CN213596012U - Waste water reuse formula water purification machine - Google Patents

Abstract

The utility model relates to a waste water reuse formula water purification machine, including ball valve, booster pump, RO reverse osmosis unit, pressure bucket, heating water tank, the raw water source is connected to the end of intaking of ball valve, and the play water end of ball valve is linked together with the cotton filter equipment of 5 mu mPP, granular carbon filter equipment, the cotton filter equipment of 1 mu mPP in proper order through the pipeline, and the play water end of the cotton filter equipment of 1 mu mPP is connected through the end of intaking of pipeline with the booster pump, the play water end of booster pump is connected through the end of intaking of pipeline with RO reverse osmosis unit, the detection pipeline is installed to a play water end of RO reverse osmosis unit, another play water end of RO reverse osmosis unit is linked together through pipeline and pressure bucket. The utility model discloses can have effective saving and utilize the water resource, when not having pure water in the waste water self-cleaning waste water solenoid valve open (dense water solenoid valve this moment), close, waste water discharge has increased the utilization of water resource like this, makes the proportion of waste water and pure water improve to 1: 1.

Description

Waste water reuse formula water purification machine

Technical Field

The utility model relates to a water treatment technical field, concretely relates to waste water reuse formula water purification machine.

Background

Along with the aggravation of water pollution, a water purifier/water purifier is an indispensable link in human life, the water purifier on the market at present directly separates wastewater from pure water (wastewater discharge and pure water drinking) in the working treatment, the wastewater containing the pure water is discharged in the treatment process, and the ratio of the wastewater to the pure water is 3:1, so that the waste of water resources is caused.

Disclosure of Invention

In order to overcome the defects, the utility model aims to provide a water purifier capable of recycling waste water.

The utility model provides a technical scheme that its technical problem adopted is: a waste water recycling type water purifier comprises a ball valve, a booster pump, an RO reverse osmosis device, a pressure barrel and a heating water tank, wherein the water inlet end of the ball valve is connected with a raw water source, the water outlet end of the ball valve is sequentially communicated with a 5 mu mPP cotton filtering device, a granular carbon filtering device and a 1 mu mPP cotton filtering device through pipelines, the water outlet end of the 1 mu mPP cotton filtering device is connected with the water inlet end of the booster pump through a pipeline, a water inlet electromagnetic valve is arranged on the pipeline between the 1 mu mPP cotton filtering device and the booster pump, the water outlet end of the booster pump is connected with the water inlet end of the RO reverse osmosis device through a pipeline, a water outlet end of the RO reverse osmosis device is provided with a detection pipeline, a waste water concentration sensor is arranged on the detection pipeline, the detection pipeline is connected with a waste water ratio measuring device through a concentrated water electromagnetic valve, and the waste water ratio measuring device, another play water end of RO reverse osmosis unit is linked together through pipeline and pressure tank, install the check valve on the pipeline between RO reverse osmosis unit and the pressure tank in proper order, pure water TDS sensor, accurate flowmeter, high-voltage switch, lie in and install between high-voltage switch and the pressure tank and divide the pipeline, divide the pipeline to be connected with rearmounted granular carbon filter's the end of intaking, rearmounted granular carbon filter's play water end is linked together through pipeline and heating water tank, install the pure water solenoid valve of intaking on the pipeline between rearmounted granular carbon filter and the heating water tank.

Specifically, a low-voltage switch is installed on a pipeline between the 5 mu mPP cotton filtering device and the granular carbon filtering device, and a raw water TDS sensor is installed on a pipeline between the granular carbon filtering device and the 1 mu mPP cotton filtering device.

Specifically, a self-cleaning wastewater discharge pipeline is arranged on the detection pipeline and behind the wastewater concentration sensor, and a self-cleaning wastewater electromagnetic valve is mounted on the self-cleaning wastewater discharge pipeline.

The system comprises a low-voltage switch, a high-voltage switch, a pure water TDS sensor, a raw water DTS sensor, a precision flow meter, a wastewater concentration sensor, a water inlet electromagnetic valve, a concentrated water electromagnetic valve, a self-cleaning wastewater electromagnetic valve and a pure water inlet electromagnetic valve.

