CN103807977B - A kind of novel start low-power output air conditioning system and method for work - Google Patents
A kind of novel start low-power output air conditioning system and method for work Download PDFInfo
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- CN103807977B CN103807977B CN201410053298.2A CN201410053298A CN103807977B CN 103807977 B CN103807977 B CN 103807977B CN 201410053298 A CN201410053298 A CN 201410053298A CN 103807977 B CN103807977 B CN 103807977B
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- 238000004378 air conditioning Methods 0.000 title claims abstract description 151
- 238000000034 method Methods 0.000 title claims abstract description 19
- 238000004891 communication Methods 0.000 claims abstract description 77
- 238000012790 confirmation Methods 0.000 claims description 13
- 238000006243 chemical reaction Methods 0.000 claims description 4
- 230000005540 biological transmission Effects 0.000 description 8
- 238000010586 diagram Methods 0.000 description 6
- 230000008014 freezing Effects 0.000 description 4
- 238000007710 freezing Methods 0.000 description 4
- 238000010438 heat treatment Methods 0.000 description 4
- 238000010200 validation analysis Methods 0.000 description 2
- 230000000694 effects Effects 0.000 description 1
- 238000005265 energy consumption Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 230000002045 lasting effect Effects 0.000 description 1
- 238000004519 manufacturing process Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000005057 refrigeration Methods 0.000 description 1
- 230000001105 regulatory effect Effects 0.000 description 1
Abstract
The invention provides a kind of novel start low-power output air conditioning system and method for work, including air-conditioning, the first communicating terminal, the second communicating terminal, the first communication channel and the second communication channel. First communicating terminal is connected by the first communication channel and the second communicating terminal communication, and the second communicating terminal is connected with air-conditioning communication by the second communication channel. Control information is sent to the second communicating terminal by the first communicating terminal by the first communication channel; Second communicating terminal identification controls information, and is sent execution information to air-conditioning by the second communication channel; Air-conditioning performs described execution information. Technical scheme makes non-frequency air-conditioning not only still run with the start of specific power, but also can bring good Consumer's Experience to user; Convertible frequency air-conditioner can run with low-power output mode when start, reduces total power consumption, more power saving further, but also does not affect Consumer's Experience.
Description
Technical field
The invention belongs to plant equipment and manufacture field, relate to a kind of air conditioning system and method for work thereof, particularly relate to a kind of novel start low-power output air conditioning system and method for work thereof.
Background technology
For novel convertible frequency air-conditioner, convertible frequency air-conditioner powers on when beginning to use every time, it is common that carry out heating or freezing with the maximum power output of air-conditioning, thus being rapidly achieved the temperature that user sets. When convertible frequency air-conditioner operates with high-power output, make room temperature rapidly after the temperature set by user, lasting the operating in the slow-speed of revolution, low energy consumption state of compressor, the temperature set only is maintained with required power. So not only indoor temperature is stable, it is thus also avoided that high frequent start-stop stop the decay to the life-span that causes, and power consumption is greatly reduced, it is achieved that energy-efficient. Owing to convertible frequency air-conditioner can quickly be adjusted to, the temperature in room, the temperature that user sets, so user has good Consumer's Experience.
For traditional non-frequency air-conditioning, after user sets temperature, non-frequency air-conditioning can freeze slowly with specific power (such as 800 watts, 1200 watts etc.) or heat and reach the temperature that user sets. After the temperature in room reaches the temperature that user sets, compressor just quits work, until the temperature drift that sets than user of the temperature in room or on the low side time compressor can be again started up carrying out freezing or heating. In the process, non-frequency air-conditioning is when start runs because being work with specific power, so needing a period of time grown very much when the temperature in room reaches the temperature of user's setting, Consumer's Experience is very poor sometimes.
