CN108862917B

CN108862917B - Environment-friendly domestic sewage power generation device

Info

Publication number: CN108862917B
Application number: CN201810802958.0A
Authority: CN
Inventors: 章彩云; 杨启荣
Original assignee: Individual
Current assignee: Zhang Caiyun
Priority date: 2018-07-20
Filing date: 2018-07-20
Publication date: 2021-07-30
Anticipated expiration: 2038-07-20
Also published as: CN108862917A

Abstract

The invention relates to an environment-friendly device, in particular to an environment-friendly domestic sewage power generation device which comprises a box body, a closestool, a solid-liquid separation box, a filter box, an aeration storage box, a water pipe, a turbine, a settling tank, a pump water tank and a power generation box, can solve the problem that the common domestic sewage discharge is collected to a sewage plant through a pipeline in a centralized way and then is degraded and discharged, and the waste of water resources is caused because the domestic sewage discharge can not be reused, and sewage treatment degradation discharge not up to standard can cause the problem of pollution to groundwater and ecological environment, the upper end of solid-liquid separation case is provided with separator box telescopic link, separator box slide, scraping wings, rack support arm, separator box spring, spring base, separator box spout, rack, sector gear, separator box motor, separator box belt, separator box pan feeding mouth, separator box filter, drier export, separator box limit base, liquid discharge gate.

Description

Environment-friendly domestic sewage power generation device

Technical Field

The invention relates to an environment-friendly device, in particular to an environment-friendly domestic sewage power generation device.

Background

The sewage discharge in urban life is very many, and general domestic sewage discharge concentrates through the pipeline and collects the sewage factory then degradation discharge, can not recycle and has caused the waste of water resource, and sewage treatment degradation discharge not up to standard can cause the pollution to groundwater and ecological environment moreover.

Disclosure of Invention

The invention relates to an environment-friendly device, in particular to an environment-friendly domestic sewage power generation device. The sewage treatment system can solve the problems that the common domestic sewage discharge is concentrated to be collected to a sewage plant through a pipeline and then is degraded and discharged, the waste of water resources is caused due to the fact that the sewage is not recycled, and the pollution is caused to underground water and the ecological environment due to the fact that the sewage treatment degradation does not reach the discharge standard.

The invention relates to an environment-friendly device, in particular to an environment-friendly domestic sewage power generation device which comprises a box body, a closestool, a solid-liquid separation box, a filter box, an aeration storage box, a water pipe, a turbine, a settling tank, a pump water tank and a power generation box and can solve the problems that the common domestic sewage discharge is collected to a sewage plant through a pipeline in a centralized manner and then degraded and discharged, the water resource waste is caused because the sewage discharge cannot be reused, and the pollution is caused to underground water and the ecological environment because the sewage treatment degradation discharge does not reach the standard.

The upper end of the solid-liquid separation box is provided with a separation box telescopic rod, a separation box slide way, a material pushing plate, a rack support arm, a separation box spring, a spring base, a separation box slide groove, a rack, a sector gear, a separation box motor, a separation box belt, a separation box feed inlet, a separation box filter plate, a dry material outlet, a separation box limiting base and a liquid discharge outlet, the separation box slide way is arranged inside the separation box telescopic rod, the material pushing plate slides on the upper end of the separation box slide way, the separation box telescopic rod is welded inside the solid-liquid separation box, the material pushing plate is welded on the upper end of the separation box telescopic rod, the rack support arm is welded on the lower end of the separation box telescopic rod, the spring base is welded on the upper end of the spring base, the spring base is welded inside the solid-liquid separation box, the rack is welded on the lower end of the rack support arm, the separation box slide groove is welded inside the solid-liquid separation box, the inside slip of separator box spout has the rack, the inside rotation of separator box has fan-shaped gear, the inside of separator box is fixed with the separator box motor, the upper end of separator box motor is provided with the belt pulley, the upper end of separator box motor belt pulley is provided with the separator box belt, the upper end of fan-shaped gear is provided with the separator box belt, the upper end welding of separator box has the separator box pan feeding mouth, the inside welding of separator box has the separator box filter, the upper end slip of separator box filter has the scraping wings, the right-hand member welding of separator box has the drier export, the inside welding of separator box has the spacing base of separator box.

The upper end of the filter box is provided with a filter box feeding port, a filter box waterproof cover, a filter box motor base, a filter box motor, a filter box rotating shaft, a filter barrel hole, a mud pushing plate supporting column, a mud pushing plate, a mud scraping brush, a filter box filter plate, a sludge outlet, a limiting plate, a conical plug, a filter box telescopic rod and a filter box spring, the upper end of the filter box is welded with the filter box feeding port, the inside of the filter box is welded with the filter box waterproof cover, the inside of the filter box is welded with the filter box motor base, the upper end of the filter box motor base is fixed with the filter box motor, the upper end of the filter box motor is connected with the filter box rotating shaft, the upper end of the filter box rotating shaft is welded with the filter barrel, the upper end of the filter barrel is provided with the filter barrel hole, the upper end of the filter box rotating shaft is welded with the mud pushing plate supporting column, the upper end of the mud pushing plate supporting column is welded with the mud pushing plate, the lower end of the mud scraping brush is welded with the filter box rotating shaft, the inside welding of rose box has the rose box filter, the upper end of rose box filter rotates there is the rose box axis of rotation, the bottom welding of rose box has the silt export, the upper end welding of rose box filter has the limiting plate, the upper end of limiting plate is provided with the bell jar, the inside slip of limiting plate bell jar has the toper stopper, the inside welding of rose box has the rose box telescopic link, the lower extreme welding of toper stopper has the rose box telescopic link, the upper end of rose box telescopic link is provided with the rose box spring.

