CN210951826U - Novel big wall-hanging nanometer of intelligence adds heat electric boiler - Google Patents

Abstract

The utility model discloses a novel intelligent large wall-hanging type nanometer heating electric boiler, which adopts nanotechnology and nanometer heating body to really realize water and electricity separation and effectively avoid electric leakage; the nano-film heating tube is characterized in that a novel efficient and energy-saving film-shaped electric heating element taking a quartz glass tube as a carrier has the characteristics of safety, difficulty in forming scales, acid and alkali resistance, ultra-long service life and the like, meanwhile, the ground space is saved to a certain extent by arranging the hanging plate hooks, the diversity characteristic of a boiler is reflected, and the nano-tube can relatively save 20% -30% of electricity after being used for a long time, so that stable thermal efficiency can be kept, and efficient stability can be kept. The control system adopts an advanced microcomputer intelligent control system in China, has the characteristics of high-temperature protection water level monitoring temperature setting, low-temperature protection and the like, and is divided into multiple paths and automatically adjusted according to the needs of users.

Description

Novel big wall-hanging nanometer of intelligence adds heat electric boiler

Technical Field

The utility model relates to a boiler technical field especially relates to a novel big wall-hanging nanometer of intelligence adds electric boiler of heating.

Background

Energy is an important basic industry of national economy and is a essential substance guarantee for human production and life. Energy consumption level is an important sign of the development of economic society. China has become the second largest country for energy production and consumption in the world after 2000 years. With the rapid increase of energy consumption and the increasing of environmental pollution, people are actively seeking a way to realize the development of energy, environment, civilization and harmony. Therefore, it is an urgent and difficult task to fully construct an economical, safe and clean energy supply system. In 2018, the common central national academy publishes the opinions about strengthening the ecological environment comprehensively and firmly fighting against pollution, and the overall objective is as follows, as is clearly pointed out in the opinions: in 2020, the quality of the ecological environment is improved overall, the total emission amount of main pollutants is reduced greatly, the environmental risk is effectively controlled, and the ecological environment protection level is adapted to the overall well-established social target.

The electric boiler is a heat energy mechanical device which takes electric power as energy, utilizes resistance heating or electromagnetic induction heating, and outputs rated working medium outwards when heating medium water or organic heat carrier (heat conducting oil) is heated to certain parameters (temperature and pressure) through a heat exchange part of the boiler. The definition of the boiler in special equipment safety supervision regulations issued by the State Council is revised: the boiler is a closed device which utilizes various fuels, electricity or other energy sources to heat the contained liquid to certain parameters and bear certain pressure, and the range of the closed device is defined as a pressure-bearing steam boiler with the volume of more than or equal to 30L; a pressure-bearing hot water boiler and an organic heat carrier boiler, wherein the outlet water pressure is greater than or equal to 0.1MPa (gauge pressure), and the rated power is greater than or equal to 0.1 MW. The electric boiler can be divided into an electric boiling water boiler, an electric water boiler and an electric steam boiler, wherein the electric water boiler is also called an electric heating boiler, an electric bathing pool boiler and the like, the electric water boiler is a full-automatic environment-friendly boiler which is designed by adopting the latest electric heating technology and a control system and can produce hot water to meet the requirements of heating or supplying hot water for life and bathing, the boiler is widely suitable for domestic hot water and heating of places with higher appearance requirements, such as hotels, villas, factory buildings, office buildings, government offices, universities, hospitals, troops and the like, and is characterized in that the electric water boiler adopts the full-automatic intelligent control technology, does not need special persons to watch, has flexible working modes, can set the automatic operation time period of the boiler as required, can set a plurality of different working time periods in one day to enable the boiler to automatically start each heating group in a time sharing way, the heating group is circularly switched, so that the service time and frequency of each contactor are the same, the service life of the equipment is prolonged, the controller automatically controls, calculates and tracks the water temperature or pressure, can automatically start and stop the water feeding pump and the electric heating pipe when the load changes, can also be manually controlled, has multiple complete protection functions, and has the functions of electric leakage protection, water shortage protection, grounding protection, steam overpressure protection, overcurrent protection, control button protection and the like, the boiler is automatically protected, is safe to home, is small-sized, is convenient to install and match and is designed in a split manner, the electric control part is prevented from being influenced by the high temperature of the boiler body, and the stable operation of electric control devices is ensured.

At present, the heating and heat supply in winter in China mainly adopt modes such as boiler water heating, electric heater heating and electric geothermal heating, and the boiler water heating mostly adopts coal, oil, gas and the like as heat sources, so that not only is the resource consumption large, but also serious pollution is easily caused. Although boiler water heating also uses electricity as a heat source, the heat conversion rate is low due to the problem of heating element materials, and the failure rate is high. In recent years, people have been trying to save energy consumption and reduce cost of electric boilers through innovations in the aspects of improving technology, improving structure, adjusting process and the like. For example, some adopt the mode of reforming transform furnace body structure, some adopt the mode of vacuum heat conduction, some adopt the mode of medium conduction, some adopt the mode of far infrared. The above-described manner or method, although solving some of the practical problems of electric boilers, has respective drawbacks and disadvantages.

