CN212198613U - Water temperature adjusting system with built-in cold water tank water purification system - Google Patents
Water temperature adjusting system with built-in cold water tank water purification system Download PDFInfo
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- CN212198613U CN212198613U CN202020627094.6U CN202020627094U CN212198613U CN 212198613 U CN212198613 U CN 212198613U CN 202020627094 U CN202020627094 U CN 202020627094U CN 212198613 U CN212198613 U CN 212198613U
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Abstract
The utility model discloses a water temperature adjusting system of a water purifying system with a built-in cold water tank, which comprises a water treatment module and a cold water system, wherein the water treatment module comprises a water storage tank, the water storage tank is connected with a pretreatment filter element through a water pipe, and the water outlet end of the pretreatment filter element is connected with a water production filter element through a booster pump; the water production filter element is provided with a water production port and a return pipeline, the return pipeline is connected with the water storage tank and is provided with a combined valve; the cold water system comprises a cold water tank, and a first temperature sensor is arranged in the cold water tank; a semiconductor refrigeration module is further arranged between the water treatment module and the cold water system, the refrigeration end of the semiconductor refrigeration module is connected with the cold water tank, and the heating end of the semiconductor refrigeration module is connected with the return pipeline. The utility model discloses not only can improve the refrigeration speed of cold water storage cistern in the water purification system by a wide margin to can also reach energy saving and consumption reduction's purpose to improving the radiating effect.
Description
Technical Field
The utility model relates to a water purification technical field, in particular to built-in cold water storage cistern water purification system's temperature governing system.
Background
The water purifier is also called water purifier and water quality purifier, and is water treatment equipment for deeply filtering and purifying water according to the use requirement of water. In present purifier, produce water through ultrafiltration, micro-filtration, reverse osmosis membrane mostly to can set up a cold water storage cistern and deposit water, be used for exporting cold water. And the refrigeration of cold water tank relies on the cold side of semiconductor refrigeration module to cool down and realizes cryogenic purpose, and the heat dissipation of semiconductor refrigeration module mainly relies on natural heat dissipation, but this kind of radiating efficiency is low, can increase the refrigeration power of semiconductor refrigeration module to if unable timely radiating, can cause the easy ageing problem of pipeline, have the potential safety hazard.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a temperature governing system of built-in cold water storage cistern water purification system. The utility model discloses not only can improve the refrigeration speed of cold water storage cistern in the water purification system by a wide margin to can improve the radiating effect, can also reach energy saving and consumption reduction's purpose.
The technical scheme of the utility model: a water temperature adjusting system of a water purifying system with a built-in cold water tank comprises a water treatment module and a cold water system, wherein the water treatment module comprises a water storage tank, the water storage tank is connected with a pretreatment filter element through a water pipe, and the water outlet end of the pretreatment filter element is connected with a water production filter element through a booster pump; the water production filter element is provided with a water production port and a return pipeline, the return pipeline is connected with the water storage tank and is provided with a combined valve; the cold water system comprises a cold water tank, and a first temperature sensor is arranged in the cold water tank; a semiconductor refrigeration module is further arranged between the water treatment module and the cold water system, the refrigeration end of the semiconductor refrigeration module is connected with the cold water tank, and the heating end of the semiconductor refrigeration module is connected with the return pipeline.
Foretell built-in cold water tank water purification system's temperature governing system, semiconductor refrigeration module include the semiconductor refrigeration piece, the cold side laminating of semiconductor refrigeration piece has the heat transfer module, the hot side laminating of semiconductor refrigeration piece has the heat transfer module.
In the water temperature adjusting system with the built-in cold water tank water purification system, the cold exchange module and the heat exchange module are both of hollow flat plate structures and are provided with water inlets and water outlets.
In the water temperature adjusting system with the built-in cold water tank water purification system, a circulating pump is arranged at a water outlet of the cold water tank, and the circulating pump is connected with the cold exchange module through a circulating pipeline and flows back to the cold water tank; the return pipeline is connected with the heat exchange module; and a second temperature sensor is also arranged in the water storage tank.
In the water temperature regulating system with the built-in cold water tank water purification system, the semiconductor refrigeration module comprises a semiconductor refrigeration sheet, the cold side of the semiconductor refrigeration sheet is connected with a cold guide sheet built in the cold water tank, and the hot side of the semiconductor refrigeration sheet is attached with the heat exchange module; the return line is connected with the heat exchange module, and a second temperature sensor is further arranged in the water storage tank.
