CN209996017U - Plateau electromagnetic energy-saving water dispenser - Google Patents

Abstract

The utility model discloses an energy-conserving water dispenser of plateau electromagnetism, including water heating pipeline and the heating control mainboard of control water heating pipeline operation, water heating pipeline is including the heat exchanger that is equipped with water inlet, delivery port, the second water inlet, the second delivery port, the person in charge of intaking that communicates with heat exchanger's water inlet, end and the water container inlet tube of heat exchanger's delivery port intercommunication, the electromagnetism water container that intake end and the other end of water container inlet tube communicate, the boiling water outlet pipe that communicates with the play water end of electromagnetism water container, locate the circulating pipe that the boiling water valve end of boiling water outlet pipe communicates with the play water end of electromagnetism water container and the other end communicates with heat exchanger's second water inlet, the warm boiled water outlet pipe that communicates with heat exchanger's second delivery port, locate warm boiled water valve of warm boiled water outlet pipe, the utility model discloses a food level water container electromagnetic heating technique heatable water to 100 ℃, thoroughly effectively kills microorganism, parasitic ovum etc. in the aquatic, guarantee drinking water safety.

Description

Plateau electromagnetic energy-saving water dispenser

Technical Field

The utility model belongs to the technical field of drinking water treatment, concretely relates to energy-conserving water dispenser of plateau electromagnetism.

Background

With the continuous improvement of the construction level of China, large-scale hydraulic engineering solves many practical problems for people, but in remote plateau areas, due to the fact that the population of living people is small, the geographical position is severe, the weather and climate are severe, the living environment of local people is severe, large hidden dangers exist in the aspect of drinking water safety, drinking water in the plateau areas mainly has the following problems that toxic substances are mixed in water, the influence on the health condition of people is great, the heavy metal content is seriously overproof and the like, the qualification rate of microorganisms and visible objects in water is not up to standard, the microorganisms comprise escherichia coli, heat-resistant escherichia coli, various viruses and the like, parasitic ova are contained in water, for example, echinococcus ova is a chronic parasitic disease caused by larvae (echinococcus) infecting echinococcus in people, the province, the hidden dangers of Mongolia, Sichuan, the Western Tibetan, Gansu, Qinghai, Ningxia, Xinjiang and the like are listed as important infectious diseases for free treatment, the security of the national water sources can be eliminated, and the hidden dangers of free life can be improved.

100 ℃ boiled water is the best drinking water source, when the water is boiled, bacteria can be killed, substances harmful to human bodies are removed, , as the tap water is chloridized, chlorine interacts with organic matters remained in the water, toxic carcinogenic compounds such as halogenated hydrocarbon and chloroform can be formed, when the water temperature reaches 90 ℃, the content of the halogenated hydrocarbon is increased to 191 micrograms/liter, the content of the chloroform is increased to 177 micrograms/liter, which exceeds the national standard by 2 times, when the water temperature just reaches 100 ℃, the content of the halogenated hydrocarbon and the content of the chloroform are respectively 110 micrograms and 99 micrograms per liter, if the water is continuously boiled for 3 minutes, the two substances are respectively and rapidly reduced to 9.2 micrograms and 8.3 micrograms per liter, which reaches the drinking standard, and in the other aspect, the water is boiled, and microorganisms, parasitic ova and the like in the water can be thoroughly and effectively killed.

With the progress of science and technology, the water dispenser technology is updated and iterated, water is directly treated, microorganisms and parasitic ova in the water are killed, the water is drunk again, and the safety of drinking water is ensured; the existing water dispenser is not suitable for plateau areas, and due to the influence of atmospheric pressure, the existing water dispenser cannot treat water into boiled water at 100 ℃ in the plateau areas, so that microorganisms, parasitic ova and the like in the water cannot be thoroughly and effectively killed; the warm water treated by the existing water dispenser is also the warm water which is not warm boiled water and is not boiled, and microorganisms, parasitic ova and the like in the water cannot be thoroughly and effectively killed.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems in the prior art, the utility model aims at providing a plateau electromagnetic energy-saving water dispenser.