Convertible frequency air-conditioner and the difference of traditional non-frequency air-conditioning are as shown in the table,
Start operating power | Consumer's Experience | Start operation power consumption | Total power consumption | Price | |
Convertible frequency air-conditioner | Peak power | Good | High | Low | High |
Non-frequency air-conditioning | Certain power | Difference | Low | High | Low |
Convertible frequency air-conditioner is because running with peak power when starting shooting work and being rapidly achieved the temperature that user sets, so Consumer's Experience is good, the constant rear compressor of room temperature is because being always maintained at low-power consumption operating, so total power consumption up-conversion air-conditioning is low, as novel energy-saving frequency conversion air-conditioning, price is also significantly high. Traditional non-frequency air-conditioning is because can reach, with specific Power operation, the temperature that user sets slowly when start, so poor user experience, after room temperature change, compressor restarts work again, so higher than non-frequency air-conditioning in total power consumption, but non-frequency air-conditioning is more much lower than convertible frequency air-conditioner in price.
In sum, convertible frequency air-conditioner Consumer's Experience is good, but during start work, output is very big, and during non-frequency air-conditioning start work, output is on the low side, but poor user experience.
Summary of the invention
In view of this, the present invention proposes a kind of novel start low-power output air conditioning system and method for work thereof so that non-frequency air-conditioning not only still runs with the start of specific power, but also can bring good Consumer's Experience to user; Convertible frequency air-conditioner can run with low-power output mode when start, reduces total power consumption, more power saving further, but also does not affect Consumer's Experience.
For reaching above-mentioned purpose, concrete technical scheme is as follows:
On the one hand, provide a kind of novel start low-power output air conditioning system, including air-conditioning, described air-conditioning has the function of low-power output during start, also include the first communicating terminal, second communicating terminal, first communication channel and the second communication channel, described first communicating terminal is connected with described second communicating terminal communication by described first communication channel, described second communicating terminal is connected with described air-conditioning communication by described second communication channel, described first communicating terminal sends control information extremely described second communicating terminal, described second communicating terminal sends described control information extremely described air-conditioning, described air-conditioning performs described control information.
Preferably, described second communicating terminal independence or be integrated in described air-conditioning.
Preferably, described first communication channel and the second communication channel are bi-directional information channel, and execution information is fed back to the first communicating terminal by described second communicating terminal by described air-conditioning.
Preferably, described first communication channel is wireless communication channel, and described second communication channel is wirelessly or non-wirelessly communication channel.
Preferably, described second communication channel is infrared ray, radio frequency or blue tooth wireless communication channel.
Preferably, described first communicating terminal and the second communicating terminal are mobile phone, landline telephone or computer.
Preferably, described air-conditioning is frequency conversion or non-frequency air-conditioning.
On the other hand, additionally provide the method for work of a kind of novel start low-power described above output air conditioning system, comprise the steps:
Step 1, control information is sent to the second communicating terminal by described first communicating terminal by the first communication channel;
Step 2, is controlled information, and is sent execution information to described air-conditioning by described second communication channel described in described second communicating terminal identification;
Step 3, described air-conditioning performs described execution information.
Preferably, the control information in described step 1 includes user identification confirmation information and the operating mode information of described air-conditioning.
Preferably, the operating mode information of described air-conditioning at least includes the temperature of described air-conditioning, wind speed, directional information, and can preset in described first communicating terminal or the second communicating terminal or air-conditioning.
Relative to prior art, technical scheme makes non-frequency air-conditioning not only still run with the start of specific power, but also can bring good Consumer's Experience to user; Convertible frequency air-conditioner can run with low-power output mode when start, reduces total power consumption, more power saving further, but also does not affect Consumer's Experience.
