CN2916713Y - Fuzzy controlled electromagnetic water heater - Google Patents

Abstract

The utility model discloses a blurred control electromagnetic water heater, which comprises a shell, an expansion tank, a radiator, a pressure reduction box, a sensing circuit, a blurred control digital circuit, and function circuit. The expansion tank is arranged at the bottom of the water heater, and beside the radiator is a pressure reduction tank; the expansion tank, radiator, and pressure reduction tank are connected with one another; the blurred control digital circuit is connected with the sensing circuit and function circuit through a lead separately. The blurred control electromagnetic water heater is heated electromagnetically, making the heat exchange rate reach 95 per cent and the heat loss low; the heating speed is high, while, the energy consumption is less; water and electricity are completely separated, thus avoiding short circuit because of electricity leakage or water tube crack; the blurred logic control makes operation simple, protection perfect, and the water and temperature under the scope; meanwhile, the product can save electricity by 50 per cent, which is practicable; the product is also convenient for dismantling and cleaning at any time.

Description

Fuzzy control electromagnetism hot-water stove

Technical field

The utility model relates to electronic information man electro-technical field, specifically is meant a kind of novel fuzzy control electromagnetism hot-water stove.

Background technology

At present, heating equipment that people use always such as boiler central heating appliance, heating wire heating device, infrared ray heating device, burner heating device, air-conditioning etc., as number of patent application is " 200380104963.6 ", name is called the patent of invention of " ceiling heating equipment ", and the patent No. is " 01232048.X ", name is called the utility model of " condensed type combustion gas hot water heater " etc., all exist complex structure, trouble is installed, thermal conversion rate is low, energy consumption is big, the cost height, seriously polluted, problem such as uneconomical, use inconvenient, energy dissipation is big, disadvantages such as poor safety performance, be unfavorable for being extensive use of and promote, be unfavorable for that average family uses.

Summary of the invention

In order to solve above-mentioned the deficiencies in the prior art part, the purpose of this utility model be to provide a kind of safe, energy-conserving and environment-protective, economical and practical, the fuzzy control electromagnetism hot-water stove simple, that cost is low, thermal conversion rate is high is installed.

The purpose of this utility model is achieved through the following technical solutions: a kind of fuzzy control electromagnetism hot-water stove, and it comprises hot-water stove shell, expansion tank, heating radiator, break pressure cistern, sensor circuit, fuzzy control digital circuit and functional circuit; Described expansion tank is arranged on the bottom of hot-water stove, the other break pressure cistern that is provided with of heating radiator; Expansion tank, heating radiator, break pressure cistern interconnect.Described fuzzy control digital circuit links to each other with sensor circuit, functional circuit respectively by conductor wire.

Described sensor circuit is made up of cooling-water temperature sensor, pressure transducer, low-temperature sensor, air temperature sensor and humidity sensor, wherein cooling-water temperature sensor, pressure transducer and low-temperature sensor are separately positioned on the heating radiator, and air temperature sensor and humidity sensor are separately positioned on the hot-water stove shell.

Described fuzzy control digital circuit comprises fuzzy control circuit board and power lead, and the fuzzy control circuit board is arranged on the hot-water stove bottom.

Described functional circuit comprises solenoid, air intake fan, exhaust fan, electronic radiation fan, humidifier and anion generator, described solenoid is arranged on the hot-water stove bottom, apart from control circuit board 3cm, apart from expansion tank 1～2cm, and be separated by with the insulation thermal insulation board in the middle of solenoid and the expansion tank.

In order to realize the present invention better, described expansion tank directly is connected by welding with heating radiator, expansion tank and heating radiator inside directly communicate like this, liquid in the expansion tank can with the liquid convection in the heating radiator, the heating radiator top links to each other with the break pressure cistern top by pipeline, and the break pressure cistern middle part links to each other with the expansion tank top by pipeline.

Described telepilot is an infrared remote controller, and wherein infrared remote controller is made up of remote controller displays screen, operating key, infrared mouth, telepilot shell and remote control circuitry plate; Can carry out message exchange by the sensor circuit of infrared ray and electromagnetism hot-water stove.

