CN216166874U - Heating device capable of boiling and cooling boiled water - Google Patents

Abstract

The utility model relates to the technical field of heating devices, in particular to a heating device capable of boiling and cooling boiled water, which comprises a first water tank for storing cold water, a second water tank for transferring, a heating component for heating water, a cooling component for exchanging heat and cooling water, and a liquid supply nozzle for supplying boiled water or cooled boiled water; the second water tank is connected between the first water tank and the heating assembly, and a first water pump is arranged between a second water outlet of the second water tank and a heating water inlet of the heating assembly; the heating water outlet of the heating assembly is connected with the cooling water inlet of the cooling assembly, and the cooling water outlet of the cooling assembly is connected with the liquid supply nozzle; a second water pump is arranged between the first water outlet of the first water tank and the heat exchange water inlet of the cooling assembly, and the heat exchange water outlet of the cooling assembly is connected with the recovery water inlet of the second water tank; the utility model can quickly obtain boiled water at any time and cool boiled water at any time, and can be well applied to daily life.

Description

Heating device capable of boiling and cooling boiled water

The technical field is as follows:

the utility model relates to the technical field of heating devices, in particular to a heating device capable of being boiled and cooled.

Background art:

the cold boiled water is water which is boiled and then cooled to be suitable for drinking or at a specified temperature, and as tap water which is not boiled and boiled for sterilization is not beneficial to body health when being directly drunk and boiled water which is just boiled cannot be directly drunk, most of drinking water is cold boiled water in daily life at present.

At present, in daily life, most of the methods are to obtain the cool boiled water by heating the water to boil and then cooling the water to a suitable drinking temperature through heat exchange with the room temperature and slowly waiting for the boiling water, and the way needs a long waiting time, so that the cool boiled water for drinking cannot be obtained quickly at any time.

The utility model has the following contents:

the utility model aims to provide a heating device capable of boiling and cooling boiled water, which can quickly obtain boiled water and cooled boiled water at any time and is well suitable for daily life.

In order to achieve the purpose, the utility model adopts the technical scheme that: a heating device capable of boiling water or cool boiled water comprises a first water tank for storing cold water, a second water tank for transferring, a heating component for heating water, a cooling component for exchanging heat and cooling water, and a liquid supply nozzle for supplying boiled water or cool boiled water; the second water tank is connected between the first water tank and the heating assembly, and a first water pump is arranged between a second water outlet of the second water tank and a heating water inlet of the heating assembly; the heating water outlet of the heating assembly is connected with the cooling water inlet of the cooling assembly, and the cooling water outlet of the cooling assembly is connected with the liquid supply nozzle; and a second water pump is arranged between the first water outlet of the first water tank and the heat exchange water inlet of the cooling assembly, and the heat exchange water outlet of the cooling assembly is connected with the recovery water port of the second water tank.

The further improvement of the scheme is that the cooling assembly comprises a cooling pipeline and a cooling cylinder sleeved on the cooling pipeline, a cooling water inlet and a cooling water outlet are respectively arranged at two ends of the cooling pipeline, a heat exchange water inlet is arranged at the bottom of the cooling cylinder, and a heat exchange water outlet is arranged at the top of the cooling cylinder.

The utility model further improves the scheme that the water pump device further comprises a control module, and the first water pump and the second water pump are respectively and electrically connected with the control module.

In a further improvement of the above scheme, the present invention further includes a first temperature sensor for monitoring a temperature of the liquid in the heating assembly, and a second temperature sensor for monitoring a temperature of the liquid in the cooling assembly, wherein the first temperature sensor and the second temperature sensor are electrically connected to the control module, respectively.

The further improvement to above-mentioned scheme does, heating element includes basin casing, thick film hot plate, and heating water inlet, heating delivery port set up respectively on the basin casing, and the thick film hot plate includes the base plate, sets up in the electrical heating membrane of base plate bottom, and the electrical heating membrane is connected with the control module electricity.

