CN213680106U - Pure all-in-one of full room water purification - Google Patents

Abstract

The utility model discloses a pure all-in-one of full room water purification, including the organism, the inside of organism is provided with tap water cavity, first filter chamber, second filter chamber, pure water cavity and retrieves the chamber, and reverse osmosis membrane is installed to the inboard of first filter chamber, and reverse osmosis membrane's surface connection has the inlet tube, and the lower extreme of inlet tube is connected with the tap water cavity, and reverse osmosis membrane's surface connection has the concentrate pipe, is connected with the leading water pipe between first filter chamber and the second filter chamber. Tap water is filtered by the reverse osmosis membrane and the filter element, so that the filtering quality of the tap water can be effectively improved; concentrated water generated by the reverse osmosis membrane is discharged downwards into the recovery cavity for collection so as to be used by a subsequent family, and waste of water resources is avoided; the stop valve is closed, and the inside of the reverse osmosis membrane is subjected to high-pressure flushing through the booster pump, so that scale is prevented from being generated; the core lid is changed in the rotation, and the filter core upper end loses the butt and can take out the filter core from the second filter chamber to this is convenient to be changed.

Description

Pure all-in-one of full room water purification

Technical Field

The utility model belongs to the technical field of the purifier, specifically be a pure all-in-one of full room water purification.

Background

Due to the development of modern industry, water sources are polluted to different degrees, and the health of people using unclean water is damaged. In the case of drinking water, tap water companies currently use aeration, flocculation, chemical reagents, precipitation, and filtration methods in the treatment of water. The water quality of the drinking water is difficult to control due to large water supply amount; the treated water is conveyed through metal pipelines and other pipelines, and harmful substances are dissolved in the water, so that secondary pollution is caused.

The water purifier usually refers to a small filter used in a household, the existing water purifying all-in-one machine generally uses particles to adsorb harmful substances in water, and the long-time use of the particles causes the reduction of the water filtering effect due to the limited adsorption capacity of the particles, and the particles are frequently replaced, which is very troublesome.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a pure all-in-one of full room water purification to solve the poor problem of running water filter effect.

In order to achieve the above object, the utility model provides a following technical scheme: a whole-house water purifying and purifying integrated machine comprises a machine body, wherein a tap water cavity, a first filter cavity, a second filter cavity, a pure water cavity and a recycling cavity are arranged inside the machine body, a tap water joint, a pure water joint and a wastewater joint are arranged on the surface of the machine body, the tap water joint is used for connecting the water inlet end of an indoor total water inlet pipe and supplying water to the tap water cavity, the pure water joint is used for connecting the water outlet end of the indoor total water inlet pipe, purified pure water is discharged to the water outlet end branch pipe of the total water inlet pipe and flows into a whole-house branch pipe, the wastewater joint is used for connecting a water source connecting pipe of indoor cleaning equipment, a reverse osmosis membrane is installed on the inner side of the first filter cavity, the surface of the reverse osmosis membrane is connected with a water inlet pipe, the lower end of the water inlet pipe is, after being filtered by a reverse osmosis membrane, the generated pure water is downwards discharged into the second filtering cavity through the water conduit, the generated concentrated water is discharged into the first filtering cavity through the concentrated water conduit and then is discharged into the recycling cavity through the communicating pipe to be collected, so that the pure water is used for washing clothes and mopping the floor, and the water conduit is connected between the first filtering cavity and the second filtering cavity.

Preferably, the filter core is installed to the inboard of second filter chamber, and the filter core adopts fibre active carbon or milipore filter structure, and the pure water after filtering through reverse osmosis membrane passes through the leading water pipe and discharges into the second filter chamber in, then the pure water filters from the outside to inside infiltration of filter core, finally discharges into the pure water intracavity through the pure water pipe downwards, and the inner wall in the lower extreme pure water chamber of filter core is connected with the pure water pipe.

Preferably, be connected with communicating pipe between first filter chamber and the recovery chamber, the concentrated water that produces after reverse osmosis membrane filters is discharged into first filter chamber through the concentrated water pipe, then is discharged the intracavity of retrieving downwards through communicating pipe.

Preferably, the surperficial threaded connection of organism has the core lid of trading, when needing to change the filter core, closes the stop valve, stops to first filter chamber internal water delivery, then changes the core lid in the rotation, dismantles it, trades the core lid and dismantles the back, and the filter core loses the butt and can take out the filter core from the inside of second filter chamber and change, and the lower surface of trading the core lid is provided with first sealed the pad, the sealed pad of second is installed to the inner wall of second filter chamber, and the sealed end cover that is connected with the filter core between the sealed pad of second and the first sealed pad and seals up the butt filter core both ends through first sealed pad and second, seals up end cover department.

Preferably, the internally mounted of running water chamber has the booster pump, and the delivery port of booster pump is connected with the pressure boost pipe, and the one end of pressure boost pipe is connected with the inlet tube, closes the stop valve, carries the pressure and the speed of water to carry through the booster pump in the inlet tube and carries out high pressure to wash in the reverse osmosis membrane to this incrustation scale appears in avoiding the inside of reverse osmosis membrane, causes the jam of reverse osmosis membrane.