Therefore, the novel intelligent large wall-mounted nano heating electric boiler is novel, scientific, simple, reasonable, high in heating speed, low in power consumption, good in safety, long in service life and free of noise by adopting a German nano technology and a nano heating body according to the electromagnetic technical principle and the nano characteristic.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a novel big wall-hanging nanometer of intelligence adds hot electric boiler is to current partial boiler water heating adopt coal, oil, gas etc. for the heat source more, and not only resource consumption is big, easily causes serious pollution moreover, though try to save the energy consumption of hot electric boiler through the innovation of aspects such as improvement technique, improvement structure, adjustment technology, nevertheless still exist respective not enough. Therefore, the novel intelligent large wall-mounted nano heating electric boiler is novel, scientific, simple and reasonable in structure, high in heating speed, low in power consumption, good in safety, long in service life and free of noise according to the electromagnetic technical principle and the nano characteristic.

The utility model aims at realizing through the following technical scheme: a novel intelligent large wall-hanging type nano-heating electric boiler comprises a boiler box body, a boiler box cover and a boiler base, wherein the boiler box cover is positioned on the upper portion of the whole large wall-hanging type nano-heating electric boiler, the boiler box body is arranged on the lower portion of the boiler box cover, the boiler base is arranged on the lower portion of the boiler box body, the boiler box body is arranged at the middle position of the whole large wall-hanging type nano-heating electric boiler, the boiler base is positioned on the lower portion of the boiler box body and is arranged at the bottom of the whole large wall-hanging type nano-heating electric boiler, the boiler box body comprises a control panel, a box door, an electric back plate, a furnace pipe, a nano-film heating pipe, a box body back plate, a water outlet, a water inlet, a first pipe seat, a second pipe seat, a third pipe seat, a pipe seat outer decorative plate and a pipe seat back plate, wherein the box, the control panel is positioned at the lower part of the box door, the electric back plate, the furnace pipe and the nano-film heating pipe are positioned inside the boiler box body, the box body back plate is positioned at the rear part of the boiler box body and is in bolted connection with the boiler box body through a compression nut, two hanging plate hooks are arranged on the box body back plate and are respectively positioned at the upper parts of the box body back plate, one water outlet is positioned at the upper part of the boiler box body and is communicated with the upper part of the furnace pipe through a pipe seat I, two water inlets are respectively positioned below the left part and the right part of the boiler box body, the water inlet positioned below the left part of the boiler box body is communicated with the bottom of the furnace pipe through a pipe seat III, the water inlet positioned below the right part of the boiler box body is communicated with the bottom of the furnace pipe through a pipe seat II, the pipe seat is positioned at the upper part of the boiler box body and is connected with the furnace pipe and the water outlet through a nut press, the tube seat two is positioned below the right part of the boiler box body, the furnace pipe and the water inlet are connected through a pressing nut, the tube seat three is positioned below the left part of the boiler box body, the furnace pipe and the water inlet are connected through the pressing nut, the tube seat one, the tube seat two and the tube seat three are respectively bolted and fixed on a tube seat back plate through a pressing nut and a tube seat outer decorative plate, the tube seat outer decorative plates are respectively positioned on the upper part, the left part lower part and the right part lower part of the boiler box body and arranged on the tube seat back plate and bolted and connected with the tube seat back plate through the pressing nut, the tube seat back plate is respectively positioned on the upper part, the left part lower part and the right part lower part of the boiler box body and arranged on the surface of the boiler box body and is bolted and connected with the surface of the boiler box body through the pressing nut, the control panel is provided with a control display screen and a control button, the control display screen is positioned on the upper part of the, the control button is positioned at the lower part of the control panel, the upper part is provided with a control display screen, the inner side of the box door is provided with a main power switch, an intelligent control panel and a nano-film heating pipe control button switch, the main power switch, the intelligent control panel and the nano-film heating pipe control button switch are all arranged in the box body of the boiler and welded on the electric backboard, the main power switch is positioned at the upper part of the electric backboard, the lower part is provided with the intelligent control panel, the main power switch is in circuit connection with the intelligent control panel through an electric wire, the intelligent control panel is positioned at the middle part of the electric backboard, the upper part is provided with the main power switch, the lower part is provided with the nano-film heating pipe control button switch, the intelligent control panel is in circuit connection with the main power switch through an electric wire and is in circuit connection with the nano-film, the intelligent control panel in be provided with the control system mainboard, the control system mainboard can divide into the multichannel, the control system mainboard include temperature-sensing socket, water level sensing socket, overheat protection socket, master control mouth, Wifi extension version socket, circulating pump, intelligent control panel and control panel wholly carry out circuit connection through connecting the winding displacement, nano-film heating pipe control button switch be located the lower part of electric backplate, the lower part of intelligent control panel, nano-film heating pipe control button switch carry out circuit connection with the intelligent control panel through connecting the winding displacement, carry out circuit connection through many electric wires and nano-film heating pipe, electric backplate be located the inside of boiler box, main switch, intelligent control panel, nano-film heating pipe control button switch's rear portion, electric backplate on weld have main switch, the power supply switch, Intelligent control panel, nanometer membrane heating pipe control button switch, the rear portion of electric backplate be provided with nanometer membrane heating pipe, nanometer membrane heating pipe be located the rear portion of electric backplate, the outside is provided with the stove courage, the stove courage be located the rear portion of electric backplate, inside is provided with nanometer membrane heating pipe, the outside is provided with the box backplate, the stove courage include the screw base, go up closure plate, lower closure plate, the screw base be located the outside below of stove courage, inside and nanometer membrane heating pipe carry out circuit connection through the electric wire, outside carries out circuit connection through electric wire and main power switch, lower closure plate be located the inside below of stove courage, last closure plate be located the inside top of stove courage.

