CN105026636A - Dehumidifier - Google Patents

Abstract

In dehumidifiers that dry clothing, there are problems including that evaluation information regarding whether a degree of dryness of clothes washed by a user is satisfied is not reflected in operational control. To solve the problem, the present invention configures a dehumidifier provided with: a casing (100); a blower fan (2) that sucks indoor air into the casing (100) and blows out to the outside; a dehumidifying means (5) that eliminates moisture from the indoor air taken into the casing (100) by the blower fan (2); and a control means (7) that controls the blower fan (2) and the dehumidifying means (5). The control means (7) executes a clothes drying operation that dries clothing, and the operation time of the clothes drying operation is determined on the basis of evaluation information of the degree of dryness of clothing during clothes drying operations executed in the past.

Description

Dehumidifier

Technical field

The present invention relates to a kind of dehumidifier removing indoor moisture, particularly there is the dehumidifier washings such as the clothing as dried object dried in indoor being carried out to dry function.

Background technology

Existing a kind of dehumidifier, in main body, air entry is set, evaporimeter and condenser are set in main body, multiblade fan from the blow-off outlet blowout dry air being arranged on main body is set, in order to make dry air, wind direction board is rotatably set inside the blow-off outlet of main body to multiple directions blowout, the motor of rotary actuation wind direction board is set, by pressure fan from blow-off outlet to indoor blowout by evaporimeter, condenser dehumidifies warmed-up dry air, thus dehumidified in indoor efficiently, and equably drying is carried out (such as to clothing when the clothing for having washed dry, with reference to patent document 1).

At first technical literature

Patent document

Patent document 1: Japanese Unexamined Patent Publication 7-139759 publication (Fig. 1)

Summary of the invention

Invent problem to be solved

But the structure being recorded in patent document 1 does not carry out suitable air-supply according to the humidity of the surrounding of dehumidifier, temperature, the running of dehumidifying controls, and there is the problem of energy saving.In addition, also exist and cannot control the problems such as the evaluation information whether reflection user be satisfied with for the degree of drying of the clothing washed to running.

The object of the invention is to solve above-mentioned problem, obtain a kind of use form according to user and carry out the dehumidifier of suitable Dehumidification controlling.

For solving the scheme of problem

In order to solve above-mentioned problem, dehumidifier is configured to, and possesses: framework; Room air is sucked into the breeze fan also externally blown out in described framework; Dewatered dehydrating unit from the room air be taken into by described breeze fan in described framework; And control the control device of described breeze fan and described dehydrating unit, described control device performs cloth drying running, carry out the drying of clothing, the duration of runs of this cloth drying running performed when cloth drying operates based on the past to be determined the evaluation information of the degree of drying of clothing.

Invention effect

According to the present invention, can obtain a kind of dehumidifier, described dehumidifier, as the evaluation of evaluation information to the degree of drying of the clothing of its each cloth drying performed of running reflection, can carry out the dry operating of the clothing being suitable for user individual preference.

Accompanying drawing explanation

Fig. 1 is the stereoscopic figure of the dehumidifier representing embodiment 1.

Fig. 2 is the in-built summary construction diagram of the dehumidifier of embodiment 1.

Fig. 3 is the approximate three-dimensional map of wind direction variset.

Fig. 4 is the control block diagram of the dehumidifier of embodiment 1.

The flow chart of action when Fig. 5 is the cloth drying running of the dehumidifier representing embodiment 1.

Fig. 6 is the target dryness of the dehumidifier representing embodiment 1 and the table of coefficient.

Detailed description of the invention

Embodiment 1.

Below, with reference to accompanying drawing, embodiments of the present invention 1 are described.

Fig. 1 represents the stereoscopic figure of the dehumidifier of present embodiment.Fig. 2 represents the in-built summary construction diagram of the dehumidifier of present embodiment.Fig. 3 represents the approximate three-dimensional map of wind direction variset.Fig. 4 represents the control block diagram of the dehumidifier of present embodiment.The flow chart of action when what Fig. 5 represented is the cloth drying running of the dehumidifier representing present embodiment.

