CN203215921U - Split air conditioner energy saver and network energy-saving control system - Google Patents

Abstract

The utility model provides a split air conditioner energy saver and a network energy-saving control system. The split air conditioner energy saver comprises an application module device. The application module device comprises a return air temperature probe, an air outlet temperature probe, a temperature sensor, a central processing unit, a memory and an air conditioner interface for being connected with an air conditioner indoor unit. The split air conditioner energy saver has the advantages of being stable to control and high in energy-saving efficiency, not influencing original functions and being simple and convenient to operate.

Description

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

Technical field

The utility model relates to the air conditioner energy saving field, relates in particular to split-type air conditioner energy-saving appliance and network energy-saving control system.

Background technology

In some occasions such as hotel, collective such as school, factory or do not need the user to pay electricity charge occasion; through regular meeting see air-conditioning that temperature is set is unreasonable; temperature transfers to and very low, winter air-conditioning arranged temperature transfer very highly as will be set summer; thereby produced a lot of unnecessary waste of energy, be unfavorable for environmental protection and energy-saving and emission-reduction.

The utility model content

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

The utility model provides a kind of split-type air conditioner energy-saving appliance, comprise the application module device, described application module device comprises the return air temperature probe, the leaving air temp probe, temperature inductor, central processing unit, memory, and for the air-conditioning interface that is connected with indoor apparatus of air conditioner, described return air temperature probe links to each other with described temperature inductor respectively with described leaving air temp probe, and air-conditioning leaving air temp and return air temperature transferred to described temperature inductor, the operational mode that described temperature inductor is judged air-conditioning according to the air-conditioning leaving air temp that receives and return air temperature is refrigerating state, heat state, off-mode; Described central processing unit links to each other with described temperature inductor, described memory, described air-conditioning interface respectively, described store memory contains refrigeration lower bound temperature, refrigeration normal temperature, heats high limit temperature, heats normal temperature, and described central processing unit can be changed the interior refrigeration lower bound temperature value of described memory, refrigeration normal temperature value, heats high limit temperature value, heat the normal temperature value; The operational mode of air-conditioning is when heating state, and described central processing unit judges that whether the air-conditioning return air temperature heats high limit temperature greater than described, if, central processing unit moves to heat normal temperature by described air-conditioning interface control indoor apparatus of air conditioner so; When the operational mode of air-conditioning was refrigerating state, whether described central processing unit judged the air-conditioning return air temperature less than described refrigeration lower bound temperature, if, central processing unit moves with the refrigeration normal temperature by described air-conditioning interface control indoor apparatus of air conditioner so.

As further improvement of the utility model, described application module device also comprises wireless receiving module, and described wireless receiving module links to each other with described central processing unit.

As further improvement of the utility model, described application module device also comprises network interface, and described network interface links to each other with described central processing unit.

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

As further improvement of the utility model, described store memory contains proofreaies and correct blanking time, and described central processing unit is gathered described correction blanking time; Proofreading and correct in blanking time, described central processing unit is not controlled the temperature of air-conditioning; Exceed and proofread and correct blanking time, the temperature of described central processing unit control air-conditioning.

As further improvement of the utility model, 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 links to each other with described wireless transmitter module with described memory cell respectively, described memory cell contains control command, described CPU is sent to the application module device by described wireless transmitter module with described control command, thereby controls described application module device.

As further improvement of the utility model, described main control module also comprises study module, described CPU links to each other with described study module, and described study module is used for the remote control commands of study air-conditioning, and the remote control commands of the air-conditioning that will learn is stored in the described memory cell.

As further improvement of the utility model, described main control module also comprises NIU, and described NIU links to each other with described CPU.

As further improvement of the utility model, described main control module also comprises power transfer module and power regulator module, described power transfer module is converted to direct current 12V with alternating current 220V and powers for described main control module, and described power regulator module links to each other with described power transfer module.