The upper end that the case was deposited in the aeration is provided with gaseous inlet, deposit case motor base, deposit the case motor, deposit the case axis of rotation, the fan, deposit case rotation roller, the switch plate, the mixing agent entry, deposit the case pan feeding mouth, deposit the case discharge gate, the inside welding that the case was deposited in the aeration has gaseous inlet, the inside welding that the case was deposited in the aeration has deposits case motor base, the upper end of depositing case motor base is fixed with deposits the case motor, the upper end of depositing the case motor is connected with deposits the case axis of rotation, the upper end key-type of depositing the case axis of rotation is connected with the fan, the inside of depositing the case is deposited in the aeration rotates and deposits case rotation roller, the upper end welding of depositing case rotation roller has the switch plate, the upper end welding that the case was deposited in the aeration has the mixing agent entry, the right-hand member welding that the case was deposited in the aeration has deposits the case pan feeding mouth, the right-hand member welding of aeration deposits the case has and deposits the case discharge gate.

The upper end of the settling tank is provided with a settling tank feeding port, a waste residue outlet, a first limiting plate, a first filter screen, a first discharge port, a second settling tank, a second limiting plate, a second filter screen, a second discharge port, a third settling tank, a discharge controller, a discharge baffle, a floating ball hinged arm, a floating ball and a settling tank discharge port, the upper end of the settling tank is welded with the settling tank feeding port, the left end of the settling tank is welded with the waste residue outlet, the settling tank is welded with the first limiting plate, the upper end of the first limiting plate is fixed with the first filter screen, the upper end of the first filter screen is fixed with the first discharge port, the settling tank is welded with the second settling tank, the upper end of the first discharge port is connected with the second settling tank, the second limiting plate is welded inside the second settling tank, the upper end of the second limiting plate is fixed with the second filter screen, and the upper end of the second filter screen is fixed with the second filter screen, the upper end of second filter screen is fixed with the second discharge gate, the inside of setting tank is provided with the third setting tank, the upper end of second discharge gate is connected with the third setting tank, the internal weld of third setting tank has discharge controller, discharge controller's inside slides and has ejection of compact baffle, discharge controller's upper end articulates there is the floater articulated arm, discharge baffle's upper end articulates there is the floater articulated arm, the left end welding of floater articulated arm has the floater, discharge controller's upper end welding has the setting tank discharge gate.

The upper end of the pump water tank is provided with a pump water tank rotating wheel, a pump water tank hinged arm, a water pumping barrel supporting arm, a water pumping barrel limiting block, a hinged disc, a piston, a water inlet valve and a water outlet valve, the pump water tank rotating wheel is rotated inside the pump water tank, the pump water tank hinged arm is hinged to the upper end of the pump water tank, the water pumping barrel is welded inside the pump water tank, the water pumping barrel limiting block is arranged at the upper end of the water pumping barrel limiting block and is provided with a hole, the water pumping barrel supporting arm slides inside the hole of the water pumping barrel limiting block, the hinged disc is hinged to the upper end of the water pumping barrel supporting arm, the piston is welded at the lower end of the hinged disc, the piston slides inside the water pumping barrel and is provided with the piston, the water inlet valve is welded at the left end of the water pumping barrel, and the water outlet valve is welded at the lower end of the water inlet valve.

The upper end of power generation box is provided with the power generation box water inlet, the water spray ring, the gear pedestal, the gear wheel, the pinion, the ring gear, the breakwater, the spacing base of power generation box, the power generation box delivery port, the upper end welding of power generation box has the power generation box water inlet, the inside welding of power generation box has the water spray ring, the upper end welding of water spray ring has the power generation box water inlet, the inside welding of power generation box has the gear pedestal, the upper end rotation of gear pedestal has the gear wheel, the upper end rotation of gear pedestal has the pinion, pinion and gear wheel meshing, the outer end meshing of pinion has the ring gear, the upper end welding of ring gear has the breakwater, the inside welding of power generation box has the spacing base of power generation box, the bottom welding of power generation box has the power generation box delivery port.

The upper end welding of box has the closestool, the inside welding of box has the solid-liquid separation case, the upper end of separator pan feeding mouth is connected with the closestool, the inside welding of box has the rose box, the upper end of rose box pan feeding mouth is connected with the liquid discharge gate, the inside welding of box has the aeration and deposits the case, the lower extreme welding of rose box has the water pipe, the inside welding of box has the turbine, the upper end of turbine is connected with the water pipe, the inside welding of box has the setting tank, the upper end of setting tank pan feeding mouth is connected with deposits the case pan feeding mouth, the inside welding of box has the pump water tank, the upper end of water intaking valve is connected with deposits the case discharge gate, the inside welding of box has the power generation case, the upper end of power generation case water inlet is connected with the outlet valve.

As a further optimization of the technical scheme, the number of the mud pushing plate supporting columns and the number of the mud pushing plates of the environment-friendly domestic sewage power generation device are eight.

As a further optimization of the technical scheme, the support column of the mud pushing plate and the mud pushing plate of the environment-friendly domestic sewage power generation device share the same center line.

As further optimization of the technical scheme, the box body, the closestool, the solid-liquid separation box, the filter box, the aeration storage box, the water pipe, the settling tank, the pump water tank and the power generation box of the environment-friendly domestic sewage power generation device are made of stainless steel.

As a further optimization of the technical scheme, the rotating roller of the storage box of the environment-friendly domestic sewage power generation device is provided with a matched motor.

As a further optimization of the technical scheme, the upper end of the large gear of the environment-friendly domestic sewage power generation device is connected with a power generation motor.

The environment-friendly domestic sewage power generation device has the beneficial effects that:

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of the overall structure of an environment-friendly domestic sewage power generation device according to the present invention.

FIG. 2 is a schematic structural diagram of a solid-liquid separation tank of the environmental-friendly domestic sewage power generation device.

Fig. 3 is a schematic structural diagram of a filter box of the environmental-friendly domestic sewage power generation device.

FIG. 4 is a schematic structural view of an aeration storage tank of an environmental-friendly domestic sewage power generation device according to the present invention.

