DRY TOILET
Technical Field
This invention relates to improvements in dry toilets and particularly to dry toilets with disposable lining. Background Art Dry toilets have no water to convey waste away or to clean toilet surfaces and therefore various earlier patents describe bags or tubes to fit within a dry toilet to contain the waste or to convey the waste to a place of storage or disposal. Toilets using a vertically fed flexible tube to line the bowl have been described in UK patent specifications GB 1,525,613 and GB 2,160,417. In these references the tube used to line the toilet bowl is stored as a folded ring around the outside of the toilet bowl which is sequentially unfolded as the tube is pulled over the rim and down inside the bowl. The tube is pinched or sealed closed at the bottom of the bowl to contain the waste and also to prevent odors escaping from the previously used lower portion of the tube that has been deposited beneath the bowl.
This method of lining a toilet with a vertical tube has disadvantages which have limited the commercial exploitation of toilets employing this principle. An excess of tube material is required for each flush which makes the toilet expensive to operate. To be folded and stored outside the bowl, the tube diameter has to be much larger than the effective inside diameter of the bowl. This surplus of material makes large folds which project within the bowl thus reducing the bowl volume and causing the soiling of surfaces much closer to the seat than one expects from a conventional toilet. Furthermore, whereas a very thin material would be adequate to protect bowl surfaces, the tube material has to be relatively thicker to contain the waste in an odor free manner and to prevent leakage while it is stored below the toilet. The combination of excess thickness and excess diameter limits the amount of tube material that can be stored in the small space around the toilet bowl thus requiring the toilet to be restocked at more frequent intervals than would normally be desired. Also, the storage of tube material around the toilet results in having to locate the bowl and the seat further back from the front of the toilet enclosure making it uncomfortable for short people and children to sit on.
Another disadvantage of the vertical tube toilet is that the total height required for the bowl, the feeding and sealing mechanism beneath the bowl and the storage space below that is greater than the height of a conventional toilet and, therefore, in practice toilets of this type often project below the floor which prohibits their use as portable appliances and makes removal of the waste more difficult. Disclosure of Invention
These disadvantages that are inherent in tube lined toilets can be overcome by the present invention which, instead of using a continuous tubular liner, uses a continuous sheet liner and which, instead of feeding the liner through the bowl vertically, feeds the liner through the bowl
horizontally. Horizontal feed allows the supply of liner material and the waste storage container to be located independently of the bowl in spaces where there is more room and this results in larger storage capacity for both liner material and waste.
With no liner material stored in front of the bowl the seat can be located in a more comfortable forward position. Without the constraints imposed by the dimensions of the plastic tube and the need to pinch it closed at the bottom end, the bowl can be a more conventional depth and height which can then be easily incorporated into portable toilets.
With horizontal feed the draped liner sheet conforms closely to the bowl shape without folds in the front to back section where clearance is critical. It also conforms closely on the sides partly due to the way the liner sheet is guided and partly due to the much thinner liner material that can be used. The thinner liner is acceptable because the liner does not have to serve the added purpose of sealing and packaging the waste for storage. This can be done by other devices more effectively. The thinner liner can be supplied in relatively large quantities on a roll which is much less expensive than the specially folded thicker liner required for tube lined toilets.
According to a preferred aspect of the present invention there is provided a dry toilet with disposable lining comprising; a supply of liner material in the form of a substantially continuous length of sheet, a toilet bowl with walls adapted by means of a side entrance aperture and a side exit aperture for the transverse passage through the bowl of the sheet, a conveyance apparatus deployed around the rim of the bowl with means for holding, advancing, separating, rejoining and releasing the opposing edges of the sheet and thereby draping that portion of the sheet to form a lining close to the inner surfaces of the bowl, a means of actuating the conveyance apparatus to advance the liner sheet a horizontal distance that will cause a soiled portion of the sheet to be removed from the bowl through the side exit aperture and be replaced with a clean portion of sheet from the supply, an opening into an enclosure beyond the exit aperture through which the soiled sheet passes for disposal or storage after being released by the conveyance apparatus, said opening may be equipped with an automatic closure to prevent the escape of odors when the sheet is not in motion, a means for exhausting air from within the bowl beneath the sheet to assist the sheet to conform to the shape of the bowl, and a cover adapted to provide for a toilet seat and further adapted to enclose, protect or support, in cooperation with other structure, the aforesaid operating components.