A kind of network energy-saving control system of described split-type air conditioner energy-saving appliance also is provided as the utility model, comprise monitoring host computer, described main control module also comprises the computer monitor interface, described CPU links to each other with described computer monitor interface, and described CPU links to each other 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 links to each other with the NIU of described main control module by described network interface.

The beneficial effects of the utility model are: split-type air conditioner energy-saving appliance control of the present utility model is stable, the energy-saving efficiency height, and do not influence the original function of air-conditioning, simple to operation.

Description of drawings

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

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

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

The specific embodiment

As shown in Figure 1, the utility model 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 for the air-conditioning interface 106 that is connected with indoor apparatus of air conditioner 2, described return air temperature probe 101 links to each other with described temperature inductor 103 respectively with described leaving air temp probe 102, and air-conditioning leaving air temp and return air temperature transferred to described temperature inductor 103, the operational mode that described temperature inductor 103 is judged air-conditioning according to the air-conditioning leaving air temp that receives and return air temperature is refrigerating state, heat state, off-mode; Described central processing unit 104 links to each other with described temperature inductor 103, described memory 105, described air-conditioning interface 106 respectively, store the lower bound temperature of freezing, refrigeration normal temperature in the 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 the described memory 105, the normal temperature of freezing value, heats high limit temperature value, heat the normal temperature value; The operational mode of air-conditioning is when heating state, described central processing unit 104 judges that whether the air-conditioning return air temperature heats high limit temperature greater than described, if, central processing unit 104 moves to heat normal temperature by described air-conditioning interface 106 control indoor apparatus of air conditioner 2 so; When the operational mode of air-conditioning is refrigerating state, whether described central processing unit 104 judges the air-conditioning return air temperature less than described refrigeration lower bound temperature, if, central processing unit 104 moves with the refrigeration normal temperature by described air-conditioning interface 106 control indoor apparatus of air conditioner 2 so.

When leaving air temp judges that greater than return air temperature air-conditioning is the state of heating; When leaving air temp judges that less than return air temperature air-conditioning is refrigerating state; When equaling return air temperature, leaving air temp judges that then air-conditioning is off-mode.

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

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

Described application module device 1 also comprises network interface 108, and described network interface 108 links to each other with described central processing unit 104.Main control module 3 can be transferred to application module device 1 with the infrared command of learning by network interface 108, and main control module 3 also can be by the state of doing of network interface 108 inquiry application module devices 1 and the duty of air-conditioning.

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

Store in the described memory 5 and proofread and correct blanking time, described central processing unit 104 is gathered described correction blanking time; Proofreading and correct in blanking time, described central processing unit 104 is not controlled the temperature of air-conditioning; Exceed and proofread and correct blanking time, the temperature of described central processing unit 104 control air-conditionings.

Application module device 1 detects return air temperature greater than heating high limit or during less than the refrigeration lower bound, and application module device 1 heats to be proofreaied and correct or refrigeration is proofreaied and correct, and be set certain blanking time; During this time in the interval temperature again greater than heating high limit or less than the refrigeration lower bound, application module device 1 can not taked to proofread and correct yet, greater than heat limit or less than refrigeration lower bound, application module device 1 just can again proofread and correct again by height for indoor temperature after having only time-delay to surpass this blanking time.

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 links to each other with described wireless transmitter module 303 with described memory cell 302 respectively, store control command in the described memory cell 302, described CPU 301 is sent to application module device 1 by described wireless transmitter module 303 with described control command, thereby controls described application module device 1.

Adjust power save parameters as need, then can come the parameter of application modules device 1 to change by main control module 3 is wired or wireless, simple to operation.

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

Described main control module 3 also comprises study module 304, described CPU 301 links to each other with described study module 304, described study module 304 is used for the remote control commands of study air-conditioning, and the remote control commands of the air-conditioning that will learn is stored in the described memory cell 302.

Described main control module 3 also comprises NIU 305, and described NIU 305 links to each other with described CPU 301.Main control module 3 is transferred to application module device 1 by NIU 305 with the infrared command of learning, and main control module 3 also can be by the duty of NIU 305 inquiry application module devices 1 and the duty of air-conditioning.

