CN103398448A - Control circuit for reducing power consumption of air conditioner lifting face plate and control method thereof - Google Patents

Abstract

The invention provides a control circuit for reducing power consumption of an air conditioner lifting face plate and a control method thereof. The control circuit comprises a control module, an upper end position detection loop and a lower end position detection loop, wherein the upper end position detection loop and the lower end position detection loop are connected with the control module. The upper end position detection loop and the lower end position detection loop are respectively used for detecting upper end position signals and lower end position signals of the lifting face plate, the upper end position signals and the lower end position signals are sent to the control module, and the control module controls switching on and switching off of the upper end position detection loop and the lower end position detection loop through a signal control end. The control circuit can reduce the power consumption for controlling the loops of the air conditioner lifting face plate and saves energy.

Description

A kind of control circuit and control method thereof that reduces air conditioner lifting panel power consumption

Technical field

The present invention relates to a kind of control circuit and control method thereof that reduces air conditioner lifting panel power consumption.

Background technology

Without the floor air conditioner of lifting panel, a kind of air-conditioner as disclosed in CN201010509476.X, comprise cover, and be arranged on heat exchanger, blower fan and driver in described cover.Such as this air conditioner without the lifting panel, it controls three terminal Voltage stabilizing module 5V power supply actual output current I in substrate _maxApproximately 80mA, can use the less electronic devices and components of rated current.The air conditioner that has at present the lifting panel, a kind of air-conditioning as disclosed in CN200920056900.2, comprise housing, be provided with blower fan and heat exchanger in housing, be provided with air outlet and air inlet on housing, also be provided with more than one auxiliary air inlet on housing, and be used for opening and closing the drop front of auxiliary air inlet.Such as this control substrate with air conditioner of lifting panel, 5V power supply actual output current I _maxAbout 200mA, be much higher than the power consumption without lifting panel air conditioner, this is because lifting panel control loop is always in running order, electric current is about 100mA, and lifting panel control loop in the whole process of operation of air conditioner, continues to detect the position of lifting panel, but in fact when air conditioner start and even running, still keep the lasting detection to the lifting positions of panels, in fact there is no need, can increase power consumption on the contrary., in present energy-saving and emission-reduction, under the main trend of development environmental protection household electrical appliances, in the urgent need to reducing air conditioner lifting panel control loop power consumption, thereby reduce the overall power of air conditioner.

Summary of the invention

A kind of control circuit and control method thereof that reduces air conditioner lifting panel power consumption provided by the invention, can reduce the power consumption of air-conditioning lifting panel control loop, saves the energy.

In order to achieve the above object, the invention provides a kind of control circuit that reduces air conditioner lifting panel power consumption, upper end position detection loop and lower end position detection loop that this control circuit comprises control module and with control module, is connected;

Described upper end position detects the same signal output part P1 of loop and lower end position detection loop link control module, receives the control signal of control module.

Described upper end position detects loop and comprises transistor and the upper end position detecting sensor that circuit connects, the signal output part P1 of described transistorized base stage link control module, emitter stage connects 5V voltage, colelctor electrode connects the upper end position detecting sensor, this upper end position detecting sensor is arranged on the position, the top of lifting panel, detects the upper end position of lifting panel; The signal output part P1 of transistor link control module,, by controlling transistorized break-make, detect the break-make in loop thereby control this upper end position.

Described lower end position detects loop and comprises transistor and the lower end position detecting sensor that circuit connects, the signal output part P1 of described transistorized base stage link control module, emitter stage connects 5V voltage, colelctor electrode connects the lower end position detecting sensor, this lower end position detecting sensor is arranged on the lowest positions place of lifting panel, detects the lower end position of lifting panel; The signal output part P1 of transistor link control module,, by controlling transistorized break-make, detect the break-make in loop thereby control this lower end position.

The present invention also provides a kind of control circuit that reduces air conditioner lifting panel power consumption, upper end position detection loop and lower end position detection loop that this control circuit comprises control module and with control module, is connected;

Described upper end position detects the first signal output P1 of loop link control module, and described lower end position detects the secondary signal output P2 of loop link control module, receives the control signal of control module.

