CN110486950A - A kind of electric-heating control system and method - Google Patents

Abstract

The present embodiments relate to a kind of electric-heating control system and method, which includes: water temperature sensor, temperature controller and multiple heating tubes；Water temperature sensor and multiple heating tubes are connect with temperature controller；Temperature controller passes through the multiple heating tubes of return difference delays time to control for receiving the data of water temperature sensor, and the data based on water temperature sensor and default water temperature；Wherein, return difference delay is the duration that water temperature difference meets default return difference temperature.It in the embodiment of the present invention, is delayed using return difference and carries out temperature control, reduce return difference temperature, to effectively avoid contact with the frequent starting of device, and reduced temperature fluctuation, promote user experience.

Description

A kind of electric-heating control system and method

Technical field

Present example is related to electric boiler technical applications, and in particular to a kind of electric-heating control system and method.

Background technique

It is how more and more important using electric heating with further increasing for the following electricity consumption.Using electric boiler at night It is urgent problem that heat supply on heat accumulation daytime, which is carried out, to replace the coal heating boiler of high pollution maximum discharge.In the prior art Electric boiler in terms of temperature control, be primarily present the big problem of settable return difference temperature so that the control temperature of electric boiler compared with Greatly, the controlling to grill pan furnace temperature is directly affected, the sendible temperature of user is influenced.

To solve the above problems, the prior art changes the return difference temperature value of electric boiler, minimum may be only configured to 5, lead in this way It causes the fluctuation of control temperature larger, eventually leads to the user experience range of temperature, be unfavorable for the development of electric boiler industry, industry is had to go to the toilet One kind is needed to be capable of the technology of needle electric boiler electric heating control.

Summary of the invention

In order to solve the problems, such as it is of the existing technology at least one, at least one embodiment of the present invention provides a kind of electricity Heating control system and method.

In a first aspect, the embodiment of the present invention proposes a kind of electric-heating control system, the system comprises:

Water temperature sensor, temperature controller and multiple heating tubes；

Water temperature sensor and multiple heating tubes are connect with temperature controller；

Temperature controller, for receiving the data of water temperature sensor, and the data based on water temperature sensor and default water temperature, Pass through the multiple heating tube of return difference delays time to control；

Wherein, return difference delay is the duration that water temperature difference meets default return difference temperature.

In some embodiments, presetting return difference temperature includes: starting return difference temperature and stopping return difference temperature；

Return difference delay includes: the delay of starting return difference and stopping return difference delay.

In some embodiments, temperature controller is also used to be grouped multiple heating tubes.

In some embodiments, electric-heating control system further include: packeting controller, for dividing multiple heating tubes Group.

In some embodiments, temperature controller, for receiving the data of water temperature sensor, and based on water temperature sensor Data and default water temperature pass through different return difference delays time to control multiple groups heating tubes.

In some embodiments, multiple heating tubes are divided into two groups, and first group of heating tube includes at least one heating tube；Second Group heating tube includes at least two heating tubes；

Temperature controller, for receiving the data of water temperature sensor, and the data based on water temperature sensor and default water temperature, By first starting return difference delay and first stop first group of heating tube of return difference delays time to control, by second starting return difference delay and Second stops second group of heating tube of return difference delays time to control.

In some embodiments, multiple heating tubes carry out rotation grouping with default packet cycle.

In some embodiments, electric-heating control system further include: multiple relays；

Temperature controller connects multiple heating tubes by multiple relays, and multiple relays and multiple heating tubes one are a pair of It answers.

In some embodiments, the difference for starting return difference temperature and stopping between return difference temperature is preset value.

Second aspect, the embodiment of the present invention also propose a kind of electric heating controlling method, and method includes:

Obtain the data of water temperature sensor；

Data and default water temperature based on water temperature sensor, pass through the multiple heating tubes of return difference delays time to control；Wherein, return difference is prolonged When meet the duration of default return difference temperature for water temperature difference.