The further improvement of the scheme is that a vortex-shaped heating pipeline is formed between the water tank shell and the substrate of the thick film heating plate in a surrounding mode, and the electric heating film is of a vortex-shaped structure with the same track as the heating pipeline.

The further improvement of the scheme is that the water tank shell and the substrate of the thick film heating plate are integrally welded.

The further improvement of the scheme is that the outer wall of the second water tank is provided with a heat insulation layer.

The scheme is further improved in that the heat-insulating layer is made of heat-insulating ceramic materials.

In a further improvement of the above solution, the volume of the first water tank is larger than the volume of the second water tank.

The utility model has the beneficial effects that: the utility model provides a heating device capable of boiling and cooling boiled water, which comprises a first water tank for storing cold water, a second water tank for transferring, a heating component for heating water, a cooling component for exchanging heat and cooling water, and a liquid supply nozzle for supplying boiled water or cooled boiled water; the second water tank is connected between the first water tank and the heating assembly, and a first water pump is arranged between a second water outlet of the second water tank and a heating water inlet of the heating assembly; the heating water outlet of the heating assembly is connected with the cooling water inlet of the cooling assembly, and the cooling water outlet of the cooling assembly is connected with the liquid supply nozzle; a second water pump is arranged between the first water outlet of the first water tank and the heat exchange water inlet of the cooling assembly, and the heat exchange water outlet of the cooling assembly is connected with the recovery water inlet of the second water tank;

when boiled water needs to be prepared, a first water pump is started, water in a second water tank is pumped to a heating assembly through the first water pump, the water in the first water tank flows into the second water tank along with the water in the second water tank, the heating assembly works and heats and boils the water, at the moment, the second water pump is not started, namely cooling water for heat exchange is not introduced into a cooling assembly, and the water heated and boiled by the heating assembly directly flows out from a liquid supply nozzle to obtain the required boiled water; when cold boiled water needs to be prepared, the first water pump is started, water in the second water tank is pumped to the heating assembly through the first water pump, the water in the first water tank flows into the second water tank along with the water in the second water tank, the heating assembly works and heats the water to be boiled, the water which is heated and boiled through the heating assembly flows into the cooling assembly, the second water pump is started, cold water in the first water tank is pumped to the cooling assembly through the second water pump and exchanges heat with the water which is heated and boiled, and the water which is heated and boiled can be cooled can be quickly cooled through the cold water which flows into the cooling assembly, so that the required cold boiled water can be quickly obtained; in addition, the cold water pumped into the cooling assembly by the second water pump flows back to the second water tank after flowing through the cooling assembly and being in heat exchange with the water after being heated and boiled, and because the water flowing through the cooling assembly is heated after being in heat exchange with the water after being heated and boiled, the part of the water absorbing heat is returned to the second water tank, which is beneficial to flowing into the heating assembly for heating and boiling subsequently, so that the water can be heated and boiled more quickly, the energy consumption can be saved, and the practicability is stronger.

Description of the drawings:

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

Fig. 2 is a schematic structural view of the heating assembly of the present invention.

FIG. 3 is a schematic view of a thick film heater plate according to the present invention.

Fig. 4 is a control schematic block diagram of the present invention.

Description of reference numerals: the device comprises a control module 1, a first water tank 2, a first water outlet 21, a second water tank 3, a second water inlet 31, a second water outlet 32, a recovery water port 33, a heating assembly 4, a water tank shell 41, a thick film heating plate 42, a substrate 421, an electric heating film 422, a heating pipeline 43, a heating water inlet 44, a heating water outlet 45, a cooling assembly 5, a cooling pipeline 51, a cooling cylinder 52, a cooling water inlet 53, a cooling water outlet 54, a heat exchange water inlet 55, a heat exchange water outlet 56, a liquid supply nozzle 6, a first water pump 7, a second water pump 8, a first temperature sensor 9, a second temperature sensor 10 and a heat insulation layer 11.