Described hot-water stove shell is provided with air inlet, exhaust outlet, electronic radiation mouth, control panel, LED display, and described control panel links to each other with LED display, fuzzy control digital circuit board respectively by conductor wire.

But described expansion tank is to make with the metal of magnetic conduction; Described metal is stainless steel or iron.

Described insulation thermal insulation board adopts thick ceramic heat-insulation board or the thick silicon wafer thermal insulation board of 3mm of 3mm.

In order to discharge the pressure that produces because of heating, described break pressure cistern top is provided with an openable protecting cap.

In order to increase the retractility of metal, described expansion tank is provided with the vertical fold of a lot of projections with spreader surface.

Change in order to realize that good heat is imitated, the media in expansion tank, heating radiator and the break pressure cistern can make water, oil or other liquid, but must be with a kind of media; When making water be media, also can be converted to steam for heating and conduct heat.

Of the present utility model one big characteristics are that electromagnetic heating technique and heating device are combined, and electricity separation makes firing rate fast, thermal conversion rate height, energy-conservation, safety, environmental protection; This design feature is that solenoid is placed stainless steel or magnetic conduction closed container made of iron (being expansion tank) 1～2cm distance, by midfeather ceramic wafer or other insulation thermal insulation boards, the fuzzy control circuit board that solenoid is connected with power supply connects by conductor wire, expansion tank and heating radiator inside directly communicate, and the liquid in expansion tank and the heating radiator can convection current.

Another characteristics of the present utility model are with fuzzy control technology and electromagnetism heating, anion generator, the combination of humidifier technology, make the solenoid, anion generator, humidifier work can vector controlled, reach function energy-conservation and easy to use; This design feature is, with cooling-water temperature sensor, pressure transducer, low-temperature sensor, air temperature sensor, humidity sensor by conductor wire be connected by conductor wire with air intake fan, exhaust fan, electronic radiator fan, humidifier, solenoid, anion generator again after the fuzzy control circuit board is connected.

Another characteristics of the present utility model are that expansion tank and heating radiator inside directly communicate, and make the liquid of both inside can convection current; Expansion tank all has the vertical fold of a lot of projections with spreader surface simultaneously, increases the retractility of metal.

Characteristics more of the present utility model are to be provided with break pressure cistern, on the heating radiator side one break pressure cistern is arranged, break pressure cistern is connected by pipeline with heating radiator, one connects the heating radiator top, have a pipeline to be connected with the expansion tank top in the middle of a top that connects break pressure cistern, break pressure cistern, an open mouth is arranged at the break pressure cistern top, be protecting cap, can discharge the pressure that produces because of heating.

The utility model compared with prior art has following advantage and beneficial effect:

1, the utility model adopts electromagnetism to heat, and makes the thermal conversion efficiency of heating installation reach 95%, and thermal losses is lower; Firing rate is very fast, less energy consumption.

2, the utility model separates water power fully, electric leakage can not occur or cause the short circuit electric leakage because the body water pipe breaks, and is fool proof.

3, the utility model adopts fuzzy logic control, makes simple to operately, protect more perfectly, can make water temperature and temperature in the setting range of control, economizes on electricity 50% simultaneously, and is very economical.

4, the utility model is provided with heat-exchange system, and air themperature rises very fast.

5, the utility model is without pipe laying, and energy loss is very little, and can move at any time, just can work as long as plug in.

6, the utility model usage range is wider, and practical region is unrestricted.

7, the utility model is provided with time, temperature, power failure, hydraulic pressure, water temperature induction and expansion tank protection system, makes hot-water stove under any circumstance can be in a safe condition; Be provided with timer, the user can be according to needs time opening and the shutdown of oneself.

8, the utility model is convenient to clean, and can unpick and wash at any time.

Description of drawings

Fig. 1 is a structural representation of the present utility model.

Fig. 2 is the structural representation of infrared remote controller.

Fig. 3 is a circuit working process flow diagram of the present utility model.

Fig. 4 is a circuit controlling party block diagram of the present utility model.

Fig. 5 is a fuzzy control program block scheme of the present utility model.

