CN203163273U - Water boiler - Google Patents

Abstract

The utility model provides a water boiler, it includes: a water tank; the temperature detection module is used for detecting the water temperature in the water tank; the air pressure detection module is used for detecting the ambient air pressure of the water boiler; a heating module; and the control module is respectively connected with the temperature detection module, the air pressure detection module and the heating module, obtains the water boiling point temperature according to the ambient air pressure, and controls the heating module according to the water boiling point temperature and the water temperature in the water tank. The utility model discloses a detect current environment atmospheric pressure and obtain water boiling temperature, can realize that intelligence is automatic to set up heating temperature, effectively avoided boiler heating not to shut down, long boiling water scheduling problem, both improved the reliability and the security of product, effectively practiced thrift the electric energy again.

Description

A kind of boiler

Technical field

The utility model relates to the boiler technical field, particularly a kind of intelligent boiler.

Background technology

Popular boiler in the market, no matter be traditional heating mode or the step-by-step movement heating, be fixing heating-up temperature mostly.Namely be, mechanical thermostat or temperature sensor by fixed temperature point detect coolant-temperature gage, realize the startup of control heating and stop, and make water temperature reach a fixing temperature.

The control system of the boiler of said fixing heating-up temperature is simple in structure, and cost is also relatively low.But because it has fixed heating-up temperature, use in the area that can not adapt to different altitude height or different water boiling points.

Because it is low that the height above sea level in district in all parts of the country has height to have, and the height of height above sea level has directly influenced local atmospheric pressure, and then will have influence on the boiling point of water.Reaching 100 ℃ as water temperature when the height on sea level will seethe with excitement, and in the higher area of height above sea level as Yunnan Province's Lijing, Xining, Qinghai Province, will seethe with excitement when water temperature reaches 92 ℃ of left and right sides.If fixing heating-up temperature point (as arranging 97 ℃), area this temperature lower at height above sea level can not be heated to boiling to water; And seethe with excitement too early owing to water in the higher area of height above sea level, can not be heated to always temperature is set, cause boiler not shut down; not only generate " thousand boiling water "; also waste electric energy, even might cause danger, as producing a large amount of steams and security incident takes place because seething with excitement for a long time.

In the prior art, a kind of adjustable boiler of heating-up temperature that designs is arranged, by the method for software debugging, by installation personnel heating-up temperature is set manually.The technical scheme of the boiler that this heating-up temperature is adjustable is specially: the basis at the boiler of said fixing heating-up temperature has increased control panel and temperature sensor, by the method for control panel by software debugging, heating-up temperature can artificially manually be set, be detected the temperature of water again by temperature sensor.When the coolant-temperature gage that heats reaches more than the design temperature, namely stop heating by control panel control; When the coolant-temperature gage of heating below design temperature, then start heating by control panel control.

But, in the technical scheme of the adjustable boiler of this heating-up temperature, manually the mode that arranges is had relatively high expectations to the technical ability of installation personnel on the one hand, installation personnel often can not be learnt local accurate water boiling point on the other hand, can only roughly estimate a value, will test affirmation after setting, process is more loaded down with trivial details.Also have because setting is forgotten in carelessness, break down at last and cause maintenance.

The utility model content

The purpose of this utility model is intended to solve the problems of the technologies described above at least.

For this reason; the purpose of this utility model is to propose a kind of boiler; this boiler obtains the water boiling point temperature by detecting current environment air pressure; can realize that intelligence arranges heating-up temperature automatically; easy and simple to handle; and problems such as not shutting down of having avoided effectively that high height above sea level low boiling causes, long boiling water had both improved security of products and reliability, again effective saves energy.