The utility model discloses the technical scheme who adopts does:

the plateau electromagnetic energy-saving water dispenser comprises a water heating pipeline and a heating control main board for controlling the operation of the water heating pipeline;

the water heating pipeline comprises a heat exchanger provided with a water inlet, a water outlet, a second water inlet and a second water outlet, a water inlet main pipe communicated with a 0 water inlet of the heat exchanger, a 1 end communicated with a 3 water outlet of the heat exchanger and communicated with a water inlet through a 6 th water service pipe communicated between a 4 th water inlet and a 5 th water outlet, an electromagnetic water container with a water inlet end communicated with the other end of the water container water inlet pipe, a boiled water outlet pipe with a end communicated with the water outlet end of the electromagnetic water container, a boiled water valve 2 arranged at the other end of the boiled water outlet pipe, a circulating water pipe with a end communicated with the water outlet end of the electromagnetic water container and the other end communicated with the second water inlet of the heat exchanger, a end communicated with the second water outlet of the heat exchanger and communicated with the second water inlet through a second water communication pipe communicated between the second water inlet and the second water outlet, and a warm water outlet pipe communicated with the warm water valve 7 arranged at the other end of the warm water outlet.

On the basis of the technical scheme, the water heating pipeline further comprises a water inlet valve arranged at the water inlet end of the water inlet main pipe, a water inlet electromagnetic valve arranged at the th water inlet of the heat exchanger, a water outlet electromagnetic valve arranged at the th water outlet, a second water inlet electromagnetic valve arranged at the second water inlet, a second water outlet electromagnetic valve arranged at the second water outlet, a water container water inlet electromagnetic valve arranged at the water inlet end of the electromagnetic water container, a water container water outlet electromagnetic valve arranged at the water outlet end of the electromagnetic water container, a pressure release valve arranged at the boiled water outlet pipe and a pressure release valve arranged at the warm boiled water outlet pipe;

the th water inlet electromagnetic valve, the th water outlet electromagnetic valve, the second water inlet electromagnetic valve, the second water outlet electromagnetic valve, the water container water inlet electromagnetic valve and the water container water outlet electromagnetic valve are all connected with the heating control mainboard and are controlled by the heating control mainboard.

On the basis of the technical scheme, the water inlet valve, the boiled water valve and the warm boiled water valve are all connected with the heating control main board and controlled by the heating control main board.

On the basis of the technical scheme, the plateau electromagnetic energy-saving water dispenser further comprises a temperature adjusting pipe and a temperature adjusting valve arranged on the temperature adjusting pipe, wherein two ends of the temperature adjusting pipe are respectively connected with a warm boiled water outlet pipe and a boiled water outlet pipe, and the temperature adjusting valve is connected with the heating control main board and controlled by the heating control main board.

On the basis of the technical scheme, the electromagnetic water container comprises a sealed inner container, a coil wound and fixed on the outer side of the inner container, a water level gauge arranged in the inner container, a temperature controller arranged on the outer surface of the inner container and a temperature sensor arranged in the inner container;

the water inlet end and the water outlet end are respectively arranged at the bottom and the top of the inner container;

and the coil, the water level gauge, the temperature controller and the temperature sensor are all connected with the heating control mainboard.

On the basis of the technical scheme, the temperature controller comprises an th temperature controller and a second temperature controller, the temperature sensor comprises a th temperature sensor arranged at the top in the inner container, and the second temperature sensor arranged at the bottom in the inner container.

On the basis of the technical scheme, the electromagnetic water container further comprises a heat-conducting plate arranged on the surface of the side wall of the inner container, a throat hoop sleeved on the side wall of the inner container, glass fiber heat-insulating cotton arranged on the side wall of the inner container and positioned outside the heat-conducting plate and the throat hoop, a glass fiber ribbon wound outside the glass fiber heat-insulating cotton, and a coil wound outside the glass fiber ribbon.

On the basis of the technical scheme, the electromagnetic water container further comprises a shell consisting of an upper cover plate, a lower cover plate and side plates, wherein the upper cover plate is fixed at the top of the side plates, the lower cover plate is fixed at the bottom of the side plates, and correspondingly, the shell is provided with a coil perforation hole, a water outlet end hole, a water level gauge wiring hole, a temperature controller wiring hole, a temperature sensor wiring hole and a water inlet end hole.

