CN221235450U - Environment-friendly toilet system - Google Patents

Abstract

The utility model relates to a green environment-friendly toilet system which is characterized by comprising an inhalation device, a septic tank treatment device, a wastewater treatment device, a sterilizing device, a water storage tank, a reverse osmosis filtering device, a purifying water tank and a first reflux device, wherein the inhalation device, the septic tank treatment device, the wastewater treatment device, the sterilizing device, the water storage tank, the reverse osmosis filtering device, the purifying water tank and the first reflux device are sequentially connected in series and communicated, and a second reflux device is connected to the water storage tank in a butt joint mode. The utility model can achieve the aim of recycling water resources, which not only can avoid pouring sewage, but also can reduce the consumption of water resources, and is very green and environment-friendly; and the sewage treatment quality is very high, so that the water can be ensured to be very sanitary and safe.

Description

Environment-friendly toilet system

Technical Field

The utility model relates to the field of bathroom facilities, in particular to a toilet system.

Background

Currently, in houses with non-centralized sewage treatment, sewage is mostly collected by constructing a sewage tank beside the house. When there is excessive sewage in the sewage tank, the sewage is either landed or transferred and dumped outdoors (not all households have a seed, so that unsophisticated households mostly dump the excessive sewage outdoors). Wherein, dumping sewage to open air easily causes the influence to ecological environment, and this is very non-environmental protection. Meanwhile, most families have larger water consumption, so that larger water resources are consumed, and the resource consumption is overlarge. Therefore, it is necessary to design a green environmental protection toilet system to solve the above technical problems.

Disclosure of utility model

The utility model aims to solve the problems and the defects, and provides a green environment-friendly toilet system which can achieve the aim of recycling water resources, so that sewage pouring can be avoided, water resource consumption can be reduced, and the system is quite environment-friendly; and the sewage treatment quality is very high, so that the water can be ensured to be very sanitary and safe.

The technical scheme of the utility model is realized as follows:

The environment-friendly toilet system is characterized by comprising an inhalation device, a septic tank treatment device, a wastewater treatment device, a sterilization device, a water storage tank, a reverse osmosis filtering device, a purification water tank and a first reflux device, wherein the inhalation device, the septic tank treatment device, the wastewater treatment device, the sterilization device, the water storage tank, the reverse osmosis filtering device, the purification water tank and the first reflux device are sequentially connected in series and communicated, and a second reflux device is connected to the water storage tank in a butt joint mode.

Preferably, the green environmental protection toilet system further comprises a dewatering device, the dewatering device comprises a dry-wet separator, a water storage tank, a first sewage lifting pump, a flocculating agent adding machine, a spiral shell stacking machine and a second sewage lifting pump which are sequentially connected in series, a sludge discharge pipe and a liquid discharge pipe are respectively arranged on the septic tank treatment device, the output end of the sludge discharge pipe is in butt joint communication with the input end of the dry-wet separator, the output end of the liquid discharge pipe is in butt joint communication with the input end of the wastewater treatment device, and the output end of the second sewage lifting pump is in butt joint communication with the input port of the septic tank treatment device.

Preferably, the suction device comprises a vacuum pump, a first slag separating tank and an input pipe, wherein the output end of the input pipe is butted on the first slag separating tank, the first slag separating tank is respectively butted with a suction pipe and a discharge pipe, the vacuum pump is connected on the suction pipe in series, the discharge pipe is connected with a first control valve in series, and the output end of the discharge pipe is butted on the input end of the second sewage lifting pump.

Preferably, a sewage pipe is connected to the first slag separating tank or the input pipe in a butt joint mode, and a collecting tank is connected to the sewage pipe in series.

