Suction head of vacuum cleaner

A suction head for a vacuum cleaner includes a rag roll device which is wetted to perform a wet wiping action across the floor. The rag roll device is mounted for rotation about a horizontal axis. A rotation regulating mechanism, comprised of a pawl device and ratchet teeth, is provided which prevents the rag roll device from rotating when the suction head is moved forwardly, while permitting the rag roll device to rotate by a predetermined angle when the suction head is moved rearwardly. This enables different portions of the rag roll device to assume a floor-contacting position.

BACKGROUND OF THE INVENTION 
1. Field of the Invention 
The present invention relates to a suction head of a vacuum cleaner, and 
more particularly to a suction head of a vacuum cleaner having a wet rag 
for wiping a floor to be cleaned. 
2. Description of the Prior Art 
An example of a suction head for a conventional cleaner is provided in a 
Japanese laid-open patent application NO. Showa 57-185824 in which a 
rotary brush of a vacuum cleaner is described which has an exchangeable 
rotary brush. 
Meanwhile, in a suction head of a cleaner having a rotary brush thus 
constructed, dust on the floor can be sucked in but the floor cannot be 
cleaned to the same extent as an be performed with a wet rag. 
In order to solve the aforementioned problems, a suction head of a cleaner 
as illustrated in FIG. 1 has been conventionally used. As illustrated in 
FIG. 1, a rag member 3 is attached to a lower area of an attachment panel 
2 formed with a plurality of holes 2a by a fastening means (not shown). 
This panel 2 is fixed by a fixing means or a mechanical indentation (not 
shown) to a lug 4a inwardly and protrudingly formed within a rag holder 4 
that is integrally formed on an approximate center of the suction head 1. 
Furthermore, a cleansing water auxiliary tank 6 is formed between a frontal 
wall 4b of the rag holder 4 and a bulkhead 5 and the cleansing water is 
supplied to the tank 6 through a cleansing water supply tube 7. 
A guiding means 9 is disposed on an upper opening of the auxiliary tank in 
order to guide the dust and air sucked in from a main suction port 13 
(mentioned later) to a suction tube 8, and a space 10 is formed between 
the guiding means 9 and the attachment panel 2. 
Meanwhile, a lower hole 6a is formed on the frontal wall 4b of the 
auxiliary tank 6, so that the cleansing water W supplied through the 
supply tube 7 can be supplied to a rag member 3 along an arrow direction 
S. 
An upper hole 6b is formed on the frontal wall 4b of the auxiliary tank 6, 
so that the cleansing water W of the supply tube 7 can be discharged to 
the space 10 formed between the guiding means 9 and the attachment panel 2 
to thereby allow the water W to be supplied to the rag member 3 along an 
arrow direction R through the holes 2a formed on the attachment panel 2, 
A caster 12 is disposed on a frontal lower area of the suction head 1, so 
that the caster rotates freely on a shaft installed on left/right walls of 
the suction head 1, and the main suction port 13 is formed on a rear side 
of the caster 12 in order to suck in the dust, wastes or the like. 
A wiper blade 14 made of an elastic material is clamped by a first clamp 
member 15 between the main suction hole 13 and the auxiliary tank 6 in 
order to collect the dust, wastes or the like toward the main suction port 
B, and at the rear of the rag member 3, there is formed an auxiliary 
suction port 16, so that moisture not suctionable by the rag member 3 can 
be sucked in. 
Furthermore, between the auxiliary suction port 16 and a main caster 17, 
there is a wiper blade 18 made of an elastic material clamped by a second 
clamp member 19, so that moisture residual on the floor surface can be 
collected to thereby be sucked into the auxiliary suction port 16 after 
the floor is water-wiped by the rag member 3. 
In the suction head of the cleaner thus constructed, when the vacuum 
cleaner is activated by an activation of a controlling unit (not shown), 
the dust, wastes or the like is sucked in through the main suction port 13 
along an arrow direction P, and at the same time, the cleansing water W 
within the auxiliary tank 6 is supplied to the rag member 3 along the 
arrow direction S via a lower hole 6a formed on the frontal wall 4b of the 
rag holder 4 and simultaneously the water W can be supplied to the rag 
member along the arrow direction R through holes 2a formed on the 
attachment panel 2 via the space 10 formed by the guiding means 9 and an 
attachment pin 2 through the upper hole 6b, so that the floor can be wet 
rag-wiped. 
However, because the rag member 3 attached within the rag holder 4 disposed 
on the central floor in the suction head i is not rotated, the 
contaminated materials smeared under the lower surface of the rag member 3 
can re-contaminate the floor when the floor is being cleaned for a long 
time, resulting in a problem of the floor not effectively cleaned. 
SUMMARY OF THE INVENTION 
Accordingly, the present invention is provided to solve the aforesaid 
problems and therefore, it is an object of the present invention to 
provide a suction head of a vacuum cleaner with which a rag roll is 
mounted for rotation in one direction by a predetermined angle, so that 
re-contamination on the floor to be cleaned can be prevented and a clean 
wiping can be performed. 