Fig. 6 is fuzzy control digital circuit figure of the present utility model.

Fig. 7 is circuit theory diagrams of the present utility model.

Embodiment

Below in conjunction with drawings and Examples, the utility model is done detailed description further, but embodiment of the present utility model is not limited thereto.

Embodiment

As shown in Figure 1 and Figure 2, fuzzy control electromagnetism hot-water stove is made of infrared remote controller 1, hot-water stove shell 6, expansion tank 26, heating radiator 27, break pressure cistern 28, sensor circuit, fuzzy control digital circuit, functional circuit; Expansion tank 26, heating radiator 27, break pressure cistern 28 interconnect by pipeline, but expansion tank 26 is to make with the metal (stainless steel or iron) of magnetic conduction, is arranged on the hot-water stove bottom; The heating radiator 27 other break pressure cisterns 28 that are provided with; Wherein expansion tank 26 directly is connected by welding with heating radiator 27, the liquid that expansion tank is 26 li can with the liquid convection of heating radiator 27, heating radiator 27 tops have a pipeline 29 to lead to break pressure cistern 28 tops, pipeline 29 from break pressure cistern 28 tops through to break pressure cistern 28 bottoms, one openable protecting cap 30 is arranged at break pressure cistern 28 tops, and break pressure cistern 28 middle side parts have a pipeline 33 and expansion tank 28 tops to communicate.Wherein infrared remote controller 1 is made up of remote controller displays screen 2, operating key 3, infrared mouth 4, telepilot shell 5, remote control circuitry plate 6 ', battery case 31, remote control circuitry plate 6 ', battery case 31 are fixed on the telepilot shell 5 by screw, circuit just can be worked behind the battery of packing into, sensor circuit by infrared ray and electromagnetism hot-water stove carries out message exchange, remote controller displays screen 2 links to each other with remote control circuitry plate 6 ', can the signalization index by operating key 3; Sensor circuit is made up of cooling-water temperature sensor 12, pressure transducer 13, low-temperature sensor 14, air temperature sensor 15, humidity sensor 16, be connected with fuzzy control digital circuit board 18 by conductor wire, wherein cooling-water temperature sensor 12, pressure transducer 13, low-temperature sensor 14 all are arranged on the heating radiator 27, air temperature sensor 15 and humidity sensor 16 are arranged on the hot-water stove shell 6, i.e. electronic radiation mouth 9 one sides; The fuzzy control digital circuit is to be made of fuzzy control circuit board 18, power lead 32, fuzzy control circuit board 18 is arranged on the hot-water stove bottom, be connected with cooling-water temperature sensor 12, pressure transducer 13, low-temperature sensor 14, air temperature sensor 15, humidity sensor 16 in the sensor circuit respectively by conductor wire, be connected with solenoid 19, fan (fan comprises air intake fan 20, exhaust fan 21, electronic radiator fan 22), humidifier 23, anion generator 24 in the functional circuit, the other end is connected with power lead 32; After solenoid 19 in the functional circuit, air intake fan 20, exhaust fan 21, electronic radiation fan 22, humidifier 23, anion generator 24 connect by conductor wire 17, be connected with fuzzy control circuit board 18 again, form functional circuit path, wherein solenoid 19 is arranged on the hot-water stove bottom, other at fuzzy control circuit board 18, at a distance of 3cm.Solenoid 19 and the expansion tank 26 1～2cm of being separated by middlely is separated by with 3mm thick ceramic board (or silicon wafer thermal insulation board) 25.Hot-water stove shell 6 is provided with air inlet 7, exhaust outlet 8, electronic radiation mouth 9, control panel 10, LED display 11, wherein control panel 10 is set on the hot-water stove shell 6, end by conductor wire 17 is connected with LED display 11, and the other end of conductor wire 17 links to each other with fuzzy control digital circuit board 18.

In order to increase the retractility of metal, described expansion tank is provided with the vertical fold of a lot of projections with spreader surface.Change in order to realize that good heat is imitated, the media in expansion tank, heating radiator and the break pressure cistern can make water, oil or other liquid, but must be with a kind of media; When making water be media, also can be converted to steam for heating and conduct heat.

