[0001] The present invention relates to an ozone-deodorizing toilet.
[0002] U.S. patent 6,163,893 disclosed a deodorizing toilet seat pad comprising essentially
an ozone-generating means, a toilet seat pad, a base plate, a fan and an active carbon
container. When practicing, the fan is operated to draw the stench odor from the toilet
into the ozone-generating means where odor is deodorized. Then, the discharged gas
is further deodorized by active carbon to remove residual stench.
[0003] However, such a deodorizing system may have the following disadvantages:
1. A suction fan should be provided to draw the stench gas to be deodorized by the
ozone-generating means and by the active carbon in the active carbon container, requiring
complex and costly equipments and increasing operation and maintenance problems.
2. Many perforations (41, 32) are formed in the hollow channel under the toilet seat
to be easily accumulated with dirts or bacteria to influence the disinfection effect
of the toilet since the bacteria-killing effect is performed in the ozone-generating
means located at the gas downstream, not at the upstream such as at the entrance of
the perforations (41, 32).
3. Large moisture content in the gas stream as directly sucked from the toilet may
decrease the ozone generation efficiency and may quickly saturate the active carbon,
thereby minimizing the overall efficiency of toilet deodorization and disinfection.
[0004] The present inventor has found the drawbacks of the conventional deodorizing toilet
and invented the present ozone-deodorizing toilet.
[0005] According to the present invention there is provided a deodorizing toilet including:
an ozone generator provided in a box (chamber) formed e.g. at a rear portion of a
toilet seat, a gas outlet formed in a front portion of the box and under the toilet
seat, whereby upon seating of a toilet user on the toilet seat and upon actuation
of the ozone generator, the ozone as produced from the ozone generator is applied
under positive pressure into a bowl chamber as defined among the toilet bowl, the
toilet seat and the user's buttocks to allow the ozone to efficiently deodorize and
disinfect the stench gas in the bowl chamber of the toilet.
[0006] The present invention will be further described with reference to the accompanying
drawings, in which:
Fig. 1 is an illustration showing the application of the present invention;
Fig. 2 is a perspective view of the present invention; and
Fig. 3 shows a circuit diagram of the present invention.
[0007] As shown in the drawing figures, the present invention comprises: an ozone generator
1 installed in a box 2 formed on a rear portion of the toilet seat 5, a plurality
of air inlet ports 3 formed in a side portion of the box 2 to direct air into the
box 2 to be fluidically communicated with the ozone generator 1 for conversion of
air into ozone O
3, and a gas outlet port 4 formed in a central front portion of the box 2 and formed
under the toilet seat 5 for outwardly downwardly discharging ozone O
3 as produced from the ozone generator 1 into the toilet bowl Bw.
[0008] The toilet seat 5 is pivotally formed on a toilet bowl and formed with an opening
50 to be sealed by a toilet user's buttocks B (Fig. 1) or to be closed by a toilet
cover 6 as shown in dotted line of Fig. 1.
[0009] For understanding the operation principles of the ozone generator 1, the circuit
diagram as shown in Fig. 3 may be referred.
[0010] When the power source P.S. is closed to produce a high tension across the cathode
E
1 and anode E
2 through the high-tension generator H.T., the air in the gap G (for example, 3 mm)
between the two electrodes E
1, E
2 across the high-tension field will be ionized to form an electronic wind and the
air is also partially converted into percentage of ozone O
3, which is then laden in the electronic wind caused by the ionized air and discharged
into a bowl chamber C as defined among the toilet bowl Bw, the toilet seat 5, and
the user's buttocks B as shown in Fig. 1 to deodorize or disinfect the stench gas
in the toilet bowl Bw. The cathode E1 may be -4000 volts, while anode E
2 may be O volt (or other positive volts). A plurality of discharge tips D are juxtapositionally
formed on the cathode E
1, each discharge tip D aiming at (or aligned with) each air vent V formed in the anode
E
2. The air in the gap G will be ionized to form an electronic wind to flow from E
1 to E
2 and the air is also partially converted into ozone O
3 to be "blown" outwardly though the port 4 driven by the electronic wind (Fig. 3).