Compared with the prior art, the utility model closes the combination valve, the return pipeline is in a closed state at the moment, the booster pump pushes the water in the water storage tank to enter the water production filter element after passing through the pretreatment filter element, and the water is produced by the water production filter element and flows out from the water production port; when a first temperature sensor in the cold water tank detects that the stored water in the cold water tank reaches a set temperature, the combination valve and the semiconductor refrigeration module are opened, the refrigeration end of the semiconductor refrigeration module refrigerates the stored water in the cold water tank, meanwhile, the return pipeline is in an open state, the booster pump pushes the water in the water storage tank to enter the water production filter element after passing through the pretreatment filter element, wherein the concentrated water of the water production filter element flows back to the water storage tank through the return pipeline, heat exchange is carried out between the concentrated water and the heating end of the semiconductor refrigeration module in the backflow process, heat generated during refrigeration of the semiconductor refrigeration module is taken away, and therefore the refrigeration speed of the cold water tank is accelerated. From this the utility model discloses can improve the refrigeration speed of cold water storage cistern in the water purification system by a wide margin to can carry out recycle with the heat of semiconductor refrigeration module in time, improve the radiating efficiency on the one hand, prevent that parts such as pipeline are ageing, improve water purification system's life, on the other hand can also be used for preheating of water treatment module with the heat collection, improves basic temperature, the follow-up formation hot water of being convenient for, energy saving and consumption reduction improves energy utilization. Furthermore, the utility model discloses in still set up second temperature sensor in the storage water tank for detect the temperature in the storage water tank, when the temperature in the storage water tank reaches the settlement temperature, close combination valve and semiconductor refrigeration module, stop the cooling of cold water storage cistern, reduce the energy consumption.
Drawings
Fig. 1 is a schematic structural view of embodiment 1 of the present invention;
fig. 2 is a schematic structural view of embodiment 2 of the present invention.
1. A water storage tank; 2. pretreating a filter element; 3. a booster pump; 4. a water producing filter element; 5. a water producing port; 6. a return line; 7. a combination valve; 8. a cold water tank; 9. a first temperature sensor; 10. a semiconductor refrigeration module; 11. a semiconductor refrigeration sheet; 12. a cold exchange module; 13. a heat exchange module; 14. a circulation pump; 15. a circulation line; 16. a second 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 1: a water temperature adjusting system of a water purifying system with a built-in cold water tank 8 is shown in figure 1 and comprises a water treatment module and a cold water system, wherein the water treatment module comprises a water storage tank 1, the water storage tank 1 is connected with a pretreatment filter element 2 through a water pipe, and the pretreatment filter element 2 is an RO reverse osmosis pretreatment filter element 2 sold conventionally and can be obtained commercially; the water outlet end of the pretreatment filter element 2 is connected with a water production filter element 4 through a booster pump 3, and the water production filter element 4 is a reverse osmosis membrane water production filter element 4 and can be obtained through market selling; the water production filter element 4 is provided with a water production port 5 and a return pipeline 6, the return pipeline 6 is connected with the water storage tank 1, and a combination valve 7 is arranged; the cold water system comprises a cold water tank 8, and a first temperature sensor 9 is arranged in the cold water tank 8; a semiconductor refrigeration module 10 is further arranged between the water treatment module and the cold water system, a refrigeration end of the semiconductor refrigeration module 10 is connected with a cold water tank 8, and a heating end of the semiconductor refrigeration module 10 is connected with a return pipeline 6, specifically, the semiconductor refrigeration module 10 comprises a semiconductor refrigeration sheet 11, a cold exchange module 12 is attached to a cold side of the semiconductor refrigeration sheet 11, and a heat exchange module 13 is attached to a hot side of the semiconductor refrigeration sheet 11; the cold exchanging module 12 and the heat exchanging module 13 are both of hollow flat plate structures and are provided with a water inlet and a water outlet; a circulating pump 14 is arranged at the water outlet of the cold water tank 8, and the circulating pump 14 is connected with the water inlet of the cold exchange module 12 through a circulating pipeline 15 and flows back to the cold water tank 8 through a water storage opening; the return pipeline 6 is connected with a water inlet of the heat exchange module 13 and returns to the water storage tank 1 through a water storage opening; a second temperature sensor 16 is also arranged in the water storage tank 1.