As shown in Figure 3, be circuit working process flow diagram of the present utility model (fan comprises air intake fan, exhaust fan and electronic radiator fan).Control circuit workflow of the present utility model is from Infrared remote controller---sensor circuit---fuzzy control digital circuit---functional circuit.

As shown in Figure 4, be circuit controlling party block diagram of the present utility model: after sending instruction by infrared remote controller 1 information is transmitted to sensor circuit 34, sensor circuit 34 transforms digital signal with information, and the Dynamic Signal that the various sensors in the sensor circuit 34 are collected is carried out digital processing pass to fuzzy control digital circuit 35, fuzzy control digital circuit then will be carried out logical process, carry out vector controlled, regulate or open function circuit 36, thereby reach various function of the present utility model.

As shown in Figure 5, be fuzzy control program block scheme of the present utility model.System initialization, system begins test, detected pressures sensor, cooling-water temperature sensor, air-temperature sensor (being air temperature sensor), humidity sensor.During detected pressures, at first pressure transducer is accepted data, judges whether normally, if hydraulic pressure is low excessively, then points out warning/system's auto stop.When detecting water temperature, at first cooling-water temperature sensor is accepted data, judges whether normally, if temperature is too high, then stops heating; If water temperature is low excessively, then continue the energising heating.When detecting temperature, at first air-temperature sensor is accepted data, judges whether normally, if temperature is too high, then stops heating; If temperature is low excessively, then continue the energising heating.If when detecting humidity, at first humidity sensor is accepted data, judges whether normally wet excessively, then to stop humidification; If the air too dry then continues the energising humidification.

In conjunction with Fig. 6, shown in Figure 7, principle of work of the present utility model is as follows:

The user passes through infrared remote controller, can design temperature, wind speed, time, water temperature, indexs such as humidity, pass to sensor circuit on the control panel by infrared signal, sensor circuit can receive infrared signal, and be that digital signal is passed to the fuzzy control digital circuit on the fuzzy control circuit board that is contained in fuzzy control electromagnetism hot-water stove outer casing bottom with this signal transition, the fuzzy control digital circuit respectively with cooling-water temperature sensor, pressure transducer, low-temperature sensor, air temperature sensor, humidity sensor connects, sensor circuit is converted to digital signal with the multidate information of these sensors and passes to the fuzzy control digital circuit, reach solenoid on the regulatory function circuit by writing logical program in the fuzzy control circuit, the air intake fan, exhaust fan, electronic radiator fan, humidifier, the duty of anion generator, solenoid sends different concussion frequencies according to the power of fuzzy control output like this, because expansion tank has the magnetic conduction function, will make expansion tank produce heat rapidly by the electromagnetism concussion, and with the liquid in the heat transferred expansion tank, expansion tank directly communicates with heating radiator inside, produce liquid thermal cycle, heat is passed to heating radiator, the interior air themperature of whole hot-water stove is constantly risen, work by air intake fan and exhaust fan, the cyclic process of inspiration cold air and discharge hot-air, thereby indoor air themperature is improved, reach the function of heating; Owing in the fuzzy control digital circuit, write fuzzy control program, when water temperature or air themperature have reached design temperature, hot-water stove can stop or changing the frequency of operation of solenoid, air intake fan and exhaust fan automatically, makes air themperature keep relative steady temperature; The user also can so just can economize on resources greatly according to the needs agreements working time of oneself, and energy savings greatly is with the economy of raising use.

Expansion tank and spreader surface all have a lot of folds, prevent liquid freezing and expansion under low-temperature condition and make casing break.When environment temperature was lower than 1 ℃, low-temperature sensor can be passed to information the fuzzy control digital circuitry, makes solenoid be in the low frequency duty, thereby made water temperature keep low temperature to be unlikely to icing, reduced energy loss, improved firing rate; The fuzzy control digital circuit is connected with humidity sensor, and the fuzzy control digital circuit can be regulated humidity by humidifier automatically according to humidity sensor information; Because the indoor sealing of people in winter is better, the negative oxygen ion content in the room is lower, and the user can open anion generator according to the needs of oneself.Hot-water stove is provided with pressure inductor, and when the water yield was not enough, hot-water stove can add water and quit work the protection hot-water stove by automatic alarm.

