CN215855607U - Heat purification all-in-one machine - Google Patents
Heat purification all-in-one machine Download PDFInfo
- Publication number
- CN215855607U CN215855607U CN202122434177.0U CN202122434177U CN215855607U CN 215855607 U CN215855607 U CN 215855607U CN 202122434177 U CN202122434177 U CN 202122434177U CN 215855607 U CN215855607 U CN 215855607U
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- water
- valve
- filter element
- stage filter
- electromagnetic valve
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- 238000000746 purification Methods 0.000 title abstract description 17
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims abstract description 254
- 239000002351 wastewater Substances 0.000 claims abstract description 43
- 239000000523 sample Substances 0.000 claims abstract description 32
- 238000005485 electric heating Methods 0.000 claims abstract description 28
- 238000010438 heat treatment Methods 0.000 claims abstract description 23
- 239000008236 heating water Substances 0.000 claims 1
- 238000001223 reverse osmosis Methods 0.000 description 7
- 239000003651 drinking water Substances 0.000 description 6
- 235000020188 drinking water Nutrition 0.000 description 6
- 239000002699 waste material Substances 0.000 description 5
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000001914 filtration Methods 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 238000000034 method Methods 0.000 description 1
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Abstract
The utility model discloses a heat-purifying integrated machine, which comprises a water inlet electromagnetic valve, wherein the water inlet electromagnetic valve is connected with a water inlet TDS probe, a first-stage filter element is connected with a booster pump, a second-stage filter element is respectively connected with a water outlet TDS probe and a first waste water valve, a third-stage filter element is connected with a check valve, the check valve is connected with a high-voltage switch, a normal-temperature water outlet electromagnetic valve is connected with a cold-hot water integrated water outlet, the cold-hot water integrated water outlet is arranged at one end of an electric heating faucet, a heating body is arranged in the electric heating faucet, when hot water is discharged, cold water in a pipeline of the electric heating faucet is firstly discharged, hot water is not hot or has large temperature error, instant heating is ensured, cold water and hot water of the electric heating faucet are separated, cold-hot water and hot water are prevented from being mixed, the water quality value detected by the water inlet TDS probe, the amount of waste water is intelligently adjusted, and the waste water ratio is adjustable, the most reliable and efficient working state of the water purification system is ensured.
Description
Technical Field
The utility model relates to the technical field of water dispensers, in particular to a heat purification all-in-one machine.
Background
Domestic water purifier also calls the water purification fast hot drinking water all-in-one, be referred to as clean hot all-in-one for short, it prepares equipment to integrate filter core and fast hot device's pure water usually, be used for purifying and filtering and heating the raw water, provide cold and hot drinking water, satisfy people daily needs, current clean hot all-in-one is usually with the heating member design in the inside of machine, cold water FIFO in the tap pipeline when going out hot water, lead to the phenomenon that hot water is not hot or temperature error is big, tap hot and cold water is integrative, cold and hot muddy water easily, and can not detect the quality of water value, unable adjustment waste water volume, make the water purification system of water purification all-in-one safe and reliable inadequately.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a heat-purifying all-in-one machine to solve the problems in the background technology.
In order to achieve the purpose, the utility model provides the following technical scheme: the utility model provides a net hot all-in-one, includes the solenoid valve of intaking, the solenoid valve of intaking is connected with the TDS probe of intaking, the TDS probe connection of intaking has first order filter core, first order filter core is connected with the booster pump, the booster pump is connected with the second grade filter core, the second grade filter core is connected with out water TDS probe and first waste water valve respectively, it has third level filter core to go out water TDS probe connection, third level filter core is connected with the check valve, the check valve is connected with high-voltage switch, first waste water valve is connected with the second waste water valve, high-voltage switch is connected with normal atmospheric temperature water outlet solenoid valve, normal atmospheric temperature water outlet solenoid valve is connected with the integrative delivery port of cold and hot water, the integrative delivery port of cold and hot water is seted up in electric heat tap's one end, electric heat tap's inside is equipped with the heating member.
