CN102759172A - Ventilation device and ventilation method - Google Patents

Abstract

The invention provides a ventilation device, which is provided with a sensing device, a control unit and a motor, wherein the sensing device comprises a human body sensor and a humidity sensor; a detection signal is transmitted to the control unit by the sensing device; and the signal of the sensing device is received by the control unit to control operation of the motor or stop the operation, so that the ventilation device is in a ventilation state or sleep state. The invention also relates to a ventilation method. The ventilation device and the ventilation method have the advantage that humidity produced by behaviors of a user entering a room can be detected and discharged to keep the indoor humidity as proper as possible.

Description

A kind of air interchanger and a kind of air exchanging method

Technical field

The invention relates to a kind of air interchanger, particularly about a kind of induction type air interchanger.The invention still further relates to a kind of air exchanging method.

Background technology

A kind of known air interchanger that humidity sensor is installed; Comprise: open frame, be fixed in face shield on the said open frame, humidity sensor, the control module that links to each other with humidity sensor and link to each other, be used to drive the motor that flabellum rotates with said control module.When indoor humidity reaches predefined humidity threshold value, thereby said control module control motor rotation reduces humidity.

Also have a kind of known air interchanger that human inductor is installed, comprising: human inductor, the control module that links to each other with human inductor and link to each other with said control module are used to drive the motor that flabellum rotates.When human inductor detects the indoor man-hour that has, outdoor indoor air discharge thereby said control module is controlled motor rotation.

First kind of air interchanger technology that humidity sensor is installed in the above-mentioned background technology; The user preestablishes the humidity threshold value, when indoor humidity reaches the predefined humidity threshold value of user, and said control module control motor rotation; Air interchanger is taken a breath, thereby reduces humidity.If therefore just carry out can not producing in a large number the gentle activity of moisture in user's inlet chamber, for example use the lavatory perhaps to wash one's hands, when washing one's face, do not preestablish the humidity threshold value owing to indoor humidity reaches, so air interchanger can not move.So; Generally; Just the humidity threshold value of setting is predisposed to lowlyer, can perceives the humidity that people's gentle activity caused very sensitively and change, make air interchanger be easy to just turn round take a breath; But like this since sooner or later temperature reduce or when raining moisture have slightly to increase when just surpassing the humidity threshold value of setting air interchanger is frequently turned round, make troubles to the user.

Second kind of air interchanger that human inductor is installed in the background technology in addition; If detect people's existence; Said control module can be controlled motor rotation and take a breath, and reduces humidity, but leaves when indoor as the people; Air interchanger will stop ventilation, and this moment, indoor moisture might be also by abundant discharge.After in the people return chamber, will feel uncomfortable owing to indoor humidity is too high.

Summary of the invention

In order to solve above-mentioned problem, spy of the present invention provides a kind of air interchanger, can keep indoor moisture to be in the counterpart as far as possible and feel comfortable degree.

For realizing above-mentioned purpose, the present invention provides a kind of air interchanger, and induction installation, control module and motor are installed, and induction installation comprises human inductor and humidity sensor; Induction installation is sent to control module to detection signal, and control module receives the signal of induction installation, and the control motor rotation perhaps shuts down, and makes air interchanger be in ventilation state or resting state.

After described control module receives the signal of induction installation, the signal of control module priority treatment humidity sensor; When indoor humidity surpasses the first initial humidity threshold value; Control module is only handled the signal of humidity sensor; Make air interchanger be in the ventilation state and drop to the second initial humidity threshold value up to indoor humidity; And control module is before the first initial reservation time finished, the signal that sends of human body inductor not; After the control module priority treatment finished the signal of humidity sensor, control module is the signal of human body inductor, if human inductor has been sensed the people indoor, control module makes air interchanger be in the ventilation state.

The described first initial reservation time is 0-60 minute.

The described second initial humidity threshold value is the value that is lower than the first initial humidity threshold value certain limit.

The described second initial humidity threshold value is the value that is lower than between the first initial humidity threshold value 5%-10%.

Initial indoor humidity value when the definition control module begins the signal of human body inductor all the time is the 3rd initial humidity threshold value; When the people leaves when indoor; If this moment, the indoor humidity value was higher than the 3rd initial humidity threshold value; Then the people leave second initial reservation after indoor in the time air interchanger keep the ventilation state, perhaps the ventilation state keeps till real-time indoor humidity value is less than or equal to the 3rd initial humidity threshold value.