For achieving the above object, the utility model proposes a kind of boiler, comprising: water tank; Temperature detecting module, described temperature detecting module are arranged on the described water tank, for detection of the water temperature in the described water tank; The air pressure detection module, described air pressure detection module is for detection of the residing ambient pressure of described boiler; Heating module; And control module, described control module links to each other respectively with described heating module with described temperature detecting module, described air pressure detection module, described control module obtains the water boiling point temperature according to the detected ambient pressure of described air pressure detection module, and according to the detected water temperature of described temperature detecting module and described water boiling point temperature described heating module is controlled.

According to the boiler that the utility model proposes; detect current environment air pressure by the air pressure detection module and obtain the water boiling point temperature; thereby can realize that intelligence arranges heating-up temperature automatically; easy and simple to handle; and obtain the water boiling point temperature by detecting current environment air pressure, effectively avoided problems such as the boiler heating is not shut down, long boiling water, both improved reliability of products and security; effective saves energy has brought convenience for people's life again.

Particularly, described air pressure detection module is baroceptor, and described baroceptor is integrated on the described control module.Thus, installation and the baroceptor of having simplified baroceptor are not fragile, have improved the reliability of baroceptor.

Wherein, described control module arranges first temperature threshold and second temperature threshold according to described water boiling point temperature, and wherein, described first temperature threshold is greater than described second temperature threshold.

Particularly, described boiler also comprises: magnetic valve, the water side of described magnetic valve are arranged on the described water tank and with described control module and link to each other, and the water supply of described water tank is controlled; First level sensor, described first level sensor is arranged on the top of described heating module and links to each other with described control module, when described first level sensor detects water level in the described water tank and is lower than first watermark threshold, described control module is controlled described heating module and is stopped heating, and it is open-minded to control described magnetic valve; Second level sensor, described second level sensor is arranged on the top of described water tank and links to each other with described control module, when described second level sensor detects water level in the described water tank and reaches second watermark threshold, described control module is controlled described closed electromagnetic valve, wherein, described second watermark threshold is greater than described first watermark threshold.

Further, when the water temperature in described temperature detecting module detects described water tank detected water level in the described water tank and is higher than described first watermark threshold less than described second temperature threshold and described first level sensor, described control module was controlled described closed electromagnetic valve and is controlled described heating module and heat.

Further, water temperature in described temperature detecting module detects described water tank is more than or equal to described second temperature threshold and less than described first temperature threshold, and described second level sensor is when detecting water level in the described water tank and being lower than described second watermark threshold, and it is open-minded that described control module is controlled described magnetic valve.

Further, the water temperature in described temperature detecting module detects described water tank is during more than or equal to described first temperature threshold, and described control module is controlled described heating module and stopped heating.

In addition, described boiler also comprises: display module, and described display module shows the running parameter of described boiler; Key-press module, the user arranges described running parameter by described key-press module.Thus, the user can adjust heating-up temperature according to the actual requirements, brings convenience for people's life.

Preferably, described temperature detecting module is temperature sensor, and described temperature sensor is near described heating module setting.

Further, described boiler also comprises: exhaust outlet, and described exhaust outlet is arranged on the top of described water tank, and described second level sensor is arranged on the below of described exhaust outlet.

The aspect that the utility model is additional and advantage part in the following description provide, and part will become obviously from the following description, or recognize by practice of the present utility model.

Description of drawings

Above-mentioned and/or the additional aspect of the utility model and advantage are from obviously and easily understanding becoming the description of embodiment below in conjunction with accompanying drawing, wherein:

Fig. 1 is each the parts syndeton cutaway view according to the boiler of an embodiment of the utility model;

Fig. 2 is the simple and easy schematic appearance according to the boiler of a specific embodiment of the utility model; And

Fig. 3 is the flow chart according to the control method of the boiler of an embodiment of the utility model.

Reference numeral:

Boiler 1000, water tank 10, magnetic valve 20, water side 21 and water inlet end 22, first level sensor 31 and second level sensor 32, temperature detecting module 40, air pressure detection module 50, heating module 60 and control module 70, display module 80 and key-press module 90, exhaust outlet 100, water inlet 200, control panel 300.

