CN103115418B - Split-type air conditioner energy-saving appliance and network energy-saving control system - Google Patents

Abstract

The invention provides a kind of split-type air conditioner energy-saving appliance and network energy-saving control system, this split-type air conditioner energy-saving appliance comprises application module device, and described application module device comprises return air temperature probe, leaving air temp probe, temperature inductor, central processing unit, memory and the air-conditioning interface for being connected with indoor apparatus of air conditioner.The invention has the beneficial effects as follows that split-type air conditioner energy-saving appliance of the present invention controls stable, energy-saving efficiency is high, and does not affect the original function of air-conditioning, simple to operation.

Description

Split-type air conditioner energy-saving appliance and network energy-saving control system

Technical field

The present invention relates to air conditioner energy saving field, particularly relate to split-type air conditioner energy-saving appliance and network energy-saving control system.

Background technology

In some occasions as collectives such as hotel, school, factories or do not need user to pay electricity charge occasion; often can see that the set temperature of air-conditioning is unreasonable; as summer set temperature being adjusted to very low, winter, air-conditioning set temperature is adjusted very high; thus create much unnecessary waste of energy, be unfavorable for environmental protection and energy-saving and emission-reduction.

Summary of the invention

In order to solve the problems of the prior art, the invention provides a kind of split-type air conditioner energy-saving appliance.

The invention provides a kind of split-type air conditioner energy-saving appliance, comprise application module device, described application module device comprises return air temperature probe, leaving air temp is popped one's head in, temperature inductor, central processing unit, memory, and the air-conditioning interface for being connected with indoor apparatus of air conditioner, described return air temperature probe is connected with described temperature inductor respectively with described leaving air temp probe, and air conditioning exhausting temperature and return air temperature are transferred to described temperature inductor, according to the air conditioning exhausting temperature received and return air temperature, described temperature inductor judges that the operational mode of air-conditioning is refrigerating state, heat state, off-mode, described central processing unit is connected with described temperature inductor, described memory, described air-conditioning interface respectively, store refrigeration lower bound temperature, refrigeration normal temperature in described memory, heat high limit temperature, heat normal temperature, described central processing unit can be changed the refrigeration lower bound temperature value in described memory, normal temperature of freezing value, heats high limit temperature value, heat normal temperature value, when the operational mode of air-conditioning is for heating state, described central processing unit judges air-conditioning return air temperature heats high limit temperature described in whether being greater than, if, so central processing unit run to heat normal temperature by described air-conditioning Interface Controller indoor apparatus of air conditioner, when the operational mode of air-conditioning is refrigerating state, described central processing unit judges whether air-conditioning return air temperature is less than described refrigeration lower bound temperature, if, so central processing unit run with normal temperature of freezing by described air-conditioning Interface Controller indoor apparatus of air conditioner.

As a further improvement on the present invention, described application module device also comprises wireless receiving module, and described wireless receiving module is connected with described central processing unit.

As a further improvement on the present invention, described application module device also comprises network interface, and described network interface is connected with described central processing unit.

As a further improvement on the present invention, described application module device is provided with 4P winding displacement, and described 4P winding displacement connects the power supply of indoor apparatus of air conditioner, ground wire, control line and swing motor respectively.

As a further improvement on the present invention, store and correct interval time in described memory, described central processing unit gathers described correction interval time; Correction interval time in, described central processing unit does not control the temperature of air-conditioning; Exceed and correct interval time, described central processing unit controls the temperature of air-conditioning.

As a further improvement on the present invention, this split-type air conditioner energy-saving appliance also comprises main control module, described main control module comprises CPU, memory cell, wireless transmitter module, described CPU is connected with described wireless transmitter module with described memory cell respectively, described memory cell contains control command, described control command is sent to application module device by described wireless transmitter module by described CPU, thus controls described application module device.

As a further improvement on the present invention, described main control module also comprises study module, described CPU is connected with described study module, and the remote control commands of the air-conditioning learnt for learning the remote control commands of air-conditioning, and is stored in described memory cell by described study module.