Also comprise a setting device, be used for being provided with one or more of the first initial humidity threshold value, the second initial humidity threshold value, the first initial reservation time and the second initial reservation time.

For realizing above-mentioned purpose, the present invention provides a kind of air exchanging method, is provided with the air regenerating device that the induction installation, control module and the motor that comprise human inductor and humidity sensor are installed; Induction installation is sent to control module to detection signal, and control module receives the signal of induction installation, and the control motor rotation perhaps shuts down, and makes air interchanger be in ventilation state or resting state.

After described control module receives the signal of induction installation, the signal of control module priority treatment humidity sensor; When indoor humidity surpasses the first initial humidity threshold value; Control module is only handled the signal of humidity sensor; Make air interchanger be in the ventilation state and drop to the second initial humidity threshold value up to indoor humidity; And control module is before the first initial reservation time finished, the signal that sends of human body inductor not; After the control module priority treatment finished the signal of humidity sensor, control module is the signal of human body inductor, if human inductor has been sensed the people indoor, control module makes air interchanger be in the ventilation state.

The described first initial reservation time is 0-60 minute.

The described second initial humidity threshold value is the value that is lower than the first initial humidity threshold value certain limit.

The described second initial humidity threshold value is the value that is lower than between the first initial humidity threshold value 5%-10%.

Initial indoor humidity value when setting control module and beginning the signal of human body inductor all the time is the 3rd initial humidity threshold value; When the people leaves when indoor; If this moment, the indoor humidity value was higher than the 3rd initial humidity threshold value; Then the people leave second initial reservation after indoor in the time air interchanger keep the ventilation state, perhaps the ventilation state keeps till real-time indoor humidity value is less than or equal to the 3rd initial humidity threshold value.

The invention has the advantages that can detect the user gets into moisture that indoor activity produces and moisture is discharged, and keeps indoor humidity suitable as far as possible.

Description of drawings

Fig. 1 is the total flow chart of air exchanging method of the present invention;

Fig. 2 is in humidity variation sketch map of the present invention under the first environment situation;

Fig. 3 is in humidity variation sketch map of the present invention under the second environment situation;

Fig. 4 is in humidity variation sketch map of the present invention under the 3rd ambient conditions;

Fig. 5 is in the variation of the humidity under another control method of the present invention sketch map under the 3rd ambient conditions;

Fig. 6 is the structural representation of air interchanger of the present invention.

The specific embodiment

As shown in Figure 6; Be a kind of air interchanger 1 of the present invention; Comprise: open frame 2, be fixed in face shield 3 on the said open frame 2, induction installation 4, the control module (not shown) that links to each other with said induction installation 4 and link to each other, be used to drive the motor 5 that flabellum rotates with said control module.Induction installation 4 comprises the human inductor 6 of responding to human motion state and the humidity sensor 7 of induced environment humidity.Human inductor 6 can be installed in face shield 3 towards an indoor side as required with humidity sensor 7, perhaps towards a side of motor 5.Human inductor 6 detects and makes the air interchanger operation can guide room air to rise in people's inlet chamber, and room air is through face shield 3, and humidity sensor 7 can sooner, more easily be known indoor humidity value accurately.If whether human inductor 6 real-time inductions have the people indoor or leave indoorly, in real time detection signal is sent to the microprocessor of control module.Equally, the humidity in the humidity sensor 7 real-time sensing chamber, the also real-time microprocessor that detection signal is sent to control module.If control module is judged the people indoor, perhaps the indoor environment humidity value is higher than the first initial humidity threshold value A that the user is provided with in advance, all will open control signal and be sent to output unit, and motor 5 runnings, air interchanger is in the ventilation state.

If control module is judged nobody indoor, the indoor environment humidity value also is lower than the first initial humidity threshold value A that is provided with in advance simultaneously, then dormant control signal is sent to output unit, and motor shuts down, and air interchanger is in resting state.