Temperature control is carried out using return difference delay in the embodiment of the present invention, return difference temperature is reduced, to effectively avoid contact with The frequent starting of device, and reduce temperature fluctuation, promote user experience.

Detailed description of the invention

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below will be in embodiment or description of the prior art It is required attached

Figure is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, right For those of ordinary skill in the art, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is a kind of structural schematic diagram of electric-heating control system provided in an embodiment of the present invention；

Fig. 2 is a kind of electric heating controlling method flow chart provided in an embodiment of the present invention；

Fig. 3 is a kind of main interface of the intelligent heat exchanger using electric-heating control system provided in an embodiment of the present invention The arrangement of LED and key layout figure.

Specific embodiment

To better understand the objects, features and advantages of the present invention, with reference to the accompanying drawings and examples The present invention is described in further detail.It is understood that described embodiment is a part of the embodiments of the present invention, Instead of all the embodiments.Specific embodiment described herein is used only for explaining the present invention, rather than to limit of the invention It is fixed.Based on described the embodiment of the present invention, those of ordinary skill in the art's every other embodiment obtained is belonged to The scope of protection of the invention.

It should be noted that, in this document, the relational terms of such as " first " and " second " or the like are used merely to one A entity or operation with another entity or operate distinguish, without necessarily requiring or implying these entities or operation it Between there are any actual relationship or orders.

Referring to Fig.1, a kind of electric-heating control system that the embodiment of the present invention proposes, comprising:

Water temperature sensor 101, temperature controller 102 and multiple heating tubes 103；It should be noted that in order to which attached drawing is succinct, Three heating tubes 103 are only shown in Fig. 1.In some embodiments, electric-heating control system may also include circulating pump 104.Circulation Pump 104 is controlled by electric-heating control system, for accelerating water circulation and operating in water tank.

In some embodiments, water temperature sensor 101 is mounted in water tank, for acquiring the water temperature in water tank.

Water temperature sensor 101 and multiple heating tubes 103 are connect with temperature controller 102；In some embodiments, electricity adds Thermal control system further include: multiple relays；Temperature controller 102 connects multiple heating tubes 103 by multiple relays, and more A relay and multiple heating tubes 103 correspond.Temperature controller 102 by relay control the unlatching of corresponding heating tube with Stop.

Temperature controller 102 is used to receive the data of water temperature sensor 101, and the data based on water temperature sensor 101 and Default water temperature, passes through the multiple heating tubes 103 of return difference delays time to control；Wherein, return difference delay is that water temperature difference meets default return difference temperature The duration of degree.

In some embodiments, default water temperature can be the target water temperature of user setting, be also possible to electric heating control system It unites pre-set target water temperature.In some embodiments, default water temperature may include starting water temperature and stopping water temperature.

In some embodiments, water temperature difference be water temperature and default water temperature indicated by the data of water temperature sensor 101 it Between difference.

In some embodiments, presetting return difference temperature includes: starting return difference temperature and stopping return difference temperature.Start return difference temperature Degree is temperature when opening heating tube, and stopping return difference temperature is temperature when closing heating tube.

In some embodiments, return difference delay includes: the delay of starting return difference and stopping return difference delay.Starting return difference is delayed and is Delay when heating tube is opened, stopping return difference delay is delay when closing heating tube.

In some embodiments, the delay of starting return difference and stopping return difference delay are independent delay.

In some embodiments, the delay of starting return difference and stopping return difference delay can be the same or different, in some realities It applies in example, the delay of starting return difference and stopping return difference delay are 5 minutes.

In some embodiments, if water temperature difference does not directly control multiple heating tubes 103 and open lower than starting return difference temperature It is dynamic, but timing is carried out, water temperature difference, which is below, after timing duration reaches starting return difference delay and in timing duration starts back Differential temperature degree just controls multiple heating tubes 103 and starts.If water temperature difference is counted not less than starting return difference temperature in timing duration It is constantly long to reset.