The control button comprises a timing key, a setting key, an ascending key, a descending key and an on-off key, and the control display screen can display parameters such as temperature, time, power, operation modes and the like. The number of the nano-film heating pipes can be adjusted according to actual requirements.

The heating furnace is characterized in that threads are arranged on the nano-film heating pipe, threads are arranged above the inner wall of the furnace, the threads on the nano-film heating pipe are matched with the threads above the inner wall of the furnace, and the threads above the inner wall of the furnace are connected with the nano-film heating pipe in an embedded mode through rotation.

The furnace pipe is cylindrical.

The left part and the right part of the boiler box body are respectively provided with a heat dissipation hole.

The hanging plate hook can integrally hang the boiler box body.

The utility model has the advantages of:

the utility model aims at providing a novel intelligent large wall-hanging type nanometer heating electric boiler, which adopts nanotechnology and nanometer heating body to really realize water and electricity separation and effectively avoid electric leakage; the nano-film heating tube is characterized by a novel efficient and energy-saving film-shaped electric heating component taking a quartz glass tube as a carrier, and has the characteristics of safety, difficult incrustation scale formation, acid and alkali resistance, super-long service life and the like. The characteristic of no scale formation can keep the thermal efficiency ratio of more than 99 percent for a long time. Thoroughly solves the problems of pain points of the traditional metal electric heating tube which are easy to scale, and the complications of safety, high energy consumption, short service life and the like of the electric heating tube which is easy to explode due to the scale. The nano tube can relatively save 20 to 30 percent of electricity after being used for a long time, the tube body of the nano electric heating tube is made of non-conductive quartz glass, the electric heating film layer is a pure resistance oxidation film layer, phenomena such as inductive reactance, eddy current, electric ionization and the like are not generated, the affinity between calcium and magnesium ions in water and the quartz glass tube body is not strong in the working process, and scales are not easy to adhere to the tube body, so that the stable heat efficiency can be kept, and the high-efficiency stability can be kept. Meanwhile, the ground space is saved to a certain extent by the arrangement of the hanging plate hook, the diversity characteristic of the boiler is reflected, the control system adopts a domestic advanced microcomputer intelligent control system, the high-temperature protection water level monitoring temperature setting and low-temperature protection characteristic are achieved, and the control system is divided into multiple paths and is adjusted automatically according to the user requirement.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive labor.

Fig. 1 is a schematic view of the overall internal structure of the present invention;

fig. 2 is a left side view of the internal structure of the present invention;

FIG. 3 is a front view of the external structure of the present invention;

fig. 4 is a rear view of the external structure of the present invention;

FIG. 5 is a schematic diagram of the connection relationship of the internal circuit of the present invention;

fig. 6 is a schematic view of the electrical structure of the inner side of the box door of the present invention.

Reference numerals

1. Boiler box, 2, hanging plate hook, 3, boiler base, 4, control panel, 5, box door, 6, electric backboard, 7, furnace pipe, 8, nanometer membrane heating pipe, 9, box backboard, 10, water inlet, 11, delivery port, 12, screw seat, 13, control display screen, 14, control button, 15, main power switch, 16, intelligent control panel, 17, nanometer membrane heating pipe control button switch, 18, tube seat one, 19, tube seat two, 20, tube seat three, 21, upper blocking plate, 22, lower blocking plate, 23, tube seat backboard, 24, tube seat outer decorative plate.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings.