As a further improvement on the present invention, described main control module also comprises NIU, and described NIU is connected with described CPU.

As a further improvement on the present invention, described main control module also comprises power transfer module and power regulator module, alternating current 220V is converted to direct current 12V and powers to described main control module by described power transfer module, and described power regulator module is connected with described power transfer module.

As the network energy-saving control system that present invention also offers a kind of described split-type air conditioner energy-saving appliance, comprise monitoring host computer, described main control module also comprises computer monitor interface, described CPU is connected with described computer monitor interface, and described CPU is connected with described monitoring host computer by described computer monitor interface; Described application module device is at least two, and the described application module device of networking is connected with the NIU of described main control module by described network interface.

The invention has the beneficial effects as follows: split-type air conditioner energy-saving appliance of the present invention controls stable, and energy-saving efficiency is high, and does not affect the original function of air-conditioning, simple to operation.

Accompanying drawing explanation

Fig. 1 is application module principle of device block diagram of the present invention.

Fig. 2 is main control module theory diagram of the present invention.

Fig. 3 is network energy-saving control system theory diagram of the present invention.

Detailed description of the invention

As shown in Figure 1, the invention discloses a kind of split-type air conditioner energy-saving appliance, comprise application module device 1, described application module device 1 comprises return air temperature probe 101, leaving air temp probe 102, temperature inductor 103, central processing unit 104, memory 105, and the air-conditioning interface 106 for being connected with indoor apparatus of air conditioner 2, described return air temperature probe 101 is connected with described temperature inductor 103 respectively with described leaving air temp probe 102, and air conditioning exhausting temperature and return air temperature are transferred to described temperature inductor 103, according to the air conditioning exhausting temperature received and return air temperature, described temperature inductor 103 judges that the operational mode of air-conditioning is refrigerating state, heat state, off-mode, described central processing unit 104 is connected with described temperature inductor 103, described memory 105, described air-conditioning interface 106 respectively, store refrigeration lower bound temperature, refrigeration normal temperature in described memory 105, heat high limit temperature, heat normal temperature, described central processing unit 104 can be changed the refrigeration lower bound temperature value in described memory 105, normal temperature of freezing value, heats high limit temperature value, heat normal temperature value, when the operational mode of air-conditioning is for heating state, described central processing unit 104 judges air-conditioning return air temperature heats high limit temperature described in whether being greater than, if, so central processing unit 104 control indoor apparatus of air conditioner 2 by described air-conditioning interface 106 and run to heat normal temperature, when the operational mode of air-conditioning is refrigerating state, described central processing unit 104 judges whether air-conditioning return air temperature is less than described refrigeration lower bound temperature, if, so central processing unit 104 control indoor apparatus of air conditioner 2 by described air-conditioning interface 106 and run with normal temperature of freezing.

Judge that air-conditioning is as heating state when leaving air temp is greater than return air temperature; Judge that air-conditioning is refrigerating state when leaving air temp is less than return air temperature; Then judge that air-conditioning is off-mode when leaving air temp equals return air temperature.

Leaving air temp probe 102 of the present invention receives the air outlet place of indoor apparatus of air conditioner 2, return air temperature probe 101 receives the return air inlet place of indoor apparatus of air conditioner 2, application module device 1 volume of the present invention is little, only has 70mm*45mm*18mm, can be placed on completely on the space of indoor apparatus of air conditioner 2, outside need not be contained in, not affect the appearance.Application module device 1 of the present invention is that control stable, energy-saving efficiency is high, and does not affect the original function of air-conditioning by communicating with tune indoor set 2 inside.

Described application module device 1 also comprises wireless receiving module 107, and described wireless receiving module 107 is connected with described central processing unit 104.Wireless receiving module 107 can receive the power save parameters or querying command that send from main control module 3.

Described application module device 1 also comprises network interface 108, and described network interface 108 is connected with described central processing unit 104.Learnt infrared command is transferred to application module device 1 by network interface 108 by main control module 3, and main control module 3 also inquires about the state of doing of application module device 1 and the duty of air-conditioning by network interface 108.