Preferably, the surface mounting of inlet tube has the stop valve, and the setting of stop valve when booster pump high pressure washes reverse osmosis membrane inside, prevents that the booster pipe from to the water delivery in the inlet tube, avoids running water to flow back to the running water intracavity once more from the inlet tube.

Preferably, the surface mounting of pressure boost pipe has the check valve, and the setting of check valve prevents that running water from leading to the booster pump reversal along the downward refluence of pressure boost pipe to can effectively avoid the damage of booster pump.

Compared with the prior art, the beneficial effects of the utility model are that: tap water is filtered by the reverse osmosis membrane and the filter element, so that the filtering quality of the tap water can be effectively improved;

concentrated water generated by the reverse osmosis membrane is discharged downwards into the recovery cavity for collection so as to be used by a subsequent family, and waste of water resources is avoided;

the stop valve is closed, and the inside of the reverse osmosis membrane is subjected to high-pressure flushing through the booster pump, so that scale is prevented from being generated;

the core lid is changed in the rotation, and the filter core upper end loses the butt and can take out the filter core from the second filter chamber to this is convenient to be changed.

Drawings

FIG. 1 is a sectional view of the overall structure of the present invention;

fig. 2 is a schematic view of the overall structure of the present invention.

In the figure: 1 machine body, 11 tap water joints, 12 pure water joints, 13 waste water joints, 14 core-changing covers, 15 first sealing gaskets, 16 water guide pipes, 17 communicating pipes, 2 tap water cavities, 21 booster pumps, 22 booster pipes, 23 check valves, 3 first filter cavities, 31 reverse osmosis membranes, 32 concentrated water pipes, 33 water inlet pipes, 34 stop valves, 4 second filter cavities, 41 filter cores, 42 second sealing gaskets, 5 pure water cavities, 51 pure water pipes and 6 recovery cavities.

Detailed Description

Referring to fig. 1, a whole-house water purifying and purifying integrated machine comprises a machine body 1, a tap water cavity 2, a first filter cavity 3, a second filter cavity 4, a pure water cavity 5 and a recycling cavity 6 are arranged inside the machine body 1, a tap water connector 11, a pure water connector 12 and a waste water connector 13 are arranged on the surface of the machine body 1, the tap water connector 11 is used for connecting the water inlet end of an indoor main water inlet pipe and supplying water into the tap water cavity 2, the pure water connector 12 is used for connecting the water outlet end of the indoor main water inlet pipe and discharging purified pure water into a water outlet end branch pipe of the main water inlet pipe, the waste water connector 13 is used for connecting a water source of indoor cleaning equipment, a reverse osmosis membrane 31 is arranged on the inner side of the first filter cavity 3, the surface of the reverse osmosis membrane 31 is connected with a water inlet pipe 33, the lower end of the water inlet pipe 33 is connected, tap water is conveyed into the reverse osmosis membrane 31 through the water inlet pipe 33 and is filtered by the reverse osmosis membrane 31, generated pure water is discharged into the second filter chamber 4 downwards through the water guide pipe 16, generated concentrated water is discharged into the first filter chamber 3 through the concentrated water pipe 32 and then is discharged into the recovery chamber 6 through the communicating pipe 17 for collection, so that the clothes are used for mopping the floor, and the water guide pipe 16 is connected between the first filter chamber 3 and the second filter chamber 4.

Referring to fig. 1, a filter element 41 is installed inside the second filter chamber 4, the filter element 41 is made of fiber activated carbon or an ultrafiltration membrane, pure water filtered by the reverse osmosis membrane 31 is discharged into the second filter chamber 4 through the water conduit 16, then the pure water is permeated and filtered from the outside to the inside of the filter element 41, and finally discharged into the pure water chamber 5 through the pure water pipe 51, and the inner wall of the pure water chamber 5 at the lower end of the filter element 41 is connected with the pure water pipe 51.

Referring to fig. 1, a communication pipe 17 is connected between the first filter chamber 3 and the recovery chamber 6, and concentrated water generated after filtration by the reverse osmosis membrane 31 is discharged into the first filter chamber 3 through a concentrated water pipe 32, and then is discharged downward into the recovery chamber 6 through the communication pipe 17.

Referring to fig. 1, a core replacing cover 14 is connected to the surface of the machine body 1 in a threaded manner, when the filter element 41 needs to be replaced, the stop valve 34 is closed, water delivery into the first filter cavity 3 is stopped, then the core replacing cover 14 is rotated and disassembled, after the core replacing cover 14 is disassembled, the filter element 41 can be taken out from the inside of the second filter cavity 4 for replacement after the filter element 41 loses abutment, a first sealing gasket 15 is arranged on the lower surface of the core replacing cover 14, a second sealing gasket 42 is arranged on the inner wall of the second filter cavity 4, end covers at two ends of the filter element 41 are connected between the second sealing gasket 42 and the first sealing gasket 15 through the first sealing gasket 15 and the second sealing gasket 42, and the end covers are sealed.