Described upper end position detects loop and comprises transistor and the upper end position detecting sensor that circuit connects, the first signal output P1 of described transistorized base stage link control module, emitter stage connects 5V voltage, colelctor electrode connects the upper end position detecting sensor, this upper end position detecting sensor is arranged on the position, the top of lifting panel, detects the upper end position of lifting panel; The first signal output P1 of transistor link control module, by controlling transistorized break-make, thus the break-make of control loop.

Described lower end position detects loop and comprises transistor and the lower end position detecting sensor that circuit connects, the secondary signal output P2 of described transistorized base stage link control module, emitter stage connects 5V voltage, colelctor electrode connects the lower end position detecting sensor, this lower end position detecting sensor is arranged on the lowest positions place of lifting panel, detects the lower end position of lifting panel; The secondary signal output P2 of transistor link control module, by controlling transistorized break-make, thus the break-make of control loop.

The invention provides a kind of control method that reduces air conditioner lifting panel power consumption, this control method is based on the control circuit realization with a signal output part P1, and this control method comprises following steps:

Step 1, control module judge whether to receive power on signal, perhaps starting-up signal, and perhaps off signal, if receive power on signal, power supply opening, forward step 2 to,, if receive starting-up signal, forwards step 3 to,, if receive off signal, forwards step 4 to;

Step 2, power supply opening, the signal output part P1 output high level of control module, or low level, upper end position detects loop and lower end position detects loop conducting simultaneously, sliding on the lifting panel, when control module detects the position signalling of upper end position sensor transmission, signal output part P1 output low level, or high level, upper end position detects loop and turn-off simultaneously in lower end position detection loop;

Step 3, start, the signal output part P1 output high level of control module, or low level, upper end position detects loop and lower end position detects loop conducting simultaneously, the lifting panel glides, when control module detects the position signalling of lower end position sensor transmission, and signal output part P1 output low level, or high level, upper end position detects loop and turn-off simultaneously in lower end position detection loop;

Step 4, shutdown, the signal output part P1 output high level of control module, or low level, upper end position detects loop and lower end position detects loop conducting simultaneously, sliding on the lifting panel, when control module detects the position signalling of upper end position sensor transmission, signal output part P1 output low level, or high level, upper end position detects loop and turn-off simultaneously in lower end position detection loop.

The present invention also provides a kind of control method that reduces air conditioner lifting panel power consumption, and this control method is based on the control circuit realization with two signal output part P1 and P2, and this control method comprises following steps:

Step 1, control module judge whether to receive power on signal, perhaps starting-up signal, and perhaps off signal, if receive power on signal, power supply opening, forward step 2 to,, if receive starting-up signal, forwards step 3 to,, if receive off signal, forwards step 4 to;

Step 2, power supply opening, the first signal output P1 output high level of control module, or low level, upper end position detects the loop conducting, and control module detects the position signalling that the upper end position detecting sensor sends, if the position signalling that the upper end position detecting sensor sends do not detected, sliding on the lifting panel, if the position signalling that the upper end position detecting sensor sends, first signal output P1 output low level detected, or high level, upper end position detects loop and turn-offs;

step 3, start, the first signal output P1 output high level of control module, or low level, upper end position detects the loop conducting, control module detects the position signalling that the upper end position detecting sensor sends, when the position signalling of upper end position detecting sensor transmission being detected, first signal output P1 output low level, or high level, upper end position detects loop and turn-offs, the panel of lifting simultaneously starts to glide, after elapsed time T, secondary signal output P2 exports high level, or low level, lower end position detects the loop conducting, control module detects the position signalling that the lower end position detecting sensor sends, when the position signalling of lower end position detecting sensor transmission being detected, secondary signal output P2 output low level, or high level, lower end position detects loop and turn-offs.

step 4, shutdown, the secondary signal output P2 output high level of control module, or low level, lower end position detects the loop conducting, control module detects the position signalling that the lower end position detecting sensor sends, when the position signalling of lower end position detecting sensor transmission being detected, secondary signal output P2 output low level, or high level, lower end position detects loop and turn-offs, sliding on the panel of lifting simultaneously, after elapsed time T, first signal output P1 exports high level, or low level, upper end position detects the loop conducting, control module detects the position signalling that the upper end position detecting sensor sends, when the position signalling of upper end position detecting sensor transmission being detected, first signal output P1 output low level, or high level, upper end position detects loop and turn-offs.