The utility model discloses following beneficial effect has: the utility model can effectively save and utilize water resources, when the wastewater flowing out of the 400GRO reverse osmosis device passes through the wastewater concentration sensor, the content of the wastewater is detected by the sensor, when pure water component exists in the wastewater, the concentrated water electromagnetic valve is opened, and at the moment, the self-cleaning wastewater electromagnetic valve closes the wastewater, and the wastewater flows through the wastewater ratio measuring device and the 400G booster pump to enter the RO reverse osmosis device for secondary filtration; when no pure water exists in the wastewater, the self-cleaning wastewater electromagnetic valve is opened (at the moment, the concentrated water electromagnetic valve is closed), and the wastewater is discharged, so that the utilization of water resources is increased, and the ratio of the wastewater to the pure water is increased to 1: 1.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic view of the internal side structure of the present invention.

In the figure, 1, a ball valve, 2, 5 mu mPP cotton filtering device, 3, a low-pressure switch, 4, a granular carbon filtering device, 5, a raw water TDS sensor, 6, 1umPP cotton filtering device, 7, a water inlet electromagnetic valve, 8, a booster pump, 9, a waste water ratio measuring device, 10, a concentrated water electromagnetic valve, 11, a self-cleaning waste water electromagnetic valve, 12, an RO reverse osmosis device, 13, a waste water concentration sensor, 14, a check valve, 15, a pure water TDS sensor, 16, an accurate flowmeter, 17, a high-pressure switch, 18, a rear granular carbon filtering device, 19, a pressure barrel, 20, a pure water inlet electromagnetic valve, 21, a heating water tank and 22 detection pipelines.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings.

As shown in fig. 1 and 2, the waste water recycling type water purifier comprises a ball valve 1, a booster pump 8, an RO reverse osmosis device 12, a pressure barrel 19 and a heating water tank 21, wherein a water inlet end of the ball valve 1 is connected with a raw water source, a water outlet end of the ball valve 1 is sequentially communicated with a 5 μm pp cotton filter device 2, a granular carbon filter device 4 and a 1 μm pp cotton filter device 6 through pipelines, a water outlet end of the 1 μm pp cotton filter device 6 is connected with a water inlet end of a 400G booster pump 8 through a pipeline, a water inlet electromagnetic valve 7 is arranged on the pipeline between the 1 μm pp cotton filter device 6 and the 400G booster pump 8, a water outlet end of the 400G booster pump 8 is connected with a water inlet end of a 400GRO reverse osmosis device 12 through a pipeline, a water outlet end of the 400GRO reverse osmosis device 12 is provided with a detection pipeline 22, a waste water concentration sensor 13 is arranged on the detection pipeline 22, and an NTC, the detection pipeline 22 is connected with the waste water ratio measuring device 9 through the concentrated water electromagnetic valve 10, the waste water ratio measuring device 9 is communicated with a pipeline at the front end of the 400G booster pump 8 through a pipeline, the waste water ratio measuring device 9 adopts 1500CC waste water ratio, when the cost concentration does not reach the standard, the waste water ratio measuring device is circulated back to the booster pump 8 for multiple times of circulating filtration, the other water outlet end of the 400GRO reverse osmosis device 12 is communicated with the pressure barrel 19 through a pipeline, a check valve 14, a pure water TDS sensor 15, an accurate flow meter 16 and a high-pressure switch 17 are sequentially arranged on the pipeline between the 400GRO reverse osmosis device 12 and the pressure barrel 19, a branch pipeline is arranged between the high-pressure switch 17 and the pressure barrel 19 and is connected with the water inlet end of the rear granular carbon filtering device 18, the water outlet end of the rear granular carbon filtering device 18 is communicated with the heating water tank 21 through a pipeline, and a pure water inlet electromagnetic valve 20 is arranged on the pipeline between the rear granular carbon filtering device 18 and the heating water tank 21.