In some embodiments, if water temperature difference, which is higher than, stops return difference temperature, multiple heating tubes 103 are not directly controlled and are stopped Only, but timing is carried out, water temperature difference is above or is equal to after timing duration, which reaches, stops return difference delay and in timing duration Stop return difference temperature, just controls multiple heating tubes 103 and stop.If water temperature difference, which is lower than, in timing duration stops return difference temperature, Then timing duration is reset.

In some embodiments, it is delayed using return difference, can be lower than by presetting return difference temperature by 5 DEG C in the prior art, for example, opening Dynamic return difference temperature is -1 DEG C, and stopping return difference temperature is 0 DEG C, and starting return difference temperature and the difference for stopping return difference temperature are 1 DEG C.

In some embodiments, start return difference temperature and stop return difference temperature between difference be preset value, for example, 1 ℃。

As it can be seen that being delayed using return difference carries out temperature control, return difference temperature is reduced, to effectively avoid contact with frequently opening for device It is dynamic, and reduce temperature fluctuation, promote user experience.

In some embodiments, default water temperature may include starting water temperature and stopping water temperature, wherein starting water temperature is, for example, 3 DEG C, stopping temperature is, for example, 80 DEG C.When electric-heating control system is in shutdown status (system is closed, but power supply does not power off), When water temperature sensor measures water temperature lower than 3 DEG C, system will voluntarily start, and open circulating pump and heating tube, work as water temperature sensor When measuring water temperature and reaching 80 DEG C or more, all heating tubes are closed.

In some embodiments, temperature controller is also used to be grouped multiple heating tubes.In other embodiment In, electric-heating control system may also include packeting controller, is grouped by packeting controller to multiple heating tubes.

In some embodiments, multiple heating tubes can be divided into two groups, and first group of heating tube includes at least one heating tube；The Two groups of heating tubes include at least two heating tubes.

In some embodiments, temperature controller is used to receive the data of water temperature sensor, and based on water temperature sensor Data and default water temperature pass through different return difference delays time to control multiple groups heating tubes.

In some embodiments, temperature controller stops return difference delays time to control the by the first starting return difference delay and first One group of heating tube stops second group of heating tube of return difference delays time to control by the second starting return difference delay and second.

In some embodiments, electric-heating control system includes three heating tubes, and three heating tubes are divided into two groups, first group One heating tube, second group of two heating tube.For ease of description, three heating tubes 103 in Fig. 1 are from top to bottom expressed as One heating tube, the second heating tube and third heating tube.

In some embodiments, rotation grouping is carried out with default packet cycle to multiple heating tubes.Such as: two groups of heating tubes The rotation of progress in every 5 hours, after the electric-heating control system same day is switched on for the first time, the first heating tube is first group, and second adds Heat pipe and third heating tube are second group；When electric-heating control system operation 5 it is small when after, the second heating tube be first group, first Heating tube and third heating tube are second group；After when electric-heating control system operation 10 is small, third heating tube is first group, the One heating tube and the second heating tube are second group；After when electric-heating control system operation 15 is small, the first heating tube is first group, Second heating tube and third heating tube are second group.

In some embodiments, the first starting return difference temperature of first group of heating tube is -1 DEG C, the first starting return difference is delayed For 5 minutes, the first stopping return difference temperature be 0 DEG C, the first stopping return difference delay is 5 minutes；Second starting of second group of heating tube Return difference temperature is -2 DEG C, the second starting return difference delay is 5 minutes, the second stopping return difference temperature is -1 DEG C, the second stopping return difference being prolonged When be 5 minutes.