The water temperature adjusting system is used for adjusting the water temperature, the combination valve 7 is closed, the return pipeline 6 is in a closed state, the booster pump 3 pushes the water in the water storage tank 1 to pass through the pretreatment filter element 2 and then enter the water production filter element 4, and the water production filter element 4 produces water and flows out from the water production port 5; when a first temperature sensor 9 in a cold water tank 8 detects that water stored in the cold water tank 8 reaches a set temperature, a combination valve 7 and a semiconductor refrigeration module 10 are opened, the refrigeration end of the semiconductor refrigeration module 10 refrigerates the water stored in the cold water tank 8, meanwhile, a return pipeline 6 is in an open state, a booster pump 3 pushes water in a water storage tank 1 to enter a water production filter element 4 after passing through a pretreatment filter element 2, concentrated water of the water production filter element 4 flows back to the water storage tank 1 through the return pipeline 6, heat exchange is carried out with a heating end of the semiconductor refrigeration module 10 in the process of backflow, heat generated in the refrigeration of the semiconductor refrigeration module 10 is taken away, the refrigeration speed of the cold water tank 8 is accelerated, and heat of the semiconductor refrigeration module can be recycled in time, on one hand, the heat dissipation efficiency is improved, the aging of components such as pipelines is prevented, and the service life of a water purification, on the other hand, the heat can be collected and used for preheating the water treatment module, so that the basic temperature is improved, hot water can be conveniently formed subsequently, the energy is saved, the consumption is reduced, and the energy utilization rate is improved.
Further, a second temperature sensor 16 in the water storage tank 1 is used for detecting the water temperature in the water storage tank 1, and when the water temperature in the water storage tank 1 reaches a set temperature, the combination valve 7 and the semiconductor refrigeration module 10 are closed, and the cooling of the cold water tank 8 is stopped.
Example 2: a water temperature adjusting system of a water purifying system with a built-in cold water tank 8 is shown in figure 2 and comprises a water treatment module and a cold water system, wherein the water treatment module comprises a water storage tank 1, the water storage tank 1 is connected with a pretreatment filter element 2 through a water pipe, and the pretreatment filter element 2 is an RO reverse osmosis pretreatment filter element 2 sold conventionally and can be obtained commercially; the water outlet end of the pretreatment filter element 2 is connected with a water production filter element 4 through a booster pump 3, and the water production filter element 4 is a reverse osmosis membrane water production filter element 4 and can be obtained through market selling; the water production filter element 4 is provided with a water production port 5 and a return pipeline 6, the return pipeline 6 is connected with the water storage tank 1, and a combination valve 7 is arranged; the cold water system comprises a cold water tank 8, and a first temperature sensor 9 is arranged in the cold water tank 8; a semiconductor refrigeration module 10 is further arranged between the water treatment module and the cold water system, a refrigeration end of the semiconductor refrigeration module 10 is connected with the cold water tank 8, a heating end of the semiconductor refrigeration module 10 is connected with the return pipeline 6, specifically, the semiconductor refrigeration module 10 comprises a semiconductor refrigeration sheet 11, a cold side of the semiconductor refrigeration sheet 11 is connected with a cold guide sheet arranged in the cold water tank 8, and a heat exchange module 13 is attached to a hot side of the semiconductor refrigeration sheet 11; the heat exchange modules 13 are all of hollow flat plate structures and are provided with water inlets and water outlets; the return pipeline 6 is connected with a water inlet of the heat exchange module 13 and returns to the water storage tank 1 through a water storage opening; a second temperature sensor 16 is also arranged in the water storage tank 1.
