CN202928014U - Movable dehumidifier - Google Patents

Abstract

The utility model discloses a movable dehumidifier, which mainly comprises a compressor, a fan, a shell, a main controller, a remote controller, a buzzer and a display screen, wherein the main controller comprises a microprocessor MCU1, an infrared receiving module, a humidity detection module I and a buzzer sound module; the remote controller comprises a microprocessor MCU2, an infrared emitting module and a humidity detection module II; the humidity detection module II is used for detecting the humidity RH2 around the remote controller, transmitting to the microprocessor MCU2, and transmitting to the main controller through the infrared emitting module; the humidity detection module I is used for detecting the humidity RH1 at the air inlet of an air grid of the shell; and the main controller is used for comparing RH1 with RH2 and controlling the dehumidifier to run according to a comparison result. According to the main controller, the humidity around the remote controller is taken as an important basis for controlling the movable dehumidifier to run, so that the real demands of a user can be known more promptly and accurately, and the humidity is controlled accurately.

Description

Mobile-type dehumidifying machine

Technical field

The utility model relates to a kind of mobile-type dehumidifying machine, belongs to family's air dewetting, environment and regulates the field.

Background technology

Mobile-type dehumidifying machine mainly is comprised of compressor, blower fan, casing, master controller, remote controller, buzzer, display screen, its operation principle is: compressor start, air is through blower fan suction casing, airborne water vapour runs into the lower evaporator condensation of temperature and becomes the globule and be pooled in water container, dry Bas Discharged casing, circulation and so forth, indoor environment is dehumidified.

At present, after mobile-type dehumidifying machine was opened, the user was by master controller or remote controller setting humidity (humidity of this specification indication is relative humidity, represents with %, i.e. the percentage of saturated steam amount under contained steam vapour amount and its air same case in gas); The master controller collection is positioned at the humidity at air grid air inlet place of casing as current environment humidity, and contrasts operational mode, gear, shutdown and the shutdown etc. that above-mentioned setting humidity is controlled mobile-type dehumidifying machine.

Yet indoor humidity everywhere is not identical, so the current environment humidity (being the humidity at air grid air inlet place) confirmed of master controller can not accurately reflect the humidity of user's environment of living in, and even both have larger difference.Humidity around mobile-type dehumidifying machine lower (lower than setting humidity), mobile-type dehumidifying machine is closed dehumidification function, and the humidity around the user still higher (higher than setting humidity), mobile-type dehumidifying machine can't reach good effect on moisture extraction, and the user can not experience the comfort humidity effect.Humidity around the mobile-type dehumidifying machine higher (higher than setting humidity), mobile-type dehumidifying machine is opened dehumidification function, and the humidity around the user lower (lower than setting humidity) causes meaningless waste like this.

The utility model content

The utility model is to solve the problems referred to above of mobile-type dehumidifying machine, makes mobile-type dehumidifying machine can more in time, accurately satisfy user's real demand.

the utility model provides a kind of mobile-type dehumidifying machine, mainly by compressor, blower fan, casing, master controller, remote controller, buzzer, display screen forms, as depicted in figs. 1 and 2, it is characterized in that: above-mentioned master controller comprises Micro-processor MCV 1, keyboard input module one, the infrared receiver module, humidity detecting module one, buzzer sound module, the compressor control module, air-blower control module and LCD MODULE, wherein keyboard input module one, humidity detecting module one, LCD MODULE, buzzer sound module, the compressor control module, the air-blower control module is passed through PCB(Printed Circuit Board with Micro-processor MCV 1 respectively, printed circuit board, claim again printed circuit board (PCB), printed substrate) be connected, above-mentioned remote controller comprises Micro-processor MCV 2, keyboard input module two, infrared emitting module, humidity detecting module two, and wherein keyboard input module two, humidity detecting module two are connected by PCB with Micro-processor MCV 2 respectively.

In the utility model mobile-type dehumidifying machine, humidity detecting module one detects the humidity RH1 at the air grid air inlet place that is positioned at casing, and sends to Micro-processor MCV 1, and LCD MODULE control display screen shows RH1; Humidity detecting module two detects the humidity RH2 around remote controller, and sends to Micro-processor MCV 2, then is transmitted to master controller by infrared transmission module; Master controller is to RH1 and RH2 compares and control buzzer, compressor, blower fan according to comparative result.

When making electrical appliance due to the user, general meeting is placed on the remote controller of electrical equipment on the side of oneself and controls with convenient.Therefore, for mobile-type dehumidifying machine, the true humidity that the humidity RH2 around its remote controller more can representative of consumer environment of living in.Mobile-type dehumidifying machine of the present utility model is to consider according to the humidity RH2 around remote controller and the humidity RH1 that is positioned at the air grid air inlet place of casing, and then takes different humidity control models, more intelligent and hommization.