The present invention also provides a kind of control method that reduces air conditioner lifting panel power consumption, and this control method is based on the control circuit realization with two signal output part P1 and P2, and this control method comprises following steps:

Step 1, control module judge whether to receive power on signal, perhaps starting-up signal, and perhaps off signal, if receive power on signal, power supply opening, forward step 2 to,, if receive starting-up signal, forwards step 3 to,, if receive off signal, forwards step 4 to;

step 2, power supply opening, the first signal output P1 output high level of control module, or low level, secondary signal output P2 output low level, or high level, upper end position detects loop and lower end position detects the mutual conducting in loop, control module detects the position signalling that the upper end position detecting sensor sends, if the position signalling that the upper end position detecting sensor sends do not detected, sliding on the lifting panel, if the position signalling that the upper end position detecting sensor sends detected, first signal output P1 and the equal output low level of secondary signal output P2, or high level, upper end position detects loop and turn-off simultaneously in lower end position detection loop,

Step 3, start, the first signal output P1 output high level of control module, or low level, secondary signal output P2 output low level, or high level, upper end position detects loop and lower end position detects the mutual conducting in loop, the lifting panel glides, control module detects the position signalling that the lower end position detecting sensor sends, when the position signalling of lower end position detecting sensor transmission being detected, first signal output P1 and the equal output low level of secondary signal output P2, or high level, turn-off simultaneously in upper and lower end position probing loop;

step 4, shutdown, the first signal output P1 output high level of control module, or low level, secondary signal output P2 output low level, or high level, upper end position detects loop and lower end position detects the mutual conducting in loop, control module detects the position signalling that the upper end position sensor sends, if the position signalling that the upper end position sensor sends do not detected, sliding on the lifting panel, if the position signalling that the upper end position sensor sends detected, first signal output P1 and the equal output low level of secondary signal output P2, or high level, upper end position detects loop and turn-off simultaneously in lower end position detection loop,

Mutual conducting is: be all high level, or just conducting of low level, and low level, or high level turn-offs, but same time, P1, P2 outputs level signals are opposite.

The present invention has reduced the power consumption of air-conditioning lifting panel control loop, saves the energy.

Description of drawings

Fig. 1 is application circuit of the present invention.

Fig. 2 is another kind of application circuit of the present invention.

Fig. 3 and Fig. 4 are control signal figure of the present invention.

Fig. 5 is the control flow chart of Fig. 1 application circuit.

Fig. 6 and Fig. 7 are two kinds of different control flow charts of Fig. 2 application circuit.

The specific embodiment

Following according to Fig. 1～Fig. 7, illustrate preferred embodiment of the present invention.

As shown in Figure 1, the invention provides a kind of control circuit that reduces air conditioner lifting panel power consumption, it is R5F364AENFA that this control circuit comprises control module 101(model) and the upper end position that is connected with control module 101 detects loop 102 and lower end position detects loop 103.

Described upper end position detects the same signal output part P1 of loop 102 and lower end position detection loop 103 link control modules 101, receives the control signal of control module 101.

Described upper end position detects loop 102 and comprises transistor 104 and the upper end position detecting sensor 106 that circuit connects, the signal output part P1 of the base stage link control module 101 of described transistor 104, emitter stage connects 5V voltage, it is LG217ND-3 that colelctor electrode connects upper end position detecting sensor 106(model), this upper end position detecting sensor 106 is arranged on the position, the top of lifting panel, detects the upper end position of lifting panel; The signal output part P1 of transistor 104 link control modules 101,, by controlling the break-make of transistor 104, detect the break-make in loop 102 thereby control this upper end position.

Described lower end position detects loop 103 and comprises transistor 105 and the lower end position detecting sensor 107 that circuit connects, the signal output part P1 of the base stage link control module 101 of described transistor 105, emitter stage connects 5V voltage, it is LG217 ND-3 that colelctor electrode connects lower end position detecting sensor 107(model), this lower end position detecting sensor 107 is arranged on the lowest positions place of lifting panel, detects the lower end position of lifting panel; The signal output part P1 of transistor 105 link control modules 101,, by controlling the break-make of transistor 105, detect the break-make in loop 103 thereby control this lower end position.

As shown in Figure 2, the present invention also provides a kind of control circuit that reduces air conditioner lifting panel power consumption, and it is R5F364AENFA that this control circuit comprises control module 101(model) and the upper end position that is connected with control module 101 detects loop 102 and lower end position detects loop 103.