Example 1

As shown in figures 1, 2, 3, 4, 5 and 6, the novel intelligent large wall-hanging type nano-heating electric boiler comprises a boiler box body 1, a boiler box cover and a boiler base 3, wherein the boiler box cover is arranged on the upper portion of the whole large wall-hanging type nano-heating electric boiler, the lower portion of the boiler box body is provided with the boiler box body 1, the boiler box body 1 is arranged on the lower portion of the boiler box cover, the boiler base 3 is arranged on the lower portion of the boiler box body 1, the boiler box body 1 is arranged in the middle of the whole large wall-hanging type nano-heating electric boiler, the boiler base 3 is arranged on the lower portion of the boiler box body 1 and is arranged at the bottom of the whole large wall-hanging type nano-heating electric boiler, and the boiler box body 1 comprises a control panel 4, a box door 5, an electric back panel 6, a furnace 7, a nano-film heating pipe 8, a box back panel 9, a water outlet 11, a water inlet, The boiler comprises a second tube seat 19, a third tube seat 20, an outer tube seat decorative plate 24 and a back tube seat plate 23, wherein the box door 5 is positioned at the front part of the boiler box body 1, the control panel 4 is positioned at the lower part of the box door 5, the electric back plate 6, the furnace pipe 7 and the nano-film heating tube 8 are positioned inside the boiler box body 1, the box back plate 9 is positioned at the rear part of the boiler box body 1 and is in bolted connection with the boiler box body 1 through a compression nut, the box back plate 9 is provided with two hanging plate hooks 2, the two hanging plate hooks 2 are respectively positioned at the upper part of the box back plate 9, one water outlet 11 is positioned at the upper part of the boiler box body 1 and is communicated with the upper part of the furnace pipe 7 through a first tube seat 18, the two water inlets 10 are respectively positioned below the left part and the right part of the boiler box body 1, the water inlet 10 positioned below the left part of the boiler box body 1 is communicated with the bottom of the furnace pipe 7 through the third tube seat 20, the boiler comprises a boiler body 1, a boiler liner 7, a water inlet 10, a first pipe seat 18, a second pipe seat 19, a boiler liner 7, a water outlet 11, a second pipe seat 19, a first pipe seat 18, a third pipe seat 20, a third pipe seat 24, a pipe seat back plate 23, pipe seat outer decoration plates 24, a pipe seat back plate 23 and a boiler body back plate 23, wherein the water inlet 10, the lower portion of the right portion of the boiler body 1 is communicated with the bottom of the boiler liner 7 through the pipe seat second 19, the second pipe seat 19 is located below the right portion of the boiler body 1, the boiler liner 7 and the water inlet 10 are connected through a pressing nut, the first pipe seat 18, the second pipe seat 19 and the third pipe seat 20 are respectively bolted and fixed on the pipe seat back plate 23 through the pressing nut and the pipe seat outer decoration plates 24, the pipe seat outer decoration plates 24 are respectively located below the upper portion, the left portion and the right portion of the boiler body 1, the pipe seat back plate 23 is respectively located on the upper portion, The left lower part and the right lower part are arranged on the surface of the boiler box body 1 and are bolted with the surface of the boiler box body 1 through compression nuts, the control panel 4 is provided with a control display screen 13 and a control button 14, the control display screen 13 is positioned on the upper part of the control panel 4, the lower part is provided with the control button 14, the control button 14 is positioned on the lower part of the control panel 4, the upper part is provided with the control display screen 13, the inner side of the box door 5 is provided with a main power switch 15, an intelligent control panel 16 and a nano-film heating pipe control button switch 17, the main power switch 15, the intelligent control panel 16 and the nano-film heating pipe control button switch 17 are all arranged inside the boiler box body 1 and are welded on the electric back panel 6, the main power switch 15 is positioned on the upper part of the electric back panel 6, the lower part is provided with the intelligent control panel 16, the main power switch 15 is in circuit connection with the intelligent control panel 16 through electric wires, the intelligent control panel 16 be located electric backplate 6's middle part, upper portion is provided with master switch 15, the lower part is provided with nanometer membrane heating pipe control button switch 17, intelligent control panel 16 carry out circuit connection through electric wire and master switch 15, carry out circuit connection through connecting winding displacement and nanometer membrane heating pipe control button switch 17, intelligent control panel 16 in be provided with the control system mainboard, the control system mainboard can divide into the multichannel, the control system mainboard include temperature-sensing socket, water level sensing socket, overheat protection socket, main control mouth, Wifi extension version socket, circulating pump, intelligent control panel 16 and control panel 4 whole carry out circuit connection through connecting the winding displacement, nanometer membrane heating pipe control button switch 17 be located electric backplate 6's lower part, intelligent control panel 16's lower part, nanometer membrane heating pipe control button switch 17 carry out circuit through connecting winding displacement and intelligent control panel 16 and link to each other The electric back plate 6 is positioned in the boiler box body 1, the rear parts of a main power switch 15, an intelligent control panel 16 and a nano-film heating tube control button switch 17 are arranged on the electric back plate 6, the main power switch 15, the intelligent control panel 16 and the nano-film heating tube control button switch 17 are welded on the electric back plate 6, the nano-film heating tube 8 is arranged on the rear part of the electric back plate 6, the nano-film heating tube 8 is positioned on the rear part of the electric back plate 6, a furnace pipe 7 is arranged outside the electric back plate 6, the nano-film heating tube 8 is arranged inside the furnace pipe 7, a box body back plate 9 is arranged outside the furnace pipe 7, the furnace pipe 7 comprises a screw seat 12, an upper blocking plate 21 and a lower blocking plate 22, the screw seat 12 is positioned below the outside of the furnace pipe 7, and the inside of the furnace pipe is in circuit connection with the nano-film heating tube 8 through electric wires, the outside is connected with the main power switch 15 through an electric wire, the lower blocking plate 22 is positioned below the inside of the furnace pipe 7, and the upper blocking plate 21 is positioned above the inside of the furnace pipe 7.

Example 2

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, and fig. 6, the control button 14 includes a timing key, a setting key, an up key, a down key, and an on/off key, and the control display 13 can display parameters such as temperature, time, power, and operation mode.

Example 3

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, and fig. 6, the number of the nano-film heating pipes 8 may be adjusted according to actual requirements.

Example 4

As shown in fig. 1, 2, 3, 4, 5 and 6, the nano-film heating pipe 8 is provided with threads, the threads are arranged on the upper portion of the inner wall of the furnace pipe 7, the threads on the nano-film heating pipe 8 are matched with the threads on the upper portion of the inner wall of the furnace pipe 7, and the threads on the upper portion of the inner wall of the furnace pipe 7 are connected with the nano-film heating pipe 8 in an embedded manner through rotation.