The specific implementation mode is as follows:

the present invention will be further described with reference to the accompanying drawings, as shown in fig. 1-4, the present invention comprises a first water tank 2 for storing cold water, a second water tank 3 for relay, a heating assembly 4 for heating water, a cooling assembly 5 for heat-exchanging cooling water, a liquid supply nozzle 6 for supplying boiled water or cool boiled water; the first water tank 2 comprises a first water outlet 21, the second water tank 3 comprises a second water inlet 31, a second water outlet 32 and a water recycling port 33, the heating assembly 4 comprises a heating water inlet 44 and a heating water outlet 45, and the cooling assembly 5 comprises a cooling water inlet 53, a cooling water outlet 54, a heat exchange water inlet 55 and a heat exchange water outlet 56; the second water tank 3 is connected between the first water tank 2 and the heating assembly 4, the first water outlet 21 of the first water tank 2 is connected with the second water inlet 31 of the second water tank 3, and a first water pump 7 is arranged between the second water outlet 32 of the second water tank 3 and the heating water inlet 44 of the heating assembly 4; the heating water outlet 45 of the heating assembly 4 is connected with the cooling water inlet 53 of the cooling assembly 5, and the cooling water outlet 54 of the cooling assembly 5 is connected with the liquid supply nozzle 6; a second water pump 8 is arranged between the first water outlet 21 of the first water tank 2 and the heat exchange water inlet 55 of the cooling assembly 5, and a heat exchange water outlet 56 of the cooling assembly 5 is connected with the water recovery port 33 of the second water tank 3; when the boiled water needs to be prepared, the first water pump 7 is started, the water in the second water tank 3 is pumped into the heating component 4 through the first water pump 7, the water in the first water tank 2 flows into the second water tank 3 along with the water in the second water tank 3 pumped by the first water pump 7, the heating component 4 works and heats and boils the water, at the moment, the second water pump 8 is not started, namely, the cooling component 5 is not filled with cooling water for heat exchange, the water heated and boiled by the heating component 4 directly flows out from the liquid supply nozzle 6, and the required boiled water is obtained; when the cool boiled water needs to be prepared, the first water pump 7 is started, the water in the second water tank 3 is pumped into the heating component 4 through the first water pump 7, the water in the first water tank 2 flows into the second water tank 3 as the water in the second water tank 3 is pumped by the first water pump 7, the heating component 4 works and heats the water to be boiled, the water which is heated and boiled by the heating component 4 flows into the cooling component 5, the second water pump 8 is started, the cold water in the first water tank 2 is pumped into the cooling module 5 by the second water pump 8 and exchanges heat with the heated boiled water, the water heated and boiled can be quickly cooled by the cold water flowing into the cooling module 5, the utility model can quickly obtain boiled water at any time, can also quickly obtain cold boiled water at any time, and can be well suitable for daily life; in addition, the cold water pumped into the cooling assembly 5 by the second water pump 8 flows back to the second water tank 3 after flowing through the cooling assembly 5 and exchanging heat with the water after heating and boiling, and because the water flowing through the cooling assembly 5 is heated after exchanging heat with the water after heating and boiling, the part of the water absorbing heat is returned to the second water tank 3 to be beneficial to flowing into the heating assembly 4 for heating and boiling subsequently, so that the water can be heated and boiled more quickly, the energy consumption can be saved, and the practicability is stronger.

The cooling assembly 5 comprises a cooling pipeline 51 and a cooling cylinder 52 sleeved on the cooling pipeline 51, a cooling water inlet 53 and a cooling water outlet 54 are respectively arranged at two ends of the cooling pipeline 51, a heat exchange water inlet 55 is arranged at the bottom of the cooling cylinder 52, and a heat exchange water outlet 56 is arranged at the top of the cooling cylinder 52; when cold boiled water needs to be prepared, the water heated and boiled by the heating component 4 is introduced into the cooling pipeline 51, and then the cold water in the first water tank 2 is introduced into the cooling cylinder 52 from the heat exchange water inlet 55 through the second water pump 8 to exchange heat with the boiled water in the cooling pipeline 51.