Preferably, the suction device further comprises a collecting basket, a collecting pipe and a second slag separating tank, wherein the input end and the output end of the collecting pipe are respectively in butt joint communication with the collecting basket and the second slag separating tank, a liquid outlet pipe is in butt joint on a liquid outlet of the second slag separating tank, the output end of the liquid outlet pipe is in butt joint on the suction pipe, the output end of the liquid outlet pipe and the vacuum pump are arranged side by side along the conveying direction of the suction pipe, and the collecting pipe and the liquid outlet pipe are respectively connected with a fourth control valve and a fifth control valve in series.

Preferably, the waste water treatment device is respectively provided with a slag discharging pipe and a drain pipe, the output end of the slag discharging pipe is connected with the input end of the second sewage lifting pump, and the sterilizing device is in butt joint communication with the output end of the drain pipe.

Preferably, the wastewater treatment device comprises at least one sedimentation tank and at least one biological aeration tank which are sequentially connected in series, wherein the sedimentation tanks are in butt joint communication with the lower ends of the biological aeration tanks and slag discharge pipes, the output ends of the liquid discharge pipes are in butt joint with the sedimentation tanks at the head ends, the water discharge pipes are in butt joint with the biological aeration tanks at the tail ends, a circulating pipe for butt joint communication is arranged between the sedimentation tanks at the head ends and the biological aeration tanks at the tail ends, and a reflux pump is connected in series on the circulating pipe.

Preferably, the green environmental protection toilet system further comprises a rainwater collecting box, wherein the rainwater collecting box is in butt joint communication with the water storage box, the rainwater collecting box is in butt joint with a rainwater collecting pipe, and the rainwater collecting pipe is connected with a third slag separating pool in series.

Preferably, the concentrated water output port of the reverse osmosis filtering device is in butt joint communication with the input end of the second sewage lifting pump.

Preferably, the first reflux device comprises a first reflux pipe and a first pressure pump, wherein the input end of the first reflux pipe is in butt joint with the purified water tank, and the first pressure pump is connected in series with the first reflux pipe; the second reflux device comprises a second reflux pipe and a second pressure pump, the input end of the second reflux pipe is in butt joint with the water storage tank, and the second pressure pump is connected in series with the second reflux pipe.

The utility model has the beneficial effects that: the environment-friendly toilet system is characterized in that the dirt is sucked through the suction device, so that the smoothness of the dirt conveying can be facilitated, and the blocking probability can be greatly reduced. The septic tank treatment device, the wastewater treatment device, the sterilization device and the reverse osmosis filtration device can respectively perform fecal treatment, wastewater treatment, sterilization treatment and reverse osmosis filtration treatment, so that the output water is clean and sanitary, the treatment quality of the sewage is high, and the water is sanitary and safe. The water storage tank has the advantages that purified water in the purified water tank can be returned to be used through the first reflux device, and water in the water storage tank can be returned to be used through the second reflux device, so that the aim of recycling water resources can be achieved, sewage pouring can be avoided, consumption of water resources can be reduced, and the water storage tank is quite green and environment-friendly. Through the setting of water storage tank to set up the second reflux unit on the water storage tank, not only can be used for storing not by reverse osmosis filterable water, can also do benefit to reverse osmosis filtration process very steadily and go on, and can be convenient for select the water of using different cleanliness factor according to different service environment, thereby can do benefit to the consumptive material that reduces sewage treatment, and then can do benefit to control use cost.

Drawings

Fig. 1 is a schematic structural view of the environment-friendly toilet system of the present utility model.

Fig. 2 is a schematic structural view of an inhalation device according to the present utility model.

FIG. 3 is a schematic view of a septic tank treatment apparatus according to the present utility model.

Fig. 4 is a schematic structural view of a dehydration apparatus according to the present utility model.

FIG. 5 is a schematic diagram of a wastewater treatment apparatus according to the present utility model.

Fig. 6 is a schematic structural view of the present utility model in a use state.