The specific embodiment

Describe embodiment of the present utility model below in detail, the example of described embodiment is shown in the drawings, and wherein identical or similar label is represented identical or similar elements or the element with identical or similar functions from start to finish.Be exemplary below by the embodiment that is described with reference to the drawings, only be used for explaining the utility model, and can not be interpreted as restriction of the present utility model.

Disclosing hereinafter provides many different embodiment or example to be used for realizing different structure of the present utility model.Of the present utility model open in order to simplify, hereinafter parts and the setting to specific examples is described.Certainly, they only are example, and purpose does not lie in restriction the utility model.In addition, the utility model can be in different examples repeat reference numerals and/or letter.This repetition is in order to simplify and purpose clearly, itself not indicate the relation between the various embodiment that discuss of institute and/or the setting.In addition, various specific technology and examples of material that the utility model provides, but those of ordinary skills can recognize the use of applicability and/or the other materials of other technologies.In addition, first feature described below second feature it " on " structure can comprise that first and second features form the embodiment of direct contact, can comprise that also additional features is formed on the embodiment between first and second features, such first and second features may not be direct contacts.

In description of the present utility model, need to prove, unless otherwise prescribed and limit, term " installation ", " linking to each other ", " connection " should be done broad understanding, for example, can be mechanical connection or electrical connection, also can be the connection of two element internals, can be directly to link to each other, and also can link to each other indirectly by intermediary, for the ordinary skill in the art, can understand the concrete implication of above-mentioned term as the case may be.

With reference to following description and accompanying drawing, with these and other aspects of clear embodiment of the present utility model.In these descriptions and accompanying drawing, some specific implementations among the embodiment of the present utility model are specifically disclosed, represent to implement some modes of the principle of embodiment of the present utility model, but should be appreciated that the scope of embodiment of the present utility model is not limited.On the contrary, embodiment of the present utility model comprises spirit and interior all changes, modification and the equivalent of intension scope that falls into institute's additional claims.

Boiler and the control method thereof that the utility model embodiment is proposed is described with reference to the accompanying drawings.

At first with reference to accompanying drawing the boiler that the utility model first aspect embodiment proposes is described below.

As shown in Figure 1, the boiler 1000 of an embodiment proposition of the utility model comprises water tank 10, temperature detecting module 40, air pressure detection module 50, heating module 60 and control module 70.

Wherein, temperature detecting module 40 is arranged on the water tank 10, for detection of the water temperature in the water tank 10.Particularly, in an embodiment of the present utility model, temperature detecting module 40 can be temperature sensor, and temperature sensor arranges near heating module 60, in order to detect the water temperature in the water tank 10 exactly.

Air pressure detection module 50 is for detection of boiler 1000 residing ambient pressures.Wherein, air pressure detection module 50 and control module 70 are installed in the enclosure of boiler 1000, and particularly, in an embodiment of the present utility model, as shown in Figure 1, air pressure detection module 50 is baroceptor, and baroceptor is integrated on the control module 70.Thus, installation and the baroceptor of having simplified baroceptor are not fragile, have improved the reliability of baroceptor.

Be understandable that baroceptor also can be installed in other positions, can get final product by testing environment air pressure.The utility model detects the residing ambient pressure of boiler by baroceptor; effectively avoided the boiler heating not shut down, grow to boil water/problems such as long boiling water; improved reliability of products and security, avoided that heating is not shut down, long boiling water effective saves energy again.

In embodiment of the present utility model, control module 70 links to each other respectively with temperature detecting module 40, air pressure detection module 50 and heating module 60, control module 70 obtains the water boiling point temperature according to air pressure detection module 50 detected ambient pressures, and according to temperature detecting module 40 detected water temperatures and water boiling point temperature heating module 60 is controlled.

