CN105042716B - Dehumidifier and its control method - Google Patents

Abstract

The invention discloses a kind of dehumidifier, and it includes controller, water tank and measurement apparatus.The controller is used to control the dehumidifier to be separately operable for first scheduled time with multigroup operational factor.The water tank is used to collect condensed water caused by the dehumidifier operation.The measurement apparatus is used to measure the water increment for corresponding to water tank described in operational factor described in every group.The controller is additionally operable to control the dehumidifier with operational factor continuous service described in one group corresponding to the water increment of maximum.The present invention also provides a kind of dehumidifier control method.The dehumidifier and dehumidifier control method dehumidification rate of the present invention is high, and can quick regulation into high dehumidification rate.

Description

Dehumidifier and its control method

Technical field

The present invention relates to dehumidifier technology, more particularly to a kind of dehumidifier and its control method.

Background technology

Existing dehumidifier is run with the compressor frequency of maximum and the rotation speed of fan of minimum, and dehumidification rate is low, Can not quick regulation into optimal dehumidification rate.

The content of the invention

It is contemplated that at least solves one of technical problem present in prior art.Therefore, the present invention needs offer one Kind dehumidifier, it includes：

The dehumidifier of embodiment of the present invention includes：

Controller, the controller are used to control the dehumidifier to be separately operable the first pre- timing with multigroup operational factor Between；

Water tank, for collecting condensed water caused by the dehumidifier operation；And

Measurement apparatus, the water increment of water tank described in operational factor described in every group is corresponded to for measuring；

The controller is additionally operable to control the dehumidifier with operation described in one group corresponding to the water increment of maximum Parameter continuous service.

In some embodiments, operational factor described in one group includes rotation speed of fan or/and compressor frequency.

In some embodiments, the controller be used to controlling the dehumidifier with the fixed compressor frequency and It is described corresponding to the water increment of maximum to determine that the different rotation speed of fan is separately operable first scheduled time Rotation speed of fan, the dehumidifier is then controlled to be separately operable with the fixed rotation speed of fan and the different compressor frequencies First scheduled time with determine maximum the water increment corresponding to the compressor frequency；Or

For controlling the dehumidifier to be separately operable with the fixed rotation speed of fan and the different compressor frequencies First scheduled time with determine maximum the water increment corresponding to the compressor frequency, then control the dehumidifying Machine is separately operable first scheduled time to determine most with the fixed compressor frequency and the different rotation speed of fan The rotation speed of fan corresponding to the big water increment.

In some embodiments, the controller is used to correspond to multigroup operation ginseng in the water increment of maximum During number, the dehumidifier is controlled to be run with operational factor described in one group corresponding to the water increment and lowest power of maximum.

In some embodiments, the measurement apparatus is additionally operable in the dehumidifier continuous service measurement and often runs the Second water increment caused by water tank described in two scheduled times, the controller are additionally operable in the case where the second water increment is obvious The dehumidifier is controlled to be separately operable for first scheduled time again with multigroup operational factor during drop.

The dehumidifier control method of embodiment of the present invention includes：

The dehumidifier is controlled to be separately operable for first scheduled time with multigroup operational factor；

Collect condensed water caused by the dehumidifier operation；

The water increment of water tank described in operational factor described in measurement is corresponding every group；And

The dehumidifier is controlled with operational factor continuous service described in one group corresponding to the water increment of maximum.

In some embodiments, operational factor described in one group includes rotation speed of fan or/and compressor frequency.

In some embodiments, the dehumidifier control method also includes：

The dehumidifier is controlled to be separately operable with the fixed compressor frequency and the different rotation speed of fan described First scheduled time with determine maximum the water increment corresponding to the rotation speed of fan；And

The dehumidifier is controlled to be separately operable with the fixed rotation speed of fan and the different compressor frequencies described First scheduled time with determine maximum the water increment corresponding to the compressor frequency.

In some embodiments, the dehumidifier control method also includes：

The dehumidifier is controlled to be separately operable with the fixed rotation speed of fan and the different compressor frequencies described First scheduled time with determine maximum the water increment corresponding to the compressor frequency；And

The dehumidifier is controlled to be separately operable with the fixed compressor frequency and the different rotation speed of fan described First scheduled time with determine maximum the water increment corresponding to the rotation speed of fan.

