CN106813342A - Infrared humidifying device and control method thereof - Google Patents

Abstract

The invention discloses an infrared humidifying device and a control method thereof. This infrared humidification device includes control part and humidification portion, the humidification portion includes water tank and infrared lamp pipe subassembly, wherein, infrared lamp pipe subassembly includes main infrared fluorescent tube and reserve infrared fluorescent tube, all is provided with overcurrent protection device in the circuit of every infrared fluorescent tube, the water tank disposes water tank temperature-detecting device, the control part is used for the basis overcurrent protection device's break-make condition and/or basis the circuit circular telegram or the outage of main infrared fluorescent tube of temperature control of water tank and/or reserve infrared fluorescent tube. The infrared humidifying device can monitor the running state of the infrared lamp tube in real time by using two means of an overcurrent protection device and a water tank temperature detection device, realizes double protection of the infrared humidifying device by combining an overcurrent open circuit function and a temperature detection function, and prolongs the service life of the infrared humidifying device.

Description

A kind of infrared humidification device and its control method

Technical field

The present invention relates to a kind of infrared humidification device and its control method.

Background technology

Existing infrared humidification device in the prior art, the characteristics of it utilizes infrared heating not high to water quality requirement, adopts Humidified with infrared humidification principle.In the prior art, infrared humidification device is especially suitable for precision air conditioner.

When being humidified using infrared humidification device, the infrared radiation that infrared lamp sends can destroy water on the water surface Surface tension so that hydrone evaporates to form vapor, so as to reach humidification purpose.But due to the heating of infrared lamp itself Amount is larger, and nearby temperature is higher to cause fluorescent tube, and fluorescent tube self brightness is higher, is unfavorable for observation, therefore, when infrared lamp occurs When abnormal, user is often difficult to discover in time, and treatment is not in time, it is easy to cause the damage of whole humidification device.

Therefore, if can effectively to infrared lamp and corresponding auxiliary equipment safeguard measure with high safety, for extension The service life of infrared humidification device will be significant.

The content of the invention

Based on above-mentioned present situation, it is a primary object of the present invention to provide a kind of infrared humidification device and its control method, energy The safe and highly efficient operation of infrared humidification device is enough realized, the service life of infrared humidification device is improved.

To achieve the above object, the technical solution adopted by the present invention is as follows：

According to the first aspect of the invention, a kind of infrared humidification device, including control unit and humidifying part, the humidifying part bag Water tank and infrared lamp component are included, wherein, the infrared lamp component includes main infrared lamp and standby infrared lamp, and each is red Overcurrent protective device is provided with the circuit of outer fluorescent tube, the water tank is configured with water tank temperature detection means, the control unit For the break-make situation according to the overcurrent protective device and/or according to the main infrared lamp of the temperature control of the water tank and/or The circuit of standby infrared lamp is powered or powers off.

Preferably, the control unit is additionally operable to control main infrared lamp according to the continuous operating time of operating infrared lamp The circuit of pipe and/or standby infrared lamp is powered or powers off.

Preferably, the main infrared lamp and the standby infrared lamp are arranged in parallel.

Preferably, the infrared lamp component includes multiple main infrared lamps and at least one standby infrared lamp.

According to the second aspect of the invention, a kind of control method for foregoing infrared humidification device, it includes Step：

Control unit gathers the break-make data of the overcurrent protective device in the circuit of each infrared lamp and/or gathers the water The temperature data of case, and according to the break-make data and/or the temperature data control main infrared lamp and/or standby infrared lamp The circuit of pipe is powered or powers off.

Preferably, the control method also includes step：

The continuous operating time of operating infrared lamp is gathered, and main infrared lamp is controlled according to the continuous operating time The circuit of pipe and/or standby infrared lamp is powered or powers off.

Preferably, the control method also includes step：

After the circuit power-off of main infrared lamp or simultaneously, the circuit of standby infrared lamp is controlled to be powered.

Preferably, when the overcurrent protective device in the circuit of any one main infrared lamp is identified disconnection, will be standby red The circuit of outer fluorescent tube is powered；And/or, when the overcurrent protective device in the circuit of standby infrared lamp is identified disconnection, will be right The circuit of the main infrared lamp answered is powered.

