integral structure with the motor shell,bearings 56 when slipped into the ends oftube 55 will be correctly aligned to receiveshaft 57 and such bearings cannot get out of alignment. In this connection it is to be noted that the two ends oftube 55 can be bored out at the same time, in the same fixture, and at a single setting to receivebearings 56 which means that hearings will always have good alignment. In assembling, therefore, it is only necessary to insertbearings 56 into the ends oftube 55,run shaft 57 through and fastenbelt wheels 58 and 59 thereon.Belts 61 and 71 can then be easily put into place.

It is desirable that dust and other foreign material be prevented from accumulating inchannel 68 and I accordingly provide at-the outer end of the channel a suitable opening or openings through which a small amount of air can pass. With this arrangement when the suction fan 50 is operating it will draw air through such opening or openings intochannel 68 thence throughchannel 68 to the passage 13. By this means there is a continuous flow of air throughchannel 68 which prevents any accumulation of foreign material taking place therein In the present instance, the opening at the outer end ofchannel 68 is formed around the lower end oftube 55 as indicated at 68*.

The cleaner is formed essentially of two parts, the floor piece 10 and themotor part 11. As regardstube 55 which carriesshaft 57, the essential point is that it be formed integral with or carried entirely by one of these parts so the bearing 56 when inserted therein will be correctly aligned and maintained so, and while I preferably form the tube as a part of the motor shell it will be understood that my invention is not necessarily limited to such arrangement as the tube could be readily formed as a {art of the floor piece. Furthermore, While prefer belt drive on account of its quiet running pro rties and ease of manufacture and assem 1y, other forms of drive, such, for example, as a gear drive, may be used if found desirable.

The handle of the cleaner is indicated in Fig. 2 at 80 and at its lower end fits into asocket 81 from which branches two spring arms orfurcations 82. The ends ofarms 82 are pivoted onsuitable shafts 90 carried byears 83, which ears are fastened to the fan casing on opposite sides of the motor. One

of thecars 83 is provided with a projectingspring finger 84 having asocket 85 ressed in its end and theadjacent arm 82 1s provided with abead 86 for engaging insocket 85. Integral withfinger 84 is aright angle flange 87 which projects into the path of movement ofarm 82 to form a stop for it. The purpose ofspring finger 84 and stop 87 is to provide a means whereby the handle of the cleaner may be fastened in an upright position and its movement beyond an upright position prevented. In order to enable the handle to be adjusted to various positions and maintain it there, I rovide a yielding holding means comprising a radiallycorrugated disk 88 having aright angle lug 89 which projects into anopening 89 inarm 82 and is on thesame shaft 90 thatarm 82 is pivoted on, being located betweenarm 82 andear 83.Adjacent disk 88 is a second radially corrugateddisk 91, held stationary by an integralinturned lug 92 which engages anopening 93 inear 83.Shaft 90 projects throughear 83 and its outer end is threaded to receive awing nut 94. Betweenwing nut 94 andear 83 is a dishedsprin washer 95.Wing nut 94 is tightened to ringcorrugated disks 88 and 91 into engagement and they are held yieldingly in engagement byspring washer 95. If now handle 80 is moved up or down,disk 88 will turn with it,spring washer 95 yielding sufficiently to let the corrugations ofdisk 88 ride over the tops of the corrugations ofdisk 91. The handle can thus be adjusted step by step, the resistance offered to adjusting depending on the ad'ustment ofwing nut 94 as is obvious. In t e final upright position of the handle, which may be vertical or to one side of vertical as found desirable,arm 82 engages the side ofspring finger 84,bead 86 snapping intosocket 85 so as to hold the handle in such position. It cannot be moved beyond such position due to stop 87.

In Fig. 2, 96 indicates the cord having a plug 97 at its ends for engagement with the contact fingers to which the terminals of the motor are connected. The location of these rescues terminal connections is indicated at 98 in Fig. 1.