Described upper end position detects the first signal output P1 of loop 102 link control modules 101, and described lower end position detects the secondary signal output P2 of loop 103 link control modules 101, receives the control signal of control module 101.

Described upper end position detects loop 102 and comprises transistor 104 and the upper end position detecting sensor 106 that circuit connects, the first signal output P1 of the base stage link control module 101 of described transistor 104, emitter stage connects 5V voltage, it is LG217ND-3 that colelctor electrode connects upper end position detecting sensor 106(model), this upper end position detecting sensor 106 is arranged on the position, the top of lifting panel, detects the upper end position of lifting panel; The first signal output P1 of transistor 104 link control modules 101, by controlling the break-make of transistor 104, thus the break-make of control loop 102.

Described lower end position detects loop 103 and comprises transistor 105 and the lower end position detecting sensor 107 that circuit connects, the secondary signal output P2 of the base stage link control module 101 of described transistor 105, emitter stage connects 5V voltage, it is LG217ND-3 that colelctor electrode connects lower end position detecting sensor 107(model), this lower end position detecting sensor 107 is arranged on the lowest positions place of lifting panel, detects the lower end position of lifting panel; The secondary signal output P2 of transistor 105 link control modules 101, by controlling the break-make of transistor 105, thus the break-make of control loop 103.

As shown in Figure 5, the invention provides a kind of control method that reduces air conditioner lifting panel power consumption, this control method is based on control circuit realization shown in Figure 1, and this control method comprises following steps:

Step 1, control module 101 judge whether to receive power on signal, perhaps starting-up signal, and perhaps off signal, if receive power on signal, power supply opening, forward step 2 to,, if receive starting-up signal, forwards step 3 to,, if receive off signal, forwards step 4 to;

Step 2, power supply opening, the signal output part P1 output high level (or low level) of control module 101, upper end position detects loop 102 and lower end position detects loop 103 conductings simultaneously, sliding on the lifting panel, when control module 101 detects the position signalling of upper end position sensor 106 transmissions, signal output part P1 output low level (or high level), upper end position detect loop 102 and turn-off simultaneously in lower end position detection loop 103;

Step 3, start, the signal output part P1 output high level (or low level) of control module 101, upper end position detects loop 102 and lower end position detects loop 103 conductings simultaneously, the lifting panel glides, when control module 101 detects the position signalling of lower end position sensor 107 transmissions, signal output part P1 output low level (or high level), upper end position detect loop 102 and turn-off simultaneously in lower end position detection loop 103;

Step 4, shutdown, the signal output part P1 output high level (or low level) of control module 101, upper end position detects loop 102 and lower end position detects loop 103 conductings simultaneously, sliding on the lifting panel, when control module 101 detects the position signalling of upper end position sensor 106 transmissions, signal output part P1 output low level (or high level), upper end position detect loop 102 and turn-off simultaneously in lower end position detection loop 103.

The outputs level signals of the signal output part P1 of control module 101 as shown in Figure 3 and Figure 4.

As shown in Figure 6, the present invention also provides a kind of control method that reduces air conditioner lifting panel power consumption, and this control method is based on control circuit realization shown in Figure 2, and this control method comprises following steps:

Step 1, control module 101 judge whether to receive power on signal, perhaps starting-up signal, and perhaps off signal, if receive power on signal, power supply opening, forward step 2 to,, if receive starting-up signal, forwards step 3 to,, if receive off signal, forwards step 4 to;

Step 2, power supply opening, the first signal output P1 output high level (or low level) of control module 101, upper end position detects loop 102 conductings, control module 101 detects the position signalling that upper end position detecting sensor 106 sends, if the position signalling that upper end position detecting sensor 106 sends do not detected, sliding on the lifting panel, if the position signalling that upper end position detecting sensor 106 sends detected, first signal output P1 output low level (or high level), upper end position detect loop 102 and turn-off;

step 3, start, the first signal output P1 output high level (or low level) of control module 101, upper end position detects loop 102 conductings, control module 101 detects the position signalling that upper end position detecting sensor 106 sends, when the position signalling of upper end position detecting sensor 106 transmissions being detected, first signal output P1 output low level (or high level), upper end position detects loop 102 and turn-offs, the panel of lifting simultaneously starts to glide, after elapsed time T, secondary signal output P2 exports high level (or low level), lower end position detects loop 103 conductings, control module 101 detects the position signalling that lower end position detecting sensor 107 sends, when the position signalling of lower end position detecting sensor 107 transmissions being detected, secondary signal output P2 output low level (or high level), lower end position detects loop 103 and turn-offs.