The combination valve 7 is closed by utilizing the water temperature regulating system of the water purifying system with the built-in cold water tank 8, the return pipeline 6 is in a closed state, the booster pump 3 pushes the water in the water storage tank 1 to pass through the pretreatment filter element 2 and then enter the water production filter element 4, and the water is produced by the water production filter element 4 and flows out from the water production port 5; when a first temperature sensor 9 in a cold water tank 8 detects that water stored in the cold water tank 8 reaches a set temperature, a combination valve 7 and a semiconductor refrigeration module 10 are opened, the refrigeration end of the semiconductor refrigeration module 10 refrigerates the water stored in the cold water tank 8, meanwhile, a return pipeline 6 is in an open state, a booster pump 3 pushes water in a water storage tank 1 to enter a water production filter element 4 after passing through a pretreatment filter element 2, concentrated water of the water production filter element 4 flows back to the water storage tank 1 through the return pipeline 6, heat exchange is carried out with a heating end of the semiconductor refrigeration module 10 in the process of backflow, heat generated in the refrigeration of the semiconductor refrigeration module 10 is taken away, the refrigeration speed of the cold water tank 8 is accelerated, and heat of the semiconductor refrigeration module can be recycled in time, on one hand, the heat dissipation efficiency is improved, the aging of components such as pipelines is prevented, and the service life of a water purification, on the other hand, the heat can be collected and used for preheating the water treatment module, so that the basic temperature is improved, hot water can be conveniently formed subsequently, the energy is saved, the consumption is reduced, and the energy utilization rate is improved.
Further, a second temperature sensor 16 in the water storage tank 1 is used for detecting the water temperature in the water storage tank 1, and when the water temperature in the water storage tank 1 reaches a set temperature, the combination valve 7 and the semiconductor refrigeration module 10 are closed, and the cooling of the cold water tank 8 is stopped.
To sum up, the utility model discloses not only can improve the refrigeration speed of cold water storage cistern in the water purification system by a wide margin to can improve the radiating effect, can also reach energy saving and consumption reduction's purpose.
Claims (5)
1. The utility model provides a water temperature governing system of built-in cold water tank water purification system which characterized in that: the device comprises a water treatment module and a cold water system, wherein the water treatment module comprises a water storage tank (1), the water storage tank (1) is connected with a pretreatment filter element (2) through a water pipe, and the water outlet end of the pretreatment filter element (2) is connected with a water production filter element (4) through a booster pump (3); the water production filter element (4) is provided with a water production port (5) and a return pipeline (6), the return pipeline (6) is connected with the water storage tank (1), and a combination valve (7) is arranged; the cold water system comprises a cold water tank (8), and a first temperature sensor (9) is arranged in the cold water tank (8); still be equipped with semiconductor refrigeration module (10) between water treatment module and the cold water system, the refrigeration end and the cold water tank (8) of semiconductor refrigeration module (10) are connected, and the end that generates heat of semiconductor refrigeration module (10) is connected with return line (6).
2. The water temperature adjusting system of a built-in cold water tank water purification system according to claim 1, wherein: the semiconductor refrigeration module (10) comprises semiconductor refrigeration sheets (11), a cold side of each semiconductor refrigeration sheet (11) is attached to a heat exchange module (12), and a hot side of each semiconductor refrigeration sheet (11) is attached to a heat exchange module (13).
3. The water temperature adjusting system of a built-in cold water tank water purification system according to claim 2, wherein: the cold exchanging module (12) and the heat exchanging module (13) are both of hollow flat plate structures and are provided with water inlets and water outlets.
4. The water temperature adjusting system of a built-in cold water tank water purification system according to claim 2, wherein: a circulating pump (14) is arranged at a water outlet of the cold water tank (8), and the circulating pump (14) is connected with the cold exchange module (12) through a circulating pipeline (15) and flows back to the cold water tank (8); the return pipeline (6) is connected with the heat exchange module (13); and a second temperature sensor (16) is also arranged in the water storage tank (1).
5. The water temperature adjusting system of a built-in cold water tank water purification system according to claim 1, wherein: the semiconductor refrigeration module (10) comprises semiconductor refrigeration sheets (11), the cold sides of the semiconductor refrigeration sheets (11) are connected with cold guide sheets (17) arranged in the cold water tank (8), and the hot sides of the semiconductor refrigeration sheets (11) are attached with the heat exchange module (13); the return pipeline (6) is connected with the heat exchange module (13), and a second temperature sensor (16) is further arranged in the water storage tank (1).
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CN111320237A (en) * | 2020-04-23 | 2020-06-23 | 南京壹净新材料科技有限公司 | Water temperature adjusting system and method of water purifying system with built-in cold water tank |
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CN111320237A (en) * | 2020-04-23 | 2020-06-23 | 南京壹净新材料科技有限公司 | Water temperature adjusting system and method of water purifying system with built-in cold water tank |
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