That is to say that the input as control signal is connected with control module 70 temperature detecting module 40 with air pressure detection module 50, heating module 60 is connected with the load output of control module 70 as load.Wherein, in an embodiment of the present utility model, heating module 60 can be electrothermal tube.

Particularly, in an embodiment of the present utility model, as shown in Figure 1, boiler 1000 also comprises: magnetic valve 20, first level sensor 31 and second level sensor 32.

Wherein, as shown in Figure 1, the water side 21 of magnetic valve 20 is arranged on the water tank 10, magnetic valve 20 links to each other with control module 70, so that the water supply of water tank 10 is controlled, particularly, the water side 21 of magnetic valve 20 can be arranged on the bottom of water tank 10, and the water inlet end 22 of magnetic valve 20 links to each other with the water inlet 200 of boiler 1000.

In embodiment of the present utility model, first level sensor 31 and second level sensor 32 are for detection of the water level in the water tank 10, wherein, as shown in Figure 1, first level sensor 31 is arranged on the top of heating module 60, when first level sensor 31 detected water levels in the water tank 10 and is lower than first watermark threshold, control module 70 control heating modules 60 stopped heating, and control magnetic valve 20 is open-minded.Second level sensor 32 is arranged on the top of water tank 10, and when second level sensor 32 detected water levels in the water tank 10 and reaches second watermark threshold, control module 70 control magnetic valves 20 cut out, and wherein, second watermark threshold is greater than first watermark threshold.

And in an embodiment of the present utility model, as shown in Figure 1, boiler 1000 also comprises: exhaust outlet 100, and exhaust outlet 100 is arranged on the top of water tank 10, and second level sensor 32 is arranged on the below of exhaust outlet 100.

Particularly, in an embodiment of the present utility model, control module 70 arranges first temperature threshold and second temperature threshold according to water boiling point temperature T 0, and wherein, first temperature threshold is greater than second temperature threshold.For example, first temperature threshold can be maximum heating temperature TH, second temperature threshold can be minimum heating-up temperature TL, particularly, according to water level, water temperature in maximum heating temperature TH, minimum heating-up temperature TL and the water tank 10 magnetic valve 20 and heating module 60 are controlled, to realize the control to supplying water, heating.

Further, in an embodiment of the present utility model, water temperature T in temperature detecting module 40 detects water tank 10 is minimum heating-up temperature TL and first level sensor 31 when detecting water level in the water tank 10 and being higher than first watermark threshold less than second temperature threshold, and control module 70 control magnetic valves 20 cut out and control heating module 60 and heat.

Further, in an embodiment of the present utility model, water temperature T in temperature detecting module 40 detects water tank 10 is minimum heating-up temperature TL more than or equal to second temperature threshold and is maximum heating temperature TH less than first temperature threshold, and second level sensor 32 when detecting water levels in the water tank 10 and being lower than second watermark threshold, control module 70 control magnetic valves 20 are open-minded.

Further, in an embodiment of the present utility model, when the water temperature T in temperature detecting module 40 detects water tank 10 was maximum heating temperature TH more than or equal to first temperature threshold, control module 70 control heating modules 60 stopped heating.

Particularly, the control principle of above-mentioned boiler 1000 is: air pressure detection module 50 is P for baroceptor detects the current environment atmospheric pressure value for example, temperature detecting module 40 is T for the water temperature that temperature sensor detects in the water tank 10 for example, control module 70 is converted to current environment atmospheric pressure value P the water boiling point temperature T 0 of current environment according to air pressure-water boiling point conversion formula.It is maximum heating temperature TH that control module 70 can be set to first temperature threshold automatically with T0 or T0-n ℃, and wherein, it is that minimum heating-up temperature TL is generally little 2～5 ℃ than TH that n can get 0～3, second temperature threshold, is the hot water effluent's temperature that can accept to drink.Control module 70 for example is energising and the outage of electrothermal tube and magnetic valve 20 according to the water temperature T control heating module 60 in water level and the water tank 10.