Example 5

As shown in fig. 1, 2, 3, 4, 5 and 6, the furnace pipe 7 has a cylindrical shape.

Example 6

As shown in fig. 1, 2, 3, 4, 5 and 6, the boiler casing 1 has heat radiation holes at the left and right portions thereof, respectively.

Example 7

As shown in fig. 1, 2, 3, 4, 5, and 6, the hanger 2 can integrally hang the boiler casing 1.

Example 8

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, and fig. 6, the control display 13 of the control panel 4 can display the contents of the working mode, the heating mode, the timing, the fault, the temperature display, the power, etc., the selection of the working mode includes the summer mode, the winter mode, the anti-freezing mode, etc., the novel intelligent large wall-hanging type nano-heating electric boiler can be applied to various occasions such as hospitals, schools, households, factories, etc., different working modes can be selected according to different working occasions, different parameters are set, the system works in the heating mode and is bright, in the state of starting up, the setting key is pressed to enter the heating temperature setting, the icon is bright, the rising or falling key is pressed to set the temperature at 30-80 ℃, then the switch key is pressed to exit and store, or the switch key is automatically stored after 8S, the setting is completed, the temperature display is in the heating function, the temperature of a heating water system is shown at the moment, the set temperature of the function is shown when the temperature is displayed, the fault code is displayed in a flashing mode when the fault occurs, different fault codes exist when different functions have faults, a user or professional technicians can be guided to maintain and repair the functions in time, the time is displayed at regular time, the set time is displayed when the fault code is displayed in a flashing mode, the heating mode has the timing function when the heating mode is started, the user can set the time according to the self requirement, the timing function is started or closed by pressing a timing key in the starting state, the timing key is pressed for a long time to enter the timing time period setting in the starting state, an icon flashes, the timing time period setting is entered by pressing an ascending or descending key, the time period can be set in the 00-23 time period, then the switch is pressed to exit and store or automatically store after 8 seconds, the setting is completed, when the power icon is displayed, the control buttons in the control panel 4 include a timing key, a setting key, an ascending key, a descending key and an on-off key, the timing key is turned on or off when the timing key is in a starting state, the setting key is used for setting parameters, such as heating temperature, time and the like, the ascending key is used for increasing numerical values, the descending key is used for reducing numerical values, the on-off key is used for starting or shutting off, and the parameters are set as a save exit key, the electric backboard 6 is arranged for welding and fixing the main power switch 15, the intelligent control board 16 and the nano-film heating pipe control button switch 17 on the furnace bladder 7 and the nano-film heating pipe 8 on the other hand, so as to better control the heating operation of the nano-film heating pipe 8 and the furnace bladder 7 on water, the furnace pipe 7 is internally provided with a cavity, water is contained in the cavity and is arranged in the furnace body box 1, the upper part of the cavity is communicated with the water outlet 11, the lower part of the cavity is communicated with the water inlet 10, the nano-film heating pipe 8 is a novel high-efficiency energy-saving film-shaped electric heating component taking a quartz glass pipe as a carrier, the nano-film heating pipe does not have the characteristic of scale deposit so that the nano-film heating pipe can keep the thermal efficiency ratio of more than 99 percent for a long time, the nano-film heating pipe 8 can relatively save 20 to 30 percent of electricity after being used for a long time, the pipe body of the nano-film heating pipe 8 is non-conductive quartz glass, the electric heating film layer is a pure resistance oxidation film layer, the phenomena of inductive reactance, eddy current, electric ionization and the like do not occur, calcium and magnesium ions in water have low affinity with the quartz glass pipe body and scale are not easy to adhere to, the outside is connected with a radiator, a radiating fin or a ground heater, the water heating circulation is realized in the furnace pipe 7 by the heating of the nanometer film heating pipe 8, the main power switch 15 is used for controlling the whole operation of the novel intelligent large wall-hanging type nanometer heating electric boiler and providing electric power support for the whole operation of the boiler, the intelligent control panel 16 is used for selecting the whole operation mode of the boiler and comprises a control system mainboard, the intelligent operation such as selecting the size, timing setting, winter mode, summer mode, anti-freezing mode and the like of the heating temperature of the electric heating water on the control display screen 13 is completed by the intelligent control panel 16 and the control system mainboard, the control system mainboard can be divided into a plurality of paths, and a plurality of circuits are respectively connected with the main power switch 15 and the nanometer film heating pipe control button switch 17 by red electric wires L and blue electric wires N, the system comprises a temperature sensing socket, a water level sensing socket, an overheating protection socket, a main control port, a Wifi expansion version socket and a circulating pump, wherein the temperature sensing socket, the water level sensing socket and the overheating protection socket are respectively represented on a control display screen 13 according to the contents of temperature, water level and working mode on a control system mainboard, when the temperature is detected to be lower than 5 ℃, a nano-film heating pipe 8 starts to heat, when the temperature is detected to be higher than 10 ℃, the nano-film heating pipe 8 stops heating, the main control port is in circuit connection with a nano-film heating pipe control button switch 17 and a control panel 4 integrally through a connecting flat cable, the Wifi expansion version socket can be automatically installed according to the selection of a user, the circulating pump is used for generating power and providing heating circulation for heat utilization equipment such as heating plates, radiating fins and the like and the flow of water in a furnace liner 7, the nano-film heating pipe control button switch 17 is used for controlling the heating operation flow of the nano-, the heating temperature of the nano-film heating pipe 8 behind the electric back plate 6 is connected with a plurality of circuits through a red wire L and a blue wire N respectively, and is connected with an intelligent control plate 16 through a connecting flat cable so as to intelligently control the heating temperature of the nano-film heating pipe 8 to water, a first pipe seat 18, a second pipe seat 19 and a third pipe seat 20 are used for respectively fixing the connection between a water outlet 11 and a water inlet 10 and a furnace pipe 7, so as to facilitate the water heating circulation between the furnace pipe 7 and heating equipment such as floor heating, radiator heating and the like, a screw seat 12 is used for connecting the bottom of the nano-film heating pipe 8, the screw seat 12 is connected with wires, the nano-film heating pipe 8 is connected with the circuits of a nano-film heating pipe control button switch 17 and a main power switch 15 through wires, so as to realize the control of the heating temperature of the nano-film heating pipe 8 to water, and an upper blocking plate 21 and a lower blocking plate 22 are used for sealing, make things convenient for the system to hydraulic detection, link plate hook 2 set up the rear portion at boiler box 1, link plate hook 2 can hang the boiler wholly, saved ground space to a certain extent.