step 4, shutdown, the secondary signal output P2 output high level (or low level) of control module 101, lower end position detects loop 103 conductings, control module 101 detects the position signalling that lower end position detecting sensor 107 sends, when the position signalling of lower end position detecting sensor 107 transmissions being detected, secondary signal output P2 output low level (or high level), lower end position detects loop 103 and turn-offs, sliding on the panel of lifting simultaneously, after elapsed time T, first signal output P1 exports high level (or low level), upper end position detects loop 102 conductings, control module 101 detects the position signalling that upper end position detecting sensor 106 sends, when the position signalling of upper end position detecting sensor 106 transmissions being detected, first signal output P1 output low level (or high level), upper end position detects loop 102 and turn-offs.

The outputs level signals of the first signal output P1 of control module 101 and secondary signal output P2 as shown in Figure 3 and Figure 4.

As shown in Figure 7, the present invention also provides a kind of control method that reduces air conditioner lifting panel power consumption, and this control method is based on control circuit realization shown in Figure 2, and this control method comprises following steps:

Step 1, control module 101 judge whether to receive power on signal, perhaps starting-up signal, and perhaps off signal, if receive power on signal, power supply opening, forward step 2 to,, if receive starting-up signal, forwards step 3 to,, if receive off signal, forwards step 4 to;

step 2, power supply opening, the first signal output P1 output high level (or low level) of control module 101, secondary signal output P2 output low level (or high level), upper end position detects loop 102 and lower end position detects the mutual conducting in loop 103, control module 101 detects the position signalling that upper end position detecting sensor 106 sends, if the position signalling that upper end position detecting sensor 106 sends do not detected, sliding on the lifting panel, if the position signalling that upper end position detecting sensor 106 sends detected, first signal output P1 and the equal output low level of secondary signal output P2 (or high level), upper end position detects loop 102 and turn-off simultaneously in lower end position detection loop 103,

step 3, start, the first signal output P1 output high level (or low level) of control module 101, secondary signal output P2 output low level (or high level), upper end position detects loop 102 and lower end position detects the mutual conducting in loop 103, the lifting panel glides, control module 101 detects the lower end position detecting sensor and sends 107 position signalling, when the position signalling of lower end position detecting sensor 107 transmissions being detected, first signal output P1 and the equal output low level of secondary signal output P2 (or high level), on, lower end position detects loop and turn-offs simultaneously,

step 4, shutdown, the first signal output P1 output high level (or low level) of control module 101, secondary signal output P2 output low level (or high level), upper end position detects loop 102 and lower end position detects the mutual conducting in loop 103, control module 101 detects the position signalling that upper end position sensor 106 sends, if the position signalling that upper end position sensor 106 sends do not detected, sliding on the lifting panel, if the position signalling that upper end position sensor 106 sends detected, first signal output P1 and the equal output low level of secondary signal output P2 (or high level), upper end position detects loop 102 and turn-off simultaneously in lower end position detection loop 103.

Mutual conducting is: be all just conducting of high level (or low level), low level (or high level) is turn-offed, but the same time, and P1, P2 outputs level signals are opposite.

The first signal output P1 of control module 101, or the outputs level signals of secondary signal output P2 is as shown in Figure 3 and Figure 4.

, although content of the present invention has been done detailed introduction by above preferred embodiment, will be appreciated that above-mentioned description should not be considered to limitation of the present invention.After those skilled in the art have read foregoing, for multiple modification of the present invention with to substitute will be all apparent.Therefore, protection scope of the present invention should be limited to the appended claims.

Claims (9)

1. control circuit that reduces air conditioner lifting panel power consumption, it is characterized in that upper end position detection loop (102) and lower end position detection loop (103) that this control circuit comprises control module (101) and with control module (101), is connected;

Described upper end position detects the same signal output part P1 of loop (102) and lower end position detection loop (103) link control module (101), receives the control signal of control module (101).