Shell with reference to Fig. 1, dehumidifier J is made up of the dehumidifier framework 100 (hereinafter referred to as framework 100) formed with can supporting oneself (self-supporting).

This framework 100 has the suction inlet 101 for being internally taken into room air A and has eliminated the exhaust outlet 103 of dry air B of moisture from framework 100 to indoor discharge.In addition, the inside of framework 100 is provided with water tank 102, stores the moisture eliminated the air be taken into from suction inlet 101.

Suction inlet 101, in the backside openings of framework 100, this opening is provided with the filter preventing dust from invading the inside of framework 100.

Exhaust outlet 103 is provided with the wind direction variset 1 of the wind direction that can change dry air B.This wind direction variset 1 is made up of with the horizontal shutter 1b of the wind direction that can change horizontal direction longitudinal shutter 1a of the wind direction that can change vertical direction.

Water tank 102 is installed into and can loads and unloads from the inside of framework 100.

In addition, with reference to Fig. 2, possess in the inside of dehumidifier J: breeze fan 2, produce and suck room air A from suction inlet 101, discharge the air-flow of dry air B from exhaust outlet 103; Blower motor 2a, makes this breeze fan 2 rotate; Temperature sensor 3 (temperature-detecting device), detects the temperature of the room air A attracted from suction inlet 101; Humidity sensor 4 (humidity detector), detects the humidity of room air A; Dehumidifying means 5, removing is included in the moisture of room air A and generates dry air B; Longitudinal variable motor 1c, makes longitudinal shutter 1a variable along vertical direction; Transverse variable motor 1d, makes horizontal shutter 1b change in the horizontal direction; Infrared ray sensor 6, as surface temperature detector; And control loop 7, as the control device controlling each several part.

Dehumidifying means 5 are arranged in the wind path to exhaust outlet 103 from suction inlet 101, and the moisture in removing air also makes its condensation.As the example of the mode that these dehumidifying means 5 use, adopt and form heat pump circuit and in evaporimeter, make the mode of the condensate moisture in air and with heat exchanger, the moisture that adsorbent removes from air is carried out to the drier mode etc. of condensation.

Dehumidifying means 5 moisture that air A eliminates indoor is stored in water tank 102 as condensed water C.The air eliminating moisture is formed as dry air B.

Next, known with reference to Fig. 3, the longitudinal shutter 1a forming wind direction variset 1 has the rectangular opening that the width along framework 100 extends, be configured to can substantially with the rotating shaft of aforesaid longitudinal variable motor 1c for axle and variable along vertical direction.

Thus, be configured to wind direction can longitudinally (above-below direction) variable.

In addition, horizontal shutter 1b is equally spaced configured in longitudinal shutter 1a, can be bearing in the inboard of the opposite side of the opening at longitudinal shutter 1a in the horizontal direction changeably by axle, with the driving interlock of aforesaid transverse variable motor 1d.

Thus, be configured to wind direction can transversely (left and right directions) variable.

Infrared ray sensor 6 is arranged on a face of the horizontal shutter 1b of the substantial middle be configured in longitudinal shutter 1a.

Thus, the detection range of infrared ray sensor 6 surface temperature is roughly the same with the direction of the dry air B that can be changed by wind direction variset 1.That is, infrared ray sensor 6 can detect the surface temperature in the whole region in the scope that wind direction variset 1 can be blown.

This infrared ray sensor 6 such as uses the device that make use of thermo-electromotive force effect, is made up of (with reference to Fig. 3) the thermistor 6b of the temperature of the infrared absorbing film 6a and detection infrared absorbing film 6a that accept the heat radiation (infrared ray) sent from the surface in regulation region.