As a kind of preferred, master controller is to RH2 and RH2 compares and it is as follows to control the method for buzzer, compressor, blower fan according to comparative result:

If RH2-is RH1 〉=and 8% or RH2-RH1＜-8%, master controller sets with RH2 and user the switch that humidity SRH relatively controls compressor, blower fan;

If-8%≤RH2-is RH1＜and 8%, master controller sets with RH1 and user the switch that humidity SRH relatively controls compressor, blower fan.

When the humidity RH1 at the air grid air inlet place of the humidity RH2 around the remote controller and casing differs larger, mobile-type dehumidifying machine is general and user distance is far away, master controller is set humidity SRH with RH2 and user and is relatively controlled the dehumidifier operation, more can react user's real demand.The humidity RH1 at the air grid air inlet place of the humidity RH2 around the remote controller and casing differs hour, and master controller there is no need to consider the humidity RH2 around remote controller again, still can set humidity SRH with RH1 and user and relatively control dehumidifier and move.

As further this advances, master controller is set with RH2/RH1 and user the method that humidity SRH relatively controls the switch of compressor, blower fan and is:

When RH2/RH1-SRH 〉=5%, Compressors and Fans starts, and blower fan moves with top gear;

When RH2/RH1-SRH≤-5%, compressor cuts out, and blower fan moves with low velocity wind;

When-5%＜RH2/RH1-SRH＜5%, compressor cuts out, and blower fan keeps current state.

Like this, when user surrounding environment humidity (being remote controller humidity RH2 on every side) had reached requiring of user really, compressor cut out, blower fan moves with low wind, can save electric energy, avoid unnecessary waste.

Description of drawings

Further illustrate the utility model below in conjunction with the drawings and specific embodiments.

Fig. 1 is the schematic diagram of master controller in the utility model mobile-type dehumidifying machine;

Fig. 2 is the schematic diagram of remote controller in the utility model mobile-type dehumidifying machine;

Fig. 3 is the workflow diagram of remote controller in the control method of the utility model mobile-type dehumidifying machine;

Fig. 4 is the workflow diagram of master controller in the control method of the utility model mobile-type dehumidifying machine;

Fig. 5 is the flow chart of " the humidity control model one " subprogram in workflow diagram one shown in Figure 4;

Fig. 6 is the flow chart of " the humidity control model two " subprogram in workflow diagram one shown in Figure 4;

Fig. 7 is the flow chart of " the humidity control model three " subprogram in workflow diagram one shown in Figure 4.

The specific embodiment

For technological means, creation characteristic that the utility model is realized, reach purpose and effect is easy to understand, below in conjunction with concrete diagram, further set forth the utility model.

As shown in Figure 3, in the control method of the mobile-type dehumidifying machine of this embodiment, after remote controller powered on, microcontroller 2 judged all the time whether mobile-type dehumidifying machine starts shooting; If not, return and continue judgement; If turn step 1;

Step 1: the humidity RH2(that humidity detecting module two detects around remote controller is the humidity of user's environment of living in), turn step 2;

Step 2: humidity information is sent to master controller by the infrared emitting module, turn step 3;

Step 3: restart timing after the timer zero clearing in Micro-processor MCV 2, turn step 4;

Step 4: whether the timing that judges timer has expired 10min; If turn step 1; If not, turn step 5;

Step 5: judge whether shutdown; If finish; If not, switching step 4.

Like this, the every 10min of remote controller detects humidity and sends to master controller, the humidity information real-time update that master controller is received.

As shown in Figure 4, after the master controller of mobile-type dehumidifying machine powered on, microcontroller 1 judged all the time whether mobile-type dehumidifying machine starts shooting; If not, return and then continue judgement; If turn step 1;

Step 1: judge whether mobile-type dehumidifying machine receives the humidity information RH2 that remote control sends; If not, enter humidity control model one; If, illustrate that between remote controller and mobile-type dehumidifying machine master controller, communication is normal, turn step 2;

Step 2: detect the humidity RH1 at the air grid air inlet place be positioned at casing, turn step 3;

Step 3: RH1 and RH2 are compared, and whether judgement (RH2-RH1) is more than or equal to 8%, if illustrate that two humidity differ larger, enter humidity control model two; If not, turn step 4;

Step 4: whether judgement (RH2-RH1) is less than 8%; If illustrate that two humidity differ larger, enter humidity control model two; If not, illustrate that two humidity differ less, enter humidity control model three.