In the present invention, the first initial humidity threshold value A can utilize setting device to preestablish by the user, can be made as the most suitable humidity 40-50% of people's sense to this first initial humidity threshold value A usually.Judge the indoor environment humidity value when control module and be higher than this first initial humidity threshold value A, will make air interchanger be in the ventilation state.Certainly, the user also can change the first initial humidity threshold value A according to the hobby of self at any time.

As shown in Figure 1, be the total flow chart of air exchanging method of the present invention.

Step S0, energized;

Step S1 detects current indoor humidity E0, and more than or equal to the first initial humidity threshold value A of predetermined set? If E0 more than or equal to A, then gets into step S2; If E0 less than A, then gets into step S3;

Step S2, air interchanger are in the ventilation state, and the control module signal that sends of human body inductor 6 not simultaneously is lower than up to current indoor humidity E0 and preestablishes the second initial humidity threshold value B.If among this step S2, find in the memory of control module, to record the 3rd initial humidity threshold value C described in the follow-up step S4, then remove.

The control module not signal that sends of human body inductor 6 is meant, during this period, no matter the someone passes in and out indoorly, control module is the signal that sends of human body inductor 6 not, and this moment, air interchanger was in the ventilation state all the time.

In the present embodiment, the second initial humidity threshold value B can be made as the certain limit that is lower than the first initial humidity threshold value A, like 5%-10%.

In this step S2, even can also select through air interchanger ventilation, when current indoor humidity E0 also has been lower than the predefined second initial humidity threshold value B, after the first initial reservation time T 1 of still delaying time, the signal that sends of human body inductor 6.The first initial reservation time T 1 can be selected in the 0.5-60min scope.For the bigger environment of outside humidity, can the first initial reservation time T 1 be chosen in the short time, like a few minutes.Than adapt circumstance, can the first initial reservation time T 1 be chosen in the long time, for outside humidity like dozens of minutes.

Step S3, the signal that control module human body inductor 6 sends detects whether the people is arranged indoor.If judging has the people indoor, then get into step S4; If judge that nobody indoor, then gets into step S5.

Visible through step S2 and step S3, after described in the present invention control module receives the signal of induction installation, the signal of control module priority treatment humidity sensor.The signal of so-called control module priority treatment humidity sensor 7 is meant: when indoor humidity E0 surpasses the first initial humidity threshold value A; Control module is only handled the signal of humidity sensor 7; Make air interchanger be in the ventilation state and drop to the second initial humidity threshold value B up to indoor humidity; And control module is before the first initial reservation time T 1 finishes, the signal that sends of human body inductor 6 not.In other words, have only the signal that executes humidity sensor 7 transmissions when control module, and after finishing the time-delay state, the signal that ability human body inductor 6 sends.If in the process of the signal that control module execution humidity sensor 7 sends; Humidity sensor 7 do not detect humidity reach be lower than the second initial humidity threshold value B before; Even the people leaves indoor, motor also continues operation and detects humidity up to humidity sensor 7 and be lower than the second initial humidity threshold value B, and motor gets into the time-delay state then; After time-delay finished, air interchanger stopped ventilation.

Step S4 makes air interchanger be in the ventilation state; If the memory of control module is for the sky that is recorded as of the 3rd initial humidity threshold value C at this moment, then the current indoor humidity value of the memory of control module record is the 3rd initial humidity threshold value C, and returns step S1 and continue to detect in real time the indoor humidity situation.

Step S5 judges whether to exist the 3rd initial humidity threshold value C.

If do not have the record of the 3rd initial humidity threshold value C, then return step S1.The record that does not have the 3rd initial humidity threshold value C is learnt in aforementioned judgement; Mean that this moment, indoor humidity did not exceed the first initial humidity threshold value A; And never the people came indoor or handled at control module that the people has left indoor in the process of signal of priority treatment humidity sensor 7; This moment, air interchanger was in resting state, therefore returned step S1 and continued to detect in real time the indoor humidity situation.

If the record of the 3rd initial humidity threshold value C is arranged, then gets into step S6.The record of the 3rd initial humidity threshold value C is learnt in aforementioned judgement; Mean the people got into indoor after, indoor humidity does not exceed the first initial humidity threshold value A all the time, control module is the signal of human body inductor 6 all the time; The people just leaves now, and this moment, air interchanger still was in the ventilation state.Hence one can see that, and the 3rd initial humidity threshold value C of record is the initial indoor humidity value of control module when beginning the signal of human body inductor 6 all the time before this.