Specifically, a low-voltage switch 3 is installed on a pipeline between the 5 μm PP cotton filter device 2 and the particulate carbon filter device 4, and a raw water TDS sensor 5 is installed on a pipeline between the particulate carbon filter device 4 and the 1 μm PP cotton filter device 6.

Specifically, a self-cleaning wastewater discharge pipe is arranged on the detection pipe 22 behind the wastewater concentration sensor 13, and a self-cleaning wastewater solenoid valve 11 is installed on the self-cleaning wastewater discharge pipe.

Specifically, still include singlechip 22, singlechip 22 adopts K133, and its function is through receiving signal control each solenoid valve open, close etc. singlechip 22 is connected with low-voltage switch 3, high-voltage switch 17, pure water TDS sensor 15, raw water DTS sensor 5, accurate flowmeter 16, waste water concentration sensor 13, water inlet solenoid valve 7, dense water solenoid valve 10, self-cleaning waste water solenoid valve 11, pure water solenoid valve 20 respectively.

The utility model discloses not be limited to the embodiment, anybody should learn the structural change who makes under the teaching of the utility model, all with the utility model discloses have the same or close technical scheme, all fall into the utility model discloses an within the protection scope.

The technology, shape and construction parts which are not described in detail in the present invention are all known technology.

Claims (4)

1. The utility model provides a waste water reuse formula water purification machine, includes ball valve, booster pump, RO reverse osmosis unit, pressure bucket, heating water tank, its characterized in that: the water inlet end of the ball valve is connected with a raw water source, the water outlet end of the ball valve is sequentially communicated with a 5 mu mPP cotton filtering device, a granular carbon filtering device and a 1 mu mPP cotton filtering device through pipelines, the water outlet end of the 1 mu mPP cotton filtering device is connected with the water inlet end of the booster pump through a pipeline, a water inlet electromagnetic valve is installed on the pipeline between the 1 mu mPP cotton filtering device and the booster pump, the water outlet end of the booster pump is connected with the water inlet end of the RO reverse osmosis device through a pipeline, a water outlet end of the RO reverse osmosis device is provided with a detection pipeline, a wastewater concentration sensor is installed on the detection pipeline, the detection pipeline is connected with a wastewater ratio measuring device through a concentrated water electromagnetic valve, the wastewater ratio measuring device is communicated with the pipeline at the front end of the booster pump through a pipeline, the other water outlet end of the RO reverse osmosis device is communicated with the pressure barrel through a pipeline, and a, The pure water TDS sensor, the precision flowmeter and the high-voltage switch are positioned between the high-voltage switch and the pressure barrel and are provided with branch pipelines, the branch pipelines are connected with the water inlet end of the rear granular carbon filtering device, the water outlet end of the rear granular carbon filtering device is communicated with the heating water tank through a pipeline, and a pure water inlet electromagnetic valve is arranged on the pipeline between the rear granular carbon filtering device and the heating water tank.

2. The wastewater reuse type water purification machine according to claim 1, wherein: a low-voltage switch is arranged on a pipeline between the 5 mu mPP cotton filtering device and the granular carbon filtering device, and a raw water TDS sensor is arranged on a pipeline between the granular carbon filtering device and the 1 mu mPP cotton filtering device.

3. The wastewater reuse type water purification machine according to claim 1, wherein: a self-cleaning wastewater discharge pipeline is arranged on the detection pipeline and behind the wastewater concentration sensor, and a self-cleaning wastewater electromagnetic valve is installed on the self-cleaning wastewater discharge pipeline.

4. The wastewater reuse type water purification machine according to claim 1, wherein: the device is characterized by further comprising a single chip microcomputer, wherein the single chip microcomputer is respectively connected with a low-voltage switch, a high-voltage switch, a pure water TDS sensor, a raw water DTS sensor, a precision flow meter, a waste water concentration sensor, a water inlet electromagnetic valve, a concentrated water electromagnetic valve, a self-cleaning waste water electromagnetic valve and a pure water inlet electromagnetic valve.

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