CN114165917B

CN114165917B - Energy-saving water boiler control system

Info

Publication number: CN114165917B
Application number: CN202111502451.1A
Authority: CN
Inventors: 阮晨; 阮班志; 阮晓雷; 阮景楠
Original assignee: Wuhan Jiafu Energy Saving Environmental Protection High Technology Co ltd
Current assignee: Wuhan Jiafu Energy Saving Environmental Protection High Technology Co ltd
Priority date: 2021-12-09
Filing date: 2021-12-09
Publication date: 2023-06-02
Anticipated expiration: 2041-12-09
Also published as: CN114165917A

Abstract

The invention discloses a control system of an energy-saving water boiler, which belongs to the technical field of water boilers and comprises the following components: the device comprises a boiled water tank, two cleaning mechanisms and a heating mechanism. The boiled water tank is cylindrical, two hot water cavities are formed in the boiled water tank in an equal division manner, a water inlet is formed in the upper side of each hot water cavity, and two heaters are embedded in the lower part of the boiled water tank and are symmetrically arranged; the two cleaning mechanisms are respectively arranged on the upper sides of the two hot water cavities in a one-to-one correspondence manner, and the water outlet ends of the two cleaning mechanisms face the side walls of the two hot water cavities respectively; the heating mechanism comprises a connecting component, a motor and a driving piece; the invention can realize uninterrupted supply of hot water, avoid the situation that old residual boiled water is always filled in the boiled water tank, prevent people from eating yin and yang water, ensure the health of people, avoid a large amount of water to be placed and cooled, properly reduce energy consumption, enable the boiled water tank to be more energy-saving, automatically clean the inner wall of one side of the boiled water tank which is not used, realize instant use and washing, and have higher practical value.

Description

Energy-saving water boiler control system

Technical Field

The invention relates to the technical field of water boilers, in particular to an energy-saving water boiler control system.

Background

The water boiler is designed for adapting to the drinking water demand environment of various people, and the water boiler is used for heating boiled water by converting electric energy into heat energy. The capacity of the electric energy storage device is approximately divided into 18L, 25L, 27L and 30L according to the demands of different groups, the power range is different types such as 2KW, 3KW and 4.5KW, and the electric energy storage device is suitable for public places such as enterprise units, hotels, armies, stations, airports, factories, hospitals and schools. Among them, the traditional water boiler is the most common water boiler, has been several decades old, and it has simple structure, low price and occupies a considerable user group in the market.

The current water boiler on the market generally directly adds cold water into hot water to mix and fire for drinking when adding water, and this kind of mode leads to the unable continuous boiling water that supplies of water boiler in the in-process of boiling water, and the user drinks the water that does not boil very easily, influences healthy, and wait for the water to boil required time longer, makes the use of water boiler very inconvenient, and need to cut off the power supply of water tank and all emit with water wherein when clearing up the boiling water tank, the water boiler can't continue to use in the cleaning process, inconvenient use.

Disclosure of Invention

The invention aims to overcome the technical defects, and provides an energy-saving water boiler control system which solves the technical problems that in the prior art, the water boiler is high in energy consumption, scale is easy to generate in the water boiler and cleaning is inconvenient.

In order to achieve the technical purpose, the technical scheme of the invention provides an energy-saving water boiler control system, which comprises:

the water heating device comprises a boiled water tank, a water inlet and a water outlet, wherein the boiled water tank is cylindrical, two hot water cavities are formed in the boiled water tank in an equal division mode, the upper side of each hot water cavity is provided with a water inlet, and two heaters are embedded in the lower portion of the boiled water tank and are symmetrically arranged;

the two cleaning mechanisms are respectively arranged on the upper sides of the two hot water cavities in a one-to-one correspondence manner, and the water outlet ends of the two cleaning mechanisms face the side walls of the two hot water cavities respectively;

