CN213208210U - Multi-water-quality multi-water-temperature water system - Google Patents
Multi-water-quality multi-water-temperature water system Download PDFInfo
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- CN213208210U CN213208210U CN202022257719.7U CN202022257719U CN213208210U CN 213208210 U CN213208210 U CN 213208210U CN 202022257719 U CN202022257719 U CN 202022257719U CN 213208210 U CN213208210 U CN 213208210U
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Abstract
The utility model discloses a multi-water-quality multi-water warm water system, which comprises a heating tank and an instant heating device, wherein a water inlet of the heating tank is connected with a first water path, and a first electromagnetic valve is arranged on the first water path; the water outlet of the heating tank is connected with a water outlet waterway, a hot water pump is arranged on the water outlet waterway, and the hot water pump is connected with the instant heating device through a pipeline; a bypass is connected to the first waterway, and a second electromagnetic valve is arranged on the bypass; the water outlet of the bypass is connected with a pipeline between the heating tank and the instant heating device; still be connected with the second water route on the pipeline, be equipped with the third solenoid valve on the second water route the utility model discloses can carry out the supply of the different temperatures of different quality of water, have simple structure's advantage.
Description
Technical Field
The utility model relates to a quality of water purifies technical field, in particular to many temperature water system of many water quality.
Background
The water is light and tasteless, is extremely common, but has important conditioning effect on the physiological mechanism of the human body. With the development of society, the demand of users for water is continuously increasing, it is a relatively common function to obtain water with different water qualities and different water temperatures in a conventional water purifier, but in order to meet the water demand of customers, mixed water with different water qualities and different water temperatures is often required to be provided, but a simple and practical water system is still lacked to meet the demand.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a many temperature water system of many water quality. The utility model can supply different water temperatures with different water qualities, and has the advantage of simple structure.
The technical scheme of the utility model: a multi-water-quality multi-water warm water system comprises a heating tank and an instant heating device, wherein a water inlet of the heating tank is connected with a first water path, and a first electromagnetic valve is arranged on the first water path; the water outlet of the heating tank is connected with a water outlet waterway, a hot water pump is arranged on the water outlet waterway, and the hot water pump is connected with the instant heating device through a pipeline; a bypass is connected to the first waterway, and a second electromagnetic valve is arranged on the bypass; the water outlet of the bypass is connected with a pipeline between the heating tank and the instant heating device; still be connected with the second water route on the pipeline, be equipped with the third solenoid valve on the second water route.
In the multi-water-quality multi-water-temperature system, the inner side wall of the heating tank is provided with the high liquid level sensor and the low liquid level sensor.
In the multi-water-quality multi-water-temperature system, the inner side wall of the heating tank is provided with the temperature sensor.
In the multi-water-quality multi-water-temperature system, the first water channel is used for conveying one or more of reverse osmosis membrane produced water, nanofiltration membrane produced water and ultrafiltration produced water.
In the multi-water-quality multi-water-temperature system, the second water channel is used for conveying one or more of reverse osmosis membrane produced water, nanofiltration membrane produced water, ultrafiltration produced water and tap water.
Compared with the prior art, the utility model discloses a closing of first solenoid valve, opening of second solenoid valve for the water in first water route directly flows to the terminal through instant heating device through the bypass, instant heating device can heat the water source in first water route, it is both exportable to heat to the target temperature, or not heat the first water source in first water route of direct output normal atmospheric temperature, and when first solenoid valve opened, closing of second solenoid valve, make the water in first water route get into to the heating jar, heat and keep warm by the heating jar, and through going out the hot water pump on the water route to instant heating device, instant heating device can select work or not work, the machine selection carries out further heating to the play water of heating jar, output boiling water or hot water; the utility model discloses still through the pipe connection second water route, advance the water supply at second water source by the second water route, the third solenoid valve is opened or closed in the selection of selecting chance for the water at second water source mixes with the water of depositing water or bypass in necessary form and the heating jar, also can export the water at second water source alone, satisfies the requirement of many qualities of water of many water temperatures with this, the utility model discloses simple structure, it is convenient to connect, the practicality of being convenient for. In addition, the utility model is provided with a high liquid level sensor and a low liquid level sensor in the heating tank for supplementing water to the heating tank; through setting up temperature sensor for be convenient for carry out temperature monitoring to the water of depositing in the heating cylinder.
Drawings
Fig. 1 is a schematic structural diagram of the present invention.
1. A heating tank; 2. an instantaneous heating device; 3. a first waterway; 4. a first solenoid valve; 5. a water outlet waterway; 6. a hot water pump; 7. a pipeline; 8. a bypass; 9. a second solenoid valve; 10. a second waterway; 11. a third electromagnetic valve; 12. a high level sensor; 13. a low level sensor; 14. a temperature sensor.
Detailed Description
The following description is made with reference to the accompanying drawings and examples, but not to be construed as limiting the invention.