FIG. 5 is a schematic structural view of a conveying box of an environmental-friendly domestic sewage power generation device according to the present invention.

FIG. 6 is a schematic structural diagram of a settling tank of the environmental-friendly domestic sewage power generation device.

FIG. 7 is a schematic structural diagram of a discharge controller of an environmental-friendly domestic sewage power generation device according to the present invention.

FIG. 8 is a schematic structural view of a pump tank of an environmental-friendly domestic sewage power generation device according to the present invention.

FIG. 9 is a schematic diagram of a power generation box of the environmental-friendly domestic sewage power generation device.

Fig. 10 is a schematic structural view of a gear base of an environmental-friendly domestic sewage power generation device according to the present invention.

In the figure: a box body 1; a toilet bowl 2; a solid-liquid separation tank 3; a separation box telescopic rod 3-1; a separator box chute 3-2; 3-3 of a material pushing plate; a rack support arm 3-4; 3-5 parts of a separating box spring; 3-6 parts of a spring base; 3-7 separating box chutes; 3-8 of racks; 3-9 parts of sector gear; 3-10 parts of a separation box motor; 3-11 parts of a separating box belt; a separating box feed inlet 3-12; 3-13 parts of a filter plate of the separation box; a dry material outlet 3-14; 3-15 parts of a separation box limiting base; 3-16 parts of a liquid discharge port; a filter tank 4; a feed inlet 4-1 of the filter box; 4-2 of a waterproof cover of the filter box; a filter box motor base 4-3; 4-4 parts of a filter box motor; 4-5 parts of a filter box rotating shaft; 4-6 parts of a filter vat; 4-7 parts of a filtering barrel hole; 4-8 of a mud jacking plate support column; 4-9 parts of a mud pushing plate; 4-10 of a mud scraping brush; 4-11 parts of filter plates of the filter box; 4-12 of a sludge outlet; 4-13 parts of a limiting plate; 4-14 of a conical plug; 4-15 parts of telescopic rods of the filter box; 4-16 parts of a filter box spring; an aeration storage tank 5; a gas inlet 5-1; a storage box motor base 5-2; a storage box motor 5-3; 5-4 parts of a rotating shaft of the storage box; 5-5 of a fan; the storage box rotates the rollers 5-6; 5-7 of a kick-out plate; 5-8 parts of a mixing agent inlet; a material inlet of the storage box is 5-9; 5-10 parts of a discharge port of the storage box; a water pipe 6; a turbine 7; a settling tank 8; a material inlet 8-1 of the settling tank; a waste residue outlet 8-2; a first limiting plate 8-3; a first filter screen 8-4; 8-5 of a first discharge port; a second settling tank 8-6; a second limiting plate 8-7; 8-8 parts of a second filter screen; 8-9 parts of a second discharge hole; 8-10 parts of a third settling tank; 8-11 parts of a discharge controller; 8-12 parts of a discharge baffle; a ball hinged arm 8-13; 8-14 parts of floating ball; 8-15 parts of a discharge port of the settling tank; a pump water tank 9; a water pumping tank rotating wheel 9-1; a pump water tank articulated arm 9-2; 9-3 of a water pumping barrel; a water pumping bucket supporting arm 9-4; 9-5 parts of a water pumping barrel limiting block; hinged disks 9-6; 9-7 of a piston; 9-8 parts of a water inlet valve; 9-9 parts of a water outlet valve; a power generation box 10; a water inlet 10-1 of the power generation box; 10-2 of a water spraying ring; a gear base 10-3; 10-4 parts of a bull gear; pinion 10-5; 10-6 parts of gear ring; 10-7 of a water baffle; a power generation box limiting base 10-8; and a water outlet 10-9 of the power generation box.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10, and the invention mainly solves the technical problem of providing an environment-friendly domestic sewage power generation device, which comprises a box body 1, a toilet 2, a solid-liquid separation box 3, a filter box 4, an aeration storage box 5, a water pipe 6, a turbine 7, a settling tank 8, a pump water box 9 and a power generation box 10, and can solve the problems that the general domestic sewage discharge is collected to a sewage plant through a pipeline in a centralized manner and then is degraded and discharged, the water resource waste is caused because the domestic sewage cannot be reused, and the underground water and the ecological environment are polluted because the sewage treatment degradation discharge does not reach the standard.

The upper end of the solid-liquid separation box 3 is provided with a separation box telescopic rod 3-1, a separation box slideway 3-2, a material pushing plate 3-3, a rack supporting arm 3-4, a separation box spring 3-5, a spring base 3-6, a separation box chute 3-7, a rack 3-8, a sector gear 3-9, a separation box motor 3-10, a separation box belt 3-11, a separation box inlet 3-12, a separation box filter plate 3-13, a dry material outlet 3-14, a separation box limiting base 3-15 and a liquid outlet 3-16, the separation box slideway 3-2 is arranged inside the separation box telescopic rod 3-1, the material pushing plate 3-3 is arranged at the upper end of the separation box slideway 3-2 in a sliding manner, the separation box 3-1 is welded inside the solid-liquid separation box 3, the upper end of a telescopic rod 3-1 of the separation box is welded with a material pushing plate 3-3, the lower end of the telescopic rod 3-1 of the separation box is welded with a rack supporting arm 3-4, the upper end of the rack supporting arm 3-4 is welded with a spring base 3-6, the upper end of the spring base 3-6 is welded with a separation box spring 3-5, the interior of the solid-liquid separation box 3 is welded with the spring base 3-6, the lower end of the rack supporting arm 3-4 is welded with a rack 3-8, the interior of the solid-liquid separation box 3 is welded with a separation box chute 3-7, the interior of the separation box chute 3-7 is provided with the rack 3-8 in a sliding manner, the interior of the solid-liquid separation box 3 rotates with a sector gear 3-9, the interior of the solid-liquid separation box 3 is fixed with a separation box motor 3-10, and the upper end of the separation box motor 3-10 is provided with a belt pulley, the upper end of a belt pulley of a motor 3-10 of the separation box is provided with a belt 3-11 of the separation box, the upper end of a sector gear 3-9 is provided with a belt 3-11 of the separation box, the upper end of the solid-liquid separation box 3 is welded with a feed inlet 3-12 of the separation box, the inside of the solid-liquid separation box 3 is welded with a filter plate 3-13 of the separation box, the upper end of the filter plate 3-13 of the separation box is provided with a material pushing plate 3-3 in a sliding manner, the right end of the solid-liquid separation box 3 is welded with a dry material outlet 3-14, and the inside of the solid-liquid separation box 3 is welded with a spacing base 3-15 of the separation box.