the heating mechanism comprises a connecting component, a motor and a driving piece, wherein the connecting component is rotatably arranged at the bottom of the water boiling tank and is provided with a connecting end which can be inserted into the heater and is electrically connected with the heater, the output end of the motor is connected with the connecting component and is used for driving the connecting component to rotate by a set angle so as to enable the connecting end to correspond to one of the heaters, and the driving piece is connected with the connecting component and is used for driving the connecting component to move upwards so as to enable the connecting end to be inserted into the heater and be electrically connected with the heater;

the energy-saving water boiler control system further comprises a water inlet pipe, two connecting pipes, two water outlet pipes and two water boiling faucets, wherein the water inlet pipe is respectively communicated with the two connecting pipes, the two connecting pipes are respectively arranged at the two water inlets in a one-to-one correspondence manner, and each connecting pipe is provided with a water inlet valve; one end of each of the two water outlet pipes is communicated with the hot water cavity, the other end of each of the two water outlet pipes is communicated with the boiling water tap, and each water outlet pipe is provided with a water outlet valve; the middle lower part of the boiled water tank is provided with a water level monitor which is used for controlling a heating mechanism to enable the connecting end to be switched to correspond to the other heater.

As a further improvement of the invention, the inner wall of the boiled water tank is vertically provided with a heat insulation plate which is used for separating the boiled water tank to form two hot water cavities.

As a further improvement of the invention, the outside of the boiled water tank is covered with an insulation box.

As a further improvement of the invention, the bottom of the outer surface of the water boiling tank is provided with a sewage discharge pipe which is respectively communicated with the two hot water cavities.

As a further improvement of the invention, each cleaning mechanism comprises a cleaning pipe and a spray head, wherein the cleaning pipes are connected to the top of the inner wall of the water boiling tank and are communicated with the water inlet pipe, the spray heads are uniformly arranged along the length direction of the cleaning pipes and face the side wall of the water boiling tank and one end face of the heat insulation plate respectively, cleaning valves are arranged on the water pipes connecting the cleaning pipes and the water inlet pipe, and the energy-saving water heater control system further comprises a cleaning agent tank, and the two cleaning pipes are communicated with the cleaning agent tank.

As a further improvement of the invention, the heater comprises a connecting seat, a connecting piece and an electric heating wire, wherein the connecting seat is embedded in the water boiling tank, the connecting piece and the electric heating wire are both arranged in the connecting seat, and the connecting piece is connected with the electric heating wire.

As a further improvement of the invention, the connecting component comprises a connecting disc, a heat-insulating pad and a coupler, wherein one end of the connecting disc is connected with an output shaft of the motor, the other end of the connecting disc is rotationally connected with the boiled water tank, the heat-insulating pad and the coupler are symmetrically arranged at the top of the connecting disc, and the coupler can be inserted into a connecting piece in the heater and is electrically connected with an electric heating wire in the heater.

As a further improvement of the invention, the water inlet end of the water outlet pipe is positioned at the lower side of the hot water cavity.

As a further improvement of the invention, a heat insulation pad is arranged at the opening of the connecting disc, and the inner wall of the heat insulation pad far away from the heat insulation pad is abutted against the boiled water tank.

As a further improvement of the invention, the energy-saving water boiler control system also comprises a cold water tank, two cold water pipes and a cold water tap, wherein one end of each cold water pipe is communicated with the water outlet pipe, the other end of each cold water pipe is communicated with the cold water tank, and the cold water tap is communicated with the cold water tank.

Compared with the prior art, the invention has the beneficial effects that: the water heating device has the advantages that the boiled water tank is divided into two hot water cavities, different water demands are met, boiled water can be stored respectively, intermittent water supply is also realized, when the water consumption is small, one end of the boiled water tank is used for storing hot water, the other end of the boiled water tank is used for standby, and the heating mechanism and the heater are matched, so that the connecting end in the heating assembly can intermittently correspond to one heater and heat water in the corresponding hot water cavity, uninterrupted supply of the hot water can be realized, even if the water deviating from the hot water cavity of the connecting end is discharged completely, the phenomenon of dry heating is avoided, meanwhile, old residual boiled water is always arranged in the boiled water tank, the health of people is ensured, the method of mixing the added cold water with the boiled water and then boiling the boiled water by using the intermittent water supply is replaced, people's edible water is avoided, a large amount of water is also prevented from being placed and cooled, the energy consumption is reduced properly, and the energy is saved;