Difference between the temperature (cold junction) of the infrared absorbing film 6a detected by the temperature (hot junction) of the sensible heat part of the infrared absorbing film 6a heated up due to absorptive thermal radiation and thermistor 6b is converted to the signals of telecommunication such as voltage by this infrared ray sensor 6, inputs to control loop 7 described later.The surface temperature in regulation region can be differentiated according to the size of this signal of telecommunication.

When control loop 7 detect have selected dehumidification mode by the switching manipulation of operating portion (not shown), wind direction variset 1 can be driven and blow from exhaust outlet 103, drive blower motor 2a and breeze fan 2 is rotated, drive dehumidifying means 5, thus make indoor humidity become optimum humidity.

In addition, control loop 7 drives longitudinal variable motor 1c and the transverse variable motor 1d of wind direction variset 1, thus blows to the direction in the region desired by indoor.

Thus, room air A is taken into in dehumidifier framework 100 from suction inlet 101, utilizes temperature sensor 3 and humidity sensor 4 to detect indoor temperature and humidity respectively, subsequently, dehumidified by dehumidifying means 5 and be formed as dry air B, from exhaust outlet 103 to indoor blowout.

Next, with reference to Fig. 4, to control loop 7 and be connected to the various sensor of this control loop and electronic unit is described.

The algorithm that control loop 7 inputs according to various sensor or various switch and specifies, the running of dehumidifier J entirety is controlled, has: input circuit 7a, output loop 7b, CPU7c, storage part 7d and as metering from running start the duration of runs the duration of runs metering device timing unit 7e.

In addition, in storage part 7d, store the above-mentioned algorithm of each several part for controlling dehumidifier J.Among this algorithm, include: the operation control routine controlled that operates is determined in the input based on various sensor or switch; And the duration of runs of the duration of runs to determine after this based on the detection signal of temperature sensor 9, humidity sensor 10 and the output of timing unit determine program.

In the control loop 7 formed like this, be connected with via input circuit 7a: the aridity of evaluation entry apparatus of evaluation of the aridity of carrying out the operating switches 8 of switch, temperature sensor 9, humidity sensor 10, infrared ray sensor 6 to the running of dehumidifier J and inputting washings as user evaluates various sensor and the various switches such as switch 11.

In addition, as shown in the explanation (after step S11) of action described later, aridity is evaluated switch 11 and also can be replaced by operating switches 8.Such as, the moment that also can operate operating switches 8 according to user infers the evaluation for aridity.

And, in this control loop 7, be connected with via output loop 7b: report the electric components such as the display part 12 of the state of dehumidifier, dehydrating unit 5, blower motor 2a, longitudinal variable motor 1c and transverse variable motor 1d.

Next, with reference to Fig. 5, action when operating to the cloth drying of the dehumidifier J being configured with each portion is as described above described.

In addition, in the following description, timing, hygrometry, temperature measuring are undertaken by above-mentioned timing unit 7e, humidity sensor 10, temperature sensor 9 respectively, and various calculation process is performed by control loop 7.

In step sl, the control loop 7 of dehumidifier, when detecting that cloth drying running starts, starts drive each several part needed for the dehumidifying such as dehydrating unit 5, blower motor 2a running and turn to step S2.Then, in step s 2, the measurement of entry into service time t, and turn to step S3.

In step s3, in the setting-up time (core time (core time)) of regulation, continuing dehumidifying running, turning to step S4 when arriving core time.In addition, in the present embodiment, 70 minutes are set to core time.At this, refer to core time for making cloth drying to the time to a certain degree before arriving next step.

In step s 4 which, after have passed through core time, judge the relative air humidity that humidity sensor 10 detects every official hour (being set as 10 minutes in the present embodiment), continuous wetness detects until detect the relative humidity (being less than 50% in this example) (step S5) preset.And, turn to step S6 when arriving the relative humidity preset.

In step s 6, obtain from relative air humidity (humidity of room air) lower than 50% time running start t1 and the detected temperatures T as air themperature (temperature of room air) that detects of temperature sensor 9 duration of runs, turn to step S7.And, in the step s 7, calculate detected temperatures T with the duration of runs t1 amass, turn to step S8.