The upper end of the filter box 4 is provided with a filter box inlet 4-1, a filter box waterproof cover 4-2, a filter box motor base 4-3, a filter box motor 4-4, a filter box rotating shaft 4-5, a filter barrel 4-6, a filter barrel hole 4-7, a mud pushing plate support column 4-8, a mud pushing plate 4-9, a mud scraping brush 4-10, a filter box filter plate 4-11, a sludge outlet 4-12, a limit plate 4-13, a conical plug 4-14, a filter box telescopic rod 4-15 and a filter box spring 4-16, the upper end of the filter box 4 is welded with the filter box inlet 4-1, the filter box waterproof cover 4-2 is welded inside the filter box 4, the filter box motor base 4-3 is welded inside the filter box waterproof cover 4-2, the upper end of the filter box motor base 4-3 is fixed with the filter box motor 4-4, the upper end of a filter box motor 4-4 is connected with a filter box rotating shaft 4-5, the upper end of the filter box rotating shaft 4-5 is welded with a filter barrel 4-6, the upper end of the filter barrel 4-6 is provided with a filter barrel hole 4-7, the upper end of the filter box rotating shaft 4-5 is welded with a mud pushing plate support column 4-8, the upper end of the mud pushing plate support column 4-8 is welded with a mud pushing plate 4-9, the lower end of the filter barrel 4-6 is welded with a mud scraping brush 4-10, the inside of the filter box 4 is welded with a filter box filter plate 4-11, the upper end of the filter box filter plate 4-11 is rotated with a filter box rotating shaft 4-5, the bottom of the filter box 4 is welded with a sludge outlet 4-12, the upper end of the filter box filter plate 4-11 is welded with a limiting plate 4-13, and the upper end of the limiting plate 4-13 is provided with a conical groove, the conical plugs 4-14 are arranged inside the conical grooves of the limiting plates 4-13 in a sliding mode, the filtering box telescopic rods 4-15 are welded inside the filtering box 4, the filtering box telescopic rods 4-15 are welded at the lower ends of the conical plugs 4-14, and filtering box springs 4-16 are arranged at the upper ends of the filtering box telescopic rods 4-15.

The upper end of the aeration storage box 5 is provided with a gas inlet 5-1, a storage box motor base 5-2, a storage box motor 5-3, a storage box rotating shaft 5-4, a fan 5-5, a storage box rotating roller 5-6, a material shifting plate 5-7, a mixing agent inlet 5-8, a storage box inlet 5-9 and a storage box outlet 5-10, the interior of the aeration storage box 5 is welded with the gas inlet 5-1, the interior of the aeration storage box 5 is welded with the storage box motor base 5-2, the upper end of the storage box motor base 5-2 is fixed with the storage box motor 5-3, the upper end of the storage box motor 5-3 is connected with the storage box rotating shaft 5-4, the upper end of the storage box rotating shaft 5-4 is connected with the fan 5-5, the interior of the aeration storage box 5 is rotated with the storage box rotating roller 5-6, the upper ends of the rotating rollers 5-6 of the storage box are welded with the shifting plates 5-7, the upper end of the aeration storage box 5 is welded with the mixture inlet 5-8, the right end of the aeration storage box 5 is welded with the storage box inlet 5-9, and the right end of the aeration storage box 5 is welded with the storage box outlet 5-10.

The upper end of the settling tank 8 is provided with a settling tank feeding port 8-1, a waste residue outlet 8-2, a first limiting plate 8-3, a first filter screen 8-4, a first discharging port 8-5, a second settling tank 8-6, a second limiting plate 8-7, a second filter screen 8-8, a second discharging port 8-9, a third settling tank 8-10, a discharging controller 8-11, a discharging baffle 8-12, a floating ball articulated arm 8-13, a floating ball 8-14 and a settling tank discharging port 8-15, the upper end of the settling tank 8 is welded with the settling tank feeding port 8-1, the left end of the settling tank 8 is welded with the waste residue outlet 8-2, the settling tank 8 is welded with the first limiting plate 8-3, the upper end of the first limiting plate 8-3 is fixed with the first filter screen 8-4, a first discharge port 8-5 is fixed at the upper end of the first filter screen 8-4, a second settling tank 8-6 is welded inside the settling tank 8, a second settling tank 8-6 is connected at the upper end of the first discharge port 8-5, a second limiting plate 8-7 is welded inside the second settling tank 8-6, a second filter screen 8-8 is fixed at the upper end of the second limiting plate 8-7, a second filter screen 8-8 is fixed at the upper end of the second filter screen 8-8, a second discharge port 8-9 is fixed at the upper end of the second filter screen 8-8, a third settling tank 8-10 is arranged inside the settling tank 8, a third settling tank 8-10 is connected at the upper end of the second discharge port 8-9, a discharge controller 8-11 is welded inside the third settling tank 8-10, the discharging controller 8-11 is internally provided with a discharging baffle 8-12 in a sliding manner, the upper end of the discharging controller 8-11 is hinged with a floating ball hinged arm 8-13, the upper end of the discharging baffle 8-12 is hinged with a floating ball hinged arm 8-13, the left end of the floating ball hinged arm 8-13 is welded with a floating ball 8-14, and the upper end of the discharging controller 8-11 is welded with a discharging port 8-15 of a settling box.