through the wiper mechanism who sets up, make it can be when intermittent type supplies water, carry out automatic washing to the inner wall of the unused one side inner wall of boiled water tank, can realize washing promptly to avoid the inner wall of boiled water tank to form the incrustation scale, make people's drinking water safer, and the one side inner wall of boiled water tank is when wasing, and its opposite side inner wall can also normally use, has replaced the conventionality and has all been discharged the water in the boiled water tank and has been carried out abluent method to it again, and the operation is simpler convenient.

Drawings

FIG. 1 is a schematic diagram of the overall elevation cross-sectional structure of the present invention;

FIG. 2 is a schematic diagram of the water boiling tank of the present invention in a sectional elevation view;

FIG. 3 is a schematic view of a cross-sectional structure of the cleaning mechanism of the present invention;

FIG. 4 is an enlarged schematic view of the structure of FIG. 2 at A;

FIG. 5 is a schematic diagram of a cross-sectional elevation of a heating mechanism of the present invention;

FIG. 6 is a schematic perspective view of a heating mechanism according to the present invention;

FIG. 7 is a schematic top plan view of the cleaning tube assembly of the present invention.

In the figure: 1. a boiled water tank; 11. a heat insulating plate; 12. an insulation box; 13. a heater; 131. a connecting seat; 132. a connecting piece; 133. heating wires; 14. a water level monitor; 15. a sewage discharge pipe; 2. a cleaning mechanism; 21. cleaning the tube; 22. a spray head; 23. a purge valve; 3. a heating mechanism; 31. a connection assembly; 311. a connecting disc; 3111. a thermal insulation pad; 312. a thermal insulation pad; 313. a coupler; 32. a motor; 33. a driving member; 4. a water inlet pipe; 5. a connecting pipe; 51. a water inlet valve; 6. a water outlet pipe; 61. a water outlet valve; 7. a boiling water tap; 8. a cleaning agent tank; 9. a cold water tank; 91. a cold water pipe; 92. a cold water tap.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

As shown in fig. 1, the present invention provides an energy-saving water boiler control system, comprising: a boiled water tank 1, two cleaning mechanisms 2 and a heating mechanism 3.

The boiled water tank 1 is cylindrical, two hot water cavities are formed in the boiled water tank in an equal division mode, a water inlet is formed in the upper side of each hot water cavity, and two heaters 13 are symmetrically arranged in an embedded mode on the lower portion of the boiled water tank 1.

The two cleaning mechanisms 2 are respectively arranged on the upper sides of the two hot water cavities in a one-to-one correspondence manner, and the water outlet ends of the two cleaning mechanisms 2 face the side walls of the two hot water cavities respectively.

The heating mechanism 3 comprises a connecting component 31, a motor 32 and a driving piece 33, wherein the connecting component 31 is rotatably arranged at the bottom of the boiled water tank 1 and is provided with a connecting end which can be inserted into the heater 13 and is electrically connected with the heater 13, the output end of the motor 32 is connected with the connecting component 31 and is used for driving the connecting component 31 to rotate by a set angle so that the connecting end corresponds to one of the heaters 13, and the driving piece 33 is connected with the connecting component 31 and is used for driving the connecting component 31 to move upwards so that the connecting end is inserted into the heater 13 and is electrically connected with the heater 13.

As shown in fig. 2, the energy-saving water boiler control system further comprises a water inlet pipe 4, two connecting pipes 5, two water outlet pipes 6 and two water boiling taps 7, wherein the water inlet pipe 4 is respectively communicated with the two connecting pipes 5, the two connecting pipes 5 are respectively arranged at two water inlets in a one-to-one correspondence manner, and each connecting pipe 5 is provided with a water inlet valve 51; one end of each of the two water outlet pipes 6 is communicated with the hot water cavity, the other end of each of the two water outlet pipes 6 is communicated with the boiled water faucet 7, and each water outlet pipe 6 is provided with a water outlet valve 61; the boiled water tank 1 is provided at the middle lower portion thereof with a water level monitor 14 for controlling the heating mechanism 3 so that the connection end is shifted to correspond to the other heater 13.