Description of the embodiments

As shown in fig. 1, the environment-friendly toilet system comprises an inhalation device 1, a septic tank treatment device 2, a wastewater treatment device 3, a sterilization device 4, a water storage tank 5, a reverse osmosis filtration device 6, a purification water tank 7 and a first reflux device 8, wherein the inhalation device 1, the septic tank treatment device 2, the wastewater treatment device 3, the sterilization device 4, the water storage tank 5, the reverse osmosis filtration device 6, the purification water tank 7 and the first reflux device 8 are sequentially connected in series and communicated, and a second reflux device 9 is connected to the water storage tank 5 in a butt joint mode.

In the environment-friendly toilet system, the sewage is sucked through the suction device 1, which is beneficial to the smoothness of sewage conveying, so that the blocking probability can be greatly reduced. The septic tank treatment device 2, the wastewater treatment device 3, the sterilization device 4 and the reverse osmosis filtration device 6 can respectively perform septic treatment, wastewater treatment, sterilization treatment and reverse osmosis filtration treatment, so that the output water is clean and sanitary, the treatment quality of the wastewater is high, and the water is sanitary and safe. The first reflux device 8 can send the purified water in the purified water tank 7 back to be used, and the second reflux device 9 can send the water in the water storage tank 5 back to be used, so that the aim of recycling water resources can be achieved, sewage pouring can be avoided, consumption of water resources can be reduced, and the water storage tank is quite green and environment-friendly. Through the setting of water storage tank 5 to set up second reflux unit 9 on water storage tank 5, not only can be used for storing not by reverse osmosis filterable water, can also do benefit to reverse osmosis filtration process very steadily, and can be convenient for select the water of using different cleanliness factor according to different service environment, thereby can do benefit to the consumptive material that reduces sewage treatment, and then can do benefit to control use cost.

As shown in fig. 6, the output end of the first reflux device 8 is connected with a wash basin 100, a water heater 200, a washing machine (not shown in the figure), etc., and the output end of the second reflux device 9 is connected with a urinal 300, a water tank of a toilet 400, a water tank of a squatting pan, etc. Therefore, water with different cleanliness can be conveyed to different use environments, so that the safety of water can be guaranteed, the consumption of sewage treatment can be reduced, and the use cost can be controlled.

As shown in fig. 1, 3 and 4, the green environmental protection toilet system further comprises a dewatering device 10, the dewatering device 10 comprises a dry-wet separator 101, a water storage tank 102, a first sewage lifting pump 103, a flocculating agent adding machine 104, a spiral shell stacking machine 105 and a second sewage lifting pump 106 which are sequentially connected in series, the septic tank treatment device 2 is respectively provided with a sludge discharge pipe 21 and a liquid discharge pipe 22, the output end of the sludge discharge pipe 21 is in butt joint communication with the input end of the dry-wet separator 101, the output end of the liquid discharge pipe 22 is in butt joint communication with the input end of the wastewater treatment device 3, and the output end of the second sewage lifting pump 106 is in butt joint communication with the input port of the septic tank treatment device 2. Thus, the purposes of treating sludge and recycling liquid can be achieved, and the subsequent treatment and utilization can be facilitated, which is helpful for further improving the applicability of the green environment-friendly toilet system.

As shown in fig. 4, the input end of the second sewage lifting pump 106 is connected with the water outlet of the spiral shell stacking machine 105, so that the effect of recycling sewage can be satisfied.

As shown in fig. 3, the drain pipe 22 is connected with a water inlet pump 221 in series, so that sewage can be stably supplied to the sewage treatment apparatus 3, and the sewage treatment stability can be ensured.

As shown in fig. 3, the septic tank treatment device 2 adopts the existing septic tank treatment device, on which a primary anaerobic treatment tank 23, a secondary septic tank 24, a tertiary clarifying treatment tank 25 and an adjusting tank 26 are sequentially arranged, the bottoms of the primary anaerobic treatment tank 23, the secondary septic tank 24, the tertiary clarifying treatment tank 25 and the adjusting tank 26 are all in butt joint with a sludge discharge pipe 21, the discharge pipe 22 is in butt joint with the adjusting tank 26, and the adjusting tank 26 is used for temporarily storing sewage and adjusting the output of the sewage, so that the requirements of practical use can be well met.

