Microbial degradation intelligent toilet bowl
Technical Field
The utility model relates to a toilet bowl technical field specifically is microbial degradation intelligent toilet bowl.
Background
The invention of the water flushing toilet provides a sanitary and comfortable environment for people, while the flushing water of the toilet accounts for one third of the domestic water, and the water flushing toilet only flushes one item by 6 liters, so that about 100 billion cubic meters of tap water is consumed in China every year.
In order to save water resources, a plurality of microbial degradation toilets produced by applying a microbial degradation technology are available at present, and the purpose of protecting the ecological environment can be achieved by degrading human excrement. However, because the microbial degradation needs proper temperature, water and oxygen, most of the existing microbial degradation toilets are provided with a heating device and an oxygen supplementing device, the structure is larger, the occupied area is wide, and the maintenance is not convenient because the microbial degradation bin is arranged under the floor.
The prior publication No. CN204445652U discloses an odorless non-flushing toilet bowl, which comprises a seat barrel with an opening at the upper end, a cavity in the inner part, and an outlet at the bottom end, and a seat ring and a barrel cover arranged at the opening, wherein a processing bin communicated with the outlet of the seat barrel is arranged at the lower part of the seat barrel, and a stirrer and biological filler are arranged in the processing bin. Above-mentioned scheme can make the excrement and urine of excreting directly get into the processing storehouse of seat bucket lower part through setting up agitator and filler in the seat bucket conveniently when the actual application to mix with the biofilm carrier under the agitator effect, let the biofilm carrier fully absorb, degrade excrement and urine, thoroughly eliminate the peculiar smell, no longer use water to flush the lavatory, practiced thrift valuable water resource, only need supply a small amount of new biofilm carrier in addition and just can continue to use.
However, during the use, the following disadvantages exist: firstly, as no water is used and no flushing is needed, the inner wall of the inner cavity is easy to be stained with excrement to generate stink; secondly, the toilet seat ring and the inner cavity cannot be automatically sterilized after long-term use, so that harmful bacteria are easily bred, and the body health of a user is affected; thirdly, the volume of the toilet is too large, and a treatment bin at the lower part of the toilet is inconvenient for putting in new biological fillers; and fourthly, the microbial degradation needs specific temperature for decomposition, and when the external temperature is too low, the microbial decomposition effect is poor, so that the use experience is influenced.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to foretell not enough, provide an automatic hydrologic cycle washes, automatic disinfect, and the biofilm carrier is filled conveniently, and microbial degradation is effectual, and the protection people is healthy, improves the microbial degradation intelligent toilet who uses experience.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
microbial degradation intelligence toilet bowl, including the toilet bowl, the lid is located seat circle and apron on the toilet bowl, its characterized in that: the toilet bowl is provided with a urinal, a microbial decomposition chamber and a filtering chamber are arranged below the urinal, a water storage tank is arranged on one side of the urinal, the urinal is communicated with the position right above the microbial decomposition chamber through a first pipeline, the bottom of the microbial decomposition chamber is communicated with the filtering chamber through a second pipeline, the filtering chamber is communicated with the water storage tank through a first water pipe, the water storage tank is communicated with the urinal through a second water pipe, an ultraviolet generator is arranged on one side of a cover plate, a stirring assembly and a temperature control assembly are arranged in the microbial decomposition chamber, and one side of the microbial decomposition chamber faces towards the outer side of the toilet bowl, and a first box door is arranged on the outer side of the toilet bowl.
Further, be provided with first electrovalve on the first pipeline, be provided with the second electrovalve on the second pipeline, first water pipe stretches into the one end of filter chamber is provided with the suction pump, the second water pipe stretches into the one end of storage water tank is provided with the force pump.
Furthermore, a microorganism odor purification channel communicated with the urinal is formed in one side of the cover plate, an odor purification fan is arranged in the microorganism odor purification channel, an air inlet of the odor purification fan faces the urinal, and an air outlet hole is formed in one end, far away from the urinal, of the microorganism odor purification channel.
Further, the stirring subassembly includes that the level stretches into (mixing) shaft in the microbial decomposition room, be provided with stirring vane on the (mixing) shaft, the one end of (mixing) shaft stretches out be connected with agitator motor behind the microbial decomposition room lateral wall.
Further, the temperature control assembly comprises a decomposition temperature-sensitive switch and a heating pipe, wherein the decomposition temperature-sensitive switch and the heating pipe are embedded on the inner wall of the microbial decomposition chamber, and the decomposition temperature-sensitive switch is electrically connected with the heating pipe.