Preferably, the control method specifically includes step：

S10, judge whether the observed temperature T of water tank meets：T >=Tp, wherein, Tp is the first preset temperature, if meeting, Perform step S20；

S20, judge whether the overcurrent protective device in any main infrared lamp circuit disconnects, if so, then will be standby infrared The circuit of fluorescent tube is powered.

Preferably, in step S20, if all of overcurrent protective device does not disconnect, step S30 is performed；

S30, stop to behind in water tank water filling a seconds, wherein, a is the first preset duration, then performs step S40；

S40, judge whether rate of change Δ T (t) of water tank temperature meets：Δ T (t) >=N, wherein, N is default threshold value, Δ T (t)=(T_n-T_n-1)/t, T_nIt is this observed temperature of water tank, T_n-1It is the observed temperature of water tank last time, t is detection time Interval, if so, then powering off the circuit of any one main infrared lamp, and the circuit of standby infrared lamp is powered, and is otherwise returned Step S10.

Preferably, in step S10, if the observed temperature of water tank is unsatisfactory for T >=Tp, step S50 is performed；

S50, judge whether the observed temperature T of water tank meets：Tr≤T ＜ Tp, wherein, Tr is the second preset temperature, if full Foot, then perform step S60；

S60, judge whether the overcurrent protective device in any main infrared lamp circuit disconnects, if so, then will be standby infrared The circuit of fluorescent tube is powered.

Preferably, in step S60, if the overcurrent protective device in any main infrared lamp circuit does not disconnect, perform Step S70；

S70, whether the continuous operating time of any main infrared lamp is judged more than b, wherein, b is the second Preset Time, if It is then to power off the circuit of corresponding main infrared lamp, and the circuit of standby infrared lamp is powered.

Preferably, in step S70, if the continuous operating time of any main infrared lamp performs step no more than b S80；

S80, judge whether rate of change Δ T (t) of water tank temperature meets：Δ T (t) >=N, wherein, N is default threshold value, Δ T (t)=(T_n-T_n-1)/t, T_nIt is this observed temperature of water tank, T_n-1It is the observed temperature of water tank last time, t is detection time Interval, if so, then powering off the circuit of any one main infrared lamp, and the circuit of standby infrared lamp is powered, otherwise, each red The running status of outer fluorescent tube keeps constant, and return to step S60.

Preferably, in step S80, before or while return to step S60, excessively stream pre-alarm information is sent.

Preferably, in step S50, if the observed temperature T of water tank is unsatisfactory for Tr≤T ＜ Tp, step S90 is performed；

S90, the running status of each infrared lamp keep constant, and record the continuous operating time of each infrared lamp, then Perform step S100；

S100, whether the continuous operating time of any main infrared lamp is judged more than b, wherein, b is the second Preset Time, If so, then powering off the circuit of corresponding main infrared lamp, and the circuit of standby infrared lamp is powered, otherwise, return to step S90。

Preferably, after the circuit of standby infrared lamp is powered, step S110 is performed；

S110, whether the continuous operating time of standby infrared lamp is judged more than c, wherein, c is the 3rd Preset Time, if It is then to power off the circuit of standby infrared lamp, and the circuit of corresponding main infrared lamp is powered, and return to step S10, it is no Then, step S110 is continued executing with.

Preferably, when the overcurrent protective device in the circuit of any one infrared lamp is identified disconnection, to the report that is out of order Alert signal.

Infrared humidification device of the invention can utilize two kinds of means realities of overcurrent protective device and water tank temperature detection means When monitoring infrared lamp running status, be combined by excessively stream cut-out function and temperature detecting function, realize to infrared humidification The duplicate protection of device, improves the service life of infrared humidification device.Further, by main infrared lamp and standby infrared lamp The intelligence switching of pipe and operation on duty by turns, can further improve the service life of infrared humidification device.

Brief description of the drawings

The preferred embodiment of infrared humidification device of the invention and its control method is entered hereinafter with reference to accompanying drawing Row description.In figure：

Fig. 1 is the principle schematic of the infrared humidification device according to the preferred embodiment of the present invention；

Fig. 2 is the typical workflow figure of the infrared humidification device according to the preferred embodiment of the present invention.