2. the control circuit of reduction air conditioner lifting panel power consumption as claimed in claim 1, it is characterized in that, described upper end position detects loop (102) and comprises transistor (104) and the upper end position detecting sensor (106) that circuit connects, the signal output part P1 of the base stage link control module (101) of described transistor (104), emitter stage connects 5V voltage, colelctor electrode connects upper end position detecting sensor (106), this upper end position detecting sensor (106) is arranged on the position, the top of lifting panel, detects the upper end position of lifting panel; The signal output part P1 of transistor (104) link control module (101),, by controlling the break-make of transistor (104), detect the break-make in loop (102) thereby control this upper end position.

3. the control circuit of reduction air conditioner lifting panel power consumption as claimed in claim 2, it is characterized in that, described lower end position detects loop (103) and comprises transistor (105) and the lower end position detecting sensor (107) that circuit connects, the signal output part P1 of the base stage link control module (101) of described transistor (105), emitter stage connects 5V voltage, colelctor electrode connects lower end position detecting sensor (107), this lower end position detecting sensor (107) is arranged on the lowest positions place of lifting panel, detects the lower end position of lifting panel; The signal output part P1 of transistor (105) link control module (101),, by controlling the break-make of transistor (105), detect the break-make in loop (103) thereby control this lower end position.

4. control circuit that reduces air conditioner lifting panel power consumption, it is characterized in that upper end position detection loop (102) and lower end position detection loop (103) that this control circuit comprises control module (101) and with control module (101), is connected;

Described upper end position detects the first signal output P1 of loop (102) link control module (101), described lower end position detects the secondary signal output P2 of loop (103) link control module (101), receives the control signal of control module (101).

5. the control circuit of reduction air conditioner lifting panel power consumption as claimed in claim 4, it is characterized in that, described upper end position detects loop (102) and comprises transistor (104) and the upper end position detecting sensor (106) that circuit connects, the first signal output P1 of the base stage link control module (101) of described transistor (104), emitter stage connects 5V voltage, colelctor electrode connects upper end position detecting sensor (106), this upper end position detecting sensor (106) is arranged on the position, the top of lifting panel, detects the upper end position of lifting panel; The first signal output P1 of transistor (104) link control module (101), by controlling the break-make of transistor (104), thus the break-make of control loop (102).

6. the control circuit of reduction air conditioner lifting panel power consumption as claimed in claim 5, it is characterized in that, described lower end position detects loop (103) and comprises transistor (105) and the lower end position detecting sensor (107) that circuit connects, the secondary signal output P2 of the base stage link control module (101) of described transistor (105), emitter stage connects 5V voltage, colelctor electrode connects lower end position detecting sensor (107), this lower end position detecting sensor (107) is arranged on the lowest positions place of lifting panel, detects the lower end position of lifting panel; The secondary signal output P2 of transistor (105) link control module (101), by controlling the break-make of transistor (105), thus the break-make of control loop (103).

7. control method that reduces air conditioner lifting panel power consumption, this control method realizes based on control circuit claimed in claim 1, it is characterized in that, this control method comprises following steps:

Step 1, control module (101) judge whether to receive power on signal, perhaps starting-up signal, and perhaps off signal, if receive power on signal, power supply opening, forward step 2 to,, if receive starting-up signal, forwards step 3 to,, if receive off signal, forwards step 4 to;

Step 2, power supply opening, the signal output part P1 output high level of control module (101), or low level, upper end position detects loop (102) and lower end position detects loop (103) conducting simultaneously, sliding on the lifting panel, when control module (101) detects the position signalling of upper end position sensor (106) transmission, signal output part P1 output low level, or high level, upper end position detects loop (102) and turn-off simultaneously in lower end position detection loop (103);

Step 3, start, the signal output part P1 output high level of control module (101), or low level, upper end position detects loop (102) and lower end position detects loop (103) conducting simultaneously, the lifting panel glides, when control module (101) detects the position signalling of lower end position sensor (107) transmission, and signal output part P1 output low level, or high level, upper end position detects loop (102) and turn-off simultaneously in lower end position detection loop (103);

Step 4, shutdown, the signal output part P1 output high level of control module (101), or low level, upper end position detects loop (102) and lower end position detects loop (103) conducting simultaneously, sliding on the lifting panel, when control module (101) detects the position signalling of upper end position sensor (106) transmission, signal output part P1 output low level, or high level, upper end position detects loop (102) and turn-off simultaneously in lower end position detection loop (103).