Further, the filter chamber mesolevel is provided with the filter screen, the filter screen will the filter chamber is from last to dividing into clean water district and settling area down, the second pipeline intercommunication the settling area, the suction pump is located in the clean water district, the bottom of microorganism decomposition chamber is passed through the second pipeline intercommunication the settling area, the settling area orientation the second chamber door has been seted up to toilet bowl back seal.
Further, a seat ring temperature-sensitive switch and heating wires are uniformly distributed in the seat ring and are electrically connected.
Further, be provided with the liquid level inductor in the storage water tank, the storage water tank top is provided with the water filling port, storage water tank one side is provided with the warning light, liquid level inductor electric connection the warning light.
Further, a distance sensor is arranged on the front face of the toilet bowl and electrically connected with the ultraviolet generator.
The utility model has the advantages that:
in practical application, the excrement is decomposed into a carbohydrate mixture by the microbial decomposition chamber, and then the carbohydrate mixture is filtered by the filter chamber and is pumped back to the water storage tank to be stored in a urinal for recycling, so that automatic water circulation flushing is realized; automatic ultraviolet sterilization of the urinal and the seat ring is realized through an ultraviolet generator; putting a new microbial decomposition filler through a first box door; the stirring component and the temperature control component are arranged in the microbial decomposition chamber, so that the microbial degradation effect is better; the utility model discloses but automatic hydrologic cycle washes, disinfects automatically, and the biofilm carrier is filled conveniently, and the microbial degradation is effectual, and the protection people is healthy, improves user and uses experience.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention;
fig. 2 is a schematic structural view of the cross section of the present invention;
reference numerals: a toilet bowl 1; a seat ring 2; a cover plate 3; a urinal 4; a microbial decomposition chamber 5; a stirring assembly 51; a temperature control assembly 52; a first door 53; a filter chamber 6; a filter screen 61; a water purification zone 62; a settling zone 63; a second door 64; a water storage tank 7; a liquid level sensor 71; a water injection port 72; a warning light 73; an ultraviolet ray generator 8; a first electrovalve 91; a second electrovalve 92; a water pump 93; a pressure pump 94; a microbial odor elimination channel 10; a smell purifying fan 101; a distance sensor 111.
Detailed Description
As shown in figures 1 and 2, the microbial degradation intelligent toilet comprises a toilet 1, a seat ring 2 and a cover plate 3 which are covered on the toilet 1, and is characterized in that: be provided with urinal 4 on toilet bowl 1, urinal 4 below is provided with microorganism decomposition chamber 5 and filter chamber 6, one side of urinal 4 is provided with storage water tank 7, urinal 4 passes through first pipeline intercommunication directly over microorganism decomposition chamber 5, the bottom of microorganism decomposition chamber 5 passes through the second pipeline intercommunication filter chamber 6, filter chamber 6 passes through first water pipe intercommunication storage water tank 7, storage water tank 7 passes through the second water pipe intercommunication urinal 4, one side of apron 3 is provided with ultraviolet generator 8, microorganism decomposition chamber 5 is provided with stirring component 51 and temperature control component 52, microorganism decomposition chamber 5 one side orientation first chamber door 53 has been seted up in the toilet bowl 1 outside seal.
In practical application, the excrement is flushed from the urinal 4 to the microbial decomposition chamber 5 through the first pipeline, the excrement is decomposed into a carbon-water mixture by the microbial decomposition chamber 5 and then is introduced into the filtering chamber 6 through the second pipeline for filtering, the water is pumped back from the water storage tank 7 through the first water pipe, and the water storage tank 7 is recycled for the urinal 4 through the second water pipe, so that automatic water circulation flushing is realized; the automatic ultraviolet sterilization of the urinal 4 and the seat ring 2 is realized through the ultraviolet generator 8; a new microbial decomposition filler is put in through the first box door 53; the stirring component 51 and the temperature control component 52 are arranged in the microbial decomposition chamber 5, so that the microbial degradation effect is better; the utility model discloses but automatic hydrologic cycle washes, disinfects automatically, and the biofilm carrier is filled conveniently, and the microbial degradation is effectual, and the protection people is healthy, improves user and uses experience.
As shown in fig. 1 and 2, a first electric valve 91 is arranged on the first pipeline, a second electric valve 92 is arranged on the second pipeline, a water suction pump 93 is arranged at one end of the first water pipe extending into the filtering chamber 6, and a pressure pump 94 is arranged at one end of the second water pipe extending into the water storage tank 7; in the embodiment, when the ultraviolet generator 8 automatically performs ultraviolet sterilization on the urinal 4 and the seat ring 2, the first electric valve 91 is closed, so that the ultraviolet rays emitted by the ultraviolet generator 8 can be prevented from killing microorganisms in the microorganism decomposition chamber 5; when the second electric valve 92 is closed, the stirring component 51 and the temperature control component 52 in the microbial decomposition chamber 5 assist the microbes to fully degrade the excrement, and after degradation is completed, the second electric valve 92 is opened to send the carbohydrate mixture to the filtering chamber 6 for filtering; the filtered water is pumped back to the water storage tank 7 for standby through the water suction pump 93, and the water in the water storage tank 7 is pressurized through the pressure pump 94 and then washes the urinal 4, so that the washing effect is better.