In some embodiments, the dehumidifier control method corresponds to multigroup fortune in the water increment of maximum During row parameter, the dehumidifier is controlled to be transported with operational factor described in one group corresponding to the water increment and lowest power of maximum OK.

In some embodiments, the dehumidifier control method includes：

In the dehumidifier continuous service, measurement often runs the second water caused by water tank described in second scheduled time and increased Amount；And

The dehumidifier is controlled to be separately operable again with multigroup operational factor when the second water increment is decreased obviously First scheduled time.

The dehumidifier of embodiment of the present invention first with each group operational factor respective scheduled time of trial operation first, but according to The water increment of water tank judges dehumidification rate corresponding to every group of operational factor.It is appreciated that the dehumidification rate of dehumidifier is higher, Then condensed water caused by the unit interval is more, therefore, in the case where every group of operational factor ran for first scheduled time, water Dehumidification rate corresponding to the big one group of operational factor of increment is high.Therefore, the dehumidifying function of embodiment of the present invention passes through multigroup fortune The trial operation of row parameter finds dehumidification rate highest one group of operational factor, and controls dehumidifier with one group of dehumidification rate highest Operational factor continuous service, efficiently dehumidifying.In addition, can also be by dehumidifier quick regulation into most preferably removing by this regulative mode Wet efficiency.

The additional aspect and advantage of the present invention will be set forth in part in the description, and will partly become from the following description Obtain substantially, or recognized by the practice of the present invention.

Brief description of the drawings

The above-mentioned and/or additional aspect and advantage of the present invention is from combining in description of the accompanying drawings below to embodiment by change Obtain substantially and be readily appreciated that, wherein：

Fig. 1 is the high-level schematic functional block diagram of the dehumidifier of embodiment of the present invention.

Embodiment

Embodiments of the present invention are described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning Same or similar element is represented to same or similar label eventually or there is the element of same or like function.Below by ginseng The embodiment for examining accompanying drawing description is exemplary, is only used for explaining the present invention, and is not considered as limiting the invention.

In the description of the invention, it is to be understood that term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", " under ", "front", "rear", "left", "right", " vertical ", " level ", " top ", " bottom ", " interior ", " outer ", " up time The orientation or position relationship of the instruction such as pin ", " counterclockwise " are based on orientation shown in the drawings or position relationship, are for only for ease of Description is of the invention to be described with simplified, rather than the device or element of instruction or hint meaning must be with specific orientation, Yi Te Fixed azimuth configuration and operation, therefore be not considered as limiting the invention.In addition, term " first ", " second " are only used for Purpose is described, and it is not intended that instruction or hint relative importance or the implicit quantity for indicating indicated technical characteristic. Thus, " first " is defined, the feature of " second " can be expressed or implicitly includes one or more feature. In description of the invention, " multiple " are meant that two or more, unless otherwise specifically defined.

In the description of the invention, it is necessary to illustrate, unless otherwise clearly defined and limited, term " installation ", " phase Even ", " connection " should be interpreted broadly, for example, it may be being fixedly connected or being detachably connected, or be integrally connected；Can To be mechanical connection or electrical connection or can mutually communicate；Can be joined directly together, can also be by between intermediary Connect connected, can be connection or the interaction relationship of two elements of two element internals.For the ordinary skill of this area For personnel, the concrete meaning of above-mentioned term in the present invention can be understood as the case may be.

In the present invention, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or it " under " Can directly it be contacted including the first and second features, it is not directly to contact but pass through it that can also include the first and second features Between other characterisation contact.Moreover, fisrt feature second feature " on ", " top " and " above " to include first special Sign is directly over second feature and oblique upper, or is merely representative of fisrt feature level height and is higher than second feature.Fisrt feature exists Second feature " under ", " lower section " and " following " fisrt feature that includes are directly over second feature and oblique upper, or be merely representative of Fisrt feature level height is less than second feature.

Following disclosure provides many different embodiments or example is used for realizing the different structure of the present invention.In order to Simplify disclosure of the invention, hereinafter the part and setting of specific examples are described.Certainly, they are only example, and And purpose does not lie in the limitation present invention.In addition, the present invention can in different examples repeat reference numerals and/or reference letter, This repetition is for purposes of simplicity and clarity, between itself not indicating discussed various embodiments and/or setting Relation.In addition, the invention provides various specific techniques and material examples, but those of ordinary skill in the art can be with Recognize the application of other techniques and/or the use of other materials.