The utility model is at the other break pressure cistern that is provided with of heating radiator, the heating radiator top has a pipeline to lead to the break pressure cistern top, pipeline is the bottom from the break pressure cistern top through to break pressure cistern, one openable protecting cap is arranged at the break pressure cistern top, the break pressure cistern middle side part has a pipeline to communicate with the expansion tank top, when cooling-water temperature sensor goes wrong, hot-water stove can detect and quit work automatically, for the water vapor or the pressure of guarding against so producing, this device is set, allow water vapour pass to break pressure cistern by pipeline, allow water vapor become water, reduce pressure, the water in the step-down water tank surpasses volume one half, unnecessary water can flow in the expansion tank by pipeline, reduces the loss of water; When pressure overstepped the extreme limit, pressure can discharge by the protecting cap on the break pressure cistern, when the water yield is not enough, also can add water by this protecting cap place.

Claims (10)

1, a kind of fuzzy control electromagnetism hot-water stove comprises hot-water stove shell, expansion tank, heating radiator, break pressure cistern, sensor circuit, fuzzy control digital circuit and functional circuit, and it is characterized in that: described expansion tank is arranged on the bottom of hot-water stove; Expansion tank, heating radiator, break pressure cistern interconnect; Described fuzzy control digital circuit links to each other with sensor circuit, functional circuit respectively by conductor wire;

Described sensor circuit is made up of cooling-water temperature sensor, pressure transducer, low-temperature sensor, air temperature sensor and humidity sensor, described cooling-water temperature sensor, pressure transducer and low-temperature sensor are separately positioned on the heating radiator, and air temperature sensor and humidity sensor are separately positioned on the hot-water stove shell;

Described fuzzy control digital circuit comprises fuzzy control circuit board and power lead, and the fuzzy control circuit board is arranged on the hot-water stove bottom;

Described functional circuit comprises solenoid, air intake fan, exhaust fan, electronic radiation fan, humidifier and anion generator, described solenoid is arranged on the hot-water stove bottom, range ambiguity control circuit board 3cm, apart from expansion tank 1～2cm, and be separated by with the insulation thermal insulation board in the middle of solenoid and the expansion tank.

2, fuzzy control electromagnetism hot-water stove according to claim 1, it is characterized in that: described expansion tank directly is connected by welding with heating radiator, the heating radiator top links to each other with the break pressure cistern top by pipeline, and the break pressure cistern middle part links to each other with the expansion tank top by pipeline.

3, fuzzy control electromagnetism hot-water stove according to claim 1, it is characterized in that: described telepilot is an infrared remote controller, and described infrared remote controller is made up of remote controller displays screen, operating key, infrared mouth, telepilot shell and remote control circuitry plate.

4, fuzzy control electromagnetism hot-water stove according to claim 1, it is characterized in that: described hot-water stove shell is provided with air inlet, exhaust outlet, electronic radiation mouth, control panel and LED display, and described control panel links to each other with LED display, fuzzy control digital circuit board respectively by conductor wire.

5, fuzzy control electromagnetism hot-water stove according to claim 1 is characterized in that: but described expansion tank is made with the metal of magnetic conduction.

6, fuzzy control electromagnetism hot-water stove according to claim 5, it is characterized in that: described metal is stainless steel or iron.

7, fuzzy control electromagnetism hot-water stove according to claim 1 is characterized in that: described insulation thermal insulation board adopts thick ceramic heat-insulation board or the thick silicon wafer thermal insulation board of 3mm of 3mm.

8, fuzzy control electromagnetism hot-water stove according to claim 1, it is characterized in that: described break pressure cistern top is provided with protecting cap.

9, fuzzy control electromagnetism hot-water stove according to claim 1, it is characterized in that: described expansion tank and spreader surface are provided with fold.

10, fuzzy control electromagnetism hot-water stove according to claim 1 is characterized in that: the media in expansion tank, heating radiator and the break pressure cistern is water, oil or steam.

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