Further according to a preferred aspect of the present invention the said conveyance apparatus might, for example, comprise two separate but synchronised and horizontally supported belt drives, each belt transporting one edge of the sheet and each belt traversing one half of the toilet bowl rim, a series of pulleys and guides to constrain the belts to follow the prescribed path, short pins projecting at intervals from the outer surface of the belts to penetrate and hold the edge of the sheet, said pulleys and guides on the outer surface of the belt having grooves to clear the projecting pins while pressing the edges of the sheet against the belt, a
tensioning means to assist the accurate alignment of the edges of the sheet when engaging with the belt drive, brackets to support the conveyance apparatus in alignment with the toilet bowl, other transmission, linkage and controls as might ordinarily be required to propel the co' -yance apparatus by mechanical lever or electric motor and a fan or bellows as may be required to exhaust air from beneath the toilet bowl liner.
Sheet material in the form of plastic film can be made very thin, eg 10 microns thick, and still remain adequately strong and impervious to liquids. A 150 mm diameter roll of center folded, polyethylene film, 10 microns thick would hold enough material for 1500 flushes of a standard size toilet bowl. This can be compared with a maximum of 120 flushes that can normally be obtained from the specially folded tube that surrounds the bowl of a vertical tube toilet. Frequently used public toilets would be uneconomical if servicing was necessary after every 120 flushes.
Further, as may be preferred for some applications of the present invention the liner sheet could be composed of materials which are either biodegradable or are water soluble in order to aid their ultimate disposal. In this respect water soluble plastic films such as poly(ethylene oxide) have been used for some years to contain dry substances intended to be dissolved in water without the need to open the package. In a more recent development a water soluble film base has been combined with a thin layer that is nonstructural and impervious to water. This type of material could be used to contain and package moist toilet waste inside but would dissolve when the package was disposed of in the presence of water on the outside.
Alternatively, there are other materials that can be fabricated into water soluble films such as polyvinyl alcohol which according to the formulation can be made to dissolve in water only above a predetermined temperature. This type of sheet material might be employed with this invention in cooperation with a heated holding tank. Brief Description of Drawin2s
The invention will be fur' er described by way of example only, with reference to the accompanying and purely diag- :.:matic drawings, in which:
Figure 1 is a simplified perspective view showing elements of the dry toilet which illustrate the principle of the invention; Figure 2 is a front section elevation through the toilet bowl;
Figure 3 is a top view of the toilet with covers partly removed to show a liner conveyance apparatus;
Figure 4 is a section detail of part of the liner conveyance apparatus, and Figure 5 is a section detail of another part of the liner conveyance apparatus. Best Mode for Carrying Out Invention
The dry toilet shown in Figure 1 has the toilet seat 15 raised to reveal the bowl 16 which is lined with a thin sheet 17 supplied from a roll 18. The sheet 17 is folded in the center. The fold 19 is lowermost and the edges 20 of the sheet 17 are uppermost when entering the side of the
toilet bowl 16 through an entrance channel 21. At the top of the entrance channel the sheet edges 20 are separated by a conveyance apparatus which is concealed beneath the rim 22 of the bowl 16. The separated edges 20 are each conveyed halfway around opposite sides of the rim 22 to an exit channel 23. In the middle of the bowl 16 the sheet edges 20 are widely separated which unfolds the sheet 17 and allows it to cover the sides and the bottom of the bowl 16. At the top of the exit channel 23 the edges 20 of the sheet are brought close together again by the conveyance apparatus and then released. After release, the sheet 17, assisted by gravity and possibly air flow, passses through an opening 24 into an enclosed space 25 and thence into a drain 26 leading to a container 27 where processing or removal of the waste together with the soiled liner sheet can be implemented.
