Upright vacuum center

An upright-type vacuum cleaner wherein the air pump, traditionally fixed to the bottom motor shaft, is repositioned at the top of the motor shaft and the dirt-laden air duct is directed up over the motor to this top mounted air pump, and a radical change of direction is introduced in the air duct to cause heavy debris fragments, that would normally enter and damage the air pump, to drop out of the incoming air stream into an emptyable receptacle.

BRIEF SUMMARY OF THE INVENTION 
This invention pertains to an apparatus for cleaning carpets, rugs, floors, 
etc., by suction, commonly known as a vacuum cleaner. More particularly, 
this invention pertains to those vacuum cleaners that comprise a rollable 
base containing suction means therein, connected to a push-pull handle 
where the user moves the base in a back-and-forth motion over the floor, 
commonly called an upright vacuum cleaner. 
Historically, upright vacuum cleaner design has called for an electric 
motor with vertical shaft drive in the base where the suction means is 
located under the motor next to the floor, driven by the lower end of the 
motor shaft. A roller, containing a brush or other floor vibrating means, 
is put at the front of the base and driven by a belt that is also 
connected to the lower end of the motor shaft. Debris vibrated loose from 
the rug, carpet, etc. (floor) is swept along with air directly into the 
suction fan and thence discharged into the air-debris separator bag that 
is hung or suspended from the push-pull handle. Many problems have been 
encountered with this design; most of them not correctable. 
For instance, all stress on the motor shaft takes place at the lower end 
thereof where the suction fan and the floor vibrating means are connected. 
Where they split between the two ends of the shaft, bearing stress would 
be normalized and bearing wear reduced. In addition, the roller drive belt 
is fully within the incoming air-debris stream thereby subjecting it to 
early failure from impact with large debris fragments. Furthermore, the 
hose, for connecting small attachments to the vacuum cleaner, must be 
connected to the bottom of the vacuum cleaner base through coupling with a 
wide plate that, because of so many mating edges allowing leakage, 
resulting in only moderate suction power to the attachments. 
Additionally, modern trends in vacuum cleaner design utilize plastic and 
cast metal wherever possible to save weight and reduce manufacturing 
costs. Thus, the suction fan is now made of plastic and most vacuum 
cleaner bases are either injection molded plastic or cast aluminum alloy. 
Fragments coming in with the air-debris stream act like bullets and rip, 
tear, puncture and sometimes break the plastic fan blades, plastic fan 
base and the air-debris separator bag. Should one of the fan blades break 
from impact with a paperclip, button, nail, screw, coin or other fragment, 
the fan immediately becomes unbalanced and, with the high fan speeds, will 
cause total bearing failure within minutes. 
This inventive vacuum cleaner design has the suction fan and roller belt 
drive separated to opposite ends of the vertical motor shaft thus 
normalizing stress on the shaft bearings and lengthening service life. The 
suction fan is removed from under the motor to overtop thereof thus 
removing most of the roller belt drive from the incoming air-debris stream 
and the potential damage therefrom. The suction from under the floor 
vibrating rollers is now directed upwardly into an enclosed pathway over 
top of the drive motor. 
A unique feature of this invention is that a radical change of upward 
airflow is purposely introduced between the floor vibrating rollers and 
the suction fan intake port. This reversal of direction allows heavy 
debris fragments, such as paperclips, stones, buttons, nails, screws, etc. 
to drop out of the air stream before they can enter the suction fan intake 
port and cause damage to the fan as hereinbefore described. A tray is 
provided below the radical change in airflow direction to receive these 
heavy fragments and means are provided to allow the receptacle to be 
easily emptied. 
In addition, this unique construction allows the attachment hose to be 
easily and conveniently plugged into the top of the vacuum cleaner base, 
directly into the suction fan intake port, thereby eliminating the leakage 
presently involved in such operations and increasing the suction power to 
the attachments. 
Accordingly, one object of this invention is a means of normalizing stress 
on the drive motor shaft for improved service life. Another object is a 
means of eliminating most of the exposure of the roller drive belt from 
the damaging effects of fragments and other debris in the incoming 
air-debris stream. A further object of this invention is a vacuum cleaner 
that automatically eliminates large fragments of debris from the incoming 
air-debris stream before they have a chance to enter the suction fan and 
damage the fan blades or fan chamber. A still further object of this 
invention is a means to extend the useful life of plastic parts and cast 
metal parts presently used in modern upright vacuum cleaners. 