As a preferred technical scheme of the utility model, the high-voltage switch is also connected with a pure water tank water inlet electromagnetic valve, the pure water tank water inlet electromagnetic valve is connected with a pure water tank, two ends of one side of the pure water tank are respectively connected with a pure water tank high water level sensor and a pure water tank low water level sensor, and the other side of the pure water tank is connected with a diaphragm water pump.
As a preferred technical scheme of the present invention, the first stage filter element is further connected to an output end of the pressure release valve, the high-pressure switch is further connected to an input end of a second flowmeter, the normal-temperature water outlet electromagnetic valve is further connected to an output end of the second flowmeter, the second flowmeter is further connected to a flow control pump, and the flow control pump is connected to a warm water outlet electromagnetic valve.
As a preferable technical scheme of the utility model, the third stage filter element is also connected with the input end of the first flowmeter, and the check valve is also connected with the output end of the first flowmeter.
In a preferred embodiment of the present invention, the second waste water valve is connected to a waste water outlet.
Compared with the prior art, the utility model has the beneficial effects that:
according to the utility model, the heating body is designed inside the electric heating faucet, compared with the heating body designed inside the machine, when hot water is discharged, cold water in a pipeline of the electric heating faucet is firstly discharged, hot water is not hot or the temperature error is large, instant heating is ensured, cold water and hot water of the electric heating faucet are separated, cold water and hot water are prevented from being mixed, the first waste water valve and the second waste water valve can pass through the water quality value detected by the water inlet TDS probe, the waste water quantity is intelligently adjusted, the waste water ratio is adjustable, and the most reliable and efficient working state of a water purification system is ensured.
Drawings
FIG. 1 is a schematic structural view of the present invention as a whole;
fig. 2 is a schematic structural diagram of the utility model with a water tank.
In the figure: 1. a water inlet electromagnetic valve; 2. a water inlet TDS probe; 3. a first stage filter element; 4. a booster pump; 5. a second stage filter element; 6. a TDS probe of the effluent; 7. a third stage filter element; 8. a first flow meter; 9. a check valve; 10. a high voltage switch; 11. a first waste valve; 12. a second waste water valve; 13. a water inlet electromagnetic valve of the pure water tank; 14. a pure water tank; 15. a diaphragm water pump; 16. a high water level sensor of the pure water tank; 17. a low water level sensor of the pure water tank; 18. a normal temperature water outlet electromagnetic valve; 19. a heating body; 20. a cold and hot water integrated water outlet; 21. an electric heating faucet; 22. a pressure relief valve; 23. a flow control pump; 24. a warm water outlet electromagnetic valve; 25. a second flow meter.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Example 1
Referring to fig. 1, the utility model provides a heat-purifying all-in-one machine, which comprises a water inlet electromagnetic valve 1, wherein the water inlet electromagnetic valve 1 is connected with a water inlet TDS probe 2, the water inlet TDS probe 2 is connected with a first-stage filter element 3, the first-stage filter element 3 is connected with a booster pump 4, the booster pump 4 is connected with a second-stage filter element 5, the second-stage filter element 5 is respectively connected with a water outlet TDS probe 6 and a first waste water valve 11, the water outlet TDS probe 6 is connected with a third-stage filter element 7, the third-stage filter element 7 is connected with a check valve 9, the check valve 9 is connected with a high-pressure switch 10, the first waste water valve 11 is connected with a second waste water valve 12, the high-pressure switch 10 is connected with a normal-temperature water outlet electromagnetic valve 18, the normal-temperature water outlet electromagnetic valve 18 is connected with a cold-hot water integrated water outlet 20, the cold-hot water integrated water outlet 20 is arranged at one end of an electric heating faucet 21, and a heating body 19 is arranged inside the electric heating faucet 21.
Preferably, the high-voltage switch 10 is further connected to a pure water tank inlet electromagnetic valve 13, the pure water tank inlet electromagnetic valve 13 is connected to a pure water tank 14, two ends of one side of the pure water tank 14 are respectively connected to a pure water tank high water level sensor 16 and a pure water tank low water level sensor 17, and the other side of the pure water tank 14 is connected to a diaphragm water pump 15.