In some embodiments, temperature controller stops return difference delays time to control the by the first starting return difference delay and first One group of heating tube stops second group of heating tube of return difference delays time to control by the second start-up study and second, is illustrated below:

First group of heating tube start-up and shut-down control process are as follows: preset temperature is 25 DEG C, when water tank water temperature occurs less than 24 for the first time DEG C (water tank water temperature be 23 DEG C), starts timing, and first group of heating tube does not start, in timing course, if water tank water temperature occur it is big When being equal to 24 DEG C, timing reverts to zero, when water tank water temperature occurs again lower than 24 DEG C, starts from zero timing, until timing The first starting return difference delay (5 minutes) is reached, this process water tank water temperature is below 24 DEG C, and first group of heating tube starting is heated, meter When revert to zero；When water tank water temperature occurs being more than or equal to 25 DEG C for the first time, first group of heating tube does not stop, and starts timing, when When water tank water temperature is occurred less than 25 DEG C, timing reverts to zero, and when water tank water temperature occurs being more than or equal to 25 DEG C again, timing is again From zero timing, until timing, which reaches first, stops return difference delay (5 minutes), water tank water temperature is all larger than equal to 25 DEG C during this, First group of heating tube stops heating, and timing reverts to zero；

Second group of heating tube start-up and shut-down control process are as follows: preset temperature is 25 DEG C, when water tank water temperature occurs less than 23 for the first time DEG C (water tank water temperature be 22 DEG C), starts timing, and second group of heating tube does not start, in timing course, if water tank water temperature occur it is big When being equal to 23 DEG C, timing reverts to zero, when water tank water temperature occurs again lower than 23 DEG C, starts from zero timing, until timing The second start-up study (5 minutes) are reached, this process water tank water temperature is respectively less than 23 DEG C, and second group of heating tube starting is heated, and timing is extensive It is again zero；When water tank water temperature occurs being more than or equal to 24 DEG C for the first time, second group of heating tube does not stop, and starts timing, works as water tank When water temperature is occurred less than 23 DEG C, timing reverts to zero, and when water tank water temperature occurs being more than or equal to 24 DEG C again, timing is again from zero Timing, until timing reaches the second stopping return difference delay (5 minutes), water tank water temperature is more than or equal to 24 DEG C, second group during this Heating tube stops heating, and timing reverts to zero.

Fig. 2 is a kind of electric heating controlling method provided in an embodiment of the present invention, includes the following steps 201 to 202:

201, the data of water temperature sensor are obtained；

202, the data based on water temperature sensor and default water temperature pass through the multiple heating tube of return difference delays time to control；Its In, return difference delay is the duration that water temperature difference meets default return difference temperature.

In the present embodiment, the executing subject of electric heating controlling method is the temperature control in aforementioned electric-heating control system Device.

In some embodiments, water temperature sensor is used to acquire the water temperature in water tank, temperature controller and water temperature sensor Communication, obtains the data of water temperature sensor.

In some embodiments, temperature controller passes through the multiple heating tubes of return difference delays time to control, wherein return difference delay is water Temperature difference meets the duration of default return difference temperature, comprising: the delay of starting return difference and stopping return difference delay；Default return difference temperature is then wrapped It includes: starting return difference temperature and stopping return difference temperature, wherein the difference between starting return difference temperature and stopping return difference temperature is default Value.

In some embodiments, temperature controller degree is grouped multiple heating tubes, in some embodiments, temperature control Multiple heating tubes are divided into two groups by device processed, and first group of heating tube includes at least one heating tube, and second group of heating tube includes at least Two heating tubes.

In some embodiments, temperature controller carries out rotation grouping to multiple heating tubes with default packet cycle, such as Temperature controller carries out every rotation in 5 hours to two groups of heating tubes, after being switched on for the first time on the day of electric-heating control system, first Heating tube is first group, and the second heating tube and third heating tube are second group；After when electric-heating control system operation 5 is small, the Two heating tubes are first group, and the first heating tube and third heating tube are second group；After when electric-heating control system operation 10 is small, Third heating tube is first group, and the first heating tube and the second heating tube are second group；When electric-heating control system operation 15 is small Afterwards, the first heating tube is first group, and the second heating tube and third heating tube are second group.