Accompanying drawing explanation
The accompanying drawing constituting the part of the present invention is used for providing a further understanding of the present invention, and the schematic description and description of the present invention is used for explaining the present invention, is not intended that inappropriate limitation of the present invention. In the accompanying drawings:
Fig. 1 is the schematic diagram of the system embodiment of the present invention;
Fig. 2 is the enforcement schematic diagram of the embodiment of the method for the present invention;
Fig. 3 is the enforcement schematic diagram of the embodiment of the method 1 of the present invention;
Fig. 4 is the enforcement schematic diagram of the embodiment of the method 2 of the present invention;
Fig. 5 is the enforcement schematic diagram of the embodiment of the method 3 of the present invention;
Fig. 6 is the enforcement schematic diagram of the embodiment of the method 4 of the present invention.
Detailed description of the invention
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that described embodiment is only a part of embodiment of the present invention, rather than whole embodiments. Based on the embodiment in the present invention, the every other embodiment that those of ordinary skill in the art obtain under not making creative work premise, broadly fall into the scope of protection of the invention.
It should be noted that when not conflicting, the embodiment in the present invention and the feature in embodiment can be mutually combined.
Below with reference to accompanying drawing, embodiments of the invention are done concrete explaination.
The novel start low-power output air conditioning system of one of embodiments of the invention as shown in Figure 1, including the first communicating terminal 1, i.e. communicating terminal A; Second communicating terminal 2, i.e. communicating terminal B; Air-conditioning 3; And first communication channel; Second communication channel.
Communicating terminal A and communicating terminal B is by the first communication channel transmission information, and communicating terminal B and air-conditioning 3 transmit information by the second communication channel.
Wherein the first communication channel and the second communication channel can be one-way transmission information or bi-directional transmission of information. The channel of bi-directional transmission of information is higher than the channel cost of one-way transmission information.
First communication channel 1 and the second communication channel 2 can be wired connections, it is also possible to use wireless connections (such as: infrared ray, radio frequency, bluetooth etc.). If using infrared ray to connect, then needing communicating terminal B and air-conditioning 3 to be directed at, otherwise air-conditioning 3 can't accept information, affects the properly functioning of air-conditioning 3. If using radio frequency to connect, then need not worry about whether whether communicating terminal B and air-conditioning 3 are directed at.
Communicating terminal A and communicating terminal B can be mobile phone, any telecommunications terminal unit such as landline telephone or computer, wherein communicating terminal B can be that a kind of freestanding terminal unit is in Same Physical space with air-conditioning 3, it is also possible to communicating terminal B is integrated in inside air-conditioning 3.
Air-conditioning 3 can be novel convertible frequency air-conditioner, it is also possible to be traditional non-frequency air-conditioning of low price, is no matter which kind of air-conditioning will possess start when running, the function of low-power output.
And combine as shown in Figure 2, method comprises the steps:
Step 1, control information is sent to the second communicating terminal by the first communicating terminal by the first communication channel. When user not with in the physical space at communicating terminal B and air-conditioning 3 place, but when user expects the physical space at described communicating terminal B and air-conditioning 3 place. Air-conditioning 3 can regulate the temperature of physical space (freeze or heat) to preset temperature value, so user sends out operating mode information (the such as temperature of user identification confirmation information and air-conditioning 3 with communicating terminal A by the first communication channel to communicating terminal B, wind speed, direction, pattern etc.).
Step 2, the second communicating terminal identification controls information, and is sent execution information to air-conditioning by the second communication channel. After communicating terminal B receives the communicating terminal A information sent, first communicating terminal B checks effective identity information of user.
After communicating terminal B has checked effective identity information of user, air-conditioning 3 operating mode information received is sent to air-conditioning 3 by the second communication channel.
Step 3, air-conditioning performs above-mentioned execution information.Air-conditioning 3 responds according to operating mode information after receiving information, or closes air-conditioning, or opens air-conditioning and make corresponding configuration according to the information received and be operated in low-power consumption output mode.