8. control method that reduces air conditioner lifting panel power consumption, this control method realize based on control circuit claimed in claim 4, and this control method comprises following steps:

Step 1, control module (101) judge whether to receive power on signal, perhaps starting-up signal, and perhaps off signal, if receive power on signal, power supply opening, forward step 2 to,, if receive starting-up signal, forwards step 3 to,, if receive off signal, forwards step 4 to;

Step 2, power supply opening, the first signal output P1 output high level of control module (101), or low level, upper end position detects loop (102) conducting, control module (101) detects the position signalling that upper end position detecting sensor (106) sends, if the position signalling that upper end position detecting sensor (106) sends do not detected, sliding on the lifting panel, if the position signalling that upper end position detecting sensor (106) sends detected, first signal output P1 output low level, or high level, upper end position detects loop (102) and turn-offs;

step 3, start, the first signal output P1 output high level of control module (101), or low level, upper end position detects loop (102) conducting, control module (101) detects the position signalling that upper end position detecting sensor (106) sends, when the position signalling of upper end position detecting sensor (106) transmission being detected, first signal output P1 output low level, or high level, upper end position detects loop (102) and turn-offs, the panel of lifting simultaneously starts to glide, after elapsed time T, secondary signal output P2 exports high level, or low level, lower end position detects loop (103) conducting, control module (101) detects the position signalling that lower end position detecting sensor (107) sends, when the position signalling of lower end position detecting sensor (107) transmission being detected, secondary signal output P2 output low level, or high level, lower end position detects loop (103) and turn-offs,

step 4, shutdown, the secondary signal output P2 output high level of control module (101), or low level, lower end position detects loop (103) conducting, control module (101) detects the position signalling that lower end position detecting sensor (107) sends, when the position signalling of lower end position detecting sensor (107) transmission being detected, secondary signal output P2 output low level, or high level, lower end position detects loop (103) and turn-offs, sliding on the panel of lifting simultaneously, after elapsed time T, first signal output P1 exports high level, or low level, upper end position detects loop (102) conducting, control module (101) detects the position signalling that upper end position detecting sensor (106) sends, when the position signalling of upper end position detecting sensor (106) transmission being detected, first signal output P1 output low level, or high level, upper end position detects loop (102) and turn-offs.

9. control method that reduces air conditioner lifting panel power consumption, this control method realize based on control circuit claimed in claim 4, and this control method comprises following steps:

Step 1, control module (101) judge whether to receive power on signal, perhaps starting-up signal, and perhaps off signal, if receive power on signal, power supply opening, forward step 2 to,, if receive starting-up signal, forwards step 3 to,, if receive off signal, forwards step 4 to;

step 2, power supply opening, the first signal output P1 output high level of control module (101), or low level, secondary signal output P2 output low level, or high level, upper end position detects loop (102) and lower end position detects the mutual conducting in loop (103), control module (101) detects the position signalling that upper end position detecting sensor (106) sends, if the position signalling that upper end position detecting sensor (106) sends do not detected, sliding on the lifting panel, if the position signalling that upper end position detecting sensor (106) sends detected, first signal output P1 and the equal output low level of secondary signal output P2, or high level, upper end position detects loop (102) and turn-off simultaneously in lower end position detection loop (103),

step 3, start, the first signal output P1 output high level of control module (101), or low level, secondary signal output P2 output low level, or high level, upper end position detects loop (102) and lower end position detects the mutual conducting in loop (103), the lifting panel glides, control module (101) detects the lower end position detecting sensor and sends the position signalling of (107), when the position signalling of lower end position detecting sensor (107) transmission being detected, first signal output P1 and the equal output low level of secondary signal output P2, or high level, on, lower end position detects loop and turn-offs simultaneously,

step 4, shutdown, the first signal output P1 output high level of control module (101), or low level, secondary signal output P2 output low level, or high level, upper end position detects loop (102) and lower end position detects the mutual conducting in loop (103), control module (101) detects the position signalling that upper end position sensor (106) sends, if the position signalling that upper end position sensor (106) sends do not detected, sliding on the lifting panel, if the position signalling that upper end position sensor (106) sends detected, first signal output P1 and the equal output low level of secondary signal output P2, or high level, upper end position detects loop (102) and turn-off simultaneously in lower end position detection loop (103),

Mutual conducting is: be all high level, or just conducting of low level, and low level, or high level turn-offs, but same time, P1, P2 outputs level signals are opposite.

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