Therefore, mobile-type dehumidifying machine of the present utility model is to consider according to the humidity RH2 around remote controller and the humidity RH1 that is positioned at the air grid air inlet place of casing, and then takes different humidity control models, more intelligent and hommization.

As shown in Figure 5, master controller enters the humidity control model for the moment, at first master controller newspaper remote controller communication failure; Owing to can't receiving the remote controller moisture signal, can only adopt RH1 as current environment humidity, turn step 1;

Step 1: whether judgement (RH1-SRH) is more than or equal to 5%; If, illustrate that ambient humidity is large, turn step 2; If not, turn step 3; Setting humidity when wherein, SRH starts shooting for the user;

Step 2: open compressor and blower fan, blower fan moves with high wind;

Step 3: whether judgement (RH1-SRH) is less than or equal to-5%; If the requirement that ambient humidity is described and reaches the user turns step 4; If not, illustrate in (RH1-SRH) ± 5%, turn step 5;

Step 4: open compressor and close, blower fan is with low wind operation;

Step 5: keep ortho states, turn step 6;

Step 6: finish.

When the remote controller cisco unity malfunction, as electric weight deficiency or humidity detecting module two damages etc., this mobile-type dehumidifying machine still can carry out work according to this program.

As shown in Figure 6, when master controller entered humidity control model two, at first buzzer rang three sound, notifies user's mobile-type dehumidifying machine ambient humidity and user ambient humidity of living in to differ larger, should change the putting position of mobile-type dehumidifying machine; Then turn step 1;

Step 1: whether judgement (RH2-SRH) is more than or equal to 5%; If, illustrate that ambient humidity is large, turn step 2; If not, turn step 3;

Step 2: open compressor and blower fan, blower fan moves with high wind;

Step 3: whether continue judgement (RH2-SRH) less than or equal to-5%; If illustrate that ambient humidity has reached user's requirement, turns step 4; If not, illustrate in (RH2-SRH) ± 5%, turn step 5;

Step 4: compressor cuts out, and blower fan is with low wind operation;

Step 5: keep ortho states, turn step 6;

Step 6: finish.

Under this humidity control model, mobile-type dehumidifying machine is general and user distance is far away.The difference of setting humidity as user surrounding environment humidity and user is larger, and the user hears capable of regulating mobile-type dehumidifying machine and own distance after the warning of buzzer, with the perception of enhancing to effect on moisture extraction.When user surrounding environment humidity had reached requiring of user really, compressor cut out, blower fan moves with low wind, saves electric energy, avoids unnecessary waste.

As shown in Figure 7, when master controller entered humidity control model three, at first whether judgement (RH1-SRH) was more than or equal to 5%; If, illustrate that ambient humidity is large, open compressor and blower fan, blower fan moves with high wind; If not, enter following steps;

Whether judgement (RH1-SRH) is less than or equal to-5%; If, illustrate that ambient humidity has reached user's requirement, compressor cuts out, and blower fan is with low wind operation; If not, illustrate to keep ortho states in (RH1-SRH) ± 5%.

Under this humidity control model, mobile-type dehumidifying machine is general and user distance is nearer, and the humidity at the air grid air inlet place of user surrounding environment humidity and casing is basic identical, so the time carry out controlling run according to the humidity at the air grid air inlet place of casing and get final product.

In sum, in the utility model, master controller as the important evidence of controlling the mobile-type dehumidifying machine operation, can more in time, accurately be understood user's real demand, accurate controlled humidity with the humidity around remote controller.

Be more than one of embodiment of the present utility model, for those skilled in the art, do not spend performing creative labour, can do multiple variation on the basis of above-described embodiment, can realize the purpose of this utility model equally.But this variation obviously should be in the protection domain of claims of the present utility model.

Claims (1)

1. mobile-type dehumidifying machine, mainly by compressor, blower fan, casing, master controller, remote controller, buzzer, display screen forms, it is characterized in that: above-mentioned master controller comprises Micro-processor MCV 1, keyboard input module one, the infrared receiver module, humidity detecting module one, buzzer sound module, the compressor control module, air-blower control module and LCD MODULE, wherein keyboard input module one, humidity detecting module one, LCD MODULE, buzzer sound module, the compressor control module, the air-blower control module is connected by PCB with Micro-processor MCV 1 respectively, above-mentioned remote controller comprises Micro-processor MCV 2, keyboard input module two, infrared emitting module, humidity detecting module two, and wherein keyboard input module two, humidity detecting module two are connected by PCB with Micro-processor MCV 2 respectively.

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