Title of Invention

TOILET APPARATUS

Abstract A toilet apparatus generally indicated an air displacement unit (2) is shown polarity of the electro polarities of the electromagnets 41 and 43 are such that they are mutually attracted,, the piston 44 is drawn along the cylinder bore 40 in the direction of the arrow A, thus displacing air in the cylinder 40 and forcing it through an aperture 48 and through the hose 16 into the cistern 12. Once the piston has reached the end of its travel, the proximity sensor 7 detects this and changes the polarity of one of the electromagnets 41 and 43 so that they now repel each other. The piston 44 is then driven back along the cylinder bore 40 in the direction of the arrow B thus again displacing the air in the cylinder 40. This displaced air is forced through connectors 36 and 37 and into 25 the sealed pan chamber. Once the piston 44 has reached the end of its travel a proximity sensor 50 detects this and causes the electromagnets 41 and 43 to be deenergised. The air displacement unit 2 is reset once the sensor 8 senses that the lid 21 has been opened. Air vents 51 are of the flap-valve type and allow an inward flow of air to the cylindrical chamber 40 sufficient to prevent a vacuum developing behind the piston 44. The piston 44 may be driven manually by a handle 52 (Fig.l) which is connected to the guide rod 45. The seat hinge brackets 53 and lid hinge brackets 23 are connected to the chassis outriggers 24 by hinge pins and are free to pivot around them.
Full Text FORM 2
THE PATENTS ACT, 1970
(39 of 1970)
COMPLETE SPECIFICATION
(See Section 10, rule 13)
TOILET APPARATUS
MOORE, GARRY of 31 PERCY ROAD, ILFORD, ESSEX IG3 8SF, GREAT
BRITAIN, BRITISH NATIONAL.
The following specification particularly describes the
nature of the invention and the manner in which it is to be
performed : -
This invention relates to toilet apparatus, and in particular to such apparatus that
uses little water in each flushing cycle. A conventional toilet or water closet disposes
of waste matter by hydraulic means alone by relying on a large enough from the
toilet pan. Many toilet systems exist which dispose of waste matter with a negative
pneumatic pressure e.g. by drawing waste from the pan through an outlet pipe
using various valves, pumps, vacuum chambers, transfer tanks and the like. Such
systems do reduce water consumption but are generally difficult to manufacture,
and are inconvenient to install, use and maintain.
It is an object of the present invention to obviate or mitigate these difficulties by
providing toilet apparatus which uses a positive pressure to discharge waste matter
from the pan to an outlet pipe thus reducing water consumption. Such apparatus has
the additional advantage that as the outlet pipe is unobstructed by valves or other
equipment the toilet can also be used in a conventional way.
The present invention is toilet apparatus comprising a toilet pan, an outlet, pipe for
the contents of the pan. A closeable lid on the pan forming with the pan a waste
receptacle chamber, a seal between the lid and the, means for introducing water into
the chamber to wash the internal surface of the pan, and means for subsequently
increasing the air pressure in the chamber to force the contents of the pan through
the outlet pipe. Preferably, means are provided to pressurise the water Introduced
to wash the internal surface or the pan.
The lid may be provided with a locking mechanism for securing the lid in its closed
position.
A locking sensor may be associated with the locking mechanism to detect locking of
the lid and initiate operation of the apparatus.
In a preferred embodiment of the invention, the outlet pipe is formed with an Sbend
water trap.
The means for increasing the air pressure in the chamber may include an air
displacement unit connected to the chamber and, preferably also to the water cistern.
The unit may comprise a piston movable in a cylinder. The piston moving in the
cylinder in one stroke displaces a volume of air sufficient to provide the pressure in
the chamber required to expel, the contents of the pan. The piston may be double
acting, the other stroke of the piston providing the air to pressurise the cistern and
thus the water washing the internal surface of the pan before the contents of the pan
are expelled.
The pan is provided with inlets for the water for washing its surface, these inlets
being located at the top of the pan and being connected to the cistern by means
which prevent the escape of air from the chamber.
Preferably, a cistern is connected to the pan by two pipe each incorporating siphon.
One pipe is normally closed but may be opened manually to actuate the siphon,
while the other pipe is open and may act as an overflow outlet. The cistern is
provided with an aperture sufficient to relay pneumatic pressure and is connected to
the air displacement unit. When the air displacement unit is activated, the displaced
air pressurises the cistern and, all vents and pipes to the exterior being closed,
the water in the cistern is forced through the open siphon and into the pan. By
venting the overflow pipe when the water level falls to a predetermined level, the
pressure in the cistern can be released while allowing continued siphonic flow from
the cistern to the pan.
Operation of the air displacement unit may be triggered by the locking of the lid, the
locking action being detected by a sensor.
The toilet apparatus may be fitted with a tipping/holding/siphon tank which may
be pneumatically actuated/ emptied.
An embodiment of the present invention will now be described, by way of
example, with reference to the accompanying drawings, in which:- Fig. 1 is a
partially cut away perspective view of toilet apparatus according to the present
invention ; Fig. 2 is a perspective view in cross-section of the chamber and air
displacement unit of fig. 1; and Fig. 3 is a partially cut away perspective view of the
cistern and pan used in Fig. 1. toilet apparatus generally indicated at 1. An air
displacement unitA 2 is shown installed on runners 3 secured Lo chassis guides 4 by
fasteners (not illustrated) thus enablinq thus enabling supply 5 enters a control box 6