As shown in fig. 1 and 2, the suction device 1 includes a vacuum pump 11, a first slag separation tank 12, and an input pipe 13, wherein an output end of the input pipe 13 is abutted to the first slag separation tank 12, a suction pipe 121 and a discharge pipe 122 are respectively abutted to the first slag separation tank 12, the vacuum pump 11 is connected to the suction pipe 121 in series, a first control valve 123 is connected to the discharge pipe 122 in series, and an output end of the discharge pipe 122 is abutted to an input end of the second sewage lift pump 106. The suction device 1 is very simple and reliable, can be conveniently manufactured, can realize separate conveying of slag and sewage, and can ensure that the conveying of the slag and the sewage is very stable and smooth, thereby being beneficial to controlling the solid-liquid ratio of the subsequent septic tank treatment, further being beneficial to improving the quality of the septic tank treatment, and being beneficial to further improving the reliability and the applicability of the green environmental-friendly toilet system.

As shown in fig. 6, the input end of the input pipe 13 is abutted on the toilet 400. When a plurality of closestools 400 are arranged, the output end of each closestool 400 is in butt joint communication with the input end of the input pipe 13, so that the purposes of centralized collection and treatment can be achieved, and the requirements of actual use can be well met.

As shown in fig. 2, a second control valve 124 is connected in series to the suction pipe 121 between the first slag bath 12 and the vacuum pump 11, which can facilitate opening of the suction pipe 121 as needed. When the pipeline of the closestool is not required to be dredged, the pipeline can be closed, so that the amount of dirt entering the suction pipe 121 is reduced, the suction of the vacuum pump 11 can be facilitated when the vacuum pump works, and the purpose of dredging the pipeline of the closestool can be conveniently and rapidly realized.

As shown in fig. 2, the first slag separation tank 12 or the input pipe 13 is connected with a sewage pipe 131 in a butt joint manner, and the sewage pipe 131 is connected with a collecting tank 132 in series. Through the arrangement of the sewage pipe 131 and the collecting tank 132, the purposes of collecting other domestic sewage and buffering can be achieved, so that the reliability and the applicability of the environment-friendly toilet system can be further improved.

As shown in fig. 6, when facilities for discharging sewage exist in the house 500, such as the wash basin 100, the floor drain 600, the urinal 300, etc., the input end of the sewage pipe 131 is respectively in butt-joint communication with the sewage outlets of the facilities, such as the wash basin 100, the floor drain 600, the urinal 300, etc., so that the purpose of collecting sewage in a concentrated manner can be achieved, and thus, the demands of actual use can be well satisfied.

As shown in fig. 2, the sewage pipe 131 is connected in series with a third control valve 133, and the third control valve 133 and the collecting tank 132 are sequentially arranged along the conveying direction of the sewage pipe 131. This can facilitate temporary closing of the sewer pipe 131, thereby facilitating cleaning of the collecting reservoir 132.

As shown in fig. 2, the inhalation device 1 further comprises a collecting basket 14, a collecting pipe 15, and a second slag separating tank 16, wherein the input end and the output end of the collecting pipe 15 are respectively in butt joint communication with the collecting basket 14 and the second slag separating tank 16, a liquid outlet pipe 17 is in butt joint with a liquid outlet port of the second slag separating tank 16, the output end of the liquid outlet pipe 17 is in butt joint with the suction pipe 121, the output end of the liquid outlet pipe 17 and the vacuum pump 11 are arranged side by side along the conveying direction of the suction pipe 121, and the collecting pipe 15 and the liquid outlet pipe 17 are respectively connected with a fourth control valve 151 and a fifth control valve 171 in series. Thus, the paper scraps (such as paper scraps generated in toilet and sundries) can be conveniently collected, the convenience and the sanitation of collection can be improved, and the applicability of the environment-friendly toilet system can be further improved.