Next, calculate coefficient D in step s 8 and turn to step S9.

This coefficient D is a parameter of the dry operating time changing cloth drying running, is calculated by the following formula obtained by experiment.

D=a × (" ^ " represents power to (T × t1) ^b.)

At this, known with reference to Fig. 6, coefficient a and coefficient b is the coefficient set separately for application order (rank) Dx.

This application order Dx is set with D1 ~ D5 according to the aridity being set to target, has each self-corresponding coefficient a and coefficient b, is tried to achieve by the process after step S11 described later in previous running and applied.

In addition, in the present embodiment, apply order Dx and be configured to 5 ranks, if need the duration of runs changing cloth drying running more accurately, more than 5 ranks also can be set to, in addition, if do not need accurately to change the duration of runs, also can be set to and be less than 5 ranks.

In addition, under the state of first running, initial value D3 is set with.In addition, for target dryness, the degree of the higher drying of numerical value is higher.That is, in this example, D5 is the longest order duration of runs, and D1 is the shortest order duration of runs.

In addition, coefficient a and b of the order of each application order Dx is stored in the storage part 7d in control loop 7, at order according to the evaluation information of user described later during rise and fall, read in the order of application coefficient a and b and for calculating.

Next, in step s 9, the coefficient D tried to achieve in step S8 is utilized, by the numerical expression of being tried to achieve by experiment

Y＝t1×(D-T/100)

The remaining dehumidifying Y duration of runs is calculated, determines the remaining dehumidifying Y duration of runs, turn to step S10.

Subsequently, if user does not shut down, then carry out cloth drying running until till the remaining dehumidifying Y duration of runs, but judge whether having arrived Z the duration of runs in step S10.The duration of runs, Z was worth and the washings set is dried to time to a certain degree by experiment, and in the running after Z, user is effective for the evaluation of the aridity of clothing.(obtain the evaluation of the aridity of clothing according to the use form of user.)

When the duration of runs arrives Z in step slo, turn to step S11.

At this, with through regulation the duration of runs Z for condition, make the process after step S11 effective, this running being the maloperation etc. in order to get rid of from the evaluation for changing the application order Dx performed after step S11 and the degree of drying for clothing adopted because of the operating switches 8 in cloth drying running causes stops, and is set to Y > Z in the present embodiment.

Such as, by step S10, can by after cloth drying running start shortly because of maloperation cause operating stop time clothing substantially do not have the evaluation for degree of drying under dry state to foreclose, can prevent from judge and improve the precision of judgement.

Next, after step S11 be the flow process of user to the evaluation of the aridity of clothing.

In addition, in the present embodiment, the moment, the i.e. user that stopped running according to user operate the moment of operating switches 8, infer that user is to the evaluation of the degree of drying of clothing.

In step s 11, whether user is judged shutting down before Y the duration of runs through dehumidifying by operation operating switches.

Originally, after to the dehumidifying whether arriving the remnants calculated the in step s 9 step S12 that Y judges the duration of runs, cloth drying running is terminated in step S13.

If but user is confirming the degree of drying of washings before Y through dehumidifying the duration of runs, and judge not need later dry operating, before turning to step S12, stopped running, then turn to step S21 in the case.

At this, be provided with at storage part 7d and judge counting, according to as above inferring the increase and decrease that the evaluation of user to the degree of drying of clothing counts.Wherein, judge that the initial value of counting is set as 0.

In the step s 21, judgement counting is subtracted 1, this result is stored in storage part 7d, turns to step S22.

In step S22, whether the stored counts judging to count is judged as below specified value (present embodiment as "-2 ").

In the present embodiment, whether before the dehumidifying time Y through remnants, running be stopped for twice for user in this and cloth drying operation process in the past to judge.That is, except judging whether user has except the meaning of the running do not needed till dehumidifying time Y, the erroneous judgement that other people mischief etc. beyond because of mistake input or user causes also is prevented.