which contains a proximity sensor 7 and control apparatus (not illustrated), and is
connected to a second proximity sensor 8 by a cable 9. The cable 9 passes into a
guide tube 10 which positions the sensor 8 inside the pan 11 of the toilet close to a
locking bolt 34 as will be later described.
A cistern 12 has a lid 13 secured on a seal 14 by bolts passing through holes 15. An
air hose 16 connects the air displacement unit 2 to the cistern 12 through a connector
17, thus enabling the cistern to be pressurised. A float valve inlet 18 is connected to a
suitable water supply, and an overflow/vent pipe is shown at 71.
The pan 11 has a seat 20, a lid 21 and a removable lid seal/locking assembly 22. The
lid 21 is provided with hinge brackets 23 and is raised and lowered around chassis
Outriggers 24 (Fig. 2) as will be explained later. Hinge brackets a rebate at guide
points 26. The seal/locking assembly 22 is further provided with a hook 27 thus
enabling it to be slid under the lid 21 and secured by a peq 28 in holes 29, while
simultaneously engaging the lip guide points 26 in the hinge 10 bracket rebates 25.
The lip seal 30 is fixed to the locking assembly 22 and makes an air tight seal with
the rim 31 of the pan 11 when the lid is closed. A locking assembly handle actuates
the locking mechanism with a pull/push action through internal cams (not
illustrated) which turn a shaft 33 thus relaying the movement to a locking bolt 34
(Fig. 2).
It wd be appreciated that with such an arrangement a conventional toilet lid can be
converted to a sealable, locking lid. The locking bolt 34 is provided with a magnetic
tip 35 which enables the bolt to activate the sensor 8 when in the locking position.
The locking action of the lid also initiates a flushing cycle by actuating the air
displacement unit 2.
Fig. 2 shows the air displacement unit 2 and its connection to the pan 11 through
connectors 36 and 37 which are a male and female tapered fit and have between
them a seal to form an air tight connection. It will be appreciated that, with such an
arrangement, as the unit 2 is slid into position on the chassis guides 4, the connectors
are automatically aligned to form an air tight connection capable of relaying air
under pressure from the unit 2 to the pan. The air displacement unit 2 consists of an
end plate 39 fastened to a cylindrical housing 40 in which is located a fixed
electromagnet 41 around a central guide tube 42. A second electromagnet 43 is fixed
to a piston 44 and has a central guide rod 45 forming an air tight fit in the guide tube
42. The piston is provided with a pneumatic seal 47 and is free to travel along the
cylinder bore 40. In Fig. 2, the unit 2 is shown in its rest position.
It will be appreciated that when the polarities of the electromagnets 41 and 43 are
such that they are mutually attracted,, the piston 44 is drawn along the cylinder bore
40 in the direction of the arrow A, thus displacing air in the cylinder 40 and forcing it
through an aperture 48 and through the hose 16 into the cistern 12. Once the piston
has reached the end of its travel, the proximity sensor 7 detects this and changes the
polarity of one of the electromagnets 41 and 43 so that they now repel each other.
The piston 44 is then driven back along the cylinder bore 40 in the direction of the
arrow B thus again displacing the air in the cylinder 40. This displaced air is forced
through connectors 36 and 37 and into 25 the sealed pan chamber. Once the piston
44 has reached the end of its travel a proximity sensor 50 detects this and causes the
electromagnets 41 and 43 to be deenergised. The air displacement unit 2 is reset once
the sensor 8 senses that the lid 21 has been opened. Air vents 51 are of the flap-valve
type and allow an inward flow of air to the cylindrical chamber 40 sufficient to
prevent a vacuum developing behind the piston 44. The piston 44 may be driven
manually by a handle 52 (Fig.1) which is connected to the guide rod 45. The seat
hinge brackets 53 and lid hinge brackets 23 are connected to the chassis outriggers 24
by hinge pins and are free to pivot around them.
Fig. 3 shows the cistern 12. A primary siphon 55 connects to the water pipe 56 which
in turn connects to the pan 11 at the connector 57. The connector 57 is provided with
a flap valve 58 which allows the flow of air and water only in the direction of the
arrow C. This allows the cistern to discharge into the pan while blocking the escape
of air from the pan 11. The primary siphon 55 is provided with a flap valve 59 for
preventing the flow of water from the cistern 12. Water flow through the siphon 55 is
achieved by hfting the plunger 60 which is connected to a siphon actuator 61 and a
flap-valve lever 62 which is pivoted on a fulcrum 63.
It will be appreciated that with such an arrangement the siphon is normally blocked,
but by lifting the plunger 60 the flap valve is opened by lever 62 and siphonic flow is
started by the actuator 61 thus depositing the contents of the cistern into the pan 11
in a sufficient quantity to flush the pan. Conveniently, means to lift the plunger 60 is
provided by the handle 64, connecting rod 65 and lever 66.
A secondary siphon 67 consists of an open tube provided with a bell mouth 68 to
facilitate effective breaking of its siphon. The siphon 67 connects to a water pipe 69
which enters the pan 11 and distributes water over the surface of the pan through
nozzles 70 located under the rim of the pan 11, thus providing an efficient spray
pattern for washing the pad. With such an arrangement an open overflow route to
the pan 11 is always provided. The nozzles 70 and pipe 69 may be fitted with valves
for inhibiting the escape of air from the pan 11.
An overflow pipe 71 connects to the cistern 12 and is provided with an additional
aperture around its circumference 72. A sleeve is connected to a float 75 by a rod 76
and fits over the overflow pipe 71 where it is free to swivel upon it. Two apertures 74
are provided such that as sleeve 73 turns aperture may be exposed or obscured by
sleeve apertures 74. An end cap 77 is an air tight fit over pipe 71 and retains the
sleeve 73 in place. Thus, as the water level in the cistern changes the float 75 rises