The upper end of the pump water tank 9 is provided with a pump water tank rotating wheel 9-1, a pump water tank hinged arm 9-2, a pumping barrel 9-3, a pumping barrel supporting arm 9-4, a pumping barrel limiting block 9-5, a hinged disc 9-6, a piston 9-7, a water inlet valve 9-8 and a water outlet valve 9-9, the pump water tank rotating wheel 9-1 is rotated inside the pump water tank 9, the upper end of the pump water tank rotating wheel 9-1 is hinged with the pump water tank hinged arm 9-2, the pumping barrel 9-3 is welded inside the pump water tank 9, the upper end of the pumping barrel 9-3 is provided with a pumping barrel limiting block 9-5, the upper end of the pumping barrel limiting block 9-5 is provided with a hole, the pumping barrel supporting arm 9-4 is slid inside the hole of the pumping barrel limiting block 9-5, the upper end of the pumping barrel supporting arm 9-4 is hinged with the hinged disc 9-6, the piston 9-7 is welded at the lower end of the hinged disk 9-6, the piston 9-7 slides in the water pumping barrel 9-3, the water inlet valve 9-8 is welded at the left end of the water pumping barrel 9-3, and the water outlet valve 9-9 is welded at the lower end of the water inlet valve 9-8.

The upper end of the power generation box 10 is provided with a power generation box water inlet 10-1, a water spraying ring 10-2, a gear base 10-3, a large gear 10-4, a small gear 10-5, a gear ring 10-6, a water baffle 10-7, a power generation box limiting base 10-8 and a power generation box water outlet 10-9, the upper end of the power generation box 10 is welded with the power generation box water inlet 10-1, the inside of the power generation box 10 is welded with the water spraying ring 10-2, the upper end of the water spraying ring 10-2 is welded with the power generation box water inlet 10-1, the inside of the power generation box 10 is welded with the gear base 10-3, the upper end of the gear base 10-3 is rotated with the large gear 10-4, the upper end of the gear base 10-3 is rotated with the small gear 10-5, the small gear 10-5 is engaged, the upper end of the gear ring 10-6 is welded with a water baffle 10-7, the inside of the power generation box 10 is welded with a power generation box limiting base 10-8, and the bottom of the power generation box 10 is welded with a power generation box water outlet 10-9.

The toilet bowl 2 is welded at the upper end of the box body 1, the solid-liquid separation box 3 is welded inside the box body 1, the toilet bowl 2 is connected at the upper end of a separation box feeding port 3-12, the filter box 4 is welded inside the box body 1, the liquid discharging port 3-16 is connected at the upper end of the filter box feeding port 4-1, the aeration storage box 5 is welded inside the box body 1, the water pipe 6 is welded at the lower end of the filter box 4, the turbine 7 is welded inside the box body 1, the water pipe 6 is connected at the upper end of the turbine 7, the sedimentation box 8 is welded inside the box body 1, the water pipe 6 is connected at the upper end of the sedimentation box feeding port 8-1, the storage box feeding port 5-9 is connected at the upper end of the sedimentation box discharging port 8-15, the pump water tank 9 is welded inside the box body 1, the storage box discharging port 5-10 is connected at the upper end of the water inlet valve 9-8, and the power generation box 10 is welded inside the box body 1, the upper end of the water inlet 10-1 of the power generation box is connected with a water outlet valve 9-9.

The second embodiment is as follows:

the following describes the embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, and the embodiment further describes the first embodiment, in which eight mud jacking plate supporting columns 4-8 and eight mud jacking plates 4-9 are provided.

The third concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, and the present embodiment further describes the first embodiment, in which the mud jacking plate supporting pillars 4-8 and the mud jacking plates 4-9 are concentric.

The fourth concrete implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10, and the present embodiment will be further described with reference to the first embodiment, in which the housing 1, the toilet 2, the solid-liquid separation tank 3, the filtration tank 4, the aeration storage tank 5, the water pipe 6, the settling tank 8, the water pumping tank 9 and the power generation tank 10 are made of stainless steel.

The fifth concrete implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10, and the present embodiment will further describe the first embodiment, in which the storage box rotating rollers 5 to 6 are provided with a matching motor.

The sixth specific implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, and 10, and the first embodiment will be further described, in which the upper end of the large gear 10-4 is connected to a generator motor.

The working principle of the invention is as follows:

an environment-friendly domestic sewage power generation device has the working principle that domestic sewage is discharged into a solid-liquid separation box 3 through a closestool 2 and falls to the upper end of a filter plate 3-13 of the separation box, liquid in the sewage flows down through a hole at the upper end of the filter plate 3-13 of the separation box, solids are remained at the upper end of the filter plate 3-13 of the separation box, then a motor 3-10 of the separation box rotates to drive a belt 3-11 of the separation box to rotate, the belt 3-11 of the separation box rotates to drive a sector gear 3-9 to rotate clockwise, the sector gear 3-9 rotates clockwise to drive a rack 3-8 to slide rightwards in a chute 3-7 of the separation box, the rack 3-8 slides rightwards to drive a rack supporting arm 3-4 to move rightwards, the rack supporting arm 3-4 drives a telescopic rod 3-1 of the separation box to extend, the telescopic rod 3-1 of the separating box extends to drive the material pushing plate 3-3 to slide rightwards at the upper end of the separating box slideway 3-2, the material pushing plate 3-3 slides rightwards to push the solid waste residues at the upper end of the filtering plate 3-13 of the separating box to move rightwards and slide out through the dried material outlet 3-14 for collection, when the sector gear 3-9 rotates and is meshed with the rack 3-8, the rack 3-8 is pulled to move leftwards to reset by the acting force of the separating box spring 3-5 for next pushing, the liquid gathers towards the middle through the limiting function of the limiting base 3-15 of the separating box and flows out to the inside of the filtering box 4 through the liquid outlet 3-16, the rotating shaft 4-5 of the filtering box is driven by the rotating motor 4-4 of the filtering box, the rotating shaft 4-5 of the filtering box drives the filtering barrel 4-6 to rotate and the supporting column 4-8 of the mud pushing plate to rotate, the mud pushing plate support column 4-8 rotates to drive the mud pushing plate 4-9 to rotate, the filter barrel 4-6 rotates to throw water out through the filter barrel hole 4-7, sludge is remained in the filter barrel 4-6, the filter box waterproof cover 4-2 prevents water from entering the motor and being damaged, fine sludge flowing out along with the thrown water falls to the bottom of the filter box 4 through the filter box filter plate 4-11, the filter barrel 4-6 rotates to drive the mud scraping brush 4-10 to slide at the upper end of the filter box filter plate 4-11 to prevent fine silt from blocking the filter box filter plate 4-11 hole, the conical plug 4-14 is pressed downwards along with the continuous increase and total increase of the thrown water, the conical plug 4-14 moves downwards to drive the filter box telescopic rod 4-15 to contract and simultaneously compress the filter box spring 4-16, the conical plugs 4-14 move downwards to form gaps with the limiting plates 4-13, water flows out of the water pipe 6 along the gaps, when the water in the filter box 4 is reduced, the water is driven by the filter box springs 4-16 to reset, so that the function of transportation in the poor condition is realized, the turbine 7 is driven to rotate by the rotation of the motor, the turbine 7 generates suction force to pump the water in the water pipe 6 out and transport the water to the interior of the settling box 8, the water is settled by the limiting action of the first limiting plate 8-3 and is continuously immersed into the interior of the settling box 8 along with the water, clear liquid at the upper end flows out through the first filter screen 8-4 after flowing through the first discharge port 8-5 to flow into the interior of the second settling box 8-6 for secondary settling, the water after secondary settling is filtered by the second filter screen 8-8 and flows out through the second discharge port 8-9 to flow into the interior of the third settling box 8-10, the floating ball 8-14 is driven by the buoyancy of water to rise with the continuous increase of the water in the third settling tank 8-10, the floating ball 8-14 rises to drive the floating ball hinged arm 8-13 to rotate, the floating ball hinged arm 8-13 rotates to drive the discharging baffle 8-12 to slide downwards in the discharging controller 8-11, the water in the third settling tank 8-10 flows out through the discharging controller 8-11 and flows to the inside of the aeration storage tank 5 through the discharging port 8-15 of the settling tank, the discharging controller 8-11 prevents the water from flowing back when the water in the third settling tank 8-10 is less, the neutralizer of the water is injected through the mixing agent inlet 5-8, the storage tank rotating roller 5-6 is driven by the rotation of the motor to rotate, the storage tank rotating roller 5-6 drives the stirring plate 5-7 to rotate, the material stirring plate 5-7 rotates to stir the water and the neutralizer fully, the water reaches the discharge index, meanwhile, the storage box motor 5-3 drives the storage box rotating shaft 5-4 to rotate, the storage box rotating shaft 5-4 rotates to drive the fan 5-5 to rotate, the fan 5-5 rotates to generate pumping force to pump air into the aeration storage box 5 through the gas inlet 5-1, so that the microorganism in the water in the aeration storage box 5 is fully degraded and neutralized, the motor rotates to drive the pump water tank rotating wheel 9-1 to rotate, the pump water tank rotating wheel 9-1 rotates to drive the pump water tank articulated arm 9-2 to rotate, the pump water tank articulated arm 9-2 rotates to drive the water pumping barrel supporting arm 9-4 to rotate the inner part of the water pumping barrel 9-3 to move up and down, the water pumping barrel limiting block 9-5 plays a role in supporting and limiting the water pumping barrel supporting arm 9-4, the water pumping barrel supporting arm 9-4 moves up and down to drive the hinged disc 9-6 to move up and down, the hinged disc 9-6 moves up and down to drive the piston 9-7 to slide up and down in the water pumping barrel 9-3, the piston 9-7 slides upwards to generate suction force to pump water in the aeration storage box 5 into the water pumping barrel 9-3 through the water inlet valve 9-8, the piston 9-7 slides downwards to press the water into the water inlet 10-1 of the power generation box through pressure, the water inlet valve 9-8 and the water outlet valve 9-9 are one-way valves, the water outlet valve 9-9 stops water outlet when the water inlet valve 9-8 feeds water, the water inlet valve 9-8 stops water inlet when the water outlet valve 9-9 discharges water, the water pressed out by the water pumping box 9 flows into the water spraying ring 10-2 through the water inlet 10-1 of the power generation box to be sprayed out, the water sprayed by the water spraying ring 10-2 impacts the upper end of the water baffle 10-7 to drive the gear ring 10-6 to rotate, the gear ring 10-6 rotates to drive the meshed pinion 10-5 to rotate, the pinion 10-5 rotates to drive the meshed gearwheel 10-4 to rotate, the gearwheel 10-4 rotates to drive the power generation motor to generate power, the pinion 10-5 drives the gearwheel 10-4 to rotate to increase the torque, the generated water gathers to the middle through the limiting function of the limiting base 10-8 of the power generation box and flows out through the water outlet 10-9 of the power generation box to be discharged, so that the problem that the water resource is wasted because the general domestic sewage discharge is collected to a sewage plant through a pipeline in a centralized manner and then is degraded and discharged, and cannot be reused is solved, and the pollution to underground water and ecological environment caused by sewage treatment and degradation which do not reach the standard.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides an environmental protection domestic sewage power generation facility, includes box (1), closestool (2), solid-liquid separation case (3), rose box (4), aeration deposit case (5), water pipe (6), turbine (7), setting tank (8), pump water tank (9), power generation box (10), its characterized in that: the upper end of the solid-liquid separation box (3) is provided with a separation box telescopic rod (3-1), a separation box slide way (3-2), a material pushing plate (3-3), a rack supporting arm (3-4), a separation box spring (3-5), a spring base (3-6), a separation box slide way (3-7), a rack (3-8), a sector gear (3-9), a separation box motor (3-10), a separation box belt (3-11), a separation box feed inlet (3-12), a separation box filter plate (3-13), a dry material outlet (3-14), a separation box limiting base (3-15) and a liquid discharge outlet (3-16), the separation box slide way (3-2) is arranged inside the separation box telescopic rod (3-1), the material pushing plate (3-3) is arranged at the upper end of the separation box slide way (3-2) in a sliding manner, a separation box telescopic rod (3-1) is welded inside the solid-liquid separation box (3), a material pushing plate (3-3) is welded at the upper end of the separation box telescopic rod (3-1), a rack supporting arm (3-4) is welded at the lower end of the separation box telescopic rod (3-1), a spring base (3-6) is welded at the upper end of the rack supporting arm (3-4), a separation box spring (3-5) is welded at the upper end of the spring base (3-6), a spring base (3-6) is welded inside the solid-liquid separation box (3), a rack (3-8) is welded at the lower end of the rack supporting arm (3-4), a separation box chute (3-7) is welded inside the solid-liquid separation box (3), and a rack (3-8) is arranged inside the separation box chute (3-7) in a sliding manner, a sector gear (3-9) rotates inside the solid-liquid separation box (3), a separation box motor (3-10) is fixed inside the solid-liquid separation box (3), a belt pulley is arranged at the upper end of the separation box motor (3-10), a separation box belt (3-11) is arranged at the upper end of the belt pulley of the separation box motor (3-10), a separation box belt (3-11) is arranged at the upper end of the sector gear (3-9), a separation box feeding port (3-12) is welded at the upper end of the solid-liquid separation box (3), a separation box filter plate (3-13) is welded inside the solid-liquid separation box (3), a material pushing plate (3-3) slides at the upper end of the separation box filter plate (3-13), a dry material outlet (3-14) is welded at the right end of the solid-liquid separation box (3), and a separation box limiting base (3-15) is welded inside the solid-liquid separation box (3);