Referring to Fig. 1, the dehumidifier 100 of embodiment of the present invention includes controller 10, water tank 20 and measurement apparatus 30.Control Device 10 processed is used to control dehumidifier 100 to be separately operable the first scheduled time t1 with multigroup operational factor.Water tank 20 removes for collection Wet machine 100 runs caused condensed water.Measurement apparatus 30 is used for the water increment for measuring corresponding every group of operational factor water tank 20.Control Device 10 processed is additionally operable to control dehumidifier 100 with one group of operational factor continuous service corresponding to the water increment of maximum.

The dehumidifier 100 of embodiment of the present invention is first with respective first scheduled time of the trial operation t1 (examples of each group operational factor Such as it is 3 minutes), but dehumidification rate corresponding to judging every group of operational factor according to the water increment of water tank 20.It is appreciated that The dehumidification rate of dehumidifier 100 is higher, then condensed water caused by the unit interval is more, therefore, is run in every group of operational factor In the case of first scheduled time t1, dehumidification rate corresponding to the big one group of operational factor of water increment is high.Therefore, the present invention is real Dehumidification rate highest one group of operational factor can be found by the trial operation of multigroup operational factor by applying the dehumidifier 100 of mode, and Dehumidifier 100 is controlled with dehumidification rate highest one group of operational factor continuous service, efficiently dehumidifying.In addition, pass through this regulation Mode can also be by the quick regulation of dehumidifier 100 into optimal dehumidification rate.

In present embodiment, one group of operational factor includes rotation speed of fan and compressor frequency.

Specifically, dehumidifier 100 also includes compressor 40, evaporator 50 and blower fan 60.Compressor 40 and evaporator 50 and The miscellaneous part such as condenser, filter, flow controller (not shown) forms refrigerating circuit.The structure of blower fan 60 is through dehumidifier 100 Air flow circuit, evaporator 50 are arranged in air flow circuit.Water tank 20 is arranged on the lower section of evaporator 50.During work, compressor 40 is inhaled Enter the low-pressure gaseous refrigerant of refrigerating circuit and boil down to high-pressure gaseous refrigerant heel row is to condenser.Refrigerant is in condenser It is condensed into high-pressure liquid and discharges heat.High pressure liquid refrigerant sprays into evaporator 50 after filter, flow controller, and is steaming Send out in device 50 and evaporate, draw the heat of surrounding.Therefore, the vapor in the air around evaporator 50 can be condensed and along steaming Hair device 50 is fallen into water tank 50.The air that the air flow circuit that blower fan 60 is established simultaneously is constantly carries out hot friendship by evaporator 50 Change, so as to constantly make the water vapor condensation in air, so as to reach the effect of dehumidifying.

It is appreciated that the dehumidification rate of dehumidifier 100 and the rotation speed of fan of blower fan 60 and the compressor frequency of compressor 40 It is relevant.For example, if rotation speed of fan is too high, then the wind speed of air flow circuit is excessive, causes air not filled with the heat exchange of evaporator 50 Point, so as to cause dehumidification rate relatively low.If rotation speed of fan is too low, cause again inadequate with the renewal of the air of the heat exchange of evaporator 50 Fully, it is relatively low to also result in dehumidification rate.If compressor frequency is too high, the temperature of evaporator 50 is too low, can cause condensed water It is condensate in evaporator 50, in some instances it may even be possible to frosting or icing, cover evaporator 50 so as to cause evaporator 50 and air heat exchange not It is enough fully to cause dehumidification rate relatively low.If compressor frequency is too low, the temperature of evaporator 50 is too high, is unfavorable for evaporator again 50 and air heat exchange, it is relatively low to also result in dehumidification rate.Therefore, be not with maximum compressor efficiency or/with minimum Rotation speed of fan operation just can be maximum dehumidification rate.

Therefore, in order to adjust dehumidification rate, related operational factor should include rotation speed of fan or/compressor frequency. I other words one group of operational factor can include rotation speed of fan or compressor frequency or rotation speed of fan and compressor frequency.

Further, since water tank 20 typically using column horizontal section area s along the constant vessel of short transverse, therefore water Increment be able to should be represented with water level increment h.Therefore, measurement apparatus can be level measurement device.