In accordance with the provisions of the patent statutes, I have described the principle of operation of my invention, together with the apparatus Which I now consider to represent the best embodiment thereof, but I desire to have it understood that the apparatus shown is only illustrative, and that the invention may be carried out by other means.

lVhat I claim as new and desire to secure by Letters Patent of the United States, is,-

1. In a suction cleaner, the combination of a substantially horizontal fan chamber, a suction nozzle connected therewith, a rotatably mounted brush in said nozzle, a motor mounted on the fan chamber with one end of its shaft projecting into it, a fan on such end, a shaft carried by the motor shell, and separate power transmitting means connecting one end of such shaft to the end of the motor shaft remote from the fan and the other end to said brush.

2. In a suction cleaner, the combination of a fan chamber, a suction nozzle connected therewith, a rotatably mounted brush in said nozzle, a motor mounted on the fan chamber with one end of its shaft projecting into it, a fan on such end, a shaft carried by the motor shell, said shaft extending parallel to the motor shaft, means connecting one end of such shaft to the end of the motor shaft remote from the fan, and means connecting the other end of such shaft to said brush. Y

3. In a suction cleaner, the combination of a fan chamber, a suction nozzle connected therewith, a rotatably mounted brush in said nozzle, a motor mounted on the fan chamber with one end of its shaft projecting into it, a fan on such end, a shaft carried by the motor shell, said shaft extending parallel to the motor shaft and from a point beyond the motor casing to a point below said fan chamber, means connecting the end of such shaft which is beyond the motor casing to the motor shaft, and means connecting the other end of such shaft to said brush.

4. In a suction cleaner, a floor piece comprising a fan chamber having inlet and discharge openings and a nozzle connected to said inlet opening, a motor part comprising a motor having a shaft, a shell, and a fan connected to said shaft, said motor part being mounted on said floor piece with the fan in said fan chamber, a tube carried by. the motor shell, said tube being parallel to the motor shaft a shaft mounted in such tube, a brush in the cleaner nozzle, and separate power transmitting means connecting said last named shaft to the motor shaft and to said brush.

5. A suction cleaner comprising essentially two parts, a floor part having a fan chamber and a nozzle and a motor part,

' journaled in said bearings,

a brush in said nozzle, a tube formed integral with one of said parts, said tube extending parallel to the axis of the motor, hearings in the ends of said tube, a shaft and power transmitting means connectmg one end of said shaft to the motor and the other end to said brush.

6. In a suction cleaner, the combination of a fan casing, a fan therein, a motor having its shell connected to the fan casing and one end of its shaft connected to said fan, a shaft parallel to the axis of the motor which extends from a point beyond the motor shell to a point beyond the ,fan casing, a nozzle connected to the fan casing, a brush in said nozzle, power transmitting means connecting one end of said last named shaft to the motor shaft, and power transmitting means connecting the other end of such shaft to said brush.'

7. In a suction cleaner, the combination of a fan casing, a fan therein, a-motor having its shell connected to the fan casing and one end of its shaft connected to said fan, a tube at the rear of the cleaner which extends parallel to the axis of the motor, the ends of said tube terminating adjacent the top of the motor casing and the bottom of the fan casing, a shaft journaled in said tube with its ends projecting beyond the ends of the tube, pulley wheels on the ends of such shaft, a pulley wheel on the end of the motor shaft remote from said fan, a belt connecting it to-one of the ulleys on said secondnamed shaft, a nozz e connected to the fan casing, a brush therein, a pulley wheel on said brush, and a belt connecting it to the other of the pulleys on said last named shaft.

8. In a suction cleaner, the combination of a fan casing, a fan therein, a motor-having its shell connected to the fan casing and one end of its shaft connected to said fan, a tube at the rear of the cleaner which extends parallel to the axis of the motor, the ends of said tube terminating adjacent the top of the motor casing and the bottom of the fan casing, a shaft journaled in said tube with its ends projecting beyond the ends of the tube, pulley wheelson the ends of such shaft, a pulley wheel on the end of the motor shaft remote from said fan, a belt connecting it to one of the pulleys on said second named shaft, a nozzle connected to the fan casing, a brush therein, walls defining a channel extending across the bottom of the fan casing and terminating in said nozzle, a belt wheel on the brush in front of said channel, and a belt in said channel connecting the beltwheel on the brush to the other belt wheel on said second named shaft.