Step S6 detects current indoor humidity E0, and compares E0 and the 3rd initial humidity threshold value C.If E0 greater than C, then gets into step S7; If E0 is less than or equal to C, then get into step S8;

E0 is greater than C; Mean that this moment, indoor humidity did not exceed the first initial humidity threshold value A; But because to have the people once to get into indoor, though take a breath always, the people leaves the 3rd initial humidity threshold value C that indoor humidity E0 when indoor still is higher than the record of people's inlet chamber when interior.

E0 is less than or equal to C; Mean that this moment, indoor humidity did not exceed the first initial humidity threshold value A; Though it is indoor that someone once got into; But it is to the effect of rising of humidity influence less than ventilation, as only being the quietly reading or the thing of simply washing one's hands and so on, makes the people leave that indoor humidity E0 when indoor is lower than or the 3rd initial humidity threshold value C of record when equaling in people's inlet chamber.

Step S7 keeps the ventilation state, is equal to or less than the 3rd initial humidity threshold value C up to real-time humidity value E0; The ventilation state that perhaps keeps the second initial reservation time T 2.Get into step S8 then.

The former keeps the ventilation state, needs to detect in real time indoor humidity, is equal to or less than the 3rd initial humidity threshold value C up to real-time humidity value E0.When real-time humidity value E0 is equal to or less than the 3rd initial humidity threshold value C, finish the ventilation state, make air interchanger be in resting state.

The latter keeps the ventilation state of the second initial reservation time T 2, does not need to detect in real time indoor humidity.The second initial reservation time T 2 one arrives, and just finishes the ventilation state, makes air interchanger be in resting state.

Visible through step S6 and step S7; Control module continues in the process of signal of human body inductor 6 all the time in the present invention; The indoor humidity that if the people leaves indoor humidity when indoor when being higher than in people's inlet chamber, then can the people leave indoor after, air interchanger continues to keep the ventilation state; Humidity in the time of in the indoor humidity value returns to people's inlet chamber, perhaps preset time finishes.

Step S8 removes the 3rd initial humidity threshold value C that writes down in the memory of control module, returns step S1.

Get into new control circulation.

Need to prove that visible through above step S1-step S8, the 3rd initial humidity threshold value C only just is stored in the memory of control module after step S4, but if follow-up through step S2, the 3rd initial humidity threshold value C will be eliminated.If write down among the step S4 of certain circulation after the 3rd initial humidity threshold value C, through step S2, mean then that never begin from above-mentioned that step S4, indoor humidity is not all the time more than or equal to the first initial humidity threshold value A.Also need to prove; In the whole circulation process, if in the memory of control module, remain with the 3rd initial humidity threshold value C by step S4 record, and the follow-up step S2 that do not pass through; Even get into step S4 once more, do not revise the 3rd initial humidity threshold value C that has write down yet.The 3rd initial humidity threshold value C that this never is eliminated, that also be not modified is the initial indoor humidity value of control module when beginning the signal of human body inductor all the time, has only this humidity threshold value just to be introduced among step S6 and the step S7.

More than be the total flow chart of the present invention, introduce the present invention, below be divided into four kinds of ambient conditions and explain for further clearer:

Before in first kind of ambient conditions, people's inlet chamber, indoor humidity is lower than the first initial humidity threshold value A, and the activity that produces moisture after people's inlet chamber is interior is left then.

Fig. 2 representes that the humidity under this first environment situation changes.For the total flow chart of corresponding the invention described above clearly describes, the humidity situation of change is divided into five stages specifies as follows:

Phase I: air interchanger energising.