Below the present invention is further illustrated in case of one group of operational factor includes rotation speed of fan and compressor frequency The dehumidifier 100 of embodiment.

In some embodiments, it is contemplated that the influence of rotation speed of fan and compressor frequency to dehumidification rate is all independent , and non-interference, therefore, dehumidifier 100 can be controlled to distinguish with fixed compressor frequency and different rotation speed of fan The first scheduled time t1 is run to determine rotation speed of fan corresponding to the water increment of maximum, then controls dehumidifier 100 with fixation Rotation speed of fan and different compressor frequencies be separately operable for first scheduled time with determine maximum water increment corresponding to pressure Contracting unit frequency.

It is for example, predetermined with wind speed spin rates N0 (being, for example, 900RPM) and compressor frequency V0 (being, for example, 30Hz) operation first Time t1 (being, for example, 3min), measurement apparatus 30 measure the water level increment h0 (being, for example, 3cm) of water tank 20, in other words dehumidifier 100 dehumidification rate is that P0=h0/t1 (is, for example, 1cm/min, or is 1*scm³/m)。

Then, it is predetermined with wind speed spin rates N1 (being, for example, 800RPM) and compressor frequency V0 (being, for example, 30Hz) operation first Time t1 (being, for example, 3min), measurement apparatus 30 measure the water level increment h1 (being, for example, 6cm) of water tank 20, in other words dehumidifier 100 dehumidification rate is that P1=h1/t1 (is, for example, 2cm/min, or is 2*scm³/m)。

Dehumidifier 100 is again with wind speed spin rates N2 (being, for example, 1000RPM) and compressor frequency V0 (being, for example, 30Hz) operation First scheduled time t1 (being, for example, 3min), measurement apparatus 30 measure the water level increment h2 (being, for example, 3cm) of water tank 20, that is to say Say that the dehumidification rate of dehumidifier 100 (is, for example, 1cm/min, or is 1*scm for P2=h2/t1³/m)。

Hence, it can be determined that rotation speed of fan N1 corresponding to maximum water increment (being, for example, 800RPM).

It is next, pre- with wind speed spin rates N0 (being, for example, 900RPM) and compressor frequency V1 (being, for example, 50Hz) operation first Fix time t1 (being, for example, 3min), and measurement apparatus 30 measures the water level increment h3 (being, for example, 9cm) of water tank 20, in other words dehumidifies The dehumidification rate of machine 100 is that P3=h3/t1 (is, for example, 3cm/min, or is 3*scm³/m)。

Then, it is predetermined with wind speed spin rates N0 (being, for example, 900RPM) and compressor frequency V2 (being, for example, 10Hz) operation first Time t1 (being, for example, 3min), measurement apparatus 30 measure the water level increment h4 (being, for example, 1cm) of water tank 20, in other words dehumidifier 100 dehumidification rate is that P4=h4/t1 (is, for example, 1cm/3min, or is 1*scm³/3m)。

Hence, it can be determined that compressor frequency V1 corresponding to maximum water increment (being, for example, 50Hz).

To sum up, it may be determined that one group of operational factor corresponding to maximum water increment is that rotation speed of fan N1 (is, for example, 800RPM) and compressor frequency V1 (be, for example, 50Hz).

From upper it has also been discovered that, different rotation speed of fan (such as rotation speed of fan N0, N1 and N2) and compressor frequency (such as For compressor frequency V0, V1 and V2) nine groups of operational factors can essentially be formed, in other words want the blower fan that Complete test is different The influence of rotating speed and compressor frequency to the dehumidification rate of dehumidifier 100, dehumidifier 100 need to transport respectively with nine groups of operational factors First scheduled time of row t1, however, in the present embodiment, due to utilizing rotation speed of fan and compressor frequency to dehumidifier 100 Dehumidification rate influence it is independent specific, determine rotation speed of fan and compressor frequency respectively, only need to measure five groups of operational factors The one group of operational factor that can determine that the dehumidification rate of dehumidifier 100 can be made maximum (is, for example, rotation speed of fan N1 and compressor frequency Rate V1).In other words, reduce testing time, so as to reduce the testing time, and then maximum can be more quickly found and removed One group of operational factor corresponding to wet efficiency.

It is appreciated that in other modes, dehumidifier 100 can also be controlled with fixed rotation speed of fan and different compressions Unit frequency be separately operable for first scheduled time with determine maximum water increment corresponding to compressor frequency, then control dehumidifier 100 were separately operable for first scheduled time to determine the water increment of maximum with fixed compressor frequency and different rotation speed of fan Corresponding rotation speed of fan.