As shown in fig. 1 and 2, a microorganism odor purification channel 10 communicated with the urinal 4 is formed in one side of the cover plate 3, an odor purification fan 101 is arranged in the microorganism odor purification channel 10, an air inlet of the odor purification fan 101 is arranged towards the urinal 4, and an air outlet is formed in one end, far away from the urinal 4, of the microorganism odor purification channel 10; in this embodiment, the microorganism odor purification channel 10 is provided with microorganism groups capable of purifying odor, the odor purification fan 101 sucks odor into the microorganism odor purification channel 10, and the odor-purified microorganism groups decompose the odor and then discharge the odor-purified air from the air outlet, so that the toilet process is fresh and free of odor, and the use experience of a user is improved.
As shown in fig. 1 and 2, the stirring assembly 51 comprises a stirring shaft horizontally extending into the microbial decomposition chamber 5, wherein a stirring blade is arranged on the stirring shaft, and one end of the stirring shaft extends out of the side wall of the microbial decomposition chamber 5 and is connected with a stirring motor; in this embodiment, stir microbiota and excrement and urine through agitator motor drive (mixing) shaft and stirring vane, make microbiota and excrement and urine fully contact, the decomposition effect is better.
As shown in fig. 1 and 2, the temperature control assembly 52 includes a decomposition temperature sensitive switch and a heating pipe embedded on the inner wall of the microorganism decomposition chamber 5, and the decomposition temperature sensitive switch is electrically connected to the heating pipe; in this embodiment, continuously heat for microorganism decomposition chamber 5 through the heating pipe, make the decomposition ability of microbiota be in most active state all the time, when microorganism decomposition chamber 5 high temperature, decompose the automatic outage for the heating pipe of temperature sensitive switch, prevent that the high temperature from causing the microbiota death, the decomposition effect is better.
As shown in fig. 1 and 2, a filter screen 61 is horizontally disposed in the filter chamber 6, the filter screen 61 divides the filter chamber 6 into a water purifying area 62 and a settling area 63 from top to bottom, the second pipeline is communicated with the settling area 63, the water pump 93 is disposed in the water purifying area 62, the bottom of the microbial decomposition chamber 5 is communicated with the settling area 63 through the second pipeline, and a second door 64 is hermetically opened on the settling area 63 facing the back of the toilet bowl 1; in this embodiment, the carbohydrate mixture decomposed in the microbial decomposition chamber 5 enters the precipitation zone 63, water enters the water purification zone 62 through the filter screen 61, and after a small amount of inorganic substances are accumulated for a long time, the precipitation zone 63 can be periodically cleaned through the second box door 64, so that the water can be more smoothly recycled.
As shown in fig. 1 and 2, seat ring temperature sensitive switches and heating wires are uniformly distributed in the seat ring 2, and the seat ring temperature sensitive switches and the heating wires are electrically connected; in this embodiment, last 2 heats for the seat circle through the heater strip, and when the high temperature, seat circle temperature sensitive switch is automatic for the heater strip outage, makes cold winter when like the lavatory, and the toilet seat keeps warm all the time, and the user can not feel cold, improves user experience and feels.
As shown in fig. 1 and 2, a liquid level sensor 71 is arranged in the water storage tank 7, a water filling port 72 is arranged at the top of the water storage tank 7, a prompt lamp 73 is arranged at one side of the water storage tank 7, and the liquid level sensor 71 is electrically connected with the prompt lamp 73; in this embodiment, when the water in the water circulation is gradually consumed and the liquid level sensor 71 senses that the amount of the liquid in the water storage tank 7 is continuously low, the indicator lamp 73 automatically lights to remind the user to add water, and the water filling port 72 is used for adding water to the water storage tank 7.
As shown in fig. 1 and 2, a distance sensor 111 is arranged on the front surface of the toilet bowl 1, and the distance sensor 111 is electrically connected to the ultraviolet generator 8; in this embodiment, when the distance sensor 111 senses that a person leaves, the ultraviolet generator 8 is controlled to automatically perform ultraviolet sterilization on the urinal 4 and the seat 2.
The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein will be apparent to those skilled in the art without departing from the scope and spirit of the invention as defined in the accompanying claims.