Through the arrangement that the boiled water tank 1 is cylindrical and the inside of the boiled water tank is equally divided to form two hot water cavities, the device can respectively store boiled water and intermittently supply water through the two hot water cavities, the water inlet pipe 4 is respectively communicated with the two connecting pipes 5, the two connecting pipes 5 are respectively arranged at two water inlets in a one-to-one correspondence manner, the water inlet valve 51 is arranged on each connecting pipe 5, when water needs to be added into the hot water cavities, the corresponding water inlet valve 51 is opened, so that water can enter the hot water cavities through the water inlet pipe 4 and the connecting pipes 5 for adding water into the hot water cavities, through the arrangement that the two cleaning mechanisms 2 are respectively arranged at the upper sides of the two hot water cavities in a one-to-one correspondence manner and the water outlet ends of the two cleaning mechanisms 2 face the side walls of the two hot water cavities respectively, the water outlet ends of the cleaning mechanisms 2 can be sprayed onto the inner wall of the boiled water tank 1, after the water in one hot water cavity is used up, the cleaning mechanism 2 can automatically clean the boiled water tank 1, can realize the instant cleaning so as to avoid scale formation on the inner wall of the boiled water tank 1, and can continue to discharge water in the other hot water cavity at the moment, so that the device cannot be influenced when the boiled water tank 1 is cleaned, by rotatably arranging the connecting component 31 at the bottom of the boiled water tank 1 and having a connecting end which can be inserted into the heater 13 and is electrically connected with the heater 13, the output end of the motor 32 is connected with the connecting component 31 and is used for driving the connecting component 31 to rotate by a set angle so that the connecting end corresponds to one of the heaters 13, the driving piece 33 is connected with the connecting component 31 and is used for driving the connecting component 31 to move upwards so that the connecting end is inserted into the heater 13 and is electrically connected with one of the heating surfaces, so that the motor 32 can drive the connecting end to correspond to one of the heating surfaces, the driving member 33 can drive the connecting assembly 31 to move upwards so that the connecting end is plugged into the heater 13 and is electrically connected with the heater 13, so that the connecting end can be electrically connected with one of the heaters 13 and can heat water in the hot water cavity through the heater 13, when one end of the hot water is boiled, the connecting end can be separated from the heater 13 by using the driving member 33, then the connecting assembly 31 is driven to rotate by a set angle by using the motor 32, the connecting end corresponds to the other heater 13, then the driving member 33 can be used for driving the connecting end to plug into the heater 13 and be electrically connected with the heater 13 so as to heat water in the other heating cavity, during the use, even when the hot water in the other heating cavity is cleaned or is added with cold water, the hot water in the other heating cavity can be used so as to realize uninterrupted supply of the hot water, and even if the water in the hot water cavity deviating from the connecting end is completely discharged, the phenomenon of dry heating is avoided, the old residual boiled water is always filled in the boiled water tank 1, the health of people is ensured, the method of mixing the added cold water with the boiled water and then boiling the boiled water by the existing boiled water tank 1 is also replaced, people are prevented from eating yin and yang water, through the arrangement that one end of each of the two water outlet pipes 6 is communicated with the hot water cavity, the other end of each of the two water outlet pipes is communicated with the boiled water tap 7, the water outlet valve 61 is arranged on each of the water outlet pipes 6, so that the hot water in the hot water cavity can be discharged from the boiled water tap 7 through the water outlet pipe 6, when the hot water in the hot water cavity is used up, the corresponding water outlet valve 61 can be closed, the cold water is prevented from being discharged by the boiled water tap 7 by mistake, and the water level monitor 14 used for controlling the heating mechanism 3 to enable the connecting end to be switched to the corresponding water level corresponding to the other heater 13 is arranged at the middle lower part of the boiled water tank 1, so that when the two hot water cavities are intermittently used, when the water is used below the water level monitor 14, the water level monitor 14 can trigger and control the driving piece 33 and the motor 32, so that the connecting end of the connecting component 31 is converted to the heater 13 corresponding to the other hot water cavity under the cooperation of the driving piece 33 and the motor 32, the water in the hot water cavity is heated, the heat of the water in the two hot water cavities is prevented from being emitted simultaneously when the water is completely boiled and stored, the energy-saving effect is achieved, and the water in one hot water cavity is boiled simultaneously after the water in the other hot water cavity is used up, so that the water is convenient to use.