In some embodiments, if maximum water increment corresponds to multigroup operational factor, then dehumidifier 100 is controlled Run with operational factor described in one group corresponding to the water increment and lowest power of maximum.

For example, in superincumbent embodiment, if with wind speed spin rates N1 (being, for example, 800RPM) and compressor frequency V0 (being, for example, 30Hz) first scheduled time t1 of operation (being, for example, 3min), measurement apparatus 30 measures the water level increment h1 of water tank 20 (being, for example, 1cm), in other words the dehumidification rate of dehumidifier 100 is that P1=h1/t1 (is, for example, 1cm/min, or is 1* scm³/m)。

In other words, rotation speed of fan corresponding to maximum water increment is N0, N1 and N2, it is contemplated that rotation speed of fan N1 is most It is small, corresponding minimum power, accordingly, it is determined that rotation speed of fan N1 corresponding to maximum water increment and lowest power.

In this way, reduction energy consumption, the purpose of energy-conserving and environment-protective can also be played while dehumidification rate of the guarantee with maximum.

Additionally it should it is substantially subjected to environment in view of one group of operational factor corresponding to 100 maximum dehumidification rate of dehumidifier The influence of humidity, under some ambient humidity, dehumidifier 100 may be run with one group of operational factor can reach maximum dehumidifying effect Rate, and under another ambient humidity, dehumidifier 100 may then be run with another one group of operational factor and be only possible to obtain maximum dehumidifying Efficiency.And during the continuous service of dehumidifier 100, with dehumidifying process, ambient humidity will change, such as from high environment Humidity becomes low environment humidity.Therefore, it is necessary to there is one group of operation used in lasting monitoring in the dehumidification process of dehumidifier 100 Whether parameter is still adapted to current environment humidity.

Therefore, in some embodiments, measurement apparatus 30 is additionally operable to measure in 100 continuous service of dehumidifier and often run Second water increment of the second scheduled time t2 water tank 20, controller are additionally operable to decrease beyond predetermined threshold in the second water increment When control dehumidifier 100 the first scheduled time t1 is separately operable with multigroup operational factor again.

Wherein, the second scheduled time t2 can (such as be also 3 minute) identical with the first scheduled time t1 or other conjunctions The suitable time, such as monitoring can be continued using the time longer than the first scheduled time t1.

It is appreciated that even if dehumidifier 100 be still within maximum dehumidification rate, the second water increment still such as except Wet process and diminish, however, otherwise this decline with ambient humidity of the second water increment too acutely should not be meaned then Current one group of operational factor can not be so that dehumidifier 100 operates in maximum dehumidification rate.Therefore, this can pass through Wet down efficiency exceedes predetermined threshold to judge under second water increment.Wherein, predetermined threshold can by experiment or/and experience come Judge.

In addition, control dehumidifier 100 is separately operable the first scheduled time t1 precisely in order to looking for multigroup operational factor again The operational factor that to new one group dehumidifier 100 can be made to be run with the dehumidification rate of maximum.

The control method of dehumidifier 100 of embodiment of the present invention includes

Control dehumidifier 100 is separately operable the first scheduled time t1 with multigroup operational factor；

Collect dehumidifier 100 and run caused condensed water；And

The water increment of the corresponding every group of operational factor water tank 20 of measurement；

Dehumidifier 100 is controlled with one group of operational factor continuous service corresponding to the water increment of maximum.

In some embodiments, one group of operational factor includes rotation speed of fan or/and compressor frequency.

In some embodiments, dehumidifier control method also includes：

Control dehumidifier 100 is separately operable the first scheduled time t1 with fixed compressor frequency and different rotation speed of fan To determine rotation speed of fan corresponding to maximum water increment；And

Control dehumidifier 100 is separately operable the first scheduled time t1 with fixed rotation speed of fan and different compressor frequencies To determine compressor frequency corresponding to maximum water increment；

In some embodiments, controller method also includes：

Control dehumidifier 100 is separately operable the first scheduled time t1 with fixed rotation speed of fan and different compressor frequencies To determine compressor frequency corresponding to maximum water increment；And

Control dehumidifier 100 is separately operable the first scheduled time t1 with fixed compressor frequency and different rotation speed of fan To determine rotation speed of fan corresponding to maximum water increment.