As shown in fig. 2, during actual manufacturing, a plurality of collection baskets 14 may be provided, with collection tubes 15 being docked to each collection basket 14, and fourth control valve 151 being connected in series to each collection tube 15. In this way, the collection baskets 14 are respectively arranged in different areas to collect paper scraps and sundries at different positions, so that the applicability is further improved.

As shown in fig. 1 and 5, the waste water treatment device 3 is provided with a slag discharging pipe 31 and a drain pipe 32, the output end of the slag discharging pipe 31 is connected with the input end of the second sewage lifting pump 106, and the sterilizing device 4 is in butt joint communication with the output end of the drain pipe 32. This enables recycling of the precipitate by means of the slag discharge pipe 31, thereby contributing to an improvement in the quality of wastewater treatment.

As shown in fig. 1 and 5, the wastewater treatment device 3 includes at least one sedimentation tank 33 and at least one biological aeration tank 34 connected in series, each sedimentation tank 33 is connected with the lower end of each biological aeration tank 34 in a butt joint manner with a slag discharge pipe 31, the output end of the liquid discharge pipe 22 is connected with the sedimentation tank 33 at the head end in a butt joint manner, the water discharge pipe 32 is connected with the biological aeration tank 34 at the tail end in a butt joint manner, a circulating pipe 35 for butt joint connection is arranged between the sedimentation tank 33 at the head end and the biological aeration tank 34 at the tail end, and a reflux pump 36 is connected with the circulating pipe 35 in a series manner. Such a wastewater treatment apparatus 3 can achieve a very high wastewater treatment quality, and it can also achieve a cyclic treatment, which can further improve the wastewater treatment quality.

As shown in FIG. 5, each sedimentation tank 33 is connected to the same exhaust pipe 37 as each biological aeration tank 34, and each biological aeration tank 34 shares an oxygen increasing pump 38. Thus, the purposes of centralized wastewater discharge and manufacturing cost reduction can be facilitated, and the safety performance and the use cost can be improved.

As shown in fig. 1, a lift pump 39 is connected in series with the drain pipe 32. The purpose of controlling flow and flow rate can be achieved so that water can pass through the sterilization device 4 at a very proper speed, thereby being convenient for ensuring sufficient sterilization and further being convenient for improving sterilization quality.

The sterilization device 4 adopts an ultraviolet sterilizer, so that the sterilization effect can be well satisfied.

As shown in fig. 1, the environment-friendly toilet system further comprises a rainwater collecting tank 20, the rainwater collecting tank 20 is in butt joint communication with the water storage tank 5, a rainwater collecting pipe 201 is in butt joint with the rainwater collecting tank 20, and a third slag separating tank 30 is connected with the rainwater collecting pipe 201 in series. Thus, the treated sewage and rainwater can be recycled conveniently, so that the recycling can be realized, and the resource waste is avoided.

As shown in fig. 1, the water storage tank 5 is provided with an overflow pipe 51. Thus, the water can be conveniently overflowed, and the normal use requirement can be better met.

As shown in fig. 6, in actual use, a collecting tank 501 is provided on the eave of the house 500, and the input end of the rainwater collecting pipe 201 is abutted against the collecting tank 501. Thus, the rainwater can be accurately and stably collected, and the rainwater can be stably collected.

As shown in fig. 1, the concentrated water outlet of the reverse osmosis filtering device 6 is in butt-joint communication with the input end of the second sewage lifting pump 106. Therefore, the purpose of circularly treating sewage can be achieved, and the sewage is not required to be discharged, so that the environment protection performance is further improved.

As shown in fig. 1, the second sewage lift pump 106 has a plurality of input ports, and the liquid outlet end of the spiral shell stacking machine 105, the concentrated water output port of the reverse osmosis filter device 6, the output end of the slag discharging pipe 31, and the output end of the discharge pipe 122 are respectively in butt joint with different input ports of the second sewage lift pump 106. Therefore, the practical use requirement can be better met, and the recycling and utilizing can be more accurately and stably realized.