[0011] Since ozone O
3 is heavier than air, the residual ozone gas, after deodorizing or disinfecting the
gas within the bowl chamber C, will be dissolved into water under the water level
W to further deodorize or disinfect the waste water in the toilet bowl Bw.
[0012] The ozone gas is directed into the bowl chamber C under positive pressure and is,
however, confined within the chamber C by the user's buttocks B, the toilet seat 5
and the bowl Bw without serious outward leakage into the environment of a bathroom
or rest room.
[0013] The air through the gap G in the ozone generator 1 may be converted from an insulator
to be a semi-conductor under the high tension field to obtain a percentage of ozone,
which may be driven from the first electrode E
1 having a plurality of discharge tips D towards the second electrode E
2 having a plurality of air vents V formed therein (as shown in Fig. 3). The ozone-containing
gas may be driven through the holes H and then discharged into the bowl chamber C
in the toilet bowl Bw for deodorization and disinfection within the toilet.
[0014] The present invention is superior to the conventional deodorizing toilet with the
following advantages:
1. The structure is simpler to thereby decrease the cost and maintenance problems.
2. Ozone is directly applied into the toilet bowl to simultaneously deodorize or disinfect
the gas and the water in the toilet bowl.
3. The toilet user's buttocks B serves as a "cover" in situ when seating on the toilet to automatically seal the toilet bowl to confine the ozone
gas within the bowl for an instant direct deodorization and disinfection within the
toilet.
4. The ozone gas is output from the port 4 under positive pressure (by electronic
wind of ionized air), to thereby reduce the moisture interference in the ozone generator
1.
5. The ozone gas is blown into the toilet bowl by ionized air (electronic wind) to
thereby save or eliminate the air fan, which may increase cost, noise and electromagnetic
wave interference.
[0015] An automatic electronic system may be provided in the present invention to automatically
start the ozone generator in a preset time period so as to emit ozone in a proper
time period for satisfactorily deodorization and disinfection in the toilet.
1. An ozone-deodorizing toilet comprising:
a toilet seat (5) pivotally mounted on a toilet bowl (Bw) and
having a toilet cover (6) pivotally secured to said toilet seat (5);
a chamber (2) formed at a rear portion of said toilet seat (5), having at least an
air inlet port (3) formed in said box (2) for directing air into said box (2), and
having a gas outlet port (4) formed in a front portion of said box (2) and positioned
under said toilet seat (5); and
an ozone generator (1) formed in said chamber (2) and fluidically communicated with
said air inlet port (3), said ozone generator (1) operatively converting the air from
said air inlet port (3) to ozone gas to be outwardly downwardly discharged through
said outlet port (4) into said toilet bowl (Bw) to deodorize and
disinfect the stench gas in a bowl chamber (C) defined in said toilet bowl (Bw) beneath
a user's buttocks (B) or said toilet cover (6).
2. A toilet according to Claim 1, wherein said ozone generator (1) includes a cathode
(E1) electrically connected to a negative pole of a power source (P.S.) of high tension
having a plurality of discharge tips (D) juxtapositionally formed on said cathode
(E1), and an anode (E2) electrically connected to a positive pole of said power source
(P.S.) and having a plurality of air vents (V) each said air vent (V) aligned with
each said discharge tip (D), defining a gap (G) between each said discharge tip (D)
of said cathode (E1) and each said air vent (V) of said anode (E2), whereby upon forming
of a high voltage across said cathode (E1) and said anode (E2) to ionize air in said
gap (G) to form an electronic wind by ionized air to flow from said cathode (E1) to
said anode (E2) and the air in the gap (G) will be partially converted to ozone, which
will be laden in and carried by said electronic wind to be discharged into said toilet
bowl (Bw) for deodorization and disinfection in the toilet.