In some embodiments, temperature controller after the grouping, lead to by data and default water temperature based on water temperature sensor Cross the different multiple heating tubes of return difference delays time to control.

In some embodiments, the delay of starting return difference and stopping return difference delay can be the same or different, in some realities It applies in example, the delay of starting return difference and stopping return difference delay are 5 minutes.Wherein, the delay of starting return difference and stopping return difference delay are equal For independent delay.

In some embodiments, temperature controller is based on water temperature sensor data and default water temperature, starts back by first Difference delay and first stops first group of heating tube of return difference delays time to control, is prolonged by the second starting return difference delay and the second stopping return difference When control second group of heating tube.

In some embodiments, when water temperature difference is lower than the first starting return difference temperature, temperature controller does not directly control the One group of heating tube starting, but timing is carried out, water temperature after timing duration reaches the delay of the first starting return difference and in timing duration Difference is below starting return difference temperature, and temperature controller controls first group of heating tube starting.If the water temperature difference in timing duration Not less than the first starting return difference temperature, then timing duration is reset.

In some embodiments, stop return difference temperature when water temperature difference is higher than, temperature controller does not directly control second group Heating tube stops, but carries out timing, water temperature difference after timing duration, which reaches, stops the delay of the second return difference and in timing duration It is above or is equal to and stop return difference temperature, temperature controller, which just controls second group of heating tube, to be stopped.If the water temperature in timing duration Difference is lower than return difference temperature is stopped, then timing duration is reset.

Fig. 3 is a kind of main interface of the intelligent heat exchanger using electric-heating control system provided in an embodiment of the present invention The arrangement of LED and key layout figure, are described as follows:

Interface: without any operation in 30 seconds, LED background light extinguishes, and touches LED background light point after any key It is bright, into main interface；Use background for black, the brightness of fontmap absolute altitude, it is simple, clear, the few interface of color category, icon (ICON) in design, meet professional standard, it is readily identified, beautiful and generous.

The position of screen: lateral arrangement.

Main interface shows content, as follows:

Circulating pump state: circulating pump display opens and closes hot two states, and when recycling pump work, icon is lighted while being done Rotate animation；When circulating pump stops, icon does not work；

Heating gear: heating gear show three gears, and when one grade of heating, one gear of correspondence is lighted；It is right when two grades of heating Two gears are answered to light；When third gear heats, corresponding third gear site is bright；If respective notch does not heat, then extinguish；

Heated condition lamp: when system in a heated state (any gear heating), heated condition indicator light is lighted；At system When not heated condition (all heating gear is closed), heated condition lamp extinguishes；

Exsiccosis lamp: when system detection is to heating inner liner water shortage, water shortage indicator light is lighted, and force to stop it is all plus Hot group, while display interface shows that E1 printed words, buzzer issue drop drop alarm；When heating inner liner not water shortage, exsiccosis Lamp extinguishes；

Antifreeze status lamp: when system is in shutdown status (system is closed, but power supply does not power off), water the temperature inside the box is lower than At 3 DEG C, system will voluntarily start, and open circulating pump and heating tube, and antifreeze status lamp is lighted；When heating temperature reach 8 DEG C with When upper, antifreeze status lamp extinguishes；

Malfunction lamp: when abnormality occurs in system, malfunction lamp will be lighted；When system is normal, malfunction Lamp extinguishes；Failure includes the following contents: (1) water tank high temperature, be higher than 80 DEG C when, heating gear all forcibly close (circulating pump after Continuous work), malfunction lamp is lighted, and shows that screen display E2 printed words, buzzer issue drop drop alarm；When heating inner liner temperature 50 DEG C are restored to hereinafter, system restores normal condition, malfunction lamp extinguishes；(2) leakage-current alarm, when system detection is deposited to system In leaky, system all forces to stop (heating, circulating pump), and malfunction lamp is lighted, and shows screen display E4 printed words, Buzzer issues drop drop alarm；When the system is normal, malfunction lamp extinguishes.