When the water level in the water tank 10 when first watermark threshold namely descends water level following, control module 70 disconnects heating modules 60, stops heating, into water is opened in magnetic valve 20 energisings simultaneously.When the water level in the water tank 10 when first watermark threshold namely descends water level above, if the water temperature T＜TL in the water tank 10, control module 70 disconnects magnetic valves 20, suspends water inlet, 60 energisings of control module 70 control heating modules begin heating simultaneously.In the heating process when the water temperature T L in the water tank 10≤T＜TH, if the water levels in the water tank 10 are lower than second watermark threshold and namely go up water level, then control module 70 is opened magnetic valve 20 and is intake, in the water inlet process when the water temperature T in the water tank 10＜TL, control module 70 disconnects magnetic valve 20 again, suspends water inlet.Water inlet so repeatedly, and in the moisturizing process of intaking repeatedly, heating module 60 is worked always, the water level in water tank 10 reaches second watermark threshold and namely goes up water level when above, full water, control module 70 is closed magnetic valve 20, stops into water; When the water temperature T in the water tank 10 〉=TH, control module 70 disconnects heating modules 60, stops heating.

In the process that full water stops to heat, if the water temperature T＜TL in the water tank 10, then control module 70 is controlled heating module 60 energising heating again, and when water temperature T 〉=TH, control module 70 disconnects heating modules 60, stops heating.If the user causes water level to reduce by the tap water intaking of fetching water, then control module 70 heats moisturizing according to said process and reaches second watermark threshold until water level and namely go up water level.

Need to prove that in actual applications, in order to prevent the control signal disorder, the control of moisturizing temperature can be set to T＜TL-2 ℃ and be distinguished.

In addition, in another embodiment of the present utility model, as shown in Figure 2, boiler 1000 also comprises: display module 80 and key-press module 90.Display module 80 shows the running parameter of boiler 1000, and the user arranges running parameter by key-press module 90.Thus, the user can adjust heating-up temperature according to the actual requirements, brings convenience for people's life.

In a specific embodiment of the present utility model, as shown in Figure 2, display module 80 and key-press module 90 can be wholely set and be control panel 300.

Be understandable that, in the present embodiment, it is that the value of maximum heating temperature TH can not be higher than water boiling point temperature T 0 that control module 70 also is used for volitional check first temperature threshold, so, half restrictive heating-up temperature adjustable function, the user can adjust heating-up temperature according to the actual requirements, can guarantee that again the heating-up temperature point of adjusting is more reasonable simultaneously, system's operation is more reliable, safer, more energy-conservation, makes product in the demand that guarantees farthest to satisfy under the safe and reliable prerequisite user.

Need to prove that above-mentioned boiler 1000 also comprises the 3rd level sensor (not drawing in the accompanying drawing), be arranged on the middle part of water tank 10, the 3rd level sensor is between first level sensor 31 and second level sensor 32.

Boiler according to the utility model embodiment proposition; detect current environment air pressure by the air pressure detection module and obtain the water boiling point temperature; thereby can realize that intelligence arranges heating-up temperature automatically; easy and simple to handle; and obtain the water boiling point temperature by detecting current environment air pressure, effectively avoided problems such as the boiler heating is not shut down, long boiling water, both improved reliability of products and security; effective saves energy has brought convenience for people's life again.

The control method of the boiler that proposes below with reference to the utility model second aspect of Fig. 3 embodiment is described.

As shown in Figure 3, the control method of the boiler of an embodiment of the utility model comprises the steps:

Step S1, after boiler powered on, temperature detecting module and air pressure detection module detected water temperature and the residing ambient pressure of boiler in the water tank respectively.

Step S2, control module obtains the water boiling point temperature according to the detected ambient pressure of air pressure detection module.