and falls accordingly thus turning the sleeve 73 on the pipe 71 which opens and
closes cistern vent through apertures 72 and 74.
It will be appreciated that with such an arrangement waste is deposited into the pan
11 and the lid is closed and locked. The locking action of the lid 22 triggers the
sensor 8 to activate the air displacement unit 2 causing the piston to be driven
forward to force air into cistern through the hose 16. As, the cistern water level is
high, the pipe aperture 72 is obscured and there is no vent for displaced air.
Consequently, water is forced through the open secondary siphon 67 and into the
pan 11 where the nozzles 70 provide a spray pattern to wash the surface of the pan.
As the cistern water level drops, the float 75 drop thus exposing the aperture 72
whereupon pressurised air is vented via aperture 74. Air resistance to the piston 44
drops and the piston quickly reaches the end of its travel. Water is still able to flow
through the open siphon at a reduced rate due to gravity.
The direction of piston 44 is now reversed and the air inside the sealed pan chamber
is pressurised, whereupon waste is forced through the outlet pipe 78. The piston 44
reaches the end of its travel and the flushing cycle ends. However the siphon 67 is
still active and a quantity of water sufficient to replenish the water trap seal 78 is
deposited into the pan 11 before the water level drops to the level of the bell mouth
68 and the siphon is broken. The cistern water then replenished via the float valve
and the float 75 rises thus closing the vent 72.
In the event of inlet valve failure, the float 75 rises thus aligning the pipe aperture 72
with the second aperture 74 of the sleeve, allowing water to drain away.
Alternatively, rising water may drain away through the open siphon to the pan 11.
Other embodiments of the invention may provide an overflow via the cistern hose 16
and air displacement equipment.
It will be apparent that the toilet apparatus may be used in a conventional manual
hydraulic flush mode by using the handle 64.
While the air displacement unit as described is operated electrically or manually, it
could be modified to operate mechanically, hydraulically or pneumatically.
In a further modification of the embodiment described, the cistern is not pressurised,
and the piston may be either single acting, in which case the return stroke serves
merely to reset the unit, or double acting in which case, the return stroke serves to
pressurise the chamber in a second flushing cycle.
The air displacement unit may take other forms including a diaphragm an air pump
or a reservoir of compressed air.
In a further modification or the embodiment, the air displacement unit takes the
form of a compressor, diaphragm or pressurised gas container or reservoir.
We Claim:
1. Toilet apparatus comprising a toilet pan, an outlet pipe for the contents of the
pan, a closeable lid on the pan forming with the pan a waste receptacle
chamber, a seal between the lid and the pan, means for introducing water into
the chamber to wash the internal surface of the pan, and means for
subsequently increasing the, air pressure in the chamber comprises an air
displacement unit to force the contents of the pan through the outlet pipe.
2. Apparatus as claimed in claim 1, in which the air displacement unit comprises
a piston in a cylinder.
3. Apparatus as claimed in claim 2, in which the piston is actuable
electromagnetically.
4. Apparatus as claimed in claim 3, in which the air displacement unit has an
outlet at one end of the cylinder connected to the chamber whereby
movement of the piston towards that end of the cylinder increases the air
pressure in the chamber.
5. Apparatus as claimed in claim 4, in which the air displacement unit has a
second outlet at the second end of the cylinder, the second out let also being
connected with the chamber.
6. Apparatus as claimed in any of claims 2 to 5, in which the means for
introducing water into the chamber includes the air displacement unit.
7. Apparatus as claimed in claim 6, when dependent on claim 3, characterised
by a cistern for holding flushing water.
8. Apparatus as claimed in claim 7, in which the air displacement unit has a
second outlet at the second end of the cylinder whereby movement of the
piston towards the second end pressurises the cistern and forces water from
the cistern to the pan.
9. Apparatus as claimed in claim 8, in that the cistern includes a siphon for
delivering water to the pan to wash the internal surface of the pan.
10. Apparatus as claimed in claim 9, in which operation of the air displacement
unit forces water through the siphon to the pan.
11. Apparatus as claimed in claim 8, including a float valve in the cistern, the
float valve being responsive to the level of water in the cistern to release the
pressure in the cistern at a predetermined water level.
12. Apparatus as claimed in claim 11, in which the Siphon continues to deliver
water to the pan after the pressure in the cistern has been released.
13. Apparatus as claimed in any preceding claim, in which the lid 21 is provided
with a locking mechanism 22 for securing the lid in its closed position.
14. Apparatus as claimed in claim 13, in which a locking sensor is associated with
the locking mechanism to detect locking of the lid and initiate operation of the
air displacement unit.
15. Apparatus as claimed in claim 14, in which the sensor initiates movement of
the piston.
16. Apparatus as claimed in claim 15, in which a piston sensor is provided at an
end of the cylinder to detect the piston at that end and initiate movement of
the piston towards the other end.
17. Apparatus as claimed in any preceding claim, in which the lid and the seal are
a removable unit.
18. Apparatus as claimed in any preceding claim, in which the outlet pipe is
constructed to provide a water trap seal.
19. Apparatus as claimed in any preceding claim, further including means for
supplying to the chamber a volume of water sufficient to flush the contents of
the pan through the outlet pipe without increasing the pressure in the
chamber.
Dated this 15th day of November, 2004.
./
HIRAL CHANDRAKANT JOSH1
AGENT FOR
MOORE, GARRY