The working principle is as follows:

as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, and fig. 6, the control display 13 of the control panel 4 can display the contents of the working mode, the heating mode, the timing, the fault, the temperature display, the power, etc., the selection of the working mode includes the summer mode, the winter mode, the anti-freezing mode, etc., the novel intelligent large wall-hanging type nano-heating electric boiler can be applied to various occasions such as hospitals, schools, households, factories, etc., different working modes can be selected according to different working occasions, different parameters are set, the system works in the heating mode and is bright, in the state of starting up, the setting key is pressed to enter the heating temperature setting, the icon is bright, the rising or falling key is pressed to set the temperature at 30-80 ℃, then the switch key is pressed to exit and store, or the switch key is automatically stored after 8S, the setting is completed, the temperature display is in the heating function, the temperature of a heating water system is shown at the moment, the set temperature of the function is shown when the temperature is displayed, the fault code is displayed in a flashing mode when the fault occurs, different fault codes exist when different functions have faults, a user or professional technicians can be guided to maintain and repair the functions in time, the time is displayed at regular time, the set time is displayed when the fault code is displayed in a flashing mode, the heating mode has the timing function when the heating mode is started, the user can set the time according to the self requirement, the timing function is started or closed by pressing a timing key in the starting state, the timing key is pressed for a long time to enter the timing time period setting in the starting state, an icon flashes, the timing time period setting is entered by pressing an ascending or descending key, the time period can be set in the 00-23 time period, then the switch is pressed to exit and store or automatically store after 8 seconds, the setting is completed, when the power icon is displayed, the control buttons in the control panel 4 include a timing key, a setting key, an ascending key, a descending key and an on-off key, the timing key is turned on or off when the timing key is in a starting state, the setting key is used for setting parameters, such as heating temperature, time and the like, the ascending key is used for increasing numerical values, the descending key is used for reducing numerical values, the on-off key is used for starting or shutting off, and the parameters are set as a save exit key, the electric backboard 6 is arranged for welding and fixing the main power switch 15, the intelligent control board 16 and the nano-film heating pipe control button switch 17 on the furnace bladder 7 and the nano-film heating pipe 8 on the other hand, so as to better control the heating operation of the nano-film heating pipe 8 and the furnace bladder 7 on water, the furnace pipe 7 is internally provided with a cavity, water is contained in the cavity and is arranged in the furnace body box 1, the upper part of the cavity is communicated with the water outlet 11, the lower part of the cavity is communicated with the water inlet 10, the nano-film heating pipe 8 is a novel high-efficiency energy-saving film-shaped electric heating component taking a quartz glass pipe as a carrier, the nano-film heating pipe does not have the characteristic of scale deposit so that the nano-film heating pipe can keep the thermal efficiency ratio of more than 99 percent for a long time, the nano-film heating pipe 8 can relatively save 20 to 30 percent of electricity after being used for a long time, the pipe body of the nano-film heating pipe 8 is non-conductive quartz glass, the electric heating film layer is a pure resistance oxidation film layer, the phenomena of inductive reactance, eddy current, electric ionization and the like do not occur, calcium and magnesium ions in water have low affinity with the quartz glass pipe body and scale are not easy to adhere to, the outside is connected with a radiator, a radiating fin or a ground heater, the water heating circulation is realized in the furnace pipe 7 by the heating of the nanometer film heating pipe 8, the main power switch 15 is used for controlling the whole operation of the novel intelligent large wall-hanging type nanometer heating electric boiler and providing electric power support for the whole operation of the boiler, the intelligent control panel 16 is used for selecting the whole operation mode of the boiler and comprises a control system mainboard, the intelligent operation such as selecting the size, timing setting, winter mode, summer mode, anti-freezing mode and the like of the heating temperature of the electric heating water on the control display screen 13 is completed by the intelligent control panel 16 and the control system mainboard, the control system mainboard can be divided into a plurality of paths, and a plurality of circuits are respectively connected with the main power switch 15 and the nanometer film heating pipe control button switch 17 by red electric wires L and blue electric wires N, the system comprises a temperature sensing socket, a water level sensing socket, an overheating protection socket, a main control port, a Wifi expansion version socket and a circulating pump, wherein the temperature sensing socket, the water level sensing socket and the overheating protection socket are respectively represented on a control display screen 13 according to the contents of temperature, water level and working mode on a control system mainboard, when the temperature is detected to be lower than 5 ℃, a nano-film heating pipe 8 starts to heat, when the temperature is detected to be higher than 10 ℃, the nano-film heating pipe 8 stops heating, the main control port is in circuit connection with a nano-film heating pipe control button switch 17 and a control panel 4 integrally through a connecting flat cable, the Wifi expansion version socket can be automatically installed according to the selection of a user, the circulating pump is used for generating power and providing heating circulation for heat utilization equipment such as heating plates, radiating fins and the like and the flow of water in a furnace liner 7, the nano-film heating pipe control button switch 17 is used for controlling the heating operation flow of the nano-, the heating temperature of the nano-film heating pipe 8 behind the electric back plate 6 is connected with a plurality of circuits through a red wire L and a blue wire N respectively, and is connected with an intelligent control plate 16 through a connecting flat cable so as to intelligently control the heating temperature of the nano-film heating pipe 8 to water, a first pipe seat 18, a second pipe seat 19 and a third pipe seat 20 are used for respectively fixing the connection between a water outlet 11 and a water inlet 10 and a furnace pipe 7, so as to facilitate the water heating circulation between the furnace pipe 7 and heating equipment such as floor heating, radiator heating and the like, a screw seat 12 is used for connecting the bottom of the nano-film heating pipe 8, the screw seat 12 is connected with wires, the nano-film heating pipe 8 is connected with the circuits of a nano-film heating pipe control button switch 17 and a main power switch 15 through wires, so as to realize the control of the heating temperature of the nano-film heating pipe 8 to water, and an upper blocking plate 21 and a lower blocking plate 22 are used for sealing, make things convenient for the system to hydraulic detection, link plate hook 2 set up the rear portion at boiler box 1, link plate hook 2 can hang the boiler wholly, saved ground space to a certain extent.