On the basis of the technical scheme, the heating control main board comprises an energy-saving control board, a heating board and a power supply board;

the power panel comprises an anti-creeping protector and an adapter for converting 220V mains supply passing through the anti-creeping protector into direct current;

the energy-saving control panel is connected with the electromagnetism water container and gathers electromagnetism water container information, and the energy-saving control panel is connected with the hot plate and sends heating signal to the hot plate, and the hot plate is connected with the electromagnetism water container and is controlled the heating of electromagnetism water container.

On the basis of the technical scheme, the plateau electromagnetic energy-saving water dispenser further comprises a booster pump, a backwashing filter and a filter which are sequentially arranged on the water inlet main pipe, wherein a backwashing water inlet electromagnetic valve is arranged at the water inlet end of the backwashing filter, and the backwashing water inlet electromagnetic valve is connected with the heating control main board and controlled by the heating control main board.

On the basis of the technical scheme, the plateau electromagnetic energy-saving water dispenser further comprises an upper water storage tank, a boiling water outlet pipe is communicated with the upper water storage tank, a boiling water valve is arranged on the side wall of the upper water storage tank, a water tank water inlet electromagnetic valve is further arranged on the boiling water outlet pipe, and the water tank water inlet electromagnetic valve is connected with a heating control mainboard and is controlled by the heating control mainboard;

the temperature adjusting pipe is connected with the upper water storage tank.

The utility model has the advantages that:

1. the utility model adopts unique structural design, the electromagnetic heating technology of the food-grade water liner can heat water to 100 ℃, thoroughly and effectively kill microorganisms, parasitic ova and the like in the water, ensure the safety of drinking water and is particularly suitable for plateau areas with relatively severe living environment; the efficient circulation design has the advantages of energy conservation, high heating speed, short waiting time and the like, and can conveniently and quickly drink boiled water and simultaneously drink warm boiled water after boiling.

2. The utility model discloses a heat exchanger has energy-conserving advantage, utilizes the normal atmospheric temperature water in the water service pipe to cool off the boiling water in the second water service pipe in the aspect of , makes it cool down into warm boiled water, in addition aspect, normal atmospheric temperature water in the water service pipe is warmed up and is preheated, plays energy-conserving purpose.

3. The utility model discloses an electromagnetism water container adopts the electromagnetic heating technique, makes the hydrone group minimizing, softens quality of water, provides the magnetized drinking water of beneficial healthy, helps softening blood vessel, is good at treating human organism and organ, adopts the water and electricity separation heating method not with water contact, uses electromagnetism water container not to produce the incrustation scale, drinks safety, reassurance to rate of heating is fast, latency is short, can drink the boiling water at any time, can save more than 85% of electric energy.

4. The utility model discloses an advanced micro-control technique, but the water level gauge automated inspection water container water level, when the water level dropped to the setting value, remind the intaking and stop the heating of electromagnetism water container, realize preventing dry combustion method function, temperature controller and second temperature controller realize the dual track temperature control insurance, the heating of the automatic shutdown electromagnetism water container of boiling water stops the thousand boiling water, temperature sensor realizes preventing the overtemperature protection, there is abnormal conditions automatic cutout power, anticreep protector realizes the anticreep function.

5. The utility model discloses a back flush filter is as level filter equipment, can effectively get rid of impurity such as silt, clay, suspended solid, alga, biological slime, corrosion products, macromolecule bacterium, organic matter and other small particles in the aquatic, reaches water purification's purpose, and the filter can effectual interception filter aquatic float, silt, escherichia coli, reduces the bacterial colony total number, remains the beneficial mineral substance and the microelement of human body.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a schematic structural view of an electromagnetic water tank according to an embodiment of the present invention.

Fig. 3 is a schematic structural view of an electromagnetic water tank according to an embodiment of the present invention (after the upper cover plate, the lower cover plate and the side plates are opened).

Fig. 4 is a schematic structural diagram of an upper cover plate of an electromagnetic water tank according to an embodiment of the present invention.

Fig. 5 is a schematic structural view of a lower cover plate of an electromagnetic water tank according to an embodiment of the present invention.