As shown in fig. 1, the first reflux device 8 comprises a first reflux pipe 81 and a first pressure pump 82, wherein the input end of the first reflux pipe 81 is in butt joint with the purified water tank 7, and the first pressure pump 82 is connected in series with the first reflux pipe 81; the second reflux device 9 comprises a second reflux pipe 91 and a second pressure pump 92, wherein the input end of the second reflux pipe 91 is in butt joint with the water storage tank 5, and the second pressure pump 92 is connected in series with the second reflux pipe 91. Such a first return means 8 and a second return means 9 are very simple and reliable, which not only facilitates manufacturing but also ensures a very stable operation of the green toilet system.

As shown in fig. 6, the output end of the first return pipe 81 is connected to the wash basin 100, the water heater 200, and the washing machine, and the output end of the second return pipe 91 is connected to the water inlet end of the urinal 300, the water tank of the toilet 400, or the water inlet end of the squatting pan water tank, which can use the recovered water to flush the toilet; thus, the aim of reutilizing water resources can be fulfilled.

The control valve and the switch valve in the green toilet system are all electromagnetic valves, and the master control circuit is arranged for centralized control and coordination of the work of all electric elements in the green toilet system, so that the requirement of automatic treatment can be met, and the flushing key is arranged for starting vacuum to suck dirt, so that the convenience of use can be greatly improved.

As shown in fig. 1 and fig. 4, when the dewatering device 10 receives the sludge output by the septic tank treatment device 2, dry-wet separation is performed by using a dry-wet separator 101, impurities and sludge are separated from sewage and impurity sludge by the dry-wet separator 101, and the extruded excessive sludge and excrement are specially provided with a sludge and excrement collecting port for collection; the squeezed surplus sewage flows into the water storage tank 102 for storage, the sewage in the water storage tank 102 is sequentially lifted to the flocculant adding machine 104 and the spiral shell stacking machine 105 through the first sewage lifting pump 103 so as to be treated by the flocculant medicine and treated by the spiral shell stacking machine 105, the treated water is lifted and discharged into the septic tank treatment device 2 through the second sewage lifting pump 106 again, the sewage discharged from the septic tank treatment device 2 is pumped and discharged into the wastewater treatment device 3 through the water inlet pump 221 for biological module treatment, and the sewage and the precipitated sewage of the wastewater treatment device 3 can be discharged into the septic tank treatment device 2 through the second sewage lifting pump 106. Thus, a sewage and sewage circulating treatment system is formed, and the sewage treatment quality can be ensured to be very high.

The green environmental protection toilet system can be applied to public toilets, and can form a multifunctional toilet with a closed water circuit. This can make the lavatory be equipped with a complete sewage, debris processing system. The treatment system saves energy sources for ecological environmental protection and fully utilizes water resources; and the excrement is systematically treated in a physical circulation mode, so that the method is environment-friendly, pollution-free and free of secondary pollution. The water is recycled after being treated, so that the toilet can be absolutely saved in water, can be fixedly installed, is beneficial to movement, has complete functions and good applicability, only needs to be connected with electricity, does not need to be connected with water, and can meet the actual use requirement.

The components of the green environmental-friendly toilet system can be integrated on a mobile toilet, so that the integrated installation is convenient, the mobile toilet is movable, the installation is quick, the land index is not occupied, the environment-friendly toilet system is harmless and pollution-free, a pipe network is not required, a septic tank is not required to be pre-buried, sewage is treated on site to recycled flushing water, and a multifunctional toilet with a closed water circuit is formed, so that the energy is saved, and the water resource is fully utilized. The water for washing hands and flushing toilet and urine are purified to be water and recycled. The waste paper and sundries can be subjected to physical treatment in a concentrated way, so that zero discharge of the dirt is realized. And the solid dirt is pumped in vacuum, so that the blockage is prevented. And (3) separating solid and liquid of sewage and sewage sludge.