If the first communication channel and the second communication channel all can bi-directional transmission of information, so air-conditioning is after having responded the communicating terminal B information sent, by the second communication channel, communicating terminal B can be sent an information for representing that air-conditioning 3 has received effective information, then communicating terminal B is sent back to communicating terminal A by the first communication channel this confirmation, informing that user's air-conditioning 3 has begun to perform corresponding operation, now user can close whole communication channel. If user does not receive the confirmation from air-conditioning 3, then user needs closed communication, again send information with communicating terminal A to communicating terminal B. If instead the first communication channel and the second communication channel are all one-way transmission information, then user just can close whole communication after having sent information by communicating terminal A to communicating terminal B.
In whole process, user includes temperature, wind speed with the operating mode information of the communicating terminal A air-conditioning 3 sent, and direction etc. can also be set in advance in communicating terminal A or communicating terminal B or air-conditioning 3, need not input one by one when real-time communication, it is possible to further facilitate user operation.
After user closes whole communication, arriving this time period a of physical space at air-conditioning 3 place, the air-conditioning output that operates in the low power mode carries out freezing or heating, and the temperature in space in thing is regulated lentamente and arrives the temperature that user sets. When user arrives space, the temperature in space has been adjusted to the temperature that user sets.
Relative to traditional non-frequency air-conditioning, when user arrives space, room temperature has been adjusted to the temperature that user sets, user is needed to be then turned on air-conditioning after arriving particular space need not using as traditional non-frequency air-conditioning, so comparing with traditional non-frequency air-conditioning, the air conditioning system of the embodiment of the present invention can bring better Consumer's Experience to user. Because in this time period a, air-conditioning carries out freezing or heating with the operating of low-power output mode. Maximum power output is needed to run relative to the start of Novel variable-frequency air-conditioning, the air conditioning system of the embodiment of the present invention can more save power consumption when start, yes under the premise having no effect on any original Novel variable-frequency air conditioning function, and namely original Novel variable-frequency air-conditioning can also operate in power on mode with maximum power output by option and installment. This time period, a was more long, and the air conditioning system of the embodiment of the present invention can be run with more low output and reach preset temperature, more economizes power consumption, does not affect Consumer's Experience simultaneously.
Embodiment 1
As shown in Figure 3, in embodiments of the invention 1, communicating terminal A is mobile phone, and communicating terminal B is landline telephone. Mobile phone sends information to landline telephone by telecommunication wireless network (the first communication channel), and landline telephone can also send information to mobile phone by telecommunication wireless network. Landline telephone sends information to air-conditioning by radio frequency (the second communication channel), and air-conditioning can also send information to landline telephone by radio frequency, and wherein landline telephone and air-conditioning are in same room.
When user out of doors, time user expects reaching room, the temperature in room has reached certain temperature, then user can pass through the landline telephone in mobile phone dialing room, if the phone in room is idle condition, can connecting subscribers participating.
Then the landline telephone in room may require that user first confirms personal information, such as require that user inputs identity validation password, user can be allowed after determining user profile Deng landline telephone to select what pattern of needs opened by air-conditioning, temperature is how many, wind speed is how many etc., such as numeral keys 1 represents refrigeration mode, and numeral keys 2 represents Gao Feng etc.When user is the pattern of air-conditioning, temperature, after the information such as wind speed is sent to landline telephone, the information such as landline telephone first passes through radio frequency and sets up communication with air-conditioning, the pattern arranging air-conditioning then user sent, temperature, wind speed are sent to air-conditioning.
Air-conditioning is opened, and by receiving the information of the user setup that landline telephone is sent, starts with low-power output mode operation work.
Be sent to one confirmation signal of landline telephone when air-conditioning is started working, then landline telephone is this confirmation signal received, and is then forwarded to user mobile phone, and end user confirms that air-conditioning has started to, and closes whole communication.
If user does not receive the confirmation signal that landline telephone is sent, so user needs to close whole communication, then again dial the landline telephone in room, corresponding information is resend one time, until receiving landline telephone to send the signal confirming air-conditioning work.