Fig. 6 is a schematic structural diagram of a coil of an electromagnetic water tank according to an embodiment of the present invention.

Fig. 7 is an electrical schematic diagram of an embodiment of the invention.

Fig. 8 is a schematic structural diagram of an embodiment of the present invention.

In the drawing, 1-a main water inlet pipe, 2-an electromagnetic water container, 201-a water inlet end, 202-a water outlet end, 203-a liner, 203 a-a liner foot, 203 b-a liner handle, 204-a heat conduction plate, 205-a hose clamp, 206-glass fiber heat insulation cotton, 207-a glass fiber ribbon, 208-a coil, 208 a-a high-temperature silica gel wire, 208 b-a wire protecting pipe, 208 c-a heat shrinkage pipe, 208 d-a wire connecting terminal, 209-a side plate, 210-an upper cover plate, 210 a-a water outlet end hole, 210 b-a water level meter wire connecting hole, 210 c-a temperature controller wire connecting hole, 210 d-a second temperature controller wire connecting hole, 210 e-a temperature sensor wire connecting hole, 211-a lower cover plate, 211 a-a water inlet end hole, 211 b-a liner foot hole, 212-a water level meter, 213-a th, 214-a second temperature controller wire connecting hole, 215-a -a second temperature sensor, 3-a water inlet pipe, 4-a boiling water valve, 6-a water heating valve, 36-a circulating water pipe, 7-a warm water pipe, 13-a sewage filter, 13-a sewage discharge pipe system, 13-a sewage discharge pipe, 13-a heat exchanger, 13-a.

Detailed Description

The present invention will be further described in with reference to the following drawings and specific examples.

Example (b):

as shown in fig. 1 to 7, the plateau electromagnetic energy-saving water dispenser of the embodiment includes a main water inlet pipe 1, a heat exchanger 7, a water container water inlet pipe 3, an electromagnetic water container 2, a boiled water outlet pipe 4, a boiled water valve 5, a circulating water pipe 6, a warm boiled water outlet pipe 8, a warm boiled water valve 9 and a heating control main board.

The heat exchanger 7 comprises a shell, an th water inlet, a th water outlet, a th water pipe, a second water inlet, a second water outlet and a second water through pipe, wherein the th water inlet and the th water outlet are arranged on the wall of the shell, the th water through pipe is communicated between the th water inlet and the th water outlet and distributed in an S shape, the second water inlet and the second water outlet are arranged on the wall of the shell, the second water through pipe is communicated between the second water inlet and the second water outlet and distributed in an S shape, and the th water through pipe and the.

The water inlet main pipe 1 is communicated with an th water inlet of the heat exchanger 7 and is communicated with a th water outlet through a th water pipe.

The end of the water container inlet pipe 3 is communicated with the th water outlet of the heat exchanger 7, the other end of the water container inlet pipe 3 is communicated with the water inlet end 201 of the electromagnetic water container 2, and the electromagnetic water container 2 is further communicated with the water inlet main pipe 1.

The end of the boiled water outlet pipe 4 is communicated with the water outlet end 202 of the electromagnetic water container 2, and the other end of the boiled water outlet pipe 4 is provided with a boiled water valve 5.

The end of the circulating water pipe 6 is communicated with the water outlet end of the electromagnetic water container 2, the other end of the circulating water pipe 6 is communicated with the second water inlet of the heat exchanger 7 and is communicated with the second water outlet through the second water pipe, heat exchange is realized through the heat exchanger 7, the normal-temperature water in the water pipe is used for cooling the boiled water in the second water pipe in aspect to enable the boiled water to be cooled into warm boiled water, the normal-temperature water in the water pipe is heated and preheated in aspect to achieve the purpose of energy saving, the temperature of the warm boiled water is determined according to the pipe diameter and the pipe length of the second water pipe and the retention time of the warm boiled water in the second water pipe, the appropriate temperature of the warm boiled water is 40-75 ℃ like , and adjustment is carried out.

The end of the warm boiled water outlet pipe 8 is communicated with the second water outlet of the heat exchanger 7, and the other end of the warm boiled water outlet pipe 8 is provided with a warm boiled water valve 9.