9. In a suction cleaner, the combination of a substantially horizontal fan casing, a

suction nozzle extending forwardly and latcasing from the lower end ofsaid shaft to the nozzle, power transmitting means located in said channel which connects the lower end of such shaft to said brush, and

power transmitting means connecting the 7 upper end of such shaft to the motor shaft.

10. In a suction cleaner, the combination of .a substantially horizontal fan casing, a

suction nozzle extending forwardly and latv erally thereof, a brush in said nozzle, a motor mounted on the top of said fan casing, a tube extending along the rear of the fan and motor casings, a shaft journaled therein, the lower end of which terminates below the fan casing, walls forming a channel which extends across the bottom of the fan casing from the lower end of said shaft to the nozzle, said channel having an open side, power transmitting means located in said channel which connects the lower end of such shaft to said brush, power transmitting means connectin the other end of such shaft to the motor s aft, and a removable cover for the open side of said channel.

11. In a suction cleaner, the combination of a nozzle having end walls, hollow stub shafts fixed in said end walls and projecting beyond them, wheels mounted on such projecting ends of the stub shafts, shaft holders rotatably mounted in the inner ends of said hollow stub shafts, springs mounted in the outer ends thereof and acting to yieldingly press said shaft holders toward each other, and a brush in the nozzle, said brush having shaft ends carried by said shaft holders.

12. In a suction cleaner, the combination of a nozzle having end walls, hollow stub shafts fixed in said end walls and projecting beyond them, jecting ends of the stub shafts, shaft holders rotatably mounted in the inner ends of said hollow stub shafts, spring-pressed thrust bearing members which press on the outer ends of the shaft holders to yieldingly force them toward each other, a brush in said nozzle, said br'ush having shaft ends detachably connected to said shaft holders, means for rotating said brush.

13. In a suction cleaner, the combination of a nozzle having an end wall, a tubular stub shaft fixed therein with one end projecting beyond the wall, a wheel rotatabl mounted on such projecting end, a sha holder in the inner end of said tubular stub shaft, a spring in the outer end thereof which bears against the shaft holder, means and I for holding the spring therein, and means for limiting the axial movement of said shaft holder.

14. In a suction cleaner, the combination of a nozzle having an end wall, a tubular stub; shaft fixed therein with one end rojecting beyond the wall, a wheel rotatably mounted on such projecting end, a shaft holder in the inner end of said tubular stub shaft, said shaft holder having a rounded head. a thrust bearing plate, and a spring in the outer end of said tubular shaft which forces the thrust bearing plate against said rounded head.

15. In a suction cleaner, the combination of a fan chamber, a fan therein, a motor for driving the fan, a nozzle connected to the fan chamber, a brush in said nozzle, means forming a channel which extends across the bottom of the cleaner and communicates at one end with said nozzle, the other end being closed, power transmitting means in said insaiee channel for driving the brush, and a plate for closing the open bottom of the channel, said plate being positively supported at its forward end one wall of the nozzle.

16. In a suction cleaner, the combination of a substantially horizontal fan chamber, a fan therein, a motor mounted on the upper side of said fan chamber and connected to said fan, the outer end of the shaft of the motor projecting beyond the motor shell, a nozzle connected to the fan chamber, a brush in said nozzle, means for driving the brush which means comprises a shaft which proj ects above the motor shell into line with the outer end of the motor shaft, a belt connecting the upper ends of such shafts, and a removable cap fastened to the motor shell for housing said belt and shaft ends.

In witness whereof, I have hereunto set my hand this 3rd day of November, 1919.

EARL B. HOFF.

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