Printed words viewing area: printed words viewing area shows that printed words are " intelligent heat exchanger ", and after system opening opens, printed words are lighted, When system enters screen protection state or shutdown, printed words extinguish；

Period display: when system be in automatic running pattern, into be arranged state, the period by according to the operation of setting into The row 1-6 period shows that target temperature will be shown in numerical value viewing area；

Clock display: the clock display normal time can carry out clock numerical value more when calibration time clock feature enables Change, clock was made using 24 hours；

Operating mode is shown: when carrying out operating mode selection by operational mode key, operating mode is shown will be selected by display The operating mode selected, operating mode are divided into manual mode and automatic mode；When operational mode is manual mode, operating mode is aobvious It is shown as " opening manually "；When operational mode is automatic mode, operating mode is shown as " opening automatically "；

Liner water temperature is shown: liner water temperature is shown when lighting, and the temperature value that numerical value viewing area is shown is the reality of heating inner liner Border water temperature；

Room temperature is shown: room temperature is shown when lighting, and the temperature value that numerical value viewing area is shown is actual Indoor Temperature Degree；

Target temperature is shown: target temperature is shown when lighting, and the temperature value that numerical value viewing area is shown is actual target temperature Degree.

Operation or setting method are as follows:

On & off switch is for opening and closing system, under off-mode, clicks an on & off switch, system boot, and according to disconnected Working condition is run before electricity, and such as first booting, system will start according to factory mode；Under open state, click is once opened Key, system closedown；

Model selection function: after booting, a mode key is clicked, system will be selected automatically and manually；When being When system is in manual mode, a mode key is clicked, system will enter automatic mode, the target temperature being arranged according to 6 periods Degree carries out heated condition control；When system is in automatic mode, a mode key is clicked, system will enter manual mode, and press Continuous heating is carried out according to the heating gear manually set；

Function is arranged in period: period setting function can be only configured under automatic work operational mode, when system is in When automatic running pattern, a set key is clicked, system will enter the first period set interface, and the period is shown as " 1 ", and numerical value is aobvious The target temperature value for showing area's display time interval 1 is modified it using increment key and depreciation key, and the numerical value after change will be as most Final value carries out preservation use, after setting up for the first period, clicks a set key, and the period is shown as " 2 ", and setting function enters Second period function be arranged state, the target temperature value of numerical value viewing area display time interval 2, using increment key and depreciation key to its into Row change, successively the target temperature of the 3/4/5/6th period can be set in operation, when setting up the 6th period temperature, then clicks Set key, system, which will be released, is arranged function；24 hourly averages are divided into 6 periods by 6 periods, the first period: 24: 00-4:00, the second period: 4:00-8:00, the third period: 8:00-12:00, the 4th period: 12:00-16:00, the 5th period: 16:00-20:00, the 6th period: 20:00-24:00；

Manual gear setting: when system operates to manual mode, three different operation ranges, three blocks can be set Dynamic heating is adjusted, and clicks set key, for the heating operation of 1 gear, again taps on set key, 1 grade of heating stops；Increment key is clicked, It heats and runs for 2 gears, again tap on increment key, the heating of 2 gears stops；Depreciation key is clicked, is run for the heating of 3 gears, again Depreciation key is clicked, is stopped for 3 gears；

Time calibration function: clock display totally four, display format ##:## is pressed and held the setting key in system working interface (after about 3 seconds), clock display first starts to flash, and is configured change to its numerical value by increasing-and-decreasing key, setting change is completed A set key is clicked afterwards, clock display second starts to flash, change can be configured to its numerical value by increasing-and-decreasing key, according to Secondary operation can calibrate clock, after the completion of calibration, not need any operation, and system is resumed work interface after 10 seconds；

Buzzer: every touch one-touch, buzzer ring a sound.