S0

Second stage: in people's inlet chamber, rise to the first initial humidity threshold value A up to humidity

2.1→S1→S3→S4：

Detect current indoor humidity E0, control module is judged the first initial humidity threshold value A of current indoor humidity E0 less than predetermined set, so control module begins to receive the signal of human inductor 6;

At this moment, in people's inlet chamber;

Control module has been judged the people indoor, and air interchanger gets into the ventilation state, simultaneously current indoor humidity E0 is recorded as the 3rd initial humidity threshold value C;

2.2→S1→S3→S4：

In a period of time, detect indoor humidity E0 in real time and all be not higher than the first initial humidity threshold value A, air interchanger keeps the ventilation state, is higher than the first initial humidity threshold value A up to indoor humidity E0, and this time period is not revised the 3rd initial humidity threshold value C;

Phase III: the signal of priority treatment humidity sensor 7

→S1→S2：

Detect current indoor humidity E0, control module is judged the first initial humidity threshold value A of current indoor humidity E0 greater than predetermined set, and control module is the signal of human body inductor 6 no longer;

According to the signal of humidity sensor 7, air interchanger is in the ventilation state;

Detect indoor humidity in real time, judge the second initial humidity threshold value B that current indoor humidity E0 drops to predetermined set up to control module, air interchanger gets into the time-delay state;

Delay time during the first initial reservation time T 1, air interchanger still is in the ventilation state.

Stage: the signal of human body inductor 6

→S3→S4→S1→S3→S5：

Control module begins the signal of human body inductor 6, and judging has the people indoor, and air interchanger gets into the ventilation state, simultaneously current indoor humidity E0 is recorded as the 3rd initial humidity threshold value C;

This moment, control module was judged the first initial humidity threshold value A of current indoor humidity E0 less than predetermined set, did not therefore cut off the signal that control module continues human body inductor 6;

After continuing a period of time, the people leaves indoor, and this time period is not revised the 3rd initial humidity threshold value C;

Control module receives the signal of human inductor 6, and it is indoor that judgement has the people to leave;

Five-stage: the handler leave indoor after, the signal of humidity sensor 7

→S6→S7：

Detect current indoor humidity E0, this time period is not revised the 3rd initial humidity threshold value C;

Control module is judged the three initial humidity threshold value C of current indoor humidity E0 greater than the stage record, and air interchanger keeps the ventilation state to drop to the 3rd initial humidity threshold value C up to current indoor humidity E0;

→S8→S1：

Remove the 3rd initial humidity threshold value C of stage record, return step S1.

Second kind of ambient conditions, in people's inlet chamber before, indoor humidity has been higher than the first initial humidity threshold value A, leaves after producing the activity of moisture after in people's inlet chamber.

Fig. 3 representes that the humidity under this second environment situation changes.Relatively first kind of ambient conditions can know that difference is that the second environment situation does not have the second stage of first kind of ambient conditions, directly gets into the phase III by the phase I, slightly changes in the phase III.Phase I, stage and five-stage are all identical with first kind of situation, no longer repeat at this.It is following to specify the phase III:

Phase III: the signal of priority treatment humidity sensor 7

→S1→S2：

Detect current indoor humidity E0, control module is judged the first initial humidity threshold value A of current indoor humidity E0 greater than predetermined set, and control module is the signal of human body inductor 6 no longer;

According to the signal of humidity sensor 7, air interchanger is in the ventilation state;

At this moment, in people's inlet chamber;

Detect indoor humidity in real time, judge the second initial humidity threshold value B that current indoor humidity E0 drops to predetermined set up to control module, air interchanger gets into the time-delay state;

Delay time during the first initial reservation time T 1, air interchanger still is in the time-delay state.

The third ambient conditions, in people's inlet chamber before, indoor humidity is lower than the first initial humidity threshold value A, leaves after producing small amount of moisture in people's inlet chamber or not producing the activity of moisture.That is to say that humidity sensor 7 detected humidity values do not reach under the situation of the predefined first initial humidity threshold value A all the time, human inductor 6 detects the control situation of people when indoor activity.

Fig. 4 representes that the humidity under the 3rd ambient conditions changes.Relatively first kind of ambient conditions can be known; Difference is that the 3rd ambient conditions does not have the second stage and the phase III of first kind of ambient conditions; Directly get into stage by the phase I; In other words, the third ambient conditions only is equivalent to phase I, stage and the five-stage of first environment situation, no longer repeats to specify step at this.

Like the explanation of preamble to the total flow chart of Fig. 1 the present invention, in above-mentioned five-stage the people leave indoor after, can adopt the mode of constrained delay a period of time to keep the ventilation state.At this moment, humidity changes as shown in Figure 5, and under this third ambient conditions, five-stage is following:

Five-stage: the handler leave indoor after, the signal of humidity sensor 7

→S6→S7：

Detect current indoor humidity E0, this time period is not revised the 3rd initial humidity threshold value C;

Control module is judged the three initial humidity threshold value C of current indoor humidity E0 greater than the stage record, and air interchanger keeps the ventilation state to finish up to the second initial reservation time T 2 that postpones;

→S8→S1：

Remove the 3rd initial humidity threshold value C of stage record, return step S1.