The first, second, third and collection hold-off tanks 12, 16, 30, 132 are closed box structures. At ordinary times, under the condition of no blockage, the sewage of the wash basin 100 and the urinal 300 can be utilized to dredge and flush the excrement pipeline. When the toilet is blocked, the third control valve 133 is closed, the second control valve 124 is opened, the vacuum pump 11 is started, and the toilet pipe blockage is pumped into the septic tank treatment apparatus 2.

As shown in fig. 6, the wash basin 100, the floor drain 600 and the urinal 300 are discharged, the third control valve 133 is opened, sewage flows into the collecting tank 132, and the sewage dredges the flushing fecal pipeline to realize the emptying function by means of gravity. The excrement of the toilet 400 enters the first slag separation tank 12 to separate sewage from impurities. The first control valve 123 is opened to discharge impurities into the second sewage lifting pump 106 so as to crush all the impurities into particles and discharge the particles into the septic tank treatment device 2, the sewage side is pumped and discharged into the septic tank treatment device 2 through the vacuum pump 11, the impurities in the septic tank of each stage can be independently pumped and discharged into the dry-wet separator 101 for dry-wet separation, the impurities and the silt are separated by the dry-wet separator, and the extruded redundant silt and the excrement are specially provided with a silt and excrement collecting port for collection; the excess sewage squeezed out flows into the water storage tank 102 for storage; the sewage in the water storage tank 102 is sequentially lifted to the flocculant adding machine 104 and the spiral shell stacking machine 105 by the first sewage lifting pump 103 so as to be treated by the flocculant and treated by the spiral shell stacking machine 105, the treated water is lifted and discharged to the septic tank treatment device 2 by the second sewage lifting pump 106 again, the sewage discharged by the septic tank treatment device 2 is pumped and discharged to the wastewater treatment device 3 by the water inlet pump 221 for biological module treatment, and the sewage and the precipitated sewage of the wastewater treatment device 3 can be discharged to the septic tank treatment device 2 by the second sewage lifting pump 106. Thus, a sewage and sewage circulating treatment system is formed.

The sewage treated by the wastewater treatment device 3 flows into the sterilization device 4 for sterilization and then flows into the water storage tank 5, the water in the water storage tank 5 is not treated by the reverse osmosis filtering device 6 and can be used for flushing the urinal 300 and the toilet 400, and the water treated by the reverse osmosis filtering device 6 is stored in the purified water tank 7 for washing hands, bathing, washing clothes and the like.

The environment-friendly toilet system is an environment-friendly ecological toilet, which saves energy and fully utilizes water resources; the waste paper and sundries can be subjected to physical treatment in a concentrated way, so that zero discharge of the dirt is realized.

Claims (10)

1. The utility model provides a green toilet system which characterized in that: including inhalation device (1), septic tank processing apparatus (2), effluent treatment plant (3), sterilizing equipment (4), water storage tank (5), reverse osmosis filter equipment (6), clean water tank (7), first reflux unit (8), inhalation device (1), septic tank processing apparatus (2), effluent treatment plant (3), sterilizing equipment (4), water storage tank (5), reverse osmosis filter equipment (6), clean water tank (7), first reflux unit (8) concatenate the intercommunication in proper order, the butt joint has second reflux unit (9) on water storage tank (5).

2. The green environmental protection toilet system according to claim 1, wherein: still include dewatering device (10), dewatering device (10) are including concatenating dry and wet separating centrifuge (101), water storage tank (102), first sewage elevator pump (103), flocculating agent adding machine (104), fold spiral shell machine (105), second sewage elevator pump (106) together in proper order, be provided with on septic tank processing apparatus (2) respectively and arrange silt pipe (21), fluid-discharge tube (22), the output of silt pipe (21) is with the input butt joint intercommunication of dry and wet separating centrifuge (101), the output of fluid-discharge tube (22) is with the input butt joint intercommunication of effluent treatment plant (3), the output of second sewage elevator pump (106) is with the input butt joint intercommunication of septic tank processing apparatus (2).