Preferably, the third stage filter element 7 is further connected with an input end of the first flowmeter 8, and the check valve 9 is further connected with an output end of the first flowmeter 8.
Preferably, the second waste valve 12 is connected to a waste outlet.
When the water purifier is used specifically, a water inlet electromagnetic valve 1 is connected with a water inlet TDS probe 2, the water inlet TDS probe 2 is connected with a first-stage filter element 3, the first-stage filter element 3 is connected with a booster pump 4, the booster pump 4 is connected with a second-stage filter element 5, the second-stage filter element 5 is respectively connected with a water outlet TDS probe 6 and a first waste water valve 11, a water outlet TDS probe 6 is connected with a third-stage filter element 7, the third-stage filter element 7 is connected with a check valve 9, the check valve 9 is connected with a high-pressure switch 10, the first waste water valve 11 is connected with a second waste water valve 12, the second waste water valve 12 is connected with a waste water outlet, the high-pressure switch 10 is connected with a normal-temperature water outlet electromagnetic valve 18, the normal-temperature water outlet electromagnetic valve 18 is connected with a cold and hot water integrated water outlet 20, a heating body 19 is arranged inside an electric heating faucet 21, the high-pressure switch 10 is further connected with a pure water tank water inlet electromagnetic valve 13, the pure water tank inlet electromagnetic valve 13 is connected with a pure water tank 14, the two ends of one side of a pure water tank 14 are respectively connected with a pure water tank high water level sensor 16 and a pure water tank low water level sensor 17, the other side of the pure water tank 14 is connected with a diaphragm water pump 15, a third-stage filter element 7 is also connected with the input end of a first flow meter 8, a check valve 9 is also connected with the output end of the first flow meter 8, when a user needs normal-temperature direct drinking water, the user operates an electric heating faucet 21 to produce normal-temperature water, a normal-temperature water outlet electromagnetic valve 18 is opened, a high-pressure switch 10 is closed to start water production of a reverse osmosis water purification system, the normal-temperature water flows out through a cold water port of a cold and hot water integrated water outlet 20, when the user operates the electric heating faucet 21 to close the normal-temperature direct drinking water, the normal-temperature water outlet electromagnetic valve 18 is closed, the high-pressure switch 10 is disconnected, and the reverse osmosis water purification system stops working; when a user needs warm water and hot water, the user operates the electric heating faucet 21 to output warm water and hot water, the diaphragm water pump 15 is started to pump out pure water in the pure water tank 14 at a certain water flow speed, the pure water flows through the heating body 19 for heating and then flows out from a hot water port of the cold and hot water integrated water outlet 20, when the water level in the pure water tank 14 reaches the pure water tank low-water-level sensor 17, the pure water tank water inlet electromagnetic valve 13 is opened, the high-pressure switch 10 is closed to start the reverse osmosis water purification system to replenish water to the pure water tank 14, when the water level in the pure water tank 14 reaches the pure water tank high-level sensor 16, the pure water tank water inlet electromagnetic valve 13 is closed, the high-pressure switch 10 is opened, the reverse osmosis water purification system stops working, the water replenishing action of the pure water tank 14 is completed, the heating body 19 is designed inside the electric heating faucet 21, compared with the heating body 19 designed inside the machine, and cold water in the pipeline of the electric heating faucet 21 is firstly discharged when hot water, the phenomenon that hot water is not hot or temperature error is big ensures to use instant heating, and electric heat tap 21's hot and cold water is separately, has avoided cold and hot water to mix, and first waste water valve 11 and second waste water valve 12 can be through the quality of water value that intake TDS probe 2 detected to carry out intelligent regulation waste water volume, accomplish that waste water is than adjustable, guarantee the most reliable efficient operating condition of water purification system.