Specific embodiment

To ensure the safe and highly efficient operation of infrared humidification device, according to the first aspect of the invention, there is provided a kind of infrared Humidification device, its preferred implementation is as shown in Figure 1.

Infrared humidification device of the invention includes control unit 100 and humidifying part 200.The humidifying part 200 for example includes water Case (or being drip tray, not shown in figure) and infrared lamp component (for example including illustrate the first~the 4th infrared lamp 1~ 4), wherein, the infrared lamp component includes main infrared lamp and standby infrared lamp (being preferably arranged in parallel), and each is red Be provided with overcurrent protective device in the circuit of outer fluorescent tube, preferably fuse (for example, it is illustrated that the first~the 4th fuse 5~ 8), the water tank is configured with water tank temperature detection means 9 (such as temperature-sensitive bag), for detecting the temperature of the water tank.It is described Control unit 100 is used for the break-make situation according to the overcurrent protective device and/or the temperature control master according to the water tank is infrared The circuit of fluorescent tube and/or standby infrared lamp is powered or powers off.Specifically, can be set in the circuit of each infrared lamp can The switch controlled by control unit 100, so as to realize being powered the circuit of infrared lamp or disconnected by controlling the state of the switch The control of electricity.

In the present invention, the infrared lamp that acquiescence is opened when main infrared lamp is start operation, standby infrared lamp is to open The infrared lamp that acquiescence is not turned on when machine runs.

Infrared humidification device of the invention can utilize two kinds of means realities of overcurrent protective device and water tank temperature detection means When monitoring infrared lamp running status, by the excessively stream cut-out function and the temperature of water tank temperature detection means of overcurrent protective device Degree detection function phase is combined, and the duplicate protection to infrared humidification device is realized, so as to can ensure that infrared humidification device is safe and efficient Operation, improves the service life of infrared humidification device.

In the present invention, overcurrent protective device, can also be using air switch etc. in addition to can be using foregoing fuse Any other breaker.However, fuse has the advantages that small volume, low cost, sensitivity are high thus more particularly suitable.Under In the description of text, mainly will be illustrated by taking fuse as an example.

Preferably, the control unit 100 is additionally operable to red according to the continuous operating time of operating infrared lamp control master The circuit of outer fluorescent tube and/or standby infrared lamp is powered or powers off.For example, suitable continuous operating time threshold value can be set, And by the actual continuous operating time of each infrared lamp of the monitoring of control unit 100, once certain infrared lamp is actual continuous Run time reaches continuous operating time threshold value, then the circuit of corresponding infrared lamp can be disconnected by control unit 100, for example, disconnect Switch in the circuit of the infrared lamp, so as to avoid the excessively prolonged continuous operation of infrared lamp, improves infrared humidification device Service life.

When the circuit of corresponding infrared lamp is disconnected, the circuit of the infrared lamp of off-duty before this can be simultaneously opened (as disconnect be main infrared lamp circuit, then open the circuit of standby infrared lamp, vice versa), so as to can realize standby Infrared lamp and the intelligence switching of main infrared lamp and operation on duty by turns, further improve the service life of infrared humidification device.

That is, infrared humidification device of the invention is in the process of running, can be by main infrared lamp and standby infrared Switch over to ensure the safe operation of infrared lamp between fluorescent tube, and do not influence humidification amount.

Preferably, the infrared lamp component includes multiple main infrared lamps and at least one standby infrared lamp.For example, As shown in figure 1, infrared lamp component includes four infrared lamps, respectively the first infrared lamp 1, the second infrared lamp the 2, the 3rd Infrared lamp 3, the 4th infrared lamp 4, exemplarily, the first~the 3rd infrared lamp 3 can be used as main infrared lamp, and the 4th is infrared Fluorescent tube 4 can be used as standby infrared lamp.Exemplarily, the first~the 3rd infrared lamp 1~3 is respectively via the first~the 3rd fusing Device 5~7 (and unshowned switch) is connected to circuit L1, L2 and L3, the 4th infrared lamp 4 then via the 4th fuse 8 (with And unshowned switch) be connected to any one (to be connected to circuit L3 in figure) in circuit L1, L2 and L3.

The particular number of main infrared lamp and standby infrared lamp can determine according to actual conditions, generally, standby The quantity of main infrared lamp is smaller than with the quantity of infrared lamp.