Documents:

1233-mum-2004-abstract.pdf

1233-mum-2004-claims.doc

1233-mum-2004-claims.pdf

1233-MUM-2004-CORRESPONDENCE(2-11-2011).pdf

1233-MUM-2004-CORRESPONDENCE(5-1-2012).pdf

1233-mum-2004-correspondence(ipo).pdf

1233-mum-2004-correspondence.pdf

1233-MUM-2004-CORRRESPONDENCE(28-11-2011).pdf

1233-mum-2004-description(granted).doc

1233-mum-2004-description(granted).pdf

1233-mum-2004-drawing.pdf

1233-mum-2004-form 1.pdf

1233-mum-2004-form 13(12-9-2011).pdf

1233-MUM-2004-FORM 16(12-9-2011).pdf

1233-mum-2004-form 19.pdf

1233-mum-2004-form 2(granted).doc

1233-mum-2004-form 2(granted).pdf

1233-mum-2004-form 2(title page).pdf

1233-mum-2004-form 3.pdf

1233-mum-2004-form 5.pdf

1233-MUM-2004-POWER OF ATTORNEY(28-11-2011).pdf

1233-MUM-2004-POWER OF ATTORNEY(5-1-2012).pdf

1233-mum-2004-power of attorney.pdf

123mum-2004-abstract.doc


Patent Number 208904
Indian Patent Application Number 1233/MUM/2004
PG Journal Number 30/2008
Publication Date 25-Jul-2008
Grant Date 16-Aug-2007
Date of Filing 16-Nov-2004
Name of Patentee MOORE GARRY
Applicant Address 31 PERCY ROAD ILFORD ESSEX IG3 8GF GREAT BRITAIN
Inventors:
# Inventor's Name Inventor's Address
1 MOORE GARRY 31 PERCY ROAD ILFORD ESSEX IG3 8GF GREAT BRITAIN
PCT International Classification Number E03D 5/00
PCT International Application Number N/A
PCT International Filing date
PCT Conventions:
# PCT Application Number Date of Convention Priority Country
1 NA