When user arrives room, temperature in room has arrived at the value that user sets, so comparing user with traditional non-frequency air-conditioning to have a good Consumer's Experience, and air-conditioning is always up low-power output when start runs, comparing with novel convertible frequency air-conditioner can be more energy efficient in power consumption, does not affect the Consumer's Experience of user simultaneously.
Embodiment 2
As shown in Figure 4, in embodiments of the invention 2, communicating terminal A is mobile phone, and communicating terminal B is landline telephone. Mobile phone sends information to landline telephone by telecommunication wireless network (the first communication channel), and landline telephone can also send information to mobile phone by telecommunication wireless network. Landline telephone sends information to air-conditioning by infrared ray (the second communication channel), and air-conditioning can also send information to landline telephone by infrared ray, and wherein landline telephone and air-conditioning are in same room.
When user out of doors, time user expects reaching room, the temperature in room has reached certain temperature, then user can pass through the landline telephone in mobile phone dialing room, if the phone in room is idle condition, can connecting subscribers participating.
Then the landline telephone in room may require that user first confirms personal information, such as require that user inputs identity validation password, after landline telephone has verified the identity information that user inputs, landline telephone can send a sound of " beep ", represent landline telephone it has been acknowledged that the identity information of user, user can then input, then user is sent to landline telephone the information freezed or heat, after landline telephone receives the information that user sends, again send a sound of " beep ", represent user can continue with, user is needing the temperature information arranged to be sent to landline telephone subsequently, after landline telephone receives information, another sends a sound of " beep ", prompting user continues with, and then user is sent to landline telephone the wind speed information set, landline telephone sends a sound of " beep " after receiving information, inform that user continues with and reserve the information to input in advance.
After finally waiting user to need the information that air-conditioning is opened to be sent to landline telephone confirmation, landline telephone is opened air-conditioning by infrared ray.
Then the air-conditioning configuration information that air-conditioning sets according to user works with low-power output mode. Air-conditioning brings into operation after receiving the information that landline telephone transmission comes, then pass through infrared ray and be sent to one confirmation signal of landline telephone, then landline telephone is sent to mobile phone confirmation signal, informs that user's air-conditioning has been started up, and user can close whole communication.
The checking information of user in whole process, the order arranging air-conditioning information etc. and information input is all be set in advance in mobile phone or landline telephone.When user arrives room, temperature in room has arrived at the value that user sets, so comparing user with traditional non-frequency air-conditioning to have a good Consumer's Experience, and air-conditioning is always up low-power output when start runs, comparing with novel convertible frequency air-conditioner can be more energy efficient in power consumption, does not affect the Consumer's Experience of user simultaneously.
Embodiment 3
As shown in Figure 5, in embodiments of the invention 3, communicating terminal A is mobile phone, and communicating terminal B is landline telephone. Mobile phone sends information to landline telephone by telecommunication wireless network (the first communication channel), and landline telephone sends information to air-conditioning by infrared ray (the second communication channel), and wherein landline telephone and air-conditioning are in same room.
When user out of doors, time user expects reaching room, the temperature in room has reached certain temperature, then user can pass through the landline telephone in mobile phone dialing room, if the phone in room is idle condition, can connecting subscribers participating. After connection, user only need to be sent to one representative of landline telephone and open the extension number information of air-conditioning, it is possible to closed communication. Extension both can as user identification confirmation information, again can as air-conditioning work mode selecting information, so user can ensure safety by irregularly changing this number.
Landline telephone, after receiving this information, will be opened air-conditioning by infrared ray, then configuration air-conditioning information set in advance in landline telephone is sent to air-conditioning, and air-conditioning starts to run with low-power output according to configuration information subsequently.
When user arrives room, temperature in room has arrived at the value that user sets, so comparing user with traditional non-frequency air-conditioning to have a good Consumer's Experience, and air-conditioning is always up low-power output when start runs, comparing with novel convertible frequency air-conditioner can be more energy efficient in power consumption, does not affect the Consumer's Experience of user simultaneously.