Particularly, after execution of step S1, control module is according to air pressure-water boiling point conversion formula, and the atmospheric pressure value of the detected current environment air pressure of air pressure detection module is converted to the water boiling point temperature value of current environment to obtain the water boiling point temperature.

Step S3, control module is controlled heating module according to the water temperature in water boiling point temperature and the detected water tank of temperature detecting module.

Wherein, in an embodiment of the present utility model, the control method of above-mentioned boiler also comprises: control module arranges first temperature threshold and second temperature threshold according to the water boiling point temperature, and wherein, first temperature threshold is greater than second temperature threshold.

Further, the control method of above-mentioned boiler also comprises: when the water temperature in temperature detecting module detects water tank detected water level in the water tank and is higher than first watermark threshold less than second temperature threshold and first level sensor, control module control closed electromagnetic valve was also controlled heating module and is heated; Water temperature in temperature detecting module detects water tank is more than or equal to second temperature threshold and less than first temperature threshold, and second level sensor when detecting water level in the water tank and being lower than second watermark threshold, control module control magnetic valve is open-minded, wherein, second watermark threshold is greater than first watermark threshold; Water temperature in temperature detecting module detects water tank is during more than or equal to first temperature threshold, and control module control heating module stops heating.

Further, in an embodiment of the present utility model, the control method of above-mentioned boiler also comprises: when first level sensor detected water level in the water tank and is lower than first watermark threshold, control module control heating module stopped heating, and the control magnetic valve is open-minded; When second level sensor detects water level in the water tank and reaches second watermark threshold, control module control closed electromagnetic valve.

In a specific embodiment of the present utility model, the control method of above-mentioned boiler is:

Step S10: power on, it for example is that baroceptor, temperature detecting module for example are the signal of temperature sensor that control module is gathered the air pressure detection module, detects the water temperature T in the residing ambient pressure P of described boiler and the water tank respectively.

Step S20: control module is according to air pressure-water boiling point conversion formula, air pressure P is converted to the water boiling point temperature T 0 of boiler environment of living in, and with T0 or T0-n ℃, n gets 0～3, get a definite value during actual product design, be set to i.e. first temperature threshold of maximum heating temperature TH automatically, i.e. second temperature threshold of a minimum heating-up temperature TL is set simultaneously, TL is generally little 2～5 ℃ than TH, is the hot water effluent's temperature that can accept to drink.

Step S30: control module for example is energising and the outage of electrothermal tube according to the control of the water temperature T in the detected water tank of temperature detecting module heating module.

When the water level in the water tank when first watermark threshold namely descends water level following, control module disconnects heating module, stops heating, into water is opened in magnetic valve energising simultaneously.When the water level of water tank when first watermark threshold namely descends water level above, if the water temperature T＜TL in the water tank, control module disconnects magnetic valve, suspends water inlet, the energising of the heating module of control module control simultaneously begins heating.In the heating process when the water temperature T L in the water tank≤T＜TH, if the water level in the water tank is lower than second watermark threshold and namely goes up water level, then control module is opened magnetic valve water inlet, and when water temperature T water tank in＜TL, control module disconnects the magnetic valve time-out again and intakes in the water inlet process.Water inlet so repeatedly, and heating module is worked always in the moisturizing process of intaking repeatedly, the water level in water tank reaches second watermark threshold and namely goes up water level when above, full water, control module is closed magnetic valve, stops into water; When the water temperature T in the water tank 〉=TH, control module disconnects heating module, stops heating.

In the process that full water stops to heat, if the water temperature T＜TL in the water tank, then control module is controlled heating module energising heating again, and when water temperature T 〉=TH, control module disconnects heating module, stops heating.If the user causes water level to reduce by the tap water intaking of fetching water, then control module set by step S30 heating moisturizing reach second watermark threshold until water level and namely go up water level.

Need to prove that in actual applications, in order to prevent the control signal disorder, the control of moisturizing temperature can be set to T＜TL-2 ℃ and be distinguished.