In accordance with the objects of the present invention, there is provided 
a suction head of a vacuum cleaner by which dust, wastes or the like is 
vacuum-cleaned with a suction pressure in accordance with a suction 
driving means within a body of the vacuum cleaner and at the same time a 
cleaning can be done with a wet rag, the suction head of a vaccum cleaner 
comprising: main and auxiliary suction ports for sucking in the dust, 
wastes or the like from the floor to be cleaned; a rag roll for wiping off 
the floor smeared with the dust or wastes by being disposed between the 
main and auxiliary suction ports; a rag roll support means for releasably 
supporting the rag roll; a main shaft for rotatably supporting the rag 
roll by being inserted into the rag roll support means; first and second 
control means having a plurality of teeth disposed in respectively reverse 
directions for controlling right/reverse rotations of the rag roll by 
being mounted on one end of a periphery of the main shaft; and a click 
means for regulating rotations of the first and second control means.

DETAILED DESCRIPTION OF THE INVENTION 
Hereinafter, an embodiment of the present invention will be described in 
detail with reference to the accompanying drawings. 
As illustrated in detail in FIGS. 2 and 4, the dust, wastes and/or the like 
are sucked in from the floor to be cleaned by a suction force generated in 
accordance with an activation of a suction means disposed within a body of 
the cleaner (not shown) and at the same time, a suction head 20 mounted 
with a rag roll 26 for a wet rag-wiping is integrally extruded with a main 
suction port 21 and an auxiliary port 22 in order to suck in the dust, 
wastes and/or the like from front/rear sides of the rag roll 26. The main 
suction port 21 and the auxiliary suction port 22 are connected to a 
connection 25 in order to be connected to a connecting tube 24, so that 
the sucked-in dust, wastes and/or the like can be guided into a waste 
storage in the body of the cleaner. 
Meanwhile, between the main suction port 21 and the auxiliary suction port 
22 of the suction head 20, the rag roll 26 is mounted for stationarily 
wet-wiping the floor in response to forwardly moving the suction head 20 
and is so disposed that the same can be rotated clockwise by a 
predetermined angle in response to a backward movement of the suction head 
20. 
The rag roll 26 made of cotton, sponge, artificial paper or the like is 
formed in a cylindrical shape with a round axial hole in the center. 
The rag roll 26 is releasably clamped to an exterior surface of a rag roll 
support means 28 on the same axis, so that the same 26 can wipe off the 
contamination supposedly caused by the dust, wastes and/or the like during 
a wet rag-wiping. 
A main shaft 31 for supporting the rag roll 26 is inserted into a central 
piercing hole of the rag roll support means 28, and each end of the main 
shaft 31 is rotatably and releasably mounted to a shaft pad 27 formed on 
the inside of each of the side walls 20a of the suction head 20. 
Furthermore, first and second ratchet wheels 29 and 30 having a plurality 
of teeth formed respectively in opposite directions are fixed to one end 
of the outer periphery of the main shaft 31 in order to control the rag 
roll support means 28 and the rag roll 26 in clockwise or 
counter-clockwise rotation. 
Meanwhile, a support bracket 34 is integrally formed with an inner upper 
area of the suction head 20 located above the first and second ratchet 
wheels 29 and 30. The support braket 34 is mounted to a click means or 
pawl unit 33 by a shaft 35 which extends through a hole formed on a 
circular hub unit 33a of the click means 33, to provide for rotation of 
the click means 33. 
The circular hub unit 33a of the click means 33 is integrally mounted to a 
first click or pawl 33b for controlling the rag roll 26 for clockwise 
rotation through a predetermined angle (here as much as an angle 
corresponding to one pitch of a tooth 30a in the second ratchet wheel 30) 
when the suction head 20 is drawn in the arrow direction R as shown in 
FIG. 2. This causes the first click 33b to mesh with a tooth 29a of the 
first ratchet wheel 29. 
A second click or pawl 33c for regulating a counterclockwise rotation of 
the rag roll 26 by meshing with teeth 30a of the second ratchet wheel 30 
is integrally mounted with the circular unit 33a at a predetermined 
angular spacing with respect to the first click 33b. 
Furthermore, a flange unit 33e with a fixed hole 33d in the center thereof 
is formed on an external side of the first click 33b, so that the flange 
can be fixed to an end of a coil spring fixed to the suction head 20. 
In the aforesaid description, the rag roll 26, rag roll support means 28, 
first and second ratchet wheels 29 and 30 and main shaft 31 are so 
disposed that the same are rotated to the same direction at all times in 
accordance with forward and backward movements of the suction head 20. 
A first guiding means 37 is disposed on a frontal lower area of a bulkhead 
23 of the suction head 20, so that the dust, wastes and the like on the 
floor to be cleaned can be guided lengthwise to the main suction port 21. 