The installation method comprises the following steps:

according to the installation structure, the installation mode suitable for the user is selected, the novel intelligent large wall-hanging type nano heating electric boiler is well connected with the radiating fins and the like, and the joint is ensured to be sealed and water-tight. The water pump is arranged at the water inlet end, the exhaust valve is higher than the expansion water tank, then water is injected, negative ion water soft water or tap water is injected into the novel intelligent large wall-mounted nano-heating electric boiler through manual work or tap water connected with a ball valve for controlling, water is ensured to be filled into the inner container, the pipeline and the radiating fin of the novel intelligent large wall-mounted nano-heating electric boiler, whether the novel intelligent large wall-mounted nano-heating electric boiler is filled with water is detected, then the exhaust valve at the top end of the novel intelligent large wall-mounted nano-heating electric boiler is rotated, whether water flows out from the exhaust hole at the bottom is observed, if the water flows out and no water bubbles exist in the water flow, the water container is filled with water, otherwise, water is continuously injected until the water flows out, finally the electric boiler is started, the control button is connected, the system is started, the display screen is lightened, the buzzer makes a short sound, if the testing result is normal, the system gets into and sets for mode, the user can set up system parameters as required this moment, the parameter work that the novel big wall-hanging nanometer of intelligence heating electric boiler of back that finishes will press the user to set up, otherwise will press the system default parameter work of factory setting, press the on & off switch this moment, the system gets into the power-off state, press this key once more, the system restarts, after accomplishing whole heating flow, the control button that the novel big wall-hanging nanometer of intelligence heating electric boiler of needs shutdown disease cut off, if close novel big wall-hanging nanometer of intelligence heating electric boiler in cold areas winter, need to empty the water in the inner bag, in order to prevent freezing and damage the inner bag.

The above-described embodiments are merely illustrative of the preferred embodiments of the present invention and are not intended to limit the spirit and scope of the present invention. Without departing from the design concept of the present invention, various modifications and improvements made by the technical solution of the present invention by those skilled in the art should fall into the protection scope of the present invention, and the technical contents claimed by the present invention have been fully recorded in the claims.

Claims (7)