the upper end of the filter box (4) is provided with a filter box feed inlet (4-1), a filter box waterproof cover (4-2), a filter box motor base (4-3), a filter box motor (4-4), a filter box rotating shaft (4-5), a filter barrel (4-6), a filter barrel hole (4-7), a mud pushing plate support column (4-8), a mud pushing plate (4-9), a mud scraping brush (4-10), a filter box filter plate (4-11), a sludge outlet (4-12), a limiting plate (4-13), a conical plug (4-14), a filter box telescopic rod (4-15) and a filter box spring (4-16), the upper end of the filter box (4) is welded with the filter box feed inlet (4-1), and the inside of the filter box (4) is welded with the filter box waterproof cover (4-2), a filter box motor base (4-3) is welded inside the filter box waterproof cover (4-2), a filter box motor (4-4) is fixed at the upper end of the filter box motor base (4-3), a filter box rotating shaft (4-5) is connected at the upper end of the filter box motor (4-4), a filter barrel (4-6) is welded at the upper end of the filter box rotating shaft (4-5), a filter barrel hole (4-7) is formed at the upper end of the filter barrel (4-6), a mud pushing plate supporting column (4-8) is welded at the upper end of the filter box rotating shaft (4-5), a mud pushing plate (4-9) is welded at the upper end of the mud pushing plate supporting column (4-8), a mud scraping brush (4-10) is welded at the lower end of the filter barrel (4-6), a filter box filter plate (4-11) is welded inside the filter box (4), a filter box rotating shaft (4-5) is rotatably arranged at the upper end of a filter box filter plate (4-11), a sludge outlet (4-12) is welded at the bottom of the filter box (4), a limiting plate (4-13) is welded at the upper end of the filter box filter plate (4-11), a conical groove is arranged at the upper end of the limiting plate (4-13), a conical plug (4-14) slides inside the conical groove of the limiting plate (4-13), a filter box telescopic rod (4-15) is welded inside the filter box (4), a filter box telescopic rod (4-15) is welded at the lower end of the conical plug (4-14), and a filter box spring (4-16) is arranged at the upper end of the filter box telescopic rod (4-15);

the upper end of the aeration storage box (5) is provided with a gas inlet (5-1), a storage box motor base (5-2), a storage box motor (5-3), a storage box rotating shaft (5-4), a fan (5-5), a storage box rotating roller (5-6), a material stirring plate (5-7), a mixing agent inlet (5-8), a storage box feeding port (5-9) and a storage box discharging port (5-10), the interior of the aeration storage box (5) is welded with the gas inlet (5-1), the interior of the aeration storage box (5) is welded with the storage box motor base (5-2), the upper end of the storage box motor base (5-2) is fixed with the storage box motor (5-3), the upper end of the storage box motor (5-3) is connected with the storage box rotating shaft (5-4), the upper end of a storage box rotating shaft (5-4) is in keyed connection with a fan (5-5), a storage box rotating roller (5-6) rotates inside the aeration storage box (5), a stirring plate (5-7) is welded at the upper end of the storage box rotating roller (5-6), a mixing agent inlet (5-8) is welded at the upper end of the aeration storage box (5), a storage box feeding port (5-9) is welded at the right end of the aeration storage box (5), and a storage box discharging port (5-10) is welded at the right end of the aeration storage box (5);