Be switched on default mode setting (default setting), as follows:

Booting default mode is manual zero span bit pattern, after the available machine time is arranged successfully for the first time, even if overall system power is disconnected Electricity still has memory function later；After booting, time showing presses the actual standard time；All 25 DEG C of session target temperature.

Device disclosed in above embodiments can be realized the process of method disclosed in the above each method embodiment, to avoid weight Multiple, details are not described herein.

It should be noted that, in this document, the terms "include", "comprise" or its any other variant are intended to non-row His property includes, so that the process, method, article or the device that include a series of elements not only include those elements, and And further include other elements that are not explicitly listed, or further include for this process, method, article or device institute it is intrinsic Element.In the absence of more restrictions, the element limited by sentence "including a ...", it is not excluded that including being somebody's turn to do There is also other identical elements in the process, method of element, article or device.

It will be appreciated by those of skill in the art that although some embodiments described herein include other embodiments is wrapped Certain features for including rather than other feature, but the combination of the feature of different embodiments mean in the scope of the present invention it It is interior and form different embodiments.

Although the embodiments of the invention are described in conjunction with the attached drawings, but those skilled in the art can not depart from this hair Various modifications and variations are made in the case where bright spirit and scope, such modifications and variations are each fallen within by appended claims Limited range.

Claims (10)

1. a kind of electric-heating control system characterized by comprising water temperature sensor, temperature controller and multiple heating tubes；

The water temperature sensor and the multiple heating tube are connect with the temperature controller；

The temperature controller, for receiving the data of the water temperature sensor, and the data based on the water temperature sensor and Default water temperature, passes through the multiple heating tube of return difference delays time to control；

Wherein, the return difference delay is the duration that water temperature difference meets default return difference temperature.

2. electric-heating control system according to claim 1, which is characterized in that the default return difference temperature includes: starting Return difference temperature and stopping return difference temperature；The return difference delay includes: the delay of starting return difference and stopping return difference delay.

3. electric-heating control system according to claim 1, which is characterized in that the temperature controller is also used to institute Multiple heating tubes are stated to be grouped.

4. electric-heating control system according to claim 1, which is characterized in that the electric-heating control system further include: Packeting controller, for being grouped to the multiple heating tube.

5. electric-heating control system according to claim 3 or 4, which is characterized in that the temperature controller, for receiving The data of the water temperature sensor, and the data based on the water temperature sensor and default water temperature are delayed by different return differences Control multiple groups heating tube.

6. electric-heating control system according to claim 5, which is characterized in that the multiple heating tube is divided into two groups, and One group of heating tube includes at least one heating tube；Second group of heating tube includes at least two heating tubes；

The temperature controller, for receiving the data of the water temperature sensor, and the data based on the water temperature sensor and Default water temperature stops first group of heating tube of return difference delays time to control by the first starting return difference delay and first, passes through the second starting Return difference delay and second stops second group of heating tube of return difference delays time to control.

7. electric-heating control system according to claim 3 or 4, which is characterized in that the multiple heating tube is with default point The group period carries out rotation grouping.

8. electric-heating control system according to claim 1, which is characterized in that the control system further include: Duo Geji Electric appliance；

The temperature controller connects the multiple heating tube by the multiple relay, and the multiple relay with it is described Multiple heating tubes correspond.

9. electric-heating control system according to claim 2, which is characterized in that the starting return difference temperature and the stopping Difference between return difference temperature is preset value.

10. a kind of electric heating controlling method, which is characterized in that the described method includes:

Obtain the data of water temperature sensor；

Data and default water temperature based on the water temperature sensor, pass through the multiple heating tube of return difference delays time to control；Wherein, institute Stating return difference delay is the duration that water temperature difference meets default return difference temperature.