In some embodiments, dehumidifier control method is when the water increment of maximum corresponds to multigroup operational factor, control Dehumidifier 100 processed is run with one group of operational factor corresponding to the water increment and lowest power of maximum.

In some embodiments, dehumidifier control method includes：

In 100 continuous service of dehumidifier, measurement often runs the second water caused by the second scheduled time t2 water tank 20 and increased Amount；And

Dehumidifier 100 is controlled to be separately operable first again with multigroup operational factor when the second water increment is decreased obviously pre- Fix time t1.

Not deployed other parts in the dehumidifier control method of present embodiment, the dehumidifier of embodiment of above can be joined 100 corresponding part, is no longer developed in details herein

In the description of this specification, reference term " embodiment ", " some embodiments ", " schematically implementation The description of mode ", " example ", " specific example " or " some examples " etc. means the tool with reference to the embodiment or example description Body characteristicses, structure, material or feature are contained at least one embodiment or example of the present invention.In this manual, Identical embodiment or example are not necessarily referring to the schematic representation of above-mentioned term.Moreover, the specific features of description, knot Structure, material or feature can combine in an appropriate manner in any one or more embodiments or example.

Any process or method described otherwise above description in flow chart or herein is construed as, and represents to include Module, fragment or the portion of the code of the executable instruction of one or more the step of being used to realize specific logical function or process Point, and the scope of the preferred embodiment of the present invention includes other realization, wherein can not press shown or discuss suitable Sequence, including according to involved function by it is basic simultaneously in the way of or in the opposite order, carry out perform function, this should be of the invention Embodiment person of ordinary skill in the field understood.

Expression or logic and/or step described otherwise above herein in flow charts, for example, being considered use In the order list for the executable instruction for realizing logic function, may be embodied in any computer-readable medium, for Instruction execution system, device or equipment (such as computer based system including the system of processor or other can be held from instruction The system of row system, device or equipment instruction fetch and execute instruction) use, or combine these instruction execution systems, device or set It is standby and use.For the purpose of this specification, " computer-readable medium " can any can be included, store, communicate, propagate or pass Defeated program is for instruction execution system, device or equipment or the dress used with reference to these instruction execution systems, device or equipment Put.The more specifically example (non-exhaustive list) of computer-readable medium includes following：Electricity with one or more wiring Connecting portion (electronic installation), portable computer diskette box (magnetic device), random access memory (RAM), read-only storage (ROM), erasable edit read-only storage (EPROM or flash memory), fiber device, and portable optic disk is read-only deposits Reservoir (CDROM).In addition, computer-readable medium, which can even is that, to print the paper of described program thereon or other are suitable Medium, because can then enter edlin, interpretation or if necessary with it for example by carrying out optical scanner to paper or other media His suitable method is handled electronically to obtain described program, is then stored in computer storage.

It should be appreciated that each several part of the present invention can be realized with hardware, software, firmware or combinations thereof.Above-mentioned In embodiment, software that multiple steps or method can be performed in memory and by suitable instruction execution system with storage Or firmware is realized.If, and in another embodiment, can be with well known in the art for example, realized with hardware Any one of row technology or their combination are realized：With the logic gates for realizing logic function to data-signal Discrete logic, have suitable combinational logic gate circuit application specific integrated circuit, programmable gate array (PGA), scene Programmable gate array (FPGA) etc..

Those skilled in the art are appreciated that to realize all or part of step that above-described embodiment method carries Suddenly it is that by program the hardware of correlation can be instructed to complete, described program can be stored in a kind of computer-readable storage medium In matter, the program upon execution, including one or a combination set of the step of embodiment of the method.

In addition, each functional unit in each embodiment of the present invention can be integrated in a processing module, can also That unit is individually physically present, can also two or more units be integrated in a module.Above-mentioned integrated mould Block can both be realized in the form of hardware, can also be realized in the form of software function module.The integrated module is such as Fruit is realized in the form of software function module and as independent production marketing or in use, can also be stored in a computer In read/write memory medium.

Storage medium mentioned above can be read-only storage, disk or CD etc..

Although embodiments of the invention have been shown and described above, it is to be understood that above-described embodiment is example Property, it is impossible to limitation of the present invention is interpreted as, one of ordinary skill in the art within the scope of the invention can be to above-mentioned Embodiment is changed, changed, replacing and modification.