Additionally, another object of this invention is a means of allowing 
attachment hose connection directly into the intake port of the suction 
fan to provide more cleaning power to the vacuum cleaner attachments. 
These and other objects of this invention will become more apparent to the 
reader by reading the following detailed description of the preferred 
embodiments together with the drawings attached hereto and ending with the 
claims that define the scope of protection sought by the inventor.

DETAILED DESCRIPTION OF THE INVENTION 
Referring to the drawings, the vacuum cleaner of this invention is shown to 
comprise a vacuum cleaner base 1 that includes a base floor plate 3 
containing slots 5 through which a set of rollable wheels 7 extend from 
axles 9 on mounts 11 for contact with the floor. Extending upward from the 
rear of floor plate 3 is a rear wall 13 terminating at a top rolled edge 
15. A key-shaped opening 17 extends from the middle of plate 3 forward and 
outward to form a pair of front base corners 19. 
A pair of front base wall posts 21 extends upward from said front base 
corners 19 to support a front base wall 23 that includes a lower wall edge 
25, containing a pair of half-circle cut-outs 27 through which a drive 
belt passes (described later), a slanted wall portion 29 integral 
therewith and further extending rearward to form a motor support platform 
31 that is horizontal and parallel to base floor plate 3. 
An upright staff 33 connects base 1, through a flexible connection at rear 
wall 13, shown as hinge 35, to a push-pull handle 37. Suspended from staff 
33 and/or handle 37 is an air-debris separator bag 39. 
Rotary power means 41, such as an electric motor, is mounted on motor 
support platform 31 with its rotary power shaft vertically oriented in 
base 1 to provide upper and lower drive shaft ends 43 and 45 respectively. 
While an electric power cord, switch and plug are required in the 
operation of all electric vacuum cleaners, including the one of this 
invention, they are not shown in these drawings to allow a clearer view of 
the various parts of this invention. 
From front base wall posts 21 extend forwardly and outwardly a pair of 
support wings 47 having the outer ends thereof formed into a pair of 
mutually parallel support arms 49. Between said arms 49 is positioned 
floor vibrating means 51, shown here as a cylindrical roller 53 of finite 
length, held transverse to the normal back-and-forth path of base 1, whose 
ends 55 are journaled in support bearings 57, such as a pair of 
dust-sealed ball bearings housed in arms 49. A series of protuberances 
such as brushes 59 extend from the surface of roller 53, generally from 
one end 55 to the other end 55, and are utilized to sweep against or 
otherwise produce vibration when roller 53 is rotated against the floor. A 
drive belt means 61, shown here as an endless rubber power belt 63 
stretched between a circumferential groove 65 in roller 53, under 
half-circle cut-outs 27 and around the pulley 67, mounted on lower drive 
shaft end 45, provides rotary motion to roller 53 during cleaning 
operations. 
Atop rotary power means 41 is air pump means 69 connected directly to upper 
power means drive shaft end 43. Means 69 may be of many types such as an 
impeller pump or, more frequently and as shown here, a centrifugal air fan 
71 comprising an involute-shaped fan chamber 73 enclosing a fan plate 75, 
mounted on upper shaft drive end 43, upon which a series of radially 
mounted fan blades 77 are attached to spin at high speed and draw or suck 
air into an axial inlet port 79, defined by an inlet opening 81 formed in 
motor support platform 31, and discharging it at higher pressure through a 
side outlet port 83 through rear wall 13 and through a short discharge 
hose 85 into air-debris separator bag 39. 
A lightweight base cover 87 is operably positioned over base 1, held in 
place by a series of rear attachment tabs 89, that engage the underside of 
rolled edge 15, and a pair of screws 91 that fit through a pair of matched 
holes 93 in cover 87 and support arms 49. Cover 87 is comprised of a front 
bumper portion 95 containing an outer groove 97 into which is received an 
elastic bumper 99, to prevent damage to furniture, etc., a front roller 
housing portion 101, a slanted duct portion 103 extending rearwardly 
therefrom and a rear top portion 105 extending overtop of power means 41. 