Claims (13)

1. an air interchanger is equipped with induction installation, control module and motor, it is characterized in that: induction installation comprises human inductor and humidity sensor; Induction installation is sent to control module to detection signal, and control module receives the signal of induction installation, and the control motor rotation perhaps shuts down, and makes air interchanger be in ventilation state or resting state.

2. air interchanger according to claim 1 is characterized in that: after described control module receives the signal of induction installation, and the signal of control module priority treatment humidity sensor;

When indoor humidity surpasses the first initial humidity threshold value; Control module is only handled the signal of humidity sensor; Make air interchanger be in the ventilation state and drop to the second initial humidity threshold value up to indoor humidity; And control module is before the first initial reservation time finished, the signal that sends of human body inductor not;

After the control module priority treatment finished the signal of humidity sensor, control module is the signal of human body inductor, if human inductor has been sensed the people indoor, control module makes air interchanger be in the ventilation state.

3. air interchanger according to claim 2 is characterized in that: the described first initial reservation time is 0-60 minute.

4. air interchanger according to claim 2 is characterized in that: the described second initial humidity threshold value is the value that is lower than the first initial humidity threshold value certain limit.

5. air interchanger according to claim 4 is characterized in that: the described second initial humidity threshold value is the value that is lower than between the first initial humidity threshold value 5%-10%.

6. according to arbitrary air interchanger described in the claim 1-5; It is characterized in that: the initial indoor humidity value when the definition control module begins the signal of human body inductor all the time is the 3rd initial humidity threshold value; When the people leaves when indoor; If this moment, the indoor humidity value was higher than the 3rd initial humidity threshold value; Then the people leave second initial reservation after indoor in the time air interchanger keep the ventilation state, perhaps the ventilation state keeps till real-time indoor humidity value is less than or equal to the 3rd initial humidity threshold value.

7. air interchanger according to claim 6 is characterized in that: also comprise a setting device, be used for being provided with one or more of the first initial humidity threshold value, the second initial humidity threshold value, the first initial reservation time and the second initial reservation time.

8. an air exchanging method is characterized in that: be provided with the air regenerating device that the induction installation, control module and the motor that comprise human inductor and humidity sensor are installed;

Induction installation is sent to control module to detection signal, and control module receives the signal of induction installation, and the control motor rotation perhaps shuts down, and makes air interchanger be in ventilation state or resting state.

9. air exchanging method according to claim 8 is characterized in that: after described control module receives the signal of induction installation, and the signal of control module priority treatment humidity sensor;

When indoor humidity surpasses the first initial humidity threshold value; Control module is only handled the signal of humidity sensor; Make air interchanger be in the ventilation state and drop to the second initial humidity threshold value up to indoor humidity; And control module is before the first initial reservation time finished, the signal that sends of human body inductor not;

After the control module priority treatment finished the signal of humidity sensor, control module is the signal of human body inductor, if human inductor has been sensed the people indoor, control module makes air interchanger be in the ventilation state.

10. air exchanging method according to claim 9 is characterized in that: the described first initial reservation time is 0-60 minute.

11. air exchanging method according to claim 9 is characterized in that: the described second initial humidity threshold value is the value that is lower than the first initial humidity threshold value certain limit.

12. air exchanging method according to claim 10 is characterized in that: the described second initial humidity threshold value is the value that is lower than between the first initial humidity threshold value 5%-10%.

13. arbitrary air exchanging method according to Claim 8-12; It is characterized in that: the initial indoor humidity value when setting control module and beginning the signal of human body inductor all the time is the 3rd initial humidity threshold value; When the people leaves when indoor; If this moment, the indoor humidity value was higher than the 3rd initial humidity threshold value; Then the people leave second initial reservation after indoor in the time air interchanger keep the ventilation state, perhaps the ventilation state keeps till real-time indoor humidity value is less than or equal to the 3rd initial humidity threshold value.

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