Claims (11)

1. A kind of 1. dehumidifier, it is characterised in that including：

   Controller, the controller are used to control the dehumidifier to be separately operable for first scheduled time with multigroup operational factor；

   Water tank, for collecting condensed water caused by the dehumidifier operation；And

   Measurement apparatus, the water increment of water tank described in operational factor described in every group is corresponded to for measuring；

   The controller is additionally operable to control the dehumidifier with operational factor described in one group corresponding to the water increment of maximum Continuous service.
2. 2. dehumidifier as claimed in claim 1, it is characterised in that operational factor described in one group includes rotation speed of fan or/and pressure Contracting unit frequency.
3. 3. dehumidifier as claimed in claim 2, it is characterised in that the controller is used to control the dehumidifier with fixed The compressor frequency and the different rotation speed of fan are separately operable first scheduled time to determine the water of maximum The rotation speed of fan corresponding to measuring increment, then controls the dehumidifier with the fixed rotation speed of fan and the different pressures Contracting unit frequency is separately operable first scheduled time to determine the compressor frequency corresponding to the water increment of maximum； Or

   It is described for controlling the dehumidifier to be separately operable with the fixed rotation speed of fan and the different compressor frequencies First scheduled time with determine maximum the water increment corresponding to the compressor frequency, then control the dehumidifier with The fixed compressor frequency and the different rotation speed of fan are separately operable first scheduled time to determine maximum The rotation speed of fan corresponding to the water increment.
4. 4. dehumidifier as claimed in claim 1, it is characterised in that the controller is used for the water increment pair in maximum When answering multigroup operational factor, the dehumidifier is controlled with one group of institute corresponding to the water increment and lowest power of maximum State operational factor operation.
5. 5. dehumidifier as claimed in claim 1, it is characterised in that the measurement apparatus is additionally operable to persistently transport in the dehumidifier Measurement often runs the second water increment caused by water tank described in second scheduled time during row, and the controller is additionally operable to described the Two water increments control the dehumidifier and are separately operable first again with multigroup operational factor predetermined when decreaseing beyond predetermined threshold Time.
6. A kind of 6. dehumidifier control method, it is characterised in that including：

   The dehumidifier is controlled to be separately operable for first scheduled time with multigroup operational factor；

   Collect condensed water caused by the dehumidifier operation；

   The water increment of operational factor water tank described in measurement is corresponding every group；And

   The dehumidifier is controlled with operational factor continuous service described in one group corresponding to the water increment of maximum.
7. 7. dehumidifier control method as claimed in claim 6, it is characterised in that operational factor described in one group includes rotation speed of fan Or/and compressor frequency.
8. 8. dehumidifier control method as claimed in claim 7, it is characterised in that the dehumidifier control method also includes：

   The dehumidifier is controlled to be separately operable described first with the fixed compressor frequency and the different rotation speed of fan The scheduled time with determine maximum the water increment corresponding to the rotation speed of fan；And

   The dehumidifier is controlled to be separately operable described first with the fixed rotation speed of fan and the different compressor frequencies The scheduled time with determine maximum the water increment corresponding to the compressor frequency.
9. 9. dehumidifier control method as claimed in claim 7, it is characterised in that the dehumidifier control method also includes：

   The dehumidifier is controlled to be separately operable described first with the fixed rotation speed of fan and the different compressor frequencies The scheduled time with determine maximum the water increment corresponding to the compressor frequency；And

   The dehumidifier is controlled to be separately operable described first with the fixed compressor frequency and the different rotation speed of fan The scheduled time with determine maximum the water increment corresponding to the rotation speed of fan.
10. 10. dehumidifier control method as claimed in claim 6, it is characterised in that the dehumidifier control method is in maximum When the water increment corresponds to multigroup operational factor, the dehumidifier is controlled with the water increment of maximum and minimum work( Operational factor described in one group corresponding to rate is run.
11. 11. dehumidifier control method as claimed in claim 6, it is characterised in that the dehumidifier control method includes：

    In the dehumidifier continuous service, measurement often runs the second water increment caused by water tank described in second scheduled time；And

    The dehumidifier is controlled when the second water increment decrease beyond predetermined threshold and is distinguished again with multigroup operational factor Ran for first scheduled time.