As shown in fig. 2, a heat insulation board 11 is vertically arranged on the inner wall of the boiled water tank 1, the heat insulation board 11 is used for separating the boiled water tank 1 to form two hot water cavities, and the heat insulation board 11 is used for separating the boiled water tank 1 to form two hot water cavities by vertically arranging the heat insulation board 11 on the inner wall of the boiled water tank 1, so that the heat insulation board 11 can isolate the two hot water cavities, and heat in the two hot water cavities cannot interfere with each other.

As shown in fig. 2, the outside of the boiled water tank 1 is covered with an insulation box 12, and the insulation box 12 can slow down the heat dissipation speed of the boiled water tank 1 by covering the outside of the boiled water tank 1 with the insulation box 12, so as to achieve the purpose of energy saving.

As shown in fig. 2, the bottom of the outer surface of the boiled water tank 1 is provided with a sewage discharge pipe 15 respectively communicated with the two hot water cavities, and sewage generated by cleaning the boiled water tank 1 by the cleaning mechanism 2 can be discharged through the sewage discharge pipe 15 by arranging the bottom of the outer surface of the boiled water tank 1 with the sewage discharge pipe 15 respectively communicated with the two hot water cavities.

As shown in fig. 3 and 7, each cleaning mechanism 2 comprises a cleaning pipe 21 and a spray head 22, the cleaning pipes 21 are all connected to the top of the inner wall of the boiled water tank 1 and are communicated with the water inlet pipe 4, the spray heads 22 are uniformly arranged along the length direction of the cleaning pipes 21 and are respectively towards the side wall of the boiled water tank 1 and one end face of the heat insulation plate 11, wherein cleaning valves 23 are arranged on water pipes connecting the cleaning pipes 21 and the water inlet pipe 4, the energy-saving water boiler control system further comprises a cleaning agent tank 8, the two cleaning pipes 21 are all communicated with the cleaning agent tank 8, the spray heads 22 are uniformly arranged along the length direction of the cleaning pipes 21 and are respectively towards the side wall of the boiled water tank 1 and one end face of the heat insulation plate 11, so that water in the water inlet pipe 4 can be sprayed out from the spray head 22 through the cleaning pipes 21 to clean the boiled water tank 1, water in the cleaning pipes 21 can be controlled through the cleaning valves 23 by arranging the cleaning pipes connecting the cleaning pipes 21 and the water inlet pipes of the water inlet pipe 4, the cleaning mechanism 2 is convenient to control the cleaning mechanism 2, and the cleaning mechanism can be conveniently and effectively cleaned by the water from the water tank 8 through the water spraying mechanism 8.

The cleaning agent tank 8 in this embodiment may be provided with pressure for delivering the cleaning agent by installing a water pump or by pressurizing.

As shown in fig. 4, the heater 13 includes a connecting base 131, a connecting member 132 and an electric heating wire 133, the connecting base 131 is embedded in the boiled water tank 1, the connecting member 132 and the electric heating wire 133 are both embedded in the connecting base 131, and the connecting member 132 is connected to the electric heating wire 133.