Example 2
Please refer to fig. 2, a heat-purifying integrated machine, which includes a water inlet solenoid valve 1, the water inlet solenoid valve 1 is connected with a water inlet TDS probe 2, the water inlet TDS probe 2 is connected with a first-stage filter element 3, the first-stage filter element 3 is connected with a booster pump 4, the booster pump 4 is connected with a second-stage filter element 5, the second-stage filter element 5 is respectively connected with a water outlet TDS probe 6 and a first waste water valve 11, the water outlet TDS probe 6 is connected with a third-stage filter element 7, the third-stage filter element 7 is connected with a check valve 9, the check valve 9 is connected with a high-voltage switch 10, the first waste water valve 11 is connected with a second waste water valve 12, the high-voltage switch 10 is connected with a normal-temperature water outlet solenoid valve 18, the normal-temperature water outlet solenoid valve 18 is connected with a cold-hot water outlet 20, the cold-hot water outlet 20 is arranged at one end of an electric heating faucet 21, and a heating body 19 is arranged inside the electric heating faucet 21.
Preferably, the first-stage filter element 3 is further connected with an output end of the pressure release valve 22, the high-pressure switch 10 is further connected with an input end of a second flow meter 25, the normal-temperature water outlet electromagnetic valve 18 is further connected with an output end of the second flow meter 25, the second flow meter 25 is further connected with a flow control pump 23, and the flow control pump 23 is connected with a hot and warm water outlet electromagnetic valve 24.
Preferably, the second waste valve 12 is connected to a waste outlet.
When the water heater is used specifically, the water inlet electromagnetic valve 1 is connected with the water inlet TDS probe 2, the water inlet TDS probe 2 is connected with the first-stage filter element 3, the first-stage filter element 3 is connected with the booster pump 4, the booster pump 4 is connected with the second-stage filter element 5, the second-stage filter element 5 is respectively connected with the water outlet TDS probe 6 and the first waste water valve 11, the water outlet TDS probe 6 is connected with the third-stage filter element 7, the third-stage filter element 7 is connected with the check valve 9, the check valve 9 is connected with the high-pressure switch 10, the first waste water valve 11 is connected with the second waste water valve 12, the second waste water valve 12 is connected with the waste water outlet, the high-pressure switch 10 is connected with the normal-temperature water outlet electromagnetic valve 18, the normal-temperature water outlet electromagnetic valve 18 is connected with the cold and hot water integrated water outlet 20, the heating body 19 is arranged inside the electric heating faucet 21, the first-stage filter element 3 is also connected with the output end of the pressure relief valve 22, the high-pressure switch 10 is also connected with the input end of the second flowmeter 25, the normal temperature water outlet electromagnetic valve 18 is also connected with the output end of a second flow meter 25, the second flow meter 25 is also connected with a flow control pump 23, the flow control pump 23 is connected with a warm water outlet electromagnetic valve 24, when a user needs normal temperature direct drinking water, the user operates the electric heating faucet 21 to produce normal temperature water, the normal temperature water outlet electromagnetic valve 18 is opened, the high-pressure switch 10 is closed to start the reverse osmosis water purification system to produce water, the normal temperature water flows out through a cold water port of the cold and hot water integrated water outlet 20, when the user operates the electric heating faucet 21 to close the normal temperature direct drinking water, the normal temperature water outlet electromagnetic valve 18 is closed, the high-pressure switch 10 is disconnected, the reverse osmosis water purification system stops working, when the user needs warm and hot water, the user operates the electric heating faucet 21 to produce warm and hot water, the warm water outlet electromagnetic valve 24 is opened, the flow control pump 23 regulates the water quantity to flow out at a certain water flow speed, the water flows through the heating body 19 to be heated, and then flows out from the hot water port of the cold and hot water integrated water outlet 20, in the process, the flow control pump 23 adjusts the water quantity to flow out at a certain water flow speed, if the water is not fully opened, the water pressure of the water channel rises, when a certain high pressure is reached, the pressure release valve 22 can release part of the high pressure to protect the safety of the water channel, when a user operates the electric heating faucet 21 to close warm water and hot water, the warm water and hot water outlet electromagnetic valve 24 is closed, the second flow meter 25 has no signal output, namely, the reverse osmosis water purification system stops working, by designing the heating body 19 in the electric heating faucet 21, compared with the heating body 19 in the machine, when hot water is discharged, the cold water in the pipeline of the electric heating faucet 21 is firstly discharged, the phenomenon that the hot water is not hot or the temperature error is large is ensured, the instant heating is carried out immediately, the cold water and the hot water of the electric heating faucet 21 are separated, the cold water and the hot water are avoided, the waste water mixing amount of the first waste water valve 11 and the second waste water valve 12 can be intelligently adjusted through the water quality value detected by the water inlet TDS probe 2, the wastewater ratio is adjustable, and the most reliable and efficient working state of the water purification system is ensured.
Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the utility model can be made, and equivalents and modifications of some features of the utility model can be made without departing from the spirit and scope of the utility model.
Claims (5)
1. The utility model provides a net hot all-in-one, includes water inlet solenoid valve (1), its characterized in that: the water inlet electromagnetic valve (1) is connected with a water inlet TDS probe (2), the water inlet TDS probe (2) is connected with a first-stage filter element (3), the first-stage filter element (3) is connected with a booster pump (4), the booster pump (4) is connected with a second-stage filter element (5), the second-stage filter element (5) is respectively connected with a water outlet TDS probe (6) and a first waste water valve (11), the water outlet TDS probe (6) is connected with a third-stage filter element (7), the third-stage filter element (7) is connected with a check valve (9), the check valve (9) is connected with a high-pressure switch (10), the first waste water valve (11) is connected with a second waste water valve (12), the high-pressure switch (10) is connected with a normal-temperature water outlet electromagnetic valve (18), the normal-temperature water outlet electromagnetic valve (18) is connected with a cold-hot water integrated water outlet (20), and cold-hot water integrated water outlet (20) is arranged at one end of an electric heating water tap (21), and a heating body (19) is arranged inside the electric heating faucet (21).
2. A net heat all-in-one machine according to claim 1, wherein: the high-voltage switch (10) is further connected with a pure water tank water inlet electromagnetic valve (13), the pure water tank water inlet electromagnetic valve (13) is connected with a pure water tank (14), two ends of one side of the pure water tank (14) are respectively connected with a pure water tank high-water-level sensor (16) and a pure water tank low-water-level sensor (17), and the other side of the pure water tank (14) is connected with a diaphragm water suction pump (15).
3. A net heat all-in-one machine according to claim 1, wherein: the first-stage filter element (3) is connected with the output end of the pressure release valve (22), the high-pressure switch (10) is connected with the input end of the second flowmeter (25), the normal-temperature water outlet electromagnetic valve (18) is connected with the output end of the second flowmeter (25), the second flowmeter (25) is connected with the flow control pump (23), and the flow control pump (23) is connected with the warm water outlet electromagnetic valve (24).
4. A net heat all-in-one machine according to claim 1, wherein: and the third stage filter element (7) is also connected with the input end of the first flowmeter (8), and the check valve (9) is also connected with the output end of the first flowmeter (8).
5. A net heat all-in-one machine according to claim 1, wherein: the second waste water valve (12) is connected with a waste water outlet.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202122434177.0U CN215855607U (en) | 2021-10-09 | 2021-10-09 | Heat purification all-in-one machine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202122434177.0U CN215855607U (en) | 2021-10-09 | 2021-10-09 | Heat purification all-in-one machine |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN215855607U true CN215855607U (en) | 2022-02-18 |
Family
ID=80259213
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202122434177.0U Expired - Fee Related CN215855607U (en) | 2021-10-09 | 2021-10-09 | Heat purification all-in-one machine |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN215855607U (en) |
-
2021
- 2021-10-09 CN CN202122434177.0U patent/CN215855607U/en not_active Expired - Fee Related
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Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| GR01 | Patent grant | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20220218 |