The control method of the boiler of above-described embodiment is a specific embodiment of the present utility model; change the difference of maximum heating temperature and water boiling point temperature or the technical scheme of the change on the non-core principle of the mode of change heating moisturizing or detection mode of change Water Level Control mode or change temperature etc., all should fall within the protection domain of the present utility model.

Control method according to the boiler of the utility model embodiment; can detect current environment air pressure in real time and obtain the water boiling point temperature; thereby realize that intelligence arranges the heating-up temperature of boiler automatically; control easy; and obtain the water boiling point temperature by detecting current environment air pressure, can effectively avoid problems such as the boiler heating is not shut down, long boiling water, both improved reliability of products and security; effective saves energy has brought convenience for people's life again.

In addition, boiler of the present utility model and control method thereof have solved problems of the prior art, by detecting the atmospheric pressure of boiler working environment of living in, be scaled the water boiling point of working environment of living in again according to atmospheric pressure intelligence, the heating-up temperature of boiler is set automatically, if be equipped with simultaneously reliably, step-by-step movement mode of heating efficiently, control each parts co-ordination, make boiler work more reliable, more intelligent, more energy-conservation.

Describe and to be understood that in the flow chart or in this any process of otherwise describing or method, expression comprises the module of code of the executable instruction of the step that one or more is used to realize specific logical function or process, fragment or part, and the scope of preferred embodiment of the present utility model comprises other realization, wherein can be not according to order shown or that discuss, comprise according to related function by the mode of basic while or by opposite order, carry out function, this should be understood by embodiment person of ordinary skill in the field of the present utility model.

In flow chart the expression or in this logic of otherwise describing and/or step, for example, can be considered to the sequencing tabulation for the executable instruction that realizes logic function, may be embodied in any computer-readable medium, use for instruction execution system, device or equipment (as the computer based system, comprise that the system of processor or other can be from the systems of instruction execution system, device or equipment instruction fetch and execution command), or use in conjunction with these instruction execution systems, device or equipment.With regard to this specification, " computer-readable medium " can be anyly can comprise, storage, communication, propagation or transmission procedure be for instruction execution system, device or equipment or the device that uses in conjunction with these instruction execution systems, device or equipment.The example more specifically of computer-readable medium (non-exhaustive list) comprises following: the electrical connection section (electronic installation) with one or more wirings, portable computer diskette box (magnetic device), random-access memory (ram), read-only storage (ROM), can wipe and to edit read-only storage (EPROM or flash memory), fiber device, and portable optic disk read-only storage (CDROM).In addition, computer-readable medium even can be paper or other the suitable media that to print described program thereon, because can be for example by paper or other media be carried out optical scanner, then edit, decipher or handle to obtain described program in the electronics mode with other suitable methods in case of necessity, then it is stored in the computer storage.

Should be appreciated that each several part of the present utility model can realize with hardware, software, firmware or their combination.In the above-described embodiment, a plurality of steps or method can realize with being stored in the memory and by software or firmware that suitable instruction execution system is carried out.For example, if realize with hardware, the same in another embodiment, in the available following technology well known in the art each or their combination realize: have for the discrete logic of data-signal being realized the logic gates of logic function, special IC with suitable combinational logic gate circuit, programmable gate array (PGA), field programmable gate array (FPGA) etc.

Those skilled in the art are appreciated that and realize that all or part of step that above-described embodiment method is carried is to instruct relevant hardware to finish by program, described program can be stored in a kind of computer-readable recording medium, this program comprises one of step or its combination of method embodiment when carrying out.

In addition, each functional unit in each embodiment of the utility model can be integrated in the processing module, also can be that the independent physics in each unit exists, and also can be integrated in the module two or more unit.Above-mentioned integrated module both can adopt the form of hardware to realize, also can adopt the form of software function module to realize.If described integrated module realizes with the form of software function module and during as independently production marketing or use, also can be stored in the computer read/write memory medium.