As shown in fig. 1, 5 and 6, the connection assembly 31 includes a connection pad 311, a heat insulation pad 312 and a coupler 313, one end of the connection pad 311 is connected with an output shaft of the motor 32, the other end is connected with the boiled water tank 1 in a rotating way, the heat insulation pad 312 and the coupler 313 are symmetrically arranged at the top of the connection pad 311, the coupler 313 can be inserted into a connecting piece 132 of the heater 13 and electrically connected with an electric heating wire 133 of the heater 13, the heat insulation pad 312 and the coupler 313 are symmetrically arranged at the top of the connection pad 311 by connecting one end of the connection pad 311 with the output shaft of the motor 32, the other end is connected with the boiled water tank 1 in a rotating way, and the coupler 313 can be inserted into the connecting piece 132 of the heater 13 and electrically connected with the electric heating wire 133, so that the coupler 313 can be inserted into the connecting piece 132 and electrically connected with the electric heating wire 133, and the electric heating wire 133 can heat water in the hot water cavity, and the heat insulation pad 312 can correspond to the bottom of another hot water cavity, so as to realize heat insulation of the hot water cavity.

As shown in fig. 1, the water inlet end of the water outlet pipe 6 is positioned at the lower side of the hot water cavity, and by arranging the water inlet end of the water outlet pipe 6 at the lower side of the hot water cavity, the hot water in the water outlet pipe can be completely discharged through the water outlet pipe 6 along with the use of the hot water in the hot water cavity, so that the residual old and residual boiled water is avoided.

As shown in fig. 1 and 5, the thermal insulation pad 3111 is disposed at the opening of the connection pad 311, the inner wall away from the thermal insulation pad 3111 is abutted against the boiled water tank 1, and the thermal insulation pad 3111 is disposed at the opening of the connection pad 311, so that the thermal insulation pad 3111 can be disposed at the connection position of the connection pad 311 and the boiled water tank 1, heat loss from the connection position is reduced, and the thermal insulation effect of the boiled water tank 1 is improved.

As shown in fig. 1, the energy-saving water boiler control system further comprises a cold water tank 9, two cold water pipes 91 and a cold water tap 92, wherein one ends of the two cold water pipes 91 are communicated with the water outlet pipe 6, the other ends of the two cold water pipes 91 are communicated with the cold water tank 9, the cold water tap 92 is communicated with the cold water tank 9, and by means of the arrangement that one ends of the two cold water pipes 91 are communicated with the water outlet pipe 6 and the other ends of the two cold water pipes 91 are communicated with the cold water tank 9, water placed in the boiled water tank 1 can be discharged into the cold water tank 9 through the water outlet pipe 6 and the cold water pipes 91, and the water in the cold water tank 9 is cooled by boiled water, so that the energy-saving water boiler control system is safer.

Working principle: tap water enters the boiled water tank 1 through the water inlet pipe 4 and the connecting pipe 5, when the water consumption is small, the two hot water cavities can be used separately, when the water consumption is large, the two boiled water tanks 1 can be used simultaneously, the corresponding water inlet valve 51 is opened during use, a proper amount of water is filled into the hot water cavities, at the moment, the connecting end is electrically connected with the heater 13 and heats the water in the hot water cavities through the electric heating wire 133, when one end of the hot water is boiled and is used below the water level monitor 14, the water level monitor 14 drives the motor 3 and the driving piece 33 to work, the driving piece 33 can enable the connecting end to be separated from the heater 13, then the motor 32 drives the connecting component 31 to rotate by a set angle, the connecting end corresponds to the other heater 13, then the driving piece 33 drives the connecting end to be plugged into the heater 13 and is electrically connected with the heater 13, so as to heat the water in the other heating cavity, so that the uninterrupted supply of the hot water can be realized, meanwhile, the heat preservation pad 312 can properly reduce energy consumption of the hot water cavities with the boiled water, enable the water cavities to be more energy-saving, one of the hot water cavities to be used, the water cavities can be sprayed out of the water tanks 21 to the water tank 21, and the water tank 21 can be sprayed from the inner walls of the water tank 1 to a small amount, and the water tank 21 can be sprayed from the water tank 21 to the water tank 1, the water tank can be cleaned, and the water tank can be cleaned, the water tank can be sprayed from the water tank 21, the water tank is a small amount is sprayed into the water tank is washed, and the water is washed, and the water is washed.