Infrared humidification device of the invention may be preferably used for precision air conditioner, for being opened in the case where regulation humidity is needed Dynamic operation.

On the basis of above-mentioned work, the second aspect of the present invention provides a kind of for foregoing infrared humidification dress The control method put, it includes step：

Control unit gathers the break-make data of the overcurrent protective device in the circuit of each infrared lamp and/or gathers the water The temperature data of case, and according to the break-make data and/or the temperature data control main infrared lamp and/or standby infrared lamp The circuit of pipe is powered or powers off.

That is, when humidification device runs, control unit gathers the logical of such as fuse on the circuit of each infrared lamp The detection data of disconnected situation and water tank temperature detection means, and according to default judgment rule to the logical of the circuit of each infrared lamp Off-position is controlled, and automatically controls infrared humidification device and realizes multiple protective to infrared humidification device so as to reach Purpose, it can be ensured that infrared humidification device safe and highly efficient operation, improves the service life of infrared humidification device.

Preferably, the control method also includes step：

The continuous operating time of operating infrared lamp is gathered, and main infrared lamp is controlled according to the continuous operating time The circuit of pipe and/or standby infrared lamp is powered or powers off.

That is, by monitoring the actual continuous operating time of each infrared lamp, and in time disconnect continuous operating time The circuit of infrared lamp more long, can avoid the excessively prolonged continuous operation of infrared lamp, be conducive to improving infrared humidification dress The service life put.

Preferably, the control method also includes step：

After the circuit power-off of main infrared lamp or simultaneously, the circuit of standby infrared lamp is controlled to be powered.Here, master is red Outer fluorescent tube circuit power-off, both can be overcurrent protective device action caused by, or the control action of control unit caused by.

That is, ensureing the safety of infrared lamp by being switched between main infrared lamp and standby infrared lamp Operation, and humidification amount is not influenceed.Obviously, by the switching and operation on duty by turns of standby infrared lamp and main infrared lamp, can Improve the service life of infrared humidifier.

Preferably, after control unit gathers the break-make situation of the fuse on the circuit of each infrared lamp, as any one master When fuse in the circuit of infrared lamp is identified disconnection, control unit can just standby infrared lamp circuit be powered, with Just kept humidification amount unaffected before shutdown maintenance, and preferably provide failure alarm signal simultaneously, to point out user to carry out Maintenance.Equally, in humidification device running, when the fuse in the circuit of standby infrared lamp is identified disconnection, control Can also be powered for the circuit of corresponding (i.e. before this standby infrared lamp replaced) main infrared lamp by portion processed, and it is also preferred that Failure alarm signal is provided simultaneously, to point out user to be repaired.

Meanwhile, the alarm signal that user only needs to pay close attention to infrared humidification device (is for example shown by display screen or touch-screen Out), without the operation conditions of directly observation infrared lamp, you can to learn whether infrared humidification device breaks down.

Preferably, as shown in Fig. 2 the control method of infrared humidification device of the invention specifically may include step：

After start operation, each infrared lamp is run by default behavior, i.e. main infrared lamp is powered and runs, standby infrared lamp Pipe wouldn't run；

Control unit gathers the break-make data and water tank temperature detection means (such as temperature-sensitive bag) of fuse in each circuit first Detection data (i.e. the observed temperature T of water tank), and perform following control logic：

S10, judge whether the observed temperature T of water tank meets：T >=Tp, wherein, Tp is the first preset temperature, for example, make a reservation for Water tank temperature higher limit, if meeting, perform step S20；

S20, judge whether the fuse in any main infrared lamp circuit disconnects, if so, then by standby infrared lamp Circuit is powered, namely cut-in stand-by infrared lamp, and preferably reports humidification device failure.

That is, when detecting water tank temperature and transfiniting, determining whether electric current mistake by the break-make data of fuse first In the main infrared lamp of abnormal (such as causing fuse to disconnect), if so, then cut-in stand-by infrared lamp, and to the report that is out of order It is alert.