After this, turn to step S23, make the order of aforesaid application order Dx decline one, determine the order of application during running next time.In addition, reset judgement counting simultaneously.

As previously discussed, user was shutting down before the remaining dehumidifying Y duration of runs, thus revised during running afterwards, shortened the dehumidifying Y duration of runs.

In addition, in the present embodiment, in step S22, to judge that the stored counts of counting is set to "-2 ", if be set to that coefficient D order easily changes, then stored counts can be set as "-1 ", in addition, if be set to that D order is difficult to change, then stored counts can be set to the value being less than "-2 ".

In addition, before stopping at remaining dehumidifying time Y, judgement counting is subtracted 1, also can change the size of counting deducted from the moment of the time stopped.Such as, stop more early, counting of deducting can be larger, and close to dehumidifying time Y, counting of deducting can be less.

Next, in step s 11, user, when not shutting down before remaining dehumidifying time Y, judges for whether arriving the time Y calculated in step S9 in step s 12.

In step s 12, when meeting running termination condition (have passed through the situation of time Y), turning to step S13 and temporarily terminating cloth drying running.After this, in step S14, internally turn to holding state.Wherein, holding state refers to the state that stopped dehumidifying and air-supply.

In step s 12, when not meeting running termination condition (when without time Y), step S11 is turned to.

Under this holding state, binding hours being set, judging whether have passed through the stipulated time in step s 16.In the standby state through the stipulated time, turn to step S17, terminate running.This binding hours is set as 5 hours in the present embodiment.

At this, when dehumidifier is in holding state, in step S15, whether operating switches 8 is pressed again to user and start cloth drying running judge.Start running again to refer to, user confirms the degree of drying of washings, and can infer that it has made the judgement needing again dry operating, turns to step S31 when having started and again operated before turning to step S17.

In step S31, by judgement counting increase by 1 point, turn to step S32.In addition, this result is stored in storage part 7d.

Then, in step s 32, to judging whether the stored counts of counting arrives more than specified value (being "+2 " in the present embodiment) and judge.

Namely, in the present embodiment, for in this and the running of cloth drying in the past, whether user again starts running for twice after have passed through remaining dehumidifying time Y judges, namely, although except to user whether running to dehumidifying time Y but still there is hope again carry out except the dry meaning judges to clothing, also prevent because of the erroneous judgement that mistake inputs or other people mischief etc. beyond user causes.

After this, turn to S33, make aforesaid application order Dx rise one, determine the order of application during running next time.Reset in addition simultaneously and judge counting, turn to step S34, carry out the cloth drying running added.

As previously discussed, user, by entry into service again in holding state, revises, and extends the duration of runs.

Above control flow is summarized as follows.

(1) user was closing the situation of running before the remaining dehumidifying Y duration of runs.

Infer that dehumidifying before user has been made at the dehumidifying Y duration of runs of the remnants set judges fully.After the running of next time, compare with this, shorten the remaining dehumidifying Y duration of runs (application order Dx being declined change).

(2) carry out dehumidifying until the situation (do not carry out add running situation) of the dehumidifying Y duration of runs of remnants.

Infer that user has been made at dehumidifying judgement fully in the dehumidifying Y duration of runs of the remnants set.That is, the judgement without problem in the dehumidifying time being made at the remnants of setting.Coefficient still in the hope of this dehumidifying Y duration of runs set after running next time tries to achieve the dehumidifying Y duration of runs (application order Dx does not change).

(3) carrying out dehumidifying to the remaining dehumidifying Y duration of runs, user adds the situation of running.

Infer that user makes the insufficient judgement of dehumidifying.After running next time, compare with this, extend the remaining dehumidifying Y duration of runs (making application order Dx increase to change).