the upper end of the settling tank (8) is provided with a settling tank feeding port (8-1), a waste residue outlet (8-2), a first limiting plate (8-3), a first filter screen (8-4), a first discharging port (8-5), a second settling tank (8-6), a second limiting plate (8-7), a second filter screen (8-8), a second discharging port (8-9), a third settling tank (8-10), a discharging controller (8-11), a discharging baffle (8-12), a floating ball articulated arm (8-13), a floating ball (8-14) and a settling tank discharging port (8-15), the upper end of the settling tank (8) is welded with the settling tank feeding port (8-1), the left end of the settling tank (8) is welded with the waste residue outlet (8-2), the first limiting plate (8-3) is welded inside the settling tank (8), a first filter screen (8-4) is fixed at the upper end of the first limiting plate (8-3), a first discharge port (8-5) is fixed at the upper end of the first filter screen (8-4), a second settling tank (8-6) is welded inside the settling tank (8), a second settling tank (8-6) is connected at the upper end of the first discharge port (8-5), a second limiting plate (8-7) is welded inside the second settling tank (8-6), a second filter screen (8-8) is fixed at the upper end of the second limiting plate (8-7), a second filter screen (8-8) is fixed at the upper end of the second filter screen (8-8), a second discharge port (8-9) is fixed at the upper end of the second filter screen (8-8), a third settling tank (8-10) is arranged inside the settling tank (8), the upper end of the second discharge port (8-9) is connected with a third sedimentation tank (8-10), a discharge controller (8-11) is welded inside the third sedimentation tank (8-10), a discharge baffle (8-12) is arranged inside the discharge controller (8-11) in a sliding manner, a floating ball hinged arm (8-13) is hinged to the upper end of the discharge controller (8-11), a floating ball hinged arm (8-13) is hinged to the upper end of the discharge baffle (8-12), a floating ball (8-14) is welded to the left end of the floating ball hinged arm (8-13), and a sedimentation tank discharge port (8-15) is welded to the upper end of the discharge controller (8-11);

the upper end of the pump water tank (9) is provided with a pump water tank rotating wheel (9-1), a pump water tank hinged arm (9-2), a pumping barrel (9-3), a pumping barrel supporting arm (9-4), a pumping barrel limiting block (9-5), a hinged disc (9-6), a piston (9-7), a water inlet valve (9-8) and a water outlet valve (9-9), the inside of the pump water tank (9) is rotated with the pump water tank rotating wheel (9-1), the upper end of the pump water tank rotating wheel (9-1) is hinged with the pump water tank hinged arm (9-2), the inside of the pump water tank (9) is welded with a pumping barrel (9-3), the upper end of the pumping barrel (9-3) is provided with the pumping barrel limiting block (9-5), the upper end of the pumping barrel limiting block (9-5) is provided with a hole, the pumping barrel supporting arm (9-4) slides inside the pumping barrel limiting block (9-5) hole, the upper end of the water pumping barrel supporting arm (9-4) is hinged with a hinged disc (9-6), the lower end of the hinged disc (9-6) is welded with a piston (9-7), the piston (9-7) slides in the water pumping barrel (9-3), the left end of the water pumping barrel (9-3) is welded with a water inlet valve (9-8), and the lower end of the water inlet valve (9-8) is welded with a water outlet valve (9-9);

the upper end of the power generation box (10) is provided with a power generation box water inlet (10-1), a water spraying ring (10-2), a gear base (10-3), a large gear (10-4), a small gear (10-5), a gear ring (10-6), a water baffle plate (10-7), a power generation box limiting base (10-8) and a power generation box water outlet (10-9), the upper end of the power generation box (10) is welded with the power generation box water inlet (10-1), the inside of the power generation box (10) is welded with the water spraying ring (10-2), the upper end of the water spraying ring (10-2) is welded with the power generation box water inlet (10-1), the inside of the power generation box (10) is welded with the gear base (10-3), the upper end of the gear base (10-3) is rotated with the large gear (10-4), the upper end of the gear base (10-3) is rotated with the small gear (10-5), the small gear (10-5) is meshed with the large gear (10-4), the outer end of the small gear (10-5) is meshed with a gear ring (10-6), the upper end of the gear ring (10-6) is welded with a water baffle (10-7), a power generation box limiting base (10-8) is welded inside the power generation box (10), and a power generation box water outlet (10-9) is welded at the bottom of the power generation box (10);

a closestool (2) is welded at the upper end of a box body (1), a solid-liquid separation box (3) is welded inside the box body (1), the closestool (2) is connected at the upper end of a separation box feeding port (3-12), a filter box (4) is welded inside the box body (1), a liquid discharging port (3-16) is connected at the upper end of the filter box feeding port (4-1), an aeration storage box (5) is welded inside the box body (1), a water pipe (6) is welded at the lower end of the filter box (4), a turbine (7) is welded inside the box body (1), a water pipe (6) is connected at the upper end of the turbine (7), a sedimentation box (8) is welded inside the box body (1), the water pipe (6) is connected at the upper end of the sedimentation box feeding port (8-1), the storage box feeding port (5-9) is connected at the upper end of the sedimentation box discharging port (8-15), a pump water tank (9) is welded inside the box body (1), the upper end of the water inlet valve (9-8) is connected with a storage box discharge port (5-10), a power generation box (10) is welded inside the box body (1), and the upper end of the power generation box water inlet (10-1) is connected with a water outlet valve (9-9).

2. The environmental-friendly domestic sewage power generation device according to claim 1, wherein: the number of the mud pushing plate supporting columns (4-8) and the number of the mud pushing plates (4-9) are eight.

3. The environmental-friendly domestic sewage power generation device according to claim 1, wherein: the mud pushing plate support columns (4-8) and the mud pushing plates (4-9) are concentric.

4. The environmental-friendly domestic sewage power generation device according to claim 1, wherein: the box body (1), the closestool (2), the solid-liquid separation box (3), the filter box (4), the aeration storage box (5), the water pipe (6), the settling tank (8), the water pumping box (9) and the power generation box (10) are made of stainless steel.

5. The environmental-friendly domestic sewage power generation device according to claim 1, wherein: the rotary rollers (5-6) of the storage box are provided with matched motors.

6. The environmental-friendly domestic sewage power generation device according to claim 1, wherein: the upper end of the big gear (10-4) is connected with a power generation motor.