The water inlet end of the water inlet main pipe 1 is provided with a water inlet valve, the th water inlet of the heat exchanger 7 is provided with a th water inlet electromagnetic valve, the th water outlet is provided with a th water outlet electromagnetic valve, the second water inlet is provided with a second water inlet electromagnetic valve, the second water outlet is provided with a second water outlet electromagnetic valve, the water inlet end 201 of the electromagnetic water liner 2 is provided with a water liner water inlet electromagnetic valve, the water outlet end 202 of the electromagnetic water liner 2 is provided with a water liner water outlet electromagnetic valve, the boiled water outlet pipe 4 is provided with a pressure release valve and a th pressure reduction valve, and the warm boiled.

The th water inlet electromagnetic valve, the th water outlet electromagnetic valve, the second water inlet electromagnetic valve, the second water outlet electromagnetic valve, the water container water inlet electromagnetic valve and the water container water outlet electromagnetic valve are all connected with the heating control mainboard and are controlled by the heating control mainboard.

The water inlet valve is a water inlet manual valve or a water inlet electromagnetic valve, and when the water inlet electromagnetic valve is a water inlet electromagnetic valve, the water inlet electromagnetic valve is connected with the heating control main board and is controlled by the heating control main board.

The boiled water valve 5 and the warm boiled water valve 9 are manual valves or electromagnetic valves, when the valves are electromagnetic valves, the boiled water valve 5 and the warm boiled water valve 9 are connected with a heating control main board, the heating control main board is connected with keys, and the keys receive instructions to be sent to the heating control main board and control the opening/closing of the boiled water valve 5 or the warm boiled water valve 9.

The plateau electromagnetic energy-saving water dispenser also comprises a temperature adjusting pipe and a temperature adjusting valve arranged on the temperature adjusting pipe, wherein two ends of the temperature adjusting pipe are respectively connected with a warm boiled water outlet pipe and a boiled water outlet pipe, and the temperature adjusting valve is connected with the heating control main board and controlled by the heating control main board. The temperature regulating valve is used for realizing the heat exchange between the warm boiled water outlet pipe and the boiled water outlet pipe and regulating the outlet water temperature of the warm boiled water and the boiled water.

The electromagnetic water tank 2 comprises a sealed inner tank 203, a heat conducting plate 204 arranged on the surface of the side wall of the inner tank 203, a throat hoop 205 sleeved on the side wall of the inner tank 203, glass fiber heat-insulating cotton 206 arranged on the side wall of the inner tank 203 and positioned outside the heat conducting plate 204 and the throat hoop 205, a glass fiber ribbon 207 wound outside the glass fiber heat-insulating cotton 206, and a coil 208 wound outside the glass fiber ribbon 207. The outer side is a relative position, the direction towards the inner container is the inner side, and the direction back to the inner container is the outer side.

The water inlet end 201 and the water outlet end 202 are respectively arranged at the bottom and the top of the inner container 203, the bottom of the inner container 203 is also provided with inner container feet 203a, and the side wall of the inner container 203 is also provided with an inner container handle 203 b.

The coil 208 is fastened by a binding belt, the coil includes a high-temperature silica gel wire 208a, a protective tube 208b is sleeved outside the high-temperature silica gel wire 208a, and the end of the high-temperature silica gel wire 208a is connected with a connecting terminal 208d by a heat shrink tube 208 c.

The electromagnetic water container 2 further comprises a water level gauge 212 arranged in the inner container 203, an th temperature controller 213 and a second temperature controller 214 arranged on the outer surface of the inner container 203, a th temperature sensor 215 arranged on the inner top of the inner container 203, a second temperature sensor 216 arranged on the inner bottom of the inner container 203, and the coil 208, the water level gauge 212, the th temperature controller 213, the second temperature controller 214, the th temperature sensor 215 and the second temperature sensor 216 are all connected with the heating control main board.

The electromagnetic water tank 2 further comprises a shell composed of an upper cover plate 210, a lower cover plate 211 and a side plate 209, wherein the upper cover plate 210 is fixed at the top of the side plate 209, and the lower cover plate 211 is fixed at the bottom of the side plate 209. In the present embodiment, the upper cover plate 210 is fixed to the top of the side plate 209 by glass cement, and the lower cover plate 211 is fixed to the bottom of the side plate 209 by glass cement, or may be fixed by another means, such as a snap connection. And (5) fixing the side plates by rivet pulling.