Example (b): a multi-water-quality multi-water-temperature water system is shown in figure 1 and comprises a heating tank 1 and an instant heating device 2, wherein a water inlet of the heating tank 1 is connected with a first water path 3, and a first electromagnetic valve 4 is arranged on the first water path 3; the heating tank 1 is provided with an exhaust hole, when water is fed, the exhaust hole is used for exhausting air, the water outlet of the heating tank 1 is connected with a water outlet waterway 5, a hot water pump 6 is arranged on the water outlet waterway 5, and the hot water pump 6 is connected with the instant heating device 2 through a pipeline 7; a bypass 8 is connected to the first water path 3, and a second electromagnetic valve 9 is arranged on the bypass 8; the water outlet of the bypass 8 is connected with a pipeline 7 between the heating tank 1 and the instant heating device 2; the pipeline 7 is also connected with a second water path 10, and a third electromagnetic valve 11 is arranged on the second water path 10. The first water path 3 is used for conveying one or more of reverse osmosis membrane produced water, nanofiltration membrane produced water and ultrafiltration produced water. The second water path 10 is used for conveying one or more of reverse osmosis membrane produced water, nanofiltration membrane produced water, ultrafiltration produced water and tap water. The utility model discloses a closing of first solenoid valve 4, opening of second solenoid valve 9, make the water in first water route 3 directly flow to the terminal through instant heating device 2 through bypass 8, instant heating device 2 can heat the water source in first water route 3, it is both exportable to heat to target temperature, or not heat the first water source in first water route 3 of direct output normal atmospheric temperature, and when first solenoid valve 4 opened, closing of second solenoid valve 9, make the water in first water route 3 get into in heating tank 1, heat and keep warm by heating tank 1, and pump to instant heating device 2 through hot-water pump 6 on the water route 5, instant heating device 2 can the optional work or not work, the machine selection carries out further heating to the play water of heating tank 1, output boiling water or hot water; the utility model discloses still connect second water route 10 through pipeline 7, advance the water supply at second water source by second water route 10, the third solenoid valve 11 is opened or closed to the selection of selecting for the water at second water source mixes with the water of depositing water or bypass 8 in necessary form and heating jar 1, also can export the water at second water source alone, with this requirement of satisfying many water temperatures and water quality, the utility model discloses simple structure, convenient connection is convenient for practical.
Further, be equipped with high level sensor 12 and low level sensor 13 on the inside wall of heating jar 1, be equipped with temperature sensor 14 on the inside wall of heating jar 1. The utility model is provided with a high liquid level sensor 12 and a low liquid level sensor 13 in the heating tank 1 for supplementing water to the heating tank 1; the provision of the temperature sensor 14 facilitates temperature monitoring of the water stored in the heating tank 1.
The working principle is as follows:
by closing the first electromagnetic valve 4 and opening the second electromagnetic valve 9, the water in the first water path 3 directly flows to the terminal through the instant heating device 2 through the bypass 8, the instant heating device 2 can heat the water source in the first water path 3, the heated water can be output after being heated to a target temperature, or the first water source in the first water path 3 which is at normal temperature can be directly output without being heated, when the first electromagnetic valve 4 is opened, the second electromagnetic valve 9 is closed, the water in the first water path 3 enters the heating tank 1, the heating tank 1 is used for heating and heat preservation, the hot water pump 6 on the water outlet water path 5 is used for pumping the water to the instant heating device 2, the instant heating device 2 can be selected to work or not work, the machine is selected for further heating the outlet water of the heating tank 1, and boiling water or hot water is output; the utility model discloses still connect second water route 10 through pipeline 7, advance the water supply at second water source by second water route 10, select the selection to open or close third solenoid valve 11 for the water at second water source mixes with the water of depositing water or bypass 8 in necessary form and heating jar 1, also can export the water at second water source alone, with this requirement of satisfying many water temperatures and water quality more.
Claims (5)
1. The utility model provides a many temperature water system of many water quality, includes heating tank (1) and instant heating device (2), its characterized in that: a water inlet of the heating tank (1) is connected with a first water channel (3), and a first electromagnetic valve (4) is arranged on the first water channel (3); a water outlet of the heating tank (1) is connected with a water outlet waterway (5), a hot water pump (6) is arranged on the water outlet waterway (5), and the hot water pump (6) is connected with the instant heating device (2) through a pipeline (7); a bypass (8) is connected to the first water path (3), and a second electromagnetic valve (9) is arranged on the bypass (8); the water outlet of the bypass (8) is connected with a pipeline (7) between the heating tank (1) and the instant heating device (2); the pipeline (7) is also connected with a second water channel (10), and a third electromagnetic valve (11) is arranged on the second water channel (10).
2. A multiple water quality multiple water temperature water system as claimed in claim 1 wherein: and a high liquid level sensor (12) and a low liquid level sensor (13) are arranged on the inner side wall of the heating tank (1).
3. A multiple water quality multiple water temperature water system as claimed in claim 1 wherein: and a temperature sensor (14) is arranged on the inner side wall of the heating tank (1).
4. A multiple water quality multiple water temperature water system as claimed in claim 1 wherein: the first water path (3) is used for conveying one or more of reverse osmosis membrane produced water, nanofiltration membrane produced water and ultrafiltration produced water.
5. A multiple water quality multiple water temperature water system as claimed in claim 1 wherein: the second water path (10) is used for conveying one or more of reverse osmosis membrane produced water, nanofiltration membrane produced water, ultrafiltration produced water and tap water.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022257719.7U CN213208210U (en) | 2020-10-12 | 2020-10-12 | Multi-water-quality multi-water-temperature water system |
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CN202022257719.7U CN213208210U (en) | 2020-10-12 | 2020-10-12 | Multi-water-quality multi-water-temperature water system |
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CN213208210U true CN213208210U (en) | 2021-05-14 |
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CN202022257719.7U Active CN213208210U (en) | 2020-10-12 | 2020-10-12 | Multi-water-quality multi-water-temperature water system |
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2020
- 2020-10-12 CN CN202022257719.7U patent/CN213208210U/en active Active
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