The utility model also comprises a control module 1, a first temperature sensor 9 for monitoring the temperature of the liquid in the heating pipeline 43 of the heating component 4, and a second temperature sensor 10 for monitoring the temperature of the liquid in the cooling pipeline 51 of the cooling component 5, wherein the first water pump 7, the second water pump 8, the first temperature sensor 9 and the second temperature sensor 10 are respectively electrically connected with the control module 1; the temperature of the water in the heating pipeline 43 of the heating assembly 4 can be monitored in real time through the first temperature sensor 9, when the temperature of the water in the heating pipeline 43 of the heating assembly 4 is detected to reach 100 ℃ through the first temperature sensor 9, the heating and boiling of the water are completed, and the part of the water is conveyed to the cooling pipeline 51; the temperature of the water in the cooling pipeline 51 of the cooling module 5 can be monitored in real time through the second temperature sensor 10, and when the second temperature sensor 10 detects that the temperature of the water in the cooling pipeline 51 of the cooling module 5 reaches a required temperature, the partial water is conveyed to the liquid supply nozzle 6 and flows outwards to obtain the water with the required temperature.

The heating assembly 4 comprises a water tank shell 41 and a thick film heating plate 42, wherein the thick film heating plate 42 comprises a substrate 421 and an electric heating film 422 arranged at the bottom of the substrate 421, and the electric heating film 422 is electrically connected with the control module 1.

The eddy heating channel 43 is formed between the water tank case 41 and the substrate 421 of the thick film heating plate 42, and the electric heating film 422 has an eddy structure having the same track as that of the heating channel 43, so that water in the heating channel 43 can be sufficiently and efficiently heated, and the water in the heating channel 43 can be rapidly and efficiently heated and boiled.

The water tank shell 41 and the substrate 421 of the thick film heating plate 42 are integrally welded to form, so that the sealing performance can be guaranteed, water in the heating pipeline 43 can be prevented from contacting with the electric heating film 422, water and electricity isolation can be well realized, the risk of water leakage and electric leakage can be avoided, and the use is safer.

The outer wall of the second water tank 3 is provided with the heat insulation layer 11, so that heat loss can be well prevented, and water in the second water tank 3 can be pumped into the heating pipeline 43 to be heated and boiled in the following process; the heat preservation layer 11 is made of heat-insulating ceramic materials and has a good heat preservation effect.

The volume of the first tank 2 is larger than that of the second tank 3, so that the second tank 3 mainly serves as a relay tank.

The working principle is as follows:

when the boiled water needs to be prepared, the first water pump 7 is started, the water in the second water tank 3 is pumped into the heating component 4 through the first water pump 7, the water in the first water tank 2 flows into the second water tank 3 along with the water in the second water tank 3 pumped by the first water pump 7, the heating component 4 works and heats and boils the water, at the moment, the second water pump 8 is not started, namely, the cooling component 5 is not filled with cooling water for heat exchange, the water heated and boiled by the heating component 4 directly flows out from the liquid supply nozzle 6, and the required boiled water is obtained; when the cool boiled water needs to be prepared, the first water pump 7 is started, the water in the second water tank 3 is pumped into the heating component 4 through the first water pump 7, the water in the first water tank 2 flows into the second water tank 3 as the water in the second water tank 3 is pumped by the first water pump 7, the heating component 4 works and heats the water to be boiled, the water which is heated and boiled by the heating component 4 flows into the cooling component 5, the second water pump 8 is started, the cold water in the first water tank 2 is pumped into the cooling module 5 by the second water pump 8 and exchanges heat with the heated boiled water, the water heated and boiled can be quickly cooled by the cold water flowing into the cooling module 5, the utility model can quickly obtain boiled water at any time, can also quickly obtain cold boiled water at any time, and can be well suitable for daily life; in addition, the cold water pumped into the cooling assembly 5 by the second water pump 8 flows back to the second water tank 3 after flowing through the cooling assembly 5 and exchanging heat with the water after heating and boiling, and because the water flowing through the cooling assembly 5 is heated after exchanging heat with the water after heating and boiling, the part of the water absorbing heat is returned to the second water tank 3 to be beneficial to flowing into the heating assembly 4 for heating and boiling subsequently, so that the water can be heated and boiled more quickly, the energy consumption can be saved, and the practicability is stronger.