Preferably, in step S20, if all of fuse does not disconnect, step S30 is performed；

S30, stop to behind in water tank water filling a seconds, wherein, a is the first preset duration, then performs step S40；

S40, judge whether rate of change Δ T (t) of water tank temperature meets：Δ T (t) >=N, wherein, N is default threshold value, Δ T (t)=(T_n-T_n-1)/t, T_nIt is this observed temperature of water tank, T_n-1It is the observed temperature of water tank last time, t is detection time Interval (or detection cycle), if so, then power off the circuit of any one main infrared lamp, and by the circuit of standby infrared lamp It is powered, otherwise return to step S10.

That is, when the excessively abnormal main infrared lamp of no electric current, then can determine whether to cause water tank because of water tank lacks water Temperature over-range, therefore, to the water filling regular hour in water tank, then water tank temperature rate of change can be judged, if water tank temperature changes Rate still greater than default threshold value, then show water tank temperature still raise, can then exclude the problem of water shortage, therefore, can attempt by One of them main infrared lamp disconnects, and cut-in stand-by infrared lamp to prevent the damage of main infrared lamp, and preferably adds with Times Wet plant failure.

Preferably, in step S10, if the observed temperature of water tank is unsatisfactory for T >=Tp, step S50 is performed；

S50, judge whether the observed temperature T of water tank meets：Tr≤T ＜ Tp, wherein, Tr is the second preset temperature, for example Can water tank normal working temperature value, if meeting, perform step S60；

S60, judge whether the fuse in any main infrared lamp circuit disconnects, if so, then by standby infrared lamp Circuit is powered, and preferably with Times humidification device failure.

That is, when water tank temperature do not transfinite but still for it is higher when, still judge no there is electric current excessively (for example to lead extremely Cause fuse to disconnect) main infrared lamp, if so, then cut-in stand-by infrared lamp, and provide fault alarm.

Preferably, in step S60, if the fuse in any main infrared lamp circuit does not disconnect, step is performed S70；

S70, whether the continuous operating time of any main infrared lamp is judged more than b, wherein, b is the second Preset Time, if It is then to power off the circuit of corresponding (i.e. continuous operating time reaches b's) main infrared lamp, and by the line of standby infrared lamp Road is powered.

That is, it is higher but in the case of not transfiniting in water tank temperature, if without the excessively abnormal main infrared lamp of electric current, The continuous operating time of each main infrared lamp is then determined whether, and the main infrared lamp power-off of preset value b will be exceeded, and cut Change standby infrared lamp.

Preferably, in step S70, if the continuous operating time of any main infrared lamp performs step no more than b S80；

S80, judge whether rate of change Δ T (t) of water tank temperature meets：Δ T (t) >=N, wherein, N is default threshold value, Δ T (t)=(T_n-T_n-1)/t, T_nIt is this observed temperature of water tank, T_n-1It is the observed temperature of water tank last time, t is detection time Interval, if so, then powering off the circuit of any one main infrared lamp, and the circuit of standby infrared lamp is powered, otherwise, each red The running status of outer fluorescent tube keeps constant, and return to step S60.

That is, in the case where the continuous operating time of all of main infrared lamp is not up to preset value, can be further Judge water tank temperature rate of change, if water tank temperature rate of change is more than default threshold value, show water tank temperature in rising, this When, can attempt disconnecting one of them main infrared lamp, cut-in stand-by infrared lamp, to prevent the damage of main infrared lamp.

Preferably, in step S80, before or while return to step S60, excessively stream pre-alarm information is sent.

That is, in the case where abnormal factorses are not detected, due to the fact that water tank temperature is higher existing, then can be with example User is such as pointed out in the way of excessively stream pre-alarm, and continues to monitor break-make data of fuse etc..

Preferably, in step S50, if the observed temperature T of water tank is unsatisfactory for Tr≤T ＜ Tp, step S90 is performed；

S90, the running status of each infrared lamp keep constant, and record the continuous operating time of each infrared lamp, then Perform step S100；

S100, whether the continuous operating time of any main infrared lamp is judged more than b, wherein, b is the second Preset Time, If so, then powering off the circuit of corresponding main infrared lamp, and the circuit of standby infrared lamp is powered, otherwise, return to step S90。

If that is, the temperature of water tank both do not transfinited, it is or not higher, show that infrared humidification device current operating conditions are good It is good, therefore, each infrared lamp can keep normal operation, and infrared lamp circuit hereafter can be controlled by the length of continuous operating time "on" position, such as when some main infrared lamp continuous operating time reaches the second Preset Time b, cut-in stand-by is infrared Fluorescent tube, to prevent infrared lamp from being damaged because stream time is long.