A rear cover wall 107 extends downward from top portion 105 and around the 
rear of inlet port 79 to engage motor support platform 31 to form, along 
with the rest of cover 87 and in cooperation with front base wall 23, 
slanted wall portion 29 and motor support platform 31 an enclosed duct 109 
running from floor vibrating means 51 to inlet port 79 and sealed against 
air leaks by gasket 111 mounted in base 1 where it is in contact with 
cover 87. 
Located in rear cover top portion 105 and centered over air pump means 
inlet port 79 is attachment hose connection means 113 for allowing direct 
connection of the vacuum cleaner attachment hose into inlet port 79. Means 
113 may take a variety of forms; shown here it comprises a cap 115, 
adapted for receipt onto a hollow collar 117 forming an opening 119 in 
base cover 87, to seal duct 109 from air leakage when the hose is not in 
use. Collar 117 is formed in an annular depression 121, made in cover 87 
to retain a minimum overall height to base 1 thus allowing the vacuum 
cleaner to enter low areas such as under furniture. A series of screw 
threads 123 is formed on the outside of collar 117 and on the inside of 
cap 115 to permit cap 115 to be screwed down tightly thereon. 
When it is desired to connect attachments, such as a dust brush, furniture 
brush, etc., to the vacuum cleaner, cap 115 is screwed off collar 117, and 
the neck 125 of attachment hose 127 inserted through opening 119 and into 
tight engagement with inlet port 79. As shown in FIG. 3, a securing collar 
129 on hose 127 can be screwed down onto collar 117 to fasten neck 125 
securely against cover 87 by abutment with boss 131 extending outward from 
the rear of hose neck 127. Other types of connection means such as bayonet 
clips, etc. may also be used and are fully contemplated within the scope 
of this invention. 
Located somewhere in duct 109 but preferrably between front roller housing 
portion 101 and slanted duct portion 103 is a baffle 133 that extends part 
way down into duct 109. Baffle 133 interrupts the airflow stream causing a 
radical change of upward airflow in duct 109 as indicated by the flow 
arrows in FIG. 2 and causes heavy fragments of debris (shown in FIG. 2 as 
a screw and a washer) that would otherwise flow up duct 109 and pass into 
inlet port 79 and damage fan blades 77, to drop by gravity out of the 
air-debris stream. 
A receptacle 134 is provided, to receive these debris fragments and to hold 
them until the vacuum cleaner is emptied, in the form of a pan 135, 
adapted to fit under base 1 over key-shaped opening 17 in base plate 3 and 
around the underside edge of floor vibrating means 51. Pan 135 is held in 
place along its front edge 137 by a plurality of tabs 139 attached thereto 
and adapted to fit into a slot 141 formed under the rear edge of front 
bumper portion 95 of base cover 87. Pan 135 is held in place at its rear 
curved edge 143 (and in the same plane as base floor plate 3) by tabs 145 
that are held tight to floor plate 3 by ordinary twist clips 147. A pair 
of elongated openings 149 are formed in pan 135 positioned to fit below 
the outside edges of floor vibrating means 51 so that when assembled, the 
air flow duct into 109 is restricted to the immediate vicinity around 
roller 53. An upstanding wall 151 is provided on pan 135 to the rear of 
openings 149 and adapted to mate in abutting relationship with lower front 
base wall edge 25. The mating top edge 153 of wall 151 contains a pair of 
half-circle cut-outs 155 that are arranged to mate with half-circle 
cut-outs 27 in wall edge 25 to form a pair of circular passageways for 
movement therethrough of drive belt 63. An upwardly bent lip 157 is placed 
along the rear edge of elongated openings 149 to aid in retaining the 
debris fragments and holding them away form rollers 53 during cleaning 
operations. 
With the vacuum cleaner assembled and placed in operation, the damaging 
debris fragments will drop out of the air-debris stream into pan 135 to be 
held therein until emptied by removing pan 135. Access to removing belt 63 
from pulley 67 is obtained by removal of pan 135.