3. The green environmental protection toilet system according to claim 2, characterized in that: the suction device (1) comprises a vacuum pump (11), a first slag separating tank (12) and an input pipe (13), wherein the output end of the input pipe (13) is in butt joint with the first slag separating tank (12), a suction pipe (121) and a discharge pipe (122) are respectively in butt joint with the first slag separating tank (12), the vacuum pump (11) is connected with the suction pipe (121) in series, a first control valve (123) is connected with the discharge pipe (122) in series, and the output end of the discharge pipe (122) is in butt joint with the input end of a second sewage lifting pump (106).

4. The environmentally friendly toilet system according to claim 3, wherein: the first slag separation tank (12) or the input pipe (13) is in butt joint with a sewage pipe (131), and the sewage pipe (131) is connected with a collecting tank (132) in series.

5. The environmentally friendly toilet system according to claim 3, wherein: the suction device (1) further comprises a collecting basket (14), a collecting pipe (15) and a second slag separating tank (16), wherein the input end and the output end of the collecting pipe (15) are respectively in butt joint communication with the collecting basket (14) and the second slag separating tank (16), a liquid outlet pipe (17) is in butt joint connection with a liquid outlet port of the second slag separating tank (16), the output end of the liquid outlet pipe (17) is in butt joint connection with a suction pipe (121), the output end of the liquid outlet pipe (17) and a vacuum pump (11) are arranged side by side along the conveying direction of the suction pipe (121), and a fourth control valve (151) and a fifth control valve (171) are respectively connected in series on the collecting pipe (15) and the liquid outlet pipe (17).

6. The green environmental protection toilet system according to claim 2, characterized in that: the waste water treatment device (3) is respectively provided with a slag discharging pipe (31) and a drain pipe (32), the output end of the slag discharging pipe (31) is connected with the input end of the second sewage lifting pump (106), and the sterilizing device (4) is in butt joint communication with the output end of the drain pipe (32).

7. The environmentally friendly toilet system according to claim 6, wherein: the wastewater treatment device (3) comprises at least one sedimentation tank (33) and at least one biological aeration tank (34) which are sequentially connected in series, wherein the sedimentation tanks (33) are in butt joint communication with the lower ends of the biological aeration tanks (34) and the slag discharging pipes (31), the output ends of the liquid discharging pipes (22) are in butt joint with the sedimentation tanks (33) at the head ends, the drain pipes (32) are in butt joint with the biological aeration tanks (34) at the tail ends, a circulating pipe (35) for butt joint communication is arranged between the sedimentation tanks (33) at the head ends and the biological aeration tanks (34) at the tail ends, and a reflux pump (36) is connected in series on the circulating pipe (35).

8. The green environmental protection toilet system according to any one of claims 1 to 7, wherein: the rainwater collecting tank (20) is in butt joint communication with the water storage tank (5), a rainwater collecting pipe (201) is in butt joint on the rainwater collecting tank (20), and a third slag separating tank (30) is connected on the rainwater collecting pipe (201) in series.

9. The green environmental protection toilet system according to claim 2, characterized in that: the concentrated water output port of the reverse osmosis filter device (6) is in butt joint communication with the input end of the second sewage lifting pump (106).

10. The green environmental protection toilet system according to claim 1, wherein: the first reflux device (8) comprises a first reflux pipe (81) and a first pressure pump (82), wherein the input end of the first reflux pipe (81) is in butt joint with the purified water tank (7), and the first pressure pump (82) is connected in series with the first reflux pipe (81); the second reflux device (9) comprises a second reflux pipe (91) and a second pressure pump (92), the input end of the second reflux pipe (91) is in butt joint with the water storage tank (5), and the second pressure pump (92) is connected in series with the second reflux pipe (91).