The above-mentioned storage medium of mentioning can be read-only storage, disk or CD etc.

In the description of this specification, concrete feature, structure, material or characteristics that the description of reference term " embodiment ", " some embodiment ", " example ", " concrete example " or " some examples " etc. means in conjunction with this embodiment or example description are contained at least one embodiment of the present utility model or the example.In this manual, the schematic statement to above-mentioned term not necessarily refers to identical embodiment or example.And concrete feature, structure, material or the characteristics of description can be with the suitable manner combination in any one or more embodiment or example.

Although illustrated and described embodiment of the present utility model, for the ordinary skill in the art, be appreciated that under the situation that does not break away from principle of the present utility model and spirit and can carry out multiple variation, modification, replacement and modification to these embodiment that scope of the present utility model is by claims and be equal to and limit.

Claims (10)

1. a boiler is characterized in that, comprising:

Water tank;

Temperature detecting module, described temperature detecting module are arranged on the described water tank, for detection of the water temperature in the described water tank;

The air pressure detection module, described air pressure detection module is for detection of the residing ambient pressure of described boiler;

Heating module; And

Control module, described control module links to each other respectively with described heating module with described temperature detecting module, described air pressure detection module, described control module obtains the water boiling point temperature according to the detected ambient pressure of described air pressure detection module, and according to the detected water temperature of described temperature detecting module and described water boiling point temperature described heating module is controlled.

2. boiler as claimed in claim 1, it is characterized in that: described air pressure detection module is baroceptor, and described baroceptor is integrated on the described control module.

3. boiler as claimed in claim 1, it is characterized in that: described control module arranges first temperature threshold and second temperature threshold according to described water boiling point temperature, and wherein, described first temperature threshold is greater than described second temperature threshold.

4. boiler as claimed in claim 3 is characterized in that, also comprises:

Magnetic valve, the water side of described magnetic valve are arranged on the described water tank and with described control module and link to each other, and control with the water supply to described water tank;

First level sensor, described first level sensor is arranged on the top of described heating module and links to each other with described control module, when described first level sensor detects water level in the described water tank and is lower than first watermark threshold, described control module is controlled described heating module and is stopped heating, and it is open-minded to control described magnetic valve;

Second level sensor, described second level sensor is arranged on the top of described water tank and links to each other with described control module, when described second level sensor detects water level in the described water tank and reaches second watermark threshold, described control module is controlled described closed electromagnetic valve, wherein, described second watermark threshold is greater than described first watermark threshold.

5. boiler as claimed in claim 4, it is characterized in that: when the water temperature in described temperature detecting module detects described water tank detected water level in the described water tank and is higher than described first watermark threshold less than described second temperature threshold and described first level sensor, described control module was controlled described closed electromagnetic valve and is controlled described heating module and heat.

6. boiler as claimed in claim 5, it is characterized in that: the water temperature in described temperature detecting module detects described water tank is more than or equal to described second temperature threshold and less than described first temperature threshold, and described second level sensor is when detecting water level in the described water tank and being lower than described second watermark threshold, and it is open-minded that described control module is controlled described magnetic valve.

7. boiler as claimed in claim 6 is characterized in that: the water temperature in described temperature detecting module detects described water tank is during more than or equal to described first temperature threshold, and described control module is controlled described heating module and stopped heating.

8. boiler as claimed in claim 1 is characterized in that, also comprises:

Display module, described display module shows the running parameter of described boiler;

Key-press module, the user arranges described running parameter by described key-press module.

9. boiler as claimed in claim 1, it is characterized in that: described temperature detecting module is temperature sensor, described temperature sensor is near described heating module setting.

10. boiler as claimed in claim 4 is characterized in that, also comprises:

Exhaust outlet, described exhaust outlet is arranged on the top of described water tank, and described second level sensor is arranged on the below of described exhaust outlet.

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