Embodiment 4
As shown in Figure 6, in embodiments of the invention 4, communicating terminal A is mobile phone, and communicating terminal B is landline telephone. Mobile phone sends information to landline telephone by telecommunication wireless network (the first communication channel), and landline telephone sends information to air-conditioning by infrared ray (the second communication channel), and wherein landline telephone and air-conditioning are in same room.
When user out of doors, the air-conditioning that user wants in room is not also turned off, then user can pass through the landline telephone in mobile phone dialing room, if the phone in room is idle condition, can connecting subscribers participating. After connection, user only need to be sent to landline telephone one and represent the extension number information closing air-conditioning, it is possible to closed communication. Extension both can as user identification confirmation information, again can as air-conditioning work mode selecting information, so user can ensure safety by irregularly changing this number. Landline telephone, after receiving this information, will be closed air-conditioning by infrared ray.
Above specific embodiments of the invention being described in detail, but it is only used as example, the present invention is not restricted to particular embodiments described above. To those skilled in the art, any equivalent modifications that this practicality is carried out and replacement are also all among scope of the invention. Therefore, the equalization made without departing from the spirit and scope of the invention converts and amendment, all should contain within the scope of the invention.
Claims (10)
1. a novel start low-power output air conditioning system, including air-conditioning, described air-conditioning has the function of low-power output during start, it is characterized in that, also include the first communicating terminal, second communicating terminal, first communication channel and the second communication channel, described first communicating terminal is connected with described second communicating terminal communication by described first communication channel, described second communicating terminal is connected with described air-conditioning communication by described second communication channel, described first communicating terminal sends control information extremely described second communicating terminal, described second communicating terminal sends described control information extremely described air-conditioning, described air-conditioning performs described control information,
Wherein, described second communicating terminal and described air-conditioning are in Same Physical space, user and described first communicating terminal not with in the physical space at described second communicating terminal and described air-conditioning place.
2. novel start low-power as claimed in claim 1 output air conditioning system, it is characterised in that described second communicating terminal independence or be integrated in described air-conditioning.
3. novel start low-power as claimed in claim 2 output air conditioning system, it is characterized in that, described first communication channel and the second communication channel are bi-directional information channel, and execution information is fed back to the first communicating terminal by described second communicating terminal by described air-conditioning.
4. novel start low-power as claimed in claim 3 output air conditioning system, it is characterised in that described first communication channel is wireless communication channel, and described second communication channel is wirelessly or non-wirelessly communication channel.
5. novel start low-power as claimed in claim 4 output air conditioning system, it is characterised in that described second communication channel is infrared ray, radio frequency or blue tooth wireless communication channel.
6. novel start low-power as claimed in claim 1 output air conditioning system, it is characterised in that described first communicating terminal and the second communicating terminal are mobile phone, landline telephone or computer.
7. novel start low-power as claimed in claim 1 output air conditioning system, it is characterised in that described air-conditioning is frequency conversion or non-frequency air-conditioning.
8. the method for work of the novel start low-power output air conditioning system as described in any one of claim 1 to 7, it is characterised in that comprise the steps:
Step 1, control information is sent to the second communicating terminal by described first communicating terminal by the first communication channel;
Step 2, is controlled information, and is sent execution information to described air-conditioning by described second communication channel described in described second communicating terminal identification;
Step 3, described air-conditioning performs described execution information.
9. method of work as claimed in claim 8, it is characterised in that the control information in described step 1 includes user identification confirmation information and the operating mode information of described air-conditioning.
10. method of work as claimed in claim 9, it is characterised in that the operating mode information of described air-conditioning at least includes the temperature of described air-conditioning, wind speed, directional information, and can preset in described first communicating terminal or the second communicating terminal or air-conditioning.
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