Described application module device 1 is provided with 4P winding displacement, and described 4P winding displacement connects the power supply 201 of indoor apparatus of air conditioner 2, ground wire, control line and swing motor respectively.

Store in described memory 5 and correct interval time, described central processing unit 104 gathers described correction interval time; Correction interval time in, described central processing unit 104 does not control the temperature of air-conditioning; Exceed and correct interval time, described central processing unit 104 controls the temperature of air-conditioning.

Application module device 1 detects that return air temperature is greater than when heating high limit or be less than refrigeration lower bound, and application module device 1 carries out heating and to correct or refrigeration corrects, and arranges certain interval time; In interval, temperature is again greater than and heats high limit or be less than refrigeration lower bound here, application module device 1 also can not be taked to correct, after only having time delay to exceed this interval time, indoor temperature is again greater than and heats high limit or be less than refrigeration lower bound, and application module device 1 just can correct again.

As shown in Figure 2, this split-type air conditioner energy-saving appliance also comprises main control module 3, described main control module 3 comprises CPU 301, memory cell 302, wireless transmitter module 303, described CPU 301 is connected with described wireless transmitter module 303 with described memory cell 302 respectively, control command is stored in described memory cell 302, described control command is sent to application module device 1 by described wireless transmitter module 303 by described CPU 301, thus controls described application module device 1.

As need power save parameters be adjusted, then by main control module 3 wired or wireless come the parameter of application modules device 1 change, simple to operation.

CPU 301 can the parameter modification of controlled in wireless application module device 1 or inquiry related command by wireless transmitter module 303.

Described main control module 3 also comprises study module 304, described CPU 301 is connected with described study module 304, the remote control commands of the air-conditioning learnt for learning the remote control commands of air-conditioning, and is stored in described memory cell 302 by described study module 304.

Described main control module 3 also comprises NIU 305, and described NIU 305 is connected with described CPU 301.Learnt infrared command is transferred to application module device 1 by NIU 305 by main control module 3, and main control module 3 also inquires about the duty of application module device 1 and the duty of air-conditioning by NIU 305.

Described main control module 3 also comprises power transfer module 306 and power regulator module 307, alternating current 220V is converted to direct current 12V and powers to described main control module 3 by described power transfer module 306, and described power regulator module 307 is connected with described power transfer module 306; This main control module 3 also comprises button 308, and this button 308 is connected with CPU 301.

The memory 105 li of application module device 1 deposit dispatch from the factory preset refrigeration lower bound temperature, refrigeration normal temperature, heat high limit temperature, heat normal temperature and correct interval time etc., use can recalled whenever necessary at any time; In addition, above-mentioned parameter main control module 3 is all also kept at memory 105 li again by wireless setting function setting.

There is between main control module 3 and application module device 1 wireless setting parameter function, application module device 1 receives the wireless command of launching from main control module 3 by the receiver of air-conditioning self, as refrigeration lower bound temperature, refrigeration normal temperature, heats high limit temperature, heats normal temperature and correct interval time etc.

Described application module device 1 volume is little, is compressed to minimum by described application module device 1 volume, and even described application module device 1 directly can be installed on the small space inside split-type air conditioner, is conducive to installing, and does not affect outward appearance, is not easy to be destroyed.

As shown in Figure 3, the invention also discloses a kind of network energy-saving control system with described split-type air conditioner energy-saving appliance, comprise monitoring host computer 5, described main control module 3 also comprises computer monitor interface 309, described CPU 301 is connected with described computer monitor interface 309, and described CPU 301 is connected with described monitoring host computer 5 by described computer monitor interface 309; Described application module device 1 is at least two, and the described application module device 1 of networking is connected with the NIU 305 of described main control module 3 by described network interface 108.

Button 308 coordinates study module 304 to learn air conditioning demand, when being necessary by learned command transfer to application module device 1, collect application module device 1 and air-conditioning data thereof by NIU 305 simultaneously, then pass to monitoring host computer 5 by computer monitor interface 309 and carry out Centralized Monitoring.