1. The utility model provides a novel big wall-hanging nanometer of intelligence adds hot electric boiler which characterized in that: the boiler comprises a boiler box body, a boiler box cover and a boiler base, wherein the boiler box cover is positioned on the upper part of the whole large wall-hanging type nano heating electric boiler, the lower part of the boiler box body is provided with the boiler base, the boiler box body is arranged at the middle position of the whole large wall-hanging type nano heating electric boiler, the boiler base is positioned on the lower part of the boiler box body and is arranged at the bottom of the whole large wall-hanging type nano heating electric boiler, the boiler box body comprises a control panel, a box door, an electric back plate, a furnace pipe, a nano-film heating pipe, a box back plate, a water outlet, a water inlet, a pipe seat I, a pipe seat II, a pipe seat III, a pipe seat outer decorative plate, a pipe seat back plate, a water outlet, a water inlet, a pipe seat I, a pipe seat II, a pipe seat III, a pipe seat outer decorative plate, the boiler furnace and the nano-film heating pipe are positioned in the boiler furnace body, the box body back plate is positioned at the rear part of the boiler furnace body and is in bolted connection with the boiler furnace body through a compression nut, two hanging plate hooks are arranged on the box body back plate and are respectively positioned at the upper part of the box body back plate, one water outlet is positioned at the upper part of the boiler furnace body, the water outlet is communicated with the upper part of the boiler furnace through a pipe seat I, two water inlets are respectively positioned below the left part and the right part of the boiler furnace body, the water inlet positioned below the left part of the boiler furnace body is communicated with the bottom of the boiler furnace through a pipe seat III, the water inlet positioned below the right part of the boiler furnace body is communicated with the bottom of the boiler furnace through a pipe seat II, the pipe seat is positioned at the upper part of the boiler furnace body and is connected with the boiler furnace and the water outlet through a nut press, and the second water outlet is positioned below the right part of the boiler furnace body, the boiler furnace and the water inlet are connected through a pressing nut, the tube seat is positioned below the left part of the boiler box body, the boiler furnace and the water inlet are connected through the pressing nut, the tube seat I, the tube seat II and the tube seat III are respectively bolted and fixed on a tube seat back plate through the pressing nut and a tube seat outer decorative plate, the tube seat outer decorative plates are respectively positioned on the upper part, the left part lower part and the right part lower part of the boiler box body, are arranged on the tube seat back plate and are bolted and connected with the tube seat back plate through the pressing nut, the tube seat back plate is respectively positioned on the upper part, the left part lower part and the right part lower part of the boiler box body, is arranged on the surface of the boiler box body and is bolted and connected with the surface of the boiler box body through the pressing nut, the control panel is provided with a control display screen and a control button, the control display screen is positioned on the upper part of the control panel, the lower part of the control button, the upper part is provided with a control display screen, the inner side of the box door is provided with a main power switch, an intelligent control panel and a nano-film heating pipe control button switch, the main power switch, the intelligent control panel and the nano-film heating pipe control button switch are all arranged in the box body of the boiler and welded on the electric backboard, the main power switch is positioned at the upper part of the electric backboard, the lower part is provided with the intelligent control panel, the main power switch is in circuit connection with the intelligent control panel through wires, the intelligent control panel is positioned at the middle part of the electric backboard, the upper part is provided with the main power switch, the lower part is provided with the nano-film heating pipe control button switch, the intelligent control panel is in circuit connection with the main power switch through wires and is in circuit connection with the nano-film heating pipe control button switch through connecting flat wires, and the intelligent control panel is internally, the control system mainboard can be divided into a plurality of paths, the control system mainboard comprises a temperature induction socket, a water level induction socket, an overheating protection socket, a main control port, a Wifi expansion board socket and a circulating pump, the intelligent control board and the control panel are integrally connected with each other through a connecting flat cable in a circuit manner, the nano-film heating pipe control button switch is positioned at the lower part of the electric back board and the lower part of the intelligent control board, the nano-film heating pipe control button switch is connected with the intelligent control board in a circuit manner through the connecting flat cable and is connected with the nano-film heating pipe in a circuit manner through a plurality of wires, the electric back board is positioned in the boiler box body, the main power switch, the intelligent control board and the rear part of the nano-film heating pipe control button switch are welded on the electric back board, the rear portion of electric backplate be provided with nanometer membrane heating pipe, nanometer membrane heating pipe be located electric backplate's rear portion, the outside is provided with the stove courage, the stove courage be located electric backplate's rear portion, inside is provided with nanometer membrane heating pipe, the outside is provided with the box backplate, the stove courage include the screw base, go up closure plate, lower closure plate, the screw base be located the outside below of stove courage, inside and nanometer membrane heating pipe carry out circuit connection through the electric wire, outside carries out circuit connection through electric wire and master switch, lower closure plate be located the inside below of stove courage, last closure plate be located the inside top of stove courage.

2. The novel intelligent large wall-hanging type nano-heating electric boiler according to claim 1, characterized in that: the control button comprises a timing key, a setting key, an ascending key, a descending key and an on-off key, and the control display screen can display parameters such as temperature, time, power, operation modes and the like.

3. The novel intelligent large wall-hanging type nano-heating electric boiler according to claim 1, characterized in that: the number of the nano-film heating pipes can be adjusted according to actual requirements.

4. The novel intelligent large wall-hanging type nano-heating electric boiler according to claim 1, characterized in that: the heating furnace is characterized in that threads are arranged on the nano-film heating pipe, threads are arranged above the inner wall of the furnace, the threads on the nano-film heating pipe are matched with the threads above the inner wall of the furnace, and the threads above the inner wall of the furnace are connected with the nano-film heating pipe in an embedded mode through rotation.

5. The novel intelligent large wall-hanging type nano-heating electric boiler according to claim 1, characterized in that: the furnace pipe is cylindrical.

6. The novel intelligent large wall-hanging type nano-heating electric boiler according to claim 1, characterized in that: the left part and the right part of the boiler box body are respectively provided with a heat dissipation hole.

7. The novel intelligent large wall-hanging type nano-heating electric boiler according to claim 1, characterized in that: the hanging plate hook can integrally hang the boiler box body.

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