The upper cover plate 210 is provided with a water outlet hole 210a, a water level gauge wiring hole 210b, an th thermostat wiring hole 210c, a second thermostat wiring hole 210d and a temperature sensor wiring hole 210e, and the lower cover plate 211 is provided with a water inlet hole 211a and a bladder pin hole 211 b.

In this embodiment, the inner container 203 is made of 304 stainless steel, the throat hoop 205 is made of stainless steel, and the upper cover plate 210, the lower cover plate 211 and the side plate 209 are all epoxy resin plates.

The utility model discloses an electromagnetism water container adopts the electromagnetic heating technique, makes the hydrone group minimizing, softens quality of water, provides the magnetized drinking water of beneficial healthy, helps softening blood vessel, is good at treating human organism and organ, adopts the water and electricity separation heating method not with water contact, uses electromagnetism water container not to produce the incrustation scale, drinks safety, reassurance to rate of heating is fast, latency is short, can drink the boiling water at any time, can save more than 85% of electric energy.

The water level meter can automatically detect the water level in the water container, when the water level drops to a set value, the water level meter reminds water inflow and stops heating of the electromagnetic water container to realize an anti-dry heating function, the th temperature controller and the second temperature controller realize double-channel temperature control safety, the electromagnetic water container is automatically stopped heating when water is boiled to stop water from boiling, the th temperature sensor and the second temperature sensor realize anti-overtemperature protection, and the power supply is automatically cut off under abnormal conditions.

The heating control mainboard comprises an energy-saving control panel, a heating plate and a power panel.

The power panel comprises an anti-leakage protector, an th adapter for converting 220V commercial power passing through the anti-leakage protector into 12V direct current and a second adapter for converting the 220V commercial power passing through the anti-leakage protector into 24V direct current, wherein the 12V direct current is supplied to the energy-saving control panel, and the 220V commercial power passing through the anti-leakage protector is supplied to the heating plate.

The energy-saving control panel comprises a control chip and a peripheral circuit connected with the control chip, wherein the control chip can adopt a single chip microcomputer, the type of the control chip is not limited in the embodiment, and the control chip can be selected according to actual requirements, and is connected with a water level gauge 212, a temperature controller 213, a second temperature controller 214, a temperature sensor 215 and a second temperature sensor 216, and is connected with a water inlet valve, a water inlet electromagnetic valve, an water outlet electromagnetic valve, a second water inlet electromagnetic valve, a second water outlet electromagnetic valve, a water container water inlet electromagnetic valve, a water container water outlet electromagnetic valve, a boiled water valve 5 and a warm boiled water valve 9,

The energy-saving control panel is connected with the heating plate and sends heating signal to the heating plate, and the heating plate is connected with the coil 208 through the heating relay.

The control chip is also connected with the display and the plurality of keys. The display is used for displaying the water level, the working state of the temperature sensor, the working state of the temperature controller, the time, the temperature and the like.

The plateau electromagnetic energy-saving water dispenser also comprises a booster pump 10 arranged on the water inlet main pipe 1. The booster pump 10 uses 24V dc.

The plateau electromagnetic energy-saving water dispenser also comprises a back flush filter 11 arranged on the water inlet main pipe 1, a back flush water inlet electromagnetic valve is arranged at the water inlet end of the back flush filter 11, and the back flush water inlet electromagnetic valve is connected with a control chip and is controlled by the control chip.

The plateau electromagnetic energy-saving water dispenser also comprises a filter 12 arranged on the water inlet main pipe 1.

Since the booster pump 10, the backwashing filter 11 and the filter 12 are the existing mature technologies, the structure and the installation method are not described in detail herein.

In the embodiment, a booster pump 10, a back flush filter 11 and a filter 12 are sequentially arranged on a water inlet main pipe 1, the booster pump 10 increases water pressure, the back flush filter 11 is used as an -level filtering device, and can effectively remove impurities such as silt, clay, suspended matters, algae, biological slime, corrosion products, macromolecular bacteria, organic matters and other micro-particles in water to achieve the purpose of water purification, the filter 12 adopts PP, ACF and UF filter elements with professional quality for filtration, and can effectively intercept and filter the suspended matters, silt and escherichia coli in the water, reduce the total number of bacterial colonies, and retain mineral substances and trace elements beneficial to a human body.