Above content is in conjunction with concrete preferred embodiment further description made for the present invention, can not assert that specific embodiment of the invention is confined to these explanations.For general technical staff of the technical field of the invention, without departing from the inventive concept of the premise, some simple deduction or replace can also be made, all should be considered as belonging to protection scope of the present invention.

Claims (10)

1. a split-type air conditioner energy-saving appliance, it is characterized in that: comprise application module device, described application module device comprises return air temperature probe, leaving air temp is popped one's head in, temperature inductor, central processing unit, memory, and the air-conditioning interface for being connected with indoor apparatus of air conditioner, described return air temperature probe is connected with described temperature inductor respectively with described leaving air temp probe, and air conditioning exhausting temperature and return air temperature are transferred to described temperature inductor, according to the air conditioning exhausting temperature received and return air temperature, described temperature inductor judges that the operational mode of air-conditioning is refrigerating state, heat state, off-mode, described central processing unit is connected with described temperature inductor, described memory, described air-conditioning interface respectively, store refrigeration lower bound temperature, refrigeration normal temperature in described memory, heat high limit temperature, heat normal temperature, described central processing unit can be changed the refrigeration lower bound temperature value in described memory, normal temperature of freezing value, heats high limit temperature value, heat normal temperature value, when the operational mode of air-conditioning is for heating state, described central processing unit judges air-conditioning return air temperature heats high limit temperature described in whether being greater than, and if so, so central processing unit is run to heat normal temperature by described air-conditioning Interface Controller indoor apparatus of air conditioner, when the operational mode of air-conditioning is refrigerating state, described central processing unit judges whether air-conditioning return air temperature is less than described refrigeration lower bound temperature, and if so, so central processing unit is run with normal temperature of freezing by described air-conditioning Interface Controller indoor apparatus of air conditioner.

2. split-type air conditioner energy-saving appliance according to claim 1, is characterized in that: described application module device also comprises wireless receiving module, and described wireless receiving module is connected with described central processing unit.

3. split-type air conditioner energy-saving appliance according to claim 2, is characterized in that: described application module device also comprises network interface, and described network interface is connected with described central processing unit.

4. split-type air conditioner energy-saving appliance according to claim 3, is characterized in that: described application module device is provided with 4P winding displacement, and described 4P winding displacement connects the power supply of indoor apparatus of air conditioner, ground wire, control line and swing motor respectively.

5. split-type air conditioner energy-saving appliance according to claim 4, is characterized in that: store in described memory and correct interval time, and described central processing unit gathers described correction interval time; Correction interval time in, described central processing unit does not control the temperature of air-conditioning; Exceed and correct interval time, described central processing unit controls the temperature of air-conditioning.

6. the split-type air conditioner energy-saving appliance according to any one of claim 1 to 5, it is characterized in that: this split-type air conditioner energy-saving appliance also comprises main control module, described main control module comprises CPU, memory cell, wireless transmitter module, described CPU is connected with described wireless transmitter module with described memory cell respectively, described memory cell contains control command, described control command is sent to application module device by described wireless transmitter module by described CPU, thus controls described application module device.

7. split-type air conditioner energy-saving appliance according to claim 6, it is characterized in that: described main control module also comprises study module, described CPU is connected with described study module, the remote control commands of the air-conditioning learnt for learning the remote control commands of air-conditioning, and is stored in described memory cell by described study module.

8. split-type air conditioner energy-saving appliance according to claim 7, it is characterized in that: described main control module also comprises NIU, described NIU is connected with described CPU.

9. split-type air conditioner energy-saving appliance according to claim 8, it is characterized in that: described main control module also comprises power transfer module and power regulator module, alternating current 220V is converted to direct current 12V and powers to described main control module by described power transfer module, and described power regulator module is connected with described power transfer module.

10. one kind has the network energy-saving control system of split-type air conditioner energy-saving appliance described in claim 8 or 9, it is characterized in that: comprise monitoring host computer, described main control module also comprises computer monitor interface, described CPU is connected with described computer monitor interface, and described CPU is connected with described monitoring host computer by described computer monitor interface; Described application module device is at least two, and the described application module device of networking is connected with the NIU of described main control module by described network interface.