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

The memory of application module device 1 depositing the predefined refrigeration lower bound temperature of dispatching from the factory, refrigeration normal temperature for 105 li, heat high limit temperature, heat normal temperature and proofread and correct blanking time etc., can access at any time to use whenever necessary; In addition, above-mentioned parameter main control module 3 all can and be kept at 105 li of memories again by the wireless setting function setting.

Has the wireless setting parameter function between main control module 3 and the application module device 1, application module device 1 can the receiver by air-conditioning self receives the wireless command from main control module 3 emissions, as refrigeration lower bound temperature, refrigeration normal temperature, heat high limit temperature, heat normal temperature and proofread and correct blanking time etc.

Described application module device 1 volume is little, and described application module device 1 volume compression is extremely minimum, and even described application module device 1 directly can be installed on the small space of split-type air conditioner the inside, is conducive to install, and does not influence outward appearance, is not easy 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 links to each other with described computer monitor interface 309, and described CPU 301 links to each other 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 links to each other with the NIU 305 of described main control module 3 by described network interface 108.

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

Above content be in conjunction with concrete preferred embodiment to further describing that the utility model is done, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, under the prerequisite that does not break away from the utility model design, can also make some simple deduction or replace, all should be considered as belonging to protection domain of the present utility model.

Claims (10)

1. split-type air conditioner energy-saving appliance, it is characterized in that: comprise the application module device, described application module device comprises the return air temperature probe, the leaving air temp probe, temperature inductor, central processing unit, memory, and for the air-conditioning interface that is connected with indoor apparatus of air conditioner, described return air temperature probe links to each other with described temperature inductor respectively with described leaving air temp probe, and air-conditioning leaving air temp and return air temperature transferred to described temperature inductor, the operational mode that described temperature inductor is judged air-conditioning according to the air-conditioning leaving air temp that receives and return air temperature is refrigerating state, heat state, off-mode; Described central processing unit links to each other with described temperature inductor, described memory, described air-conditioning interface respectively, described store memory contains refrigeration lower bound temperature, refrigeration normal temperature, heats high limit temperature, heats normal temperature, and described central processing unit can be changed the interior refrigeration lower bound temperature value of described memory, refrigeration normal temperature value, heats high limit temperature value, heat the normal temperature value; The operational mode of air-conditioning is when heating state, and described central processing unit judges that whether the air-conditioning return air temperature heats high limit temperature greater than described, if, central processing unit moves to heat normal temperature by described air-conditioning interface control indoor apparatus of air conditioner so; When the operational mode of air-conditioning was refrigerating state, whether described central processing unit judged the air-conditioning return air temperature less than described refrigeration lower bound temperature, if, central processing unit moves with the refrigeration normal temperature by described air-conditioning interface control indoor apparatus of air conditioner so.

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

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

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

5. split-type air conditioner energy-saving appliance according to claim 4 is characterized in that: described store memory contains to be proofreaied and correct blanking time, and described central processing unit is gathered described correction blanking time; Proofreading and correct in blanking time, described central processing unit is not controlled the temperature of air-conditioning; Exceed and proofread and correct blanking time, the temperature of described central processing unit control air-conditioning.

6. according to each described split-type air conditioner energy-saving appliance 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 links to each other with described wireless transmitter module with described memory cell respectively, described memory cell contains control command, described CPU is sent to the application module device by described wireless transmitter module with described control command, thereby 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 links to each other with described study module, described study module is used for the remote control commands of study air-conditioning, and the remote control commands of the air-conditioning that will learn is stored in the described memory cell.

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 links to each other 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, described power transfer module is converted to direct current 12V with alternating current 220V and powers for described main control module, and described power regulator module links to each other with described power transfer module.

10. network energy-saving control system with claim 8 or 9 described split-type air conditioner energy-saving appliances, it is characterized in that: comprise monitoring host computer, described main control module also comprises the computer monitor interface, described CPU links to each other with described computer monitor interface, and described CPU links to each other 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 links to each other with the NIU of described main control module by described network interface.

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