Preferably, after the circuit of standby infrared lamp is powered, step S110 is performed；

S110, whether the continuous operating time of standby infrared lamp is judged more than c, wherein, c is that (c can for the 3rd Preset Time With less than b, it is also possible to equal to b), if so, then power off the circuit of standby infrared lamp, and will be corresponding (i.e. standby before this red What outer fluorescent tube was replaced) circuit of main infrared lamp is powered, and return to step S10, otherwise, continues executing with step S110.

That is, after standby infrared lamp is powered operation, it is also possible to monitor the continuous operating time of standby infrared lamp, and When the 3rd Preset Time c is reached, original main infrared lamp is switched back into, so as to prevent standby infrared lamp because of running hours Between it is long and damage.

When main infrared lamp number more than standby infrared lamp number when, three main infrared lamps of such as diagram and In the case of one standby infrared lamp, if three main infrared lamp continuous operating times are consistent, while reach second presetting Time b, then can first stop one of them main infrared lamp (can for example be numbered to main infrared lamp and size is followed by number Sequence, such as numbers and small first stops), the main infrared lamp of other two is continued to run with, for example, can treat the accumulative operation of standby infrared lamp After time reaches the 3rd Preset Time c, then operation on duty by turns.

It can be seen that, control method of the invention can give infrared humidification device multiple guarantor based on different Monitoring Datas Shield, so as to constitute redundancy protecting, farthest ensures the safe and highly efficient operation of infrared humidification device, and can realize unattended Automatic alarm.

When specifically used, for example, user can start the AutoPlay function of infrared humidification device, humidification device is according to silent The humidification amount recognized is operated, and user can also change humidification by the touch-screen of humidification device panel or button or remote controller key The running status of device, can also observe the running status of humidification device by the touch-screen of humidification device panel, and according to carrying Show carries out corresponding Operation and Maintenance to humidification device.

Those skilled in the art is it is easily understood that on the premise of not conflicting, above-mentioned each preferred scheme can be free Ground combination, superposition.

It should be appreciated that above-mentioned implementation method is only illustrative, and not restrictive, without departing from of the invention basic In the case of principle, various obvious or equivalent modification or replace that those skilled in the art can make for above-mentioned details Change, be all included in scope of the presently claimed invention.

Claims (17)

1. a kind of infrared humidification device, including control unit and humidifying part, the humidifying part include water tank and infrared lamp component, its It is characterised by, the infrared lamp component includes main infrared lamp and standby infrared lamp, in the circuit of each infrared lamp Overcurrent protective device is provided with, the water tank is configured with water tank temperature detection means, and the control unit is used for according to the excessively stream The break-make situation of protection device and/or the main infrared lamp of temperature control and/or the line of standby infrared lamp according to the water tank Road is powered or powers off.

2. infrared humidification device according to claim 1, it is characterised in that the control unit is additionally operable to according to operating The continuous operating time of infrared lamp controls the circuit of main infrared lamp and/or standby infrared lamp to be powered or power off.

3. infrared humidification device according to claim 1 and 2, it is characterised in that the main infrared lamp and described standby Infrared lamp is arranged in parallel.

4. infrared humidification device according to claim 1 and 2, it is characterised in that the infrared lamp component includes multiple Main infrared lamp and at least one standby infrared lamp.

5. a kind of control method of the infrared humidification device described for one of claim 1-4, it is characterised in that including step Suddenly：

Control unit gathers the break-make data of the overcurrent protective device in the circuit of each infrared lamp and/or gathers the water tank Temperature data, and main infrared lamp and/or standby infrared lamp are controlled according to the break-make data and/or the temperature data Circuit is powered or powers off.

6. control method according to claim 5, it is characterised in that the control method also includes step：

The continuous operating time of operating infrared lamp is gathered, and main infrared lamp is controlled according to the continuous operating time And/or the circuit of standby infrared lamp is powered or powers off.