Referring to fig. 1, a booster pump 21 is installed inside the tap water chamber 2, a water outlet of the booster pump 21 is connected to a booster pipe 22, one end of the booster pipe 22 is connected to a water inlet pipe 33, a stop valve 34 is closed, and the booster pump 21 increases the pressure and speed of water supplied into the water inlet pipe 33 to perform high-pressure flushing on the inside of the reverse osmosis membrane 31, so as to prevent the reverse osmosis membrane 31 from being blocked due to scale deposits inside the reverse osmosis membrane 31.

Referring to fig. 1 and 2, a stop valve 34 is mounted on the surface of the water inlet pipe 33, and the stop valve 34 is arranged to prevent the pressurizing pipe 22 from delivering water into the water inlet pipe 33 and prevent the tap water from flowing back into the tap water chamber 2 from the water inlet pipe 33 again when the pressurizing pump 21 is used for high-pressure flushing of the interior of the reverse osmosis membrane 31.

Referring to fig. 1 and 2, a check valve 23 is installed on a surface of the pressure increasing pipe 22, and the check valve 23 prevents running water from flowing backwards along the pressure increasing pipe 22 to reverse the pressure increasing pump 21, so that damage to the pressure increasing pump 21 can be effectively avoided.

The working principle of the scheme is as follows: when the device is used, tap water enters the inner side of the reverse osmosis membrane 31 through the water inlet pipe 33, the tap water is filtered through the reverse osmosis membrane 31, generated pure water is downwards discharged into the second filter cavity 4 through the water guide pipe 16, and then is filtered again through the filter element 41 and downwards discharged into the pure water cavity 5 through the pure water pipe 51, so that the filtering quality of the tap water can be effectively improved through double filtering of the reverse osmosis membrane 31 and the filter element 41; concentrated water generated by filtering through the reverse osmosis membrane 31 is discharged into the first filter chamber 3 through the concentrated water pipe 32, and because the communicating pipe 17 is connected between the first filter chamber 3 and the recovery chamber 6, the wastewater in the first filter chamber 3 is discharged into the recovery chamber 6 through the communicating pipe 17 for collection, so that the wastewater can be used later, and the waste of water resources is avoided; when the reverse osmosis membrane 31 needs to be cleaned, the stop valve 34 is closed, water in the tap water cavity 2 is pressurized by the booster pump 21 and is conveyed into the water inlet pipe 33 through the booster pipe 22, and then the reverse osmosis membrane 31 is flushed by high-pressure water flow, so that scale is prevented from appearing in the reverse osmosis membrane 31; when the filter element 41 needs to be replaced, the filter element cover 14 is rotated, the upper end of the filter element 41 loses the butt joint, and the filter element 41 can be taken out from the second filter cavity 4, so that the filter element is convenient to replace.

Claims (7)

1. The utility model provides a pure all-in-one of full room water purification, includes organism (1), its characterized in that: the utility model discloses a reverse osmosis membrane's purification machine, including organism (1), the inside of organism (1) is provided with running water chamber (2), first filter chamber (3), second filter chamber (4), pure water chamber (5) and retrieves chamber (6), the surface of organism (1) is provided with running water joint (11), pure water joint (12) and waste water joint (13), reverse osmosis membrane (31) are installed to the inboard of first filter chamber (3), the surface connection of reverse osmosis membrane (31) has inlet tube (33), the lower extreme of inlet tube (33) is connected with running water chamber (2), the surface connection of reverse osmosis membrane (31) has concentrated water pipe (32), be connected with between first filter chamber (3) and second filter chamber (4) leading water pipe (16).

2. The all-in-one machine of claim 1, which is characterized in that: the filter element (41) is arranged on the inner side of the second filter chamber (4), and the inner wall of the pure water chamber (5) at the lower end of the filter element (41) is connected with a pure water pipe (51).

3. The all-in-one machine of claim 1, which is characterized in that: a communicating pipe (17) is connected between the first filtering cavity (3) and the recovery cavity (6).

4. The all-in-one machine of claim 1, which is characterized in that: the surface threaded connection of organism (1) has traded core lid (14), trades the lower surface of core lid (14) and is provided with first sealed pad (15), the sealed pad (42) of second is installed to the inner wall of second filter chamber (4), is connected with filter core (41) between second sealed pad (42) and first sealed pad (15).

5. The all-in-one machine of claim 1, which is characterized in that: the inside of running water chamber (2) is installed with booster pump (21), and the delivery port of booster pump (21) is connected with pressure boost pipe (22), and the one end of pressure boost pipe (22) is connected with inlet tube (33).

6. The all-in-one machine of claim 1, which is characterized in that: the surface of the water inlet pipe (33) is provided with a stop valve (34).

7. The all-in-one machine of claim 5, which is characterized in that: a check valve (23) is mounted on the surface of the pressure increasing pipe (22).

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