It is understood that the above description is only a preferred embodiment of the present invention, and all equivalent changes or modifications of the structure, features and principles described in the present invention are included in the scope of the present invention.

Claims (10)

1. A heating device capable of boiling water and cooling the water is characterized in that: comprises a first water tank (2) for storing cold water, a second water tank (3) for transferring, a heating component (4) for heating water, a cooling component (5) for exchanging heat and cooling water, and a liquid supply nozzle (6) for supplying boiled water or cool boiled water; the second water tank (3) is connected between the first water tank (2) and the heating assembly (4), and a first water pump (7) is arranged between a second water outlet (32) of the second water tank (3) and a heating water inlet (44) of the heating assembly (4); a heating water outlet (45) of the heating assembly (4) is connected with a cooling water inlet (53) of the cooling assembly (5), and a cooling water outlet (54) of the cooling assembly (5) is connected with the liquid supply nozzle (6); and a second water pump (8) is arranged between the first water outlet (21) of the first water tank (2) and the heat exchange water inlet (55) of the cooling assembly (5), and the heat exchange water outlet (56) of the cooling assembly (5) is connected with the water recovery port (33) of the second water tank (3).

2. A device as claimed in claim 1, wherein the heating device is adapted to be boiled and cooled: the cooling assembly (5) comprises a cooling pipeline (51) and a cooling cylinder (52) sleeved on the cooling pipeline (51), a cooling water inlet (53) and a cooling water outlet (54) are respectively arranged at two ends of the cooling pipeline (51), a heat exchange water inlet (55) is arranged at the bottom of the cooling cylinder (52), and a heat exchange water outlet (56) is arranged at the top of the cooling cylinder (52).

3. A device as claimed in claim 1, wherein the heating device is adapted to be boiled and cooled: the water pump device is characterized by further comprising a control module (1), wherein the first water pump (7) and the second water pump (8) are electrically connected with the control module (1) respectively.

4. A device as claimed in claim 3, wherein the heating device is characterized in that: the temperature control device is characterized by further comprising a first temperature sensor (9) used for monitoring the temperature of liquid in the heating assembly (4) and a second temperature sensor (10) used for monitoring the temperature of liquid in the cooling assembly (5), wherein the first temperature sensor (9) and the second temperature sensor (10) are electrically connected with the control module (1) respectively.

5. A device as claimed in claim 3, wherein the heating device is characterized in that: heating element (4) include basin casing (41), thick film hot plate (42), and heating water inlet (44), heating delivery port (45) set up respectively on basin casing (41), and thick film hot plate (42) include base plate (421), set up in electrical heating membrane (422) of base plate (421) bottom, and electrical heating membrane (422) are connected with control module (1) electricity.

6. A device as claimed in claim 5, wherein the heating device is characterized in that: a vortex-shaped heating pipeline (43) is formed between the water tank shell (41) and the substrate (421) of the thick film heating plate (42) in a surrounding mode, and the electric heating film (422) is of a vortex-shaped structure with the same track as that of the heating pipeline (43).

7. A device as claimed in claim 5, wherein the heating device is characterized in that: the water tank shell (41) and the substrate (421) of the thick film heating plate (42) are integrally welded.

8. A device as claimed in claim 1, wherein the heating device is adapted to be boiled and cooled: and a heat-insulating layer (11) is arranged on the outer wall of the second water tank (3).

9. A device as claimed in claim 8, wherein the heating means is selected from the group consisting of: the heat-insulating layer (11) is made of heat-insulating ceramic materials.

10. A device as claimed in claim 1, wherein the heating device is adapted to be boiled and cooled: the volume of the first water tank (2) is larger than that of the second water tank (3).

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