The invention divides the boiled water tank 1 into two hot water cavities, so that different demands of water can be met, boiled water can be stored respectively, intermittent water supply can be realized, when the water consumption is small, one end of the boiled water can be used for storing hot water, the other end of the boiled water is used for standby, and the heating mechanism 3 and the heater 13 are matched, so that the connecting end in the heating assembly can intermittently correspond to one of the heaters 13 and can heat the water in the corresponding hot water cavity, thereby realizing uninterrupted supply of the hot water, avoiding dry heating phenomenon even if the water in the hot water cavity deviating from the connecting end is completely discharged, avoiding the old residual boiled water in the boiled water tank 1, ensuring the health of people, and replacing the method of mixing the added cold water with the boiled water and then boiling the existing boiled water by the intermittent water supply, avoiding people eating yin and yang water, and avoiding a large amount of water to put and cool, properly reducing energy consumption and saving more energy;

through the cleaning mechanism 2 that sets up, make it can be when intermittent type supplies water, carry out automatic cleaning to the inner wall of the unused one side inner wall of boiled water tank 1, can realize washing promptly, in order to avoid the inner wall of boiled water tank 1 to form the incrustation scale, make people's drinking water safer, and the one side inner wall of boiled water tank 1 when wasing, its opposite side inner wall can also normally use, replaced the conventionality and totally discharged the water in the boiled water tank 1 and to carry out abluent method again, the operation is more simple and convenient.

The above-described embodiments of the present invention do not limit the scope of the present invention. Any other corresponding changes and modifications made in accordance with the technical idea of the present invention shall be included in the scope of the claims of the present invention.

Claims

1. An energy-conserving boiler control system which characterized in that: comprising the following steps:

2. The energy-saving water boiler control system according to claim 1, wherein the inner wall of the water tank is vertically provided with a heat insulating plate for partitioning the water tank to form two hot water chambers.

3. The energy-saving water boiler control system according to claim 1, wherein the outside cover of the boiled water tank is provided with an insulation box.

4. The energy-saving water boiler control system according to claim 1, wherein the bottom of the outer surface of the water boiler is provided with sewage discharge pipes respectively communicated with the two hot water chambers.

5. The energy-saving water boiler control system according to claim 1, wherein each cleaning mechanism comprises a cleaning pipe and a spray head, the cleaning pipes are connected to the top of the inner wall of the water boiler and are communicated with the water inlet pipe, the spray heads are uniformly arranged along the length direction of the cleaning pipes and face the side wall of the water boiler and one end face of the heat insulation board respectively, cleaning valves are arranged on the water pipes connecting the cleaning pipes and the water inlet pipe, and the energy-saving water boiler control system further comprises a cleaning agent tank, and the two cleaning pipes are communicated with the cleaning agent tank.

6. The energy-saving water boiler control system according to claim 1, wherein the heater comprises a connecting seat, a connecting piece and an electric heating wire, the connecting seat is embedded in the water boiling tank, the connecting piece and the electric heating wire are both arranged in the connecting seat, and the connecting piece is connected with the electric heating wire.

7. The energy-saving water boiler control system according to claim 1, wherein the connection assembly comprises a connection disc, a heat preservation pad and a coupler, one end of the connection disc is connected with an output shaft of the motor, the other end of the connection disc is connected with the water boiling tank in a rotating mode, the heat preservation pad and the coupler are symmetrically arranged on the top of the connection disc, and the coupler can be inserted into a connection piece in the heater and is electrically connected with an electric heating wire in the heater.

8. The energy-saving water boiler control system according to claim 1, wherein the water inlet end of the water outlet pipe is positioned at the lower side of the hot water chamber.

9. The energy-saving water boiler control system according to claim 7, wherein a heat insulation pad is arranged at the opening of the connecting disc, and the inner wall of the heat insulation pad, which is far away from, is abutted against the boiled water tank.

10. The energy-saving water boiler control system according to claim 1, further comprising a cold water tank, two cold water pipes and a cold water tap, wherein one end of each cold water pipe is communicated with the water outlet pipe, the other end is communicated with the cold water tank, and the cold water tap is communicated with the cold water tank.