To contain odors, the opening 24 can be kept closed by a door 28 except when the sheet 17 is being moved to empty the bowl 16 of waste. The door 28 could have a soft sealing gasket around its perimeter which when pressed against the thin liner sheet 17 would effect an air tight closure. Alternatively the door 28 might not be necessary if the container 27 was equipped with exhaust fan ventilation to the outside air as is often done with dry toilets. Air would then be drawn through the opening 24 and into the enclosure 25 which would prevent odors from escaping. The passage of the sheet 17 through the bowl 16 is further illustrated by reference to Figure 2 which shows a section through the middle of the bowl and along the axis of the entrance channel 21 and the exit channel 23. To aid the draining of liquid wastes both the entrance channel floor 29 and the exit channel floor 30 slope downwards in the direction of the drain 26. This drainage slope prevents liquid waste from accumulating in the bottom of the bowl where it might otherwise result in splashing or where it could contaminate clean liner sheet 17 residing within the entrance channel 21. The drainage slope also allows the bowl to be easily washed and rinsed in the unlikely event that the lining sheet becomes damaged and leaks. By referring to Figure 3, the positions of entrance channel floor 29 and the exit channel floor 30 can be seen within the bowl 16. The entrance channel floor 29 need only be wide enough to clear the passage of the sheet 17 whereas the exit channel floor 30 must be wider in order to clear the passage of the soiled sheet containing solid waste. The door 28 is hinged on a shaft 31 which, as further illustrated in Figure 2, can project through the upper wall of the enclosure 25 and connect to a control arm 32. The control arm 32 can be linked to the toilet operating mechanism to open the door 28 when the toilet is being emptied.
Referring again to Figure 2, indentions 33 have been provided in the inner surface of the bowl 16 leading to exhaust holes 34 connecting through the wall of the bowl to a duct 35 wherein air pressure can be lowered by the action of a bellows or fan to cause the liner sheet material 17 to be sucked against the surface of the bowl 16. Such vacuum suction need only to be applied momentarily and would normally be relieved when the liner sheet is being conveyed through the bowl.
Also, in Figure 2 the seat 15 is shown lowered and resting on the rim 22 which has been
made integral with the cover 36 to conceal the conveyance apparatus 37 as well as other working components of the toilet.
A conveyance apparatus which could transport the sheet 17 around the perimeter of the bowl 16 will be described with reference to Figures 3, 4 and 5. Two synchronised timing belts 38 each forming a return loop are guided and driven along the perimeter of the bowl by timing belt pulleys 39. The belts are further guided on their outside surfaces by pulleys 40 with a radial groove 41 to provide clearance for the pins 42 which project from the outside surface of the belts 38 to pierce and hold the edges 20 of the sheet 17 . Two other similarly grooved pulleys 43 located at the top of the entrance channel 29 press the incoming edges 20 of the sheet onto the projecting belt pins 42. To help maintain even tension of the sheet 17 as it is being fed into the pulleys 43 a roller 49 is positioned so as to maintain alignment of the sheet edges 20 along the central axis. To control the supply tension of the sheet 17 a friction device or other mechanical braking device could be adapted to the supply roll 18 or its spindle. After being conveyed along the bowl perimeter the sheet 17 is forced off the pins 42 by the constraint of the exit channel walls 44.
Along portions of the belts 38 where there are no grooved pulleys 40 it may be desirable to provide slotted guide surfaces 45, as shown in section in Figure 4, to prevent the sheet edges 20 from being pulled off the belt pins 42. Alternatively, instead of guide surfaces additional grooved pulleys could be provided. Guide surfaces 45 and pulleys 39, 40 and 43 are supported on mounting brackets 46 which in turn are fastened to the top edge of the bowl by studs 47. The rim 22 combined with cover 36 rests on pads 48 on the upper surface of the mounting brackets 46 thus shielding the conveyance apparatus 36 from user interference and contamination.
The two belts 38 can be synchronised, for example, by linking their respective timing belt pulleys 39 located at the entrance door 21 with matching spur gears. The spur gears could be located beneath the entrance channel floor 29 and connected by shafts to the belt pulleys 39 above. By similar additional mechanical linking the conveyance apparatus, the drain area door and the air exhaust means could be made to operate automatically with the force of a foot pedal or the power of a small electric motor.