At this, in the present embodiment, the moment, the i.e. user that stopped running according to user operate the moment of operating switches 8, infer the evaluation of user for the degree of drying of clothing, and be regarded as the input of evaluation information, be associated with the correction carrying out the duration of runs in usual course of action, although present embodiment is illustrated as example, but be not limited thereto, the aridity that can also arrange as shown in Figure 4 evaluates switch 11, inputs evaluation information energetically by user.

In addition, when user inputs the evaluation of aridity by aridity evaluation switch 11, above-mentioned (1) ~ (3) are corresponding with evaluation respectively, wherein, evaluate " super-dry " and correspond to (1), evaluate " appropriateness " and correspond to (2), evaluate " dry not enough " and correspond to (3).

According to present embodiment as previously discussed, about the degree of drying of the washings as dried object, according to the evaluation of user for the degree of drying of clothing, the duration of runs determined by control loop 7 is revised, with the revised duration of runs, running is controlled.

In addition, the evaluation information of the user that evaluation information input unit can also be inputted is stored in storage part 7d, is changed the correction of the duration of runs by repeatedly evaluating of user.Thus, user is reflected to the duration of runs of cloth drying running for the satisfaction of drying as evaluation information, the dry operating of the washings being suitable for individual preference can be carried out.

Industrial utilizability

Dehumidifier of the present invention can be utilized when carrying out drying to the washings as dried object dried in indoor.

Description of reference numerals

1 wind direction variset, the longitudinal shutter of 1a, 1b horizontal shutter, the longitudinal variable motor of 1c, 1d transverse variable motor, 2 breeze fans, 2a blower motor, 3 temperature sensors, 4 humidity sensors, 5 dehydrating units, 6 infrared ray sensors, 6a infrared absorbing film, 6b thermistor, 7 control loops, 7a input circuit, 7b output loop, 7c CPU, 7d storage part, 7e timing unit, 8 operating switches, 9 temperature sensors, 10 humidity sensors, 11 aridity evaluate switch, 12 display parts, 100 dehumidifier frameworks, 101 suction inlets, 102 water tanks, 103 exhaust outlets, A room air, B dry air.

Claims (5)

1. a dehumidifier, is characterized in that, described dehumidifier possesses:

Framework;

Room air is sucked into the breeze fan also externally blown out in described framework;

Dewatered dehydrating unit from the room air be taken into by described breeze fan in described framework; And

Control the control device of described breeze fan and described dehydrating unit,

Described control device performs cloth drying running, carries out the drying of clothing, and the duration of runs of this cloth drying running performed when cloth drying operates based on the past to be determined the evaluation information of the degree of drying of clothing.

2. dehumidifier as claimed in claim 1, it is characterized in that, described dehumidifier possesses:

Detect the temperature-detecting device of the temperature of room air;

Detect the humidity detector of the humidity of room air; And

Measure the measurement mechanism duration of runs of the duration of runs from the running of beginning cloth drying,

Described control device is when the detection signal of described humidity detector becomes the detection signal corresponding with below the humidity of regulation, based on described duration of runs measurement mechanism the output signal of the duration of runs and the output of the detection signal of described temperature-detecting device and described humidity detector, determine the duration of runs after this, and then, based on the duration of runs described in described evaluation information correction, utilize and control cloth drying running the revised duration of runs.

3. dehumidifier as claimed in claim 2, is characterized in that,

Described dehumidifier possesses storage device,

The described evaluation information that described storage device obtains when storing the running of each cloth drying,

Described control device, based on the described evaluation information being stored in described storage device, changes the correction of the described duration of runs.

4. the dehumidifier according to any one of claims 1 to 3, is characterized in that,

Described dehumidifier possesses the operating switches of start and stop cloth drying running,

Described control device, based on the operation moment of operating switches described in cloth drying running, tries to achieve described evaluation information.

5. the dehumidifier according to any one of claims 1 to 3, is characterized in that,

Described dehumidifier possesses the evaluation entry apparatus that user can input described evaluation information,

Described control device, based on the described evaluation information inputted by described evaluation entry apparatus, changes the correction of the described duration of runs.