In the embodiment, the water inlet pipe 3 of the water container is also connected with a sewage pipeline system 13 through an emptying pipe, the emptying pipe is provided with an emptying valve, the output end of the back washing filter 11 is also connected with the sewage pipeline system 13 through the sewage pipe, the sewage pipe is provided with the sewage valve, the water outlet end pipeline of the electromagnetic water container 2 is also connected with the sewage pipeline system 13 through the emptying pipe, and the emptying pipe is provided with the emptying valve, wherein the emptying valve and the sewage valve are manual valves or electromagnetic valves, and when the electromagnetic valves are adopted, the emptying valve and the sewage valve are connected with a control chip and are controlled by the control chip.

As shown in fig. 8, the plateau electromagnetic energy-saving water dispenser further includes an upper water storage tank 14, a boiled water outlet pipe 4 is communicated with the upper water storage tank 14, a boiled water valve 5 is disposed on a side wall of the upper water storage tank 14, a water tank inlet electromagnetic valve is further disposed on the boiled water outlet pipe 4, and the water tank inlet electromagnetic valve is connected with the control chip and controlled by the control chip.

The upper water storage tank 14 is also connected with the sewage pipeline system 13 through an emptying pipe, an emptying valve is arranged on the emptying pipe, the upper water storage tank 14 is also connected with the sewage pipeline system 13 through an overflow pipe, the emptying valve is a manual valve or an electromagnetic valve, and when the emptying valve is the electromagnetic valve, the emptying valve is connected with a control chip and is controlled by the control chip.

The temperature adjusting pipe is connected with the upper water storage tank 14.

The present invention is not limited to the above-mentioned optional embodiments, and any other products in various forms can be obtained by anyone under the teaching of the present invention, and any changes in the shape or structure thereof, all the technical solutions falling within the scope of the present invention, are within the protection scope of the present invention.

Claims (10)

1. A plateau electromagnetic energy-saving water dispenser is characterized in that: the heating device comprises a water heating pipeline and a heating control main board for controlling the operation of the water heating pipeline;

the water heating pipeline comprises a heat exchanger (7) provided with a water inlet, a water outlet, a second water inlet and a second water outlet, a water inlet main pipe (1) communicated with a 0 water inlet of the heat exchanger, a end of the water inlet main pipe (3) communicated with a water outlet of the heat exchanger and communicated with a water inlet through a water passing pipe communicated between a water inlet and a water outlet, an electromagnetic water bladder (2) communicated with an other end of the water bladder water inlet pipe at a water inlet end (201), a boiled water outlet pipe (4) communicated with a water outlet end (202) of the electromagnetic water bladder at a end, a boiled water valve (5) arranged at a other end of the boiled water outlet pipe, a end communicated with the water outlet end (202) of the electromagnetic water bladder and a circulating water pipe (6) communicated with the second water inlet of the heat exchanger at an other end, a end of the boiled water outlet of the heat exchanger and communicated with a warm boiled water outlet pipe (5968) communicated with a warm boiled water inlet of the warm boiled water outlet pipe communicated with the second water outlet between the second water inlet and the second water outlet (589) of.

2. The plateau electromagnetic energy-saving water dispenser as claimed in claim 1, wherein the water heating pipeline further comprises a water inlet valve arranged at the water inlet end of the water inlet main pipe, a water inlet electromagnetic valve arranged at the th water inlet of the heat exchanger, a water outlet electromagnetic valve arranged at the th water outlet, a second water inlet electromagnetic valve arranged at the second water inlet, a second water outlet electromagnetic valve arranged at the second water outlet, a water container water inlet electromagnetic valve arranged at the water inlet end of the electromagnetic water container, a water container water outlet electromagnetic valve arranged at the water outlet end of the electromagnetic water container, a pressure release valve arranged at the boiled water outlet pipe and a pressure release valve arranged at the warm boiled water outlet pipe;

the th water inlet electromagnetic valve, the th water outlet electromagnetic valve, the second water inlet electromagnetic valve, the second water outlet electromagnetic valve, the water container water inlet electromagnetic valve and the water container water outlet electromagnetic valve are all connected with the heating control mainboard and are controlled by the heating control mainboard.