7. the control method according to claim 5 or 6, it is characterised in that the control method also includes step：

After the circuit power-off of main infrared lamp or simultaneously, the circuit of standby infrared lamp is controlled to be powered.

8. the control method according to claim 5 or 6, it is characterised in that when in the circuit of any one main infrared lamp When overcurrent protective device is identified disconnection, the circuit of standby infrared lamp is powered；And/or, when the circuit of standby infrared lamp In overcurrent protective device when being identified disconnection, the circuit of corresponding main infrared lamp is powered.

9. control method according to claim 5, it is characterised in that the control method specifically includes step：

S10, judge whether the observed temperature T of water tank meets：T >=Tp, wherein, Tp is the first preset temperature, if meeting, is performed Step S20；

S20, judge whether the overcurrent protective device in any main infrared lamp circuit disconnects, if so, then by standby infrared lamp Circuit be powered.

10. control method according to claim 9, it is characterised in that in step S20, if all of overcurrent protective device Do not disconnect, then perform step S30；

S30, stop to behind in water tank water filling a seconds, wherein, a is the first preset duration, then performs step S40；

S40, judge whether rate of change Δ T (t) of water tank temperature meets：Δ T (t) >=N, wherein, N is default threshold value, Δ T (t)=(T_n-T_n-1)/t, T_nIt is this observed temperature of water tank, T_n-1It is the observed temperature of water tank last time, between t is detection time Every, if so, then powering off the circuit of any one main infrared lamp, and the circuit of standby infrared lamp is powered, otherwise return to step Rapid S10.

11. control methods according to claim 9, it is characterised in that in step S10, if the observed temperature of water tank is discontented with Sufficient T >=Tp, then perform step S50；

S50, judge whether the observed temperature T of water tank meets：Tr≤T ＜ Tp, wherein, Tr is the second preset temperature, if meeting, Perform step S60；

S60, judge whether the overcurrent protective device in any main infrared lamp circuit disconnects, if so, then by standby infrared lamp Circuit be powered.

12. control methods according to claim 11, it is characterised in that in step S60, if any main infrared lamp circuit In overcurrent protective device do not disconnect, then perform step S70；

S70, whether the continuous operating time of any main infrared lamp is judged more than b, wherein, b is the second Preset Time, if so, Then the circuit of corresponding main infrared lamp is powered off, and the circuit of standby infrared lamp is powered.

13. control methods according to claim 12, it is characterised in that in step S70, if the company of any main infrared lamp Continuous run time then performs step S80 no more than b；

S80, judge whether rate of change Δ T (t) of water tank temperature meets：Δ T (t) >=N, wherein, N is default threshold value, Δ T (t)=(T_n-T_n-1)/t, T_nIt is this observed temperature of water tank, T_n-1It is the observed temperature of water tank last time, between t is detection time Every, if so, then powering off the circuit of any one main infrared lamp, and the circuit of standby infrared lamp is powered, it is otherwise, each infrared The running status of fluorescent tube keeps constant, and return to step S60.

14. control methods according to claim 13, it is characterised in that in step S80, before return to step S60 or Meanwhile, send excessively stream pre-alarm information.

15. control methods according to claim 11, it is characterised in that in step S50, if the observed temperature T of water tank is not Meet Tr≤T ＜ Tp, then perform step S90；

S90, the running status of each infrared lamp keep constant, and record the continuous operating time of each infrared lamp, then perform Step S100；

S100, whether the continuous operating time of any main infrared lamp is judged more than b, wherein, b is the second Preset Time, if so, Then the circuit of corresponding main infrared lamp is powered off, and the circuit of standby infrared lamp is powered, otherwise, return to step S90.

16. control method according to claim 12 or 13 or 15, it is characterised in that by the circuit of standby infrared lamp After energization, step S110 is performed；

S110, whether the continuous operating time of standby infrared lamp is judged more than c, wherein, c is the 3rd Preset Time, if so, then The circuit of standby infrared lamp is powered off, and the circuit of corresponding main infrared lamp is powered, and return to step S10, otherwise, after It is continuous to perform step S110.

17. according to one of claim 5-8 described control method, it is characterised in that when in the circuit of any one infrared lamp Overcurrent protective device when being identified disconnection, provide failure alarm signal.