A second guiding means 38 is disposed on a lower area between the bulkhead 
23 and the auxiliary suction port 22 in order to avoid a rotation 
impediment of the rag roll caused by the dust, wastes and/or the like 
being squeezed between the rag roll 26 and the bulkhead 23, and at the 
same time, in order to have the dust, wastes and the like sucked in via 
the auxiliary suction port 22. 
A caster 29 is mounted to a rear side of the auxiliary suction port 22 in 
order to guide the suction head 20 to be moved forward and backward, 
maintaining a horizontal level. 
When, after an activation of the cleaner, the suction head 20 of the vacuum 
cleaner thus constructed is closely adhered to the floor to thereby be 
moved forwardly in an opposite direction from the arrow direction R 
illustrated in FIG. 2, the dust, wastes and/or the like littered on the 
floor are collected toward the suction port by the first and second 
guiding means 37 and 38 via the main suction port 21 and auxiliary port 22 
formed on a bottom surface of the suction head 20 to thereby be sucked in 
along the arrow direction as illustrated in FIG. 2. 
The sucked-in dust, wastes and/or the like are collected into a waste 
storage located in a body of the cleaner (not shown) through a coupling 
tube 24. 
At this moment, the second click 33c of the click means 33 abuts a tooth 
30a formed on a periphery of the second ratchet wheel 30, so that the rag 
roll 26 is held against rotation and, can contact the floor with such a 
huge frictional force that a clean wiping of the floor can be performed. 
Next, when the suction head 20 is moved backward in the arrow direction R 
as illustrated in FIG. 2, the rag roll is rotated clockwise along with the 
shaft 31 for a predetermined extent as will be now explained. 
At this moment, because the first and second ratchet wheels 29 and 30 
mounted to one end of the main shaft 31 are rotated clockwise, the second 
click 33c positioned on a root area between the teeth 30a of the second 
ratchet wheel 30 is cammed up gradually along a slant of the tooth 30a. 
However, because the first click 33b is formed on a periphery of the 
circular unit 33a of the click means 33 at a predetermined angle to the 
second click 33c, the second click 33c and the first click 33b perform a 
seesawing motion. 
Accordingly, when the second click 33c rises up, being in touch with the 
slant of the tooth 30a formed on the second ratchet wheel 30, the first 
click 33b conversely descends against the force of the elastic material 
36, to thereby mesh with a root area formed between teeth 29a of the first 
ratchet wheel 29, so that even the continued backward movement of the 
suction head 20 can not rotate the main shaft 31 any more, and the rag 
roll support means 28 and rag roll can not be rotated. 
Thus, the rag roll 26 will have been rotated clockwise as much as a pitch 
of one tooth 30a formed on the periphery of the second ratchet wheel 30. 
In other words, if a user moves the suction head 20 backward to thereby 
rotate the rag roll 26 clockwise and rotate the second ratchet wheel 30, 
the first click 33b and second click 33c perform a seesawing motion to 
thereby raise the second click 33c and lower the first click 33b. 
Accordingly, the first click is meshed with the tooth 29a of the first 
ratchet wheel 29 to thereby stop the rotation of the rag roll support 
means 28, after the rag roll 26 connected on the same axis with the rag 
roll support means 28 has been rotated through a predetermined angle 
(i.e., an angle corresponding to a pitch of the tooth 30a formed on the 
periphery of the second ratchet wheel 30). 
At this moment, the second click 33c becomes lowered by the force of the 
elastic material 36 to become meshed with the tooth 30a formed on the 
second ratchet wheel 30 to thereby block the rotation of the rag roll 26 
and the rag roll support means 28 counter-clockwise, so that the main 
shaft 31 can not be rotated when the suction is subsequently moved 
forwardly. 
Accordingly, because, whenever the suction head 20 is drawn, rearwardly 
part of the rag roll 26 contaminated by the wet-wiping is rotated 
clockwise by as much the pitch of as one tooth 30a formed on the second 
ratchet wheel 30, an uncontaminated part of the rag roll gets in contact 
with the floor to thereby perform a clean wiping of the floor. 
As seen from the foregoing, according to the suction head of the vacuum 
cleaner provided by the present invention, the suction head can perform a 
wet-rag wiping of the floor with a huge frictional force by blocking the 
rotation of the rag roll during a forward movement. Conversely, when the 
suction head is moved backward to thereby rotate the rag roll by at least 
a predetermined angle and change a position of a face of the rag, will not 
be restricted to one part of the rag face to thereby extend a service life 
of the rag, and at the same time, a re-contamination caused by the rag 
roll can be prevented. 
Having described a specific preferred embodiments of the invention with 
reference to the accompanying drawings, it is to be understood that the 
invention is not limited to the precise embodiment, and that various 
changes and modifications may be effected therein by one skilled in the 
art without departing from the scope or spirit of the invention as defined 
in the appended claims.