3. The plateau electromagnetic energy-saving water dispenser of claim 1, characterized in that: the plateau electromagnetic energy-saving water dispenser further comprises a temperature adjusting pipe and a temperature adjusting valve arranged on the temperature adjusting pipe, and two ends of the temperature adjusting pipe are respectively connected with a warm boiled water outlet pipe and a boiled water outlet pipe.

4. The plateau electromagnetic energy-saving water dispenser of claim 1, characterized in that: the electromagnetic water tank comprises a sealed inner tank (203), a coil (208) wound and fixed on the outer side of the inner tank, a water level meter (212) arranged in the inner tank, a temperature controller arranged on the outer surface of the inner tank and a temperature sensor arranged in the inner tank;

the water inlet end and the water outlet end are respectively arranged at the bottom and the top of the inner container;

and the coil, the water level gauge, the temperature controller and the temperature sensor are all connected with the heating control mainboard.

5. The plateau electromagnetic energy-saving water dispenser as claimed in claim 4, characterized in that the temperature controller comprises a th temperature controller (213) and a second temperature controller (214), the temperature sensor comprises a th temperature sensor (215) arranged at the top of the inner container, and a second temperature sensor (216) arranged at the bottom of the inner container.

6. The plateau electromagnetic energy-saving water dispenser of claim 4, characterized in that: the electromagnetic water tank further comprises a heat-conducting plate (204) arranged on the surface of the side wall of the inner tank, a throat hoop (205) sleeved on the side wall of the inner tank, glass fiber heat-insulating cotton (206) arranged on the side wall of the inner tank and positioned outside the heat-conducting plate and the throat hoop, a glass fiber ribbon (207) wound on the outer side of the glass fiber heat-insulating cotton, and a coil wound on the outer side of the glass fiber ribbon.

7. The plateau electromagnetic energy-saving water dispenser of claim 4, characterized in that: the electromagnetic water tank also comprises a shell consisting of an upper cover plate (210), a lower cover plate (211) and a side plate (209), wherein the upper cover plate is fixed at the top of the side plate, the lower cover plate is fixed at the bottom of the side plate, and correspondingly, the shell is provided with a coil perforation hole, a water outlet end hole (210a), a water level meter wiring hole (210b), a temperature controller wiring hole, a temperature sensor wiring hole (210e) and a water inlet end hole (211 a).

8. The plateau electromagnetic energy-saving water dispenser of claim 1, characterized in that: the heating control main board comprises an energy-saving control board, a heating board and a power board;

the power panel comprises an anti-creeping protector and an adapter for converting 220V mains supply passing through the anti-creeping protector into direct current;

the energy-saving control panel is connected with the electromagnetism water container and gathers electromagnetism water container information, and the energy-saving control panel is connected with the hot plate and sends heating signal to the hot plate, and the hot plate is connected with the electromagnetism water container and is controlled the heating of electromagnetism water container.

9. The plateau electromagnetic energy-saving water dispenser of claim 1, characterized in that: the plateau electromagnetic energy-saving water dispenser further comprises a booster pump (10), a backwashing filter (11) and a filter (12) which are sequentially arranged on the water inlet main pipe, a backwashing water inlet electromagnetic valve is arranged at the water inlet end of the backwashing filter, and the backwashing water inlet electromagnetic valve is connected with the heating control main board and controlled by the heating control main board.

10. The plateau electromagnetic energy-saving water dispenser according to claim 3, characterized in that the plateau electromagnetic energy-saving water dispenser further comprises an upper water storage tank (14), a boiled water outlet pipe is communicated with the upper water storage tank, a boiled water valve is arranged on the side wall of the upper water storage tank, a water tank inlet electromagnetic valve and a water tank inlet electromagnetic valve are further arranged on the boiled water outlet pipe, the water tank inlet electromagnetic valve is connected with the heating control mainboard and is controlled by the heating control mainboard;

the temperature adjusting pipe is connected with the upper water storage tank.

Images