TWI300835B - - Google Patents

Description

1300835 IX. Description of the Invention: [Technical Field] The present invention relates to a technical field of air conditioning control, and more particularly to an air conditioning management energy saving control system suitable for air conditioning energy saving. 5 [Prior Art] In recent years, the air conditioning system has become a daily necessities as the climate continues to change and the temperature in summer rises year by year. In particular, people's living conditions improve the material conditions, and the speed of air-conditioning systems is even more amazing. However, the problem with 10 Ik is that the air conditioning system consumes energy, and its proportion of total building energy consumption is also rising year by year. Therefore, how to improve the energy-saving effect of the air-conditioning system, and k low energy consumption should be the most important issue at present. Figure 1 shows the hourly temperature change of a raft in summer. In the figure, RA indicates the indoor air temperature and OA indicates the outdoor air temperature. It can be seen from the figure that the temperature value of 0A is lower or almost equal to the temperature values of P and A after about 15 am to 1.5 pm. However, the conventional air conditioning system often only has a glimpse of how to lower the indoor temperature, so that the indoor personnel feel cool, but the mouth P heart slightly changes with respect to the temperature value of 0A, adjusting the optimal comfort temperature of the indoor personnel. And often makes people feel cold. Therefore, the conventional air conditioning system 20 = is not ideal for controlling the indoors to obtain the optimum comfort temperature. Therefore, there are still many shortcomings in air conditioning and energy saving technology, and there is a need to improve it. SUMMARY OF THE INVENTION 1300835 The object of the present invention is to provide a comfort temperature that can be adjusted at a different comfort temperature without affecting the energy saving strategy of the air conditioner indoors. The ultimate goal of the indoor staff. The system consumes electricity, and then achieves air conditioning energy saving. The present invention provides an air conditioning management energy saving. An internet transmission is at least ~ 疋 through a good temperature. The system includes at least one controlled to: 10 15 2 〇; at least - the controlled end includes at least two air conditioning devices, and controls: the clothing is placed therein, the background control device has a 丨, , ^ sentence includes a batch system The shape is eight a6k, early. The Lisa control terminal: the clothing, and the control condition database library stores at least one control condition, and the = is corresponding to at least the controlled terminal. κ β , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , Memorize ί. Yuan 'promotes the background control to be placed according to at least one of the memory units": Controls at least two air conditioning units. Therefore, the present invention provides: a kind of energy saving control system that can be superior energy saving strategy, In the air conditioning management energy-saving control system of the present invention, the background control device further includes an input-input unit, and the 少-pen control condition stored in the memory unit can be The input unit inputs the correction data for correction. As described above, in the air conditioning management energy-saving control system of the present invention, at least one of the 1300,835 control conditions is preferably set corresponding to the size of the air-conditioning load of the at least one controlled end. In the air conditioning management energy-saving control system of the present case, the air-conditioning load preferably includes a personnel load and an external air load, or an equivalent air-conditioning load. In the air conditioning management energy-saving control system of the present invention, at least the pen control condition preferably sets at least two sets of temperature control conditions corresponding to at least the time period during which the air-conditioning load of the controlled end respectively occurs. As described above, the present case In the air conditioning management energy-saving control system, each of the 10 15 20 temperature control conditions preferably includes at least three temperature control intervals, which are calculated according to the air conditioning load. , 疋 As described above, the air conditioning management of the present case In the energy-saving control system, the post-production device controls at least one air-conditioning device according to at least one sign of the memory unit to control at least one air-conditioning device, including a group selected from the group consisting of shutdown, cold room operation, and conversion. The operation mode. As mentioned above, the air conditioning management section of the present case is preferably a separate air conditioner I with a material or an equivalent air conditioner. The central fan coil system is as described above, and the air conditioner of the present case The camping device is preferably a computer, or an equivalent system, and the background control is as described above. 'This is fortunately ^^ 士 々々 较佳 _ _ brain, control poly Embodiment embodiment of the present invention is described by the following specific embodiments based particular l3〇〇835 of 7: =: "field having ordinary knowledge disclosed in this specification may be understood other advantages and effects of the present invention. System 1 and FIG. 2 show that the 1/1^ component 10^, 2' of the air conditioning management energy-saving control system of the present invention transmits a control between the Internet 100 and the energy-saving control. Achieve the best temperature. Set 13 is equipped with two air conditioners u, 12, and - background control equipment and has 1 input I = single unit = device 13 has a memory unit (not shown), 10 15 type 2 background control device 13 is a computer, and the memory unit is a hard disk, and the input unit 14 is a keyboard. , the end 2 includes a control device 21 'and a control condition database, /, the control condition database 22 stores a control condition ι〇ι, = control (four) 101 corresponds to the controlled end 1 Air conditioning load is set. In the example, the control device 21 is a computer, and the control condition 101 sets two sets of temperature control conditions from the magnitude of the air conditioning load of the controlled terminal 1, that is, the size of the personnel load and the external air. Among them, each group of field control conditions includes three temperature control intervals, which are based on the air conditioning load. For example, 'the optimal temperature for the controlled terminal to adjust the room is 26t:, and the maximum value of the air conditioning load occurs from 12 noon to 1 pm, and it is also the peak period when the number of people entering the shoulders is the highest. The control condition 101 sets the group control condition, wherein one set of temperature control conditions is a peak period of the maximum air conditioning load of the personnel and the external air load, and the other set of temperature control conditions is the personnel load and The air-conditioning load of the external air load is 20 1300835, and the peak time period other than the maximum value; the air conditioning load is calculated as: one, θ, and one, and the temperature control condition can be determined according to the 'π--/the control zone (10) Below, 2nd to 28th. Between 〇, and 28. =^在:峰: One of the temperature control sections of the section below the section-degree control, the paper to the machine, and the machine to the peak of the peak (four) = control condition. In addition, other temperature control conditions can be added for other spike periods, ==: weekly load. For example, the number of people in the early days is the most recent d, the painter's ^ ^ 5 pm to 7 pm is also entering the air-conditioned room ^ = time period', then the control condition 101 can also take into account the above two U · Bei negative and external gas load, and then Set the other two sets of temperature control conditions. In the present embodiment, the control device 21 of the control terminal 2 retrieves the control condition 1〇1' from the control condition database 22 and transmits it to the controlled terminal 1 via the Internet _ after the station control device 13 and stores it in the background. The recording device 13 controls the background control device 13 to perform energy saving control on the air conditioners u, 12 of the controlled terminal 1 in accordance with the control condition UH of the memory unit. In addition, the user can also input the correction data by the input unit 14 of the background control device 13 for the size of the air conditioner load at the time of being controlled, to correct the control condition 101 of the memory unit, or to transmit the correction data to the The control condition of the control terminal 2 is stored in the storage unit 22 to provide the next control device 21 to simultaneously obtain the control condition 101 and the correction data, and analyzes before the transmission control condition 1〇1, so that the controlled terminal 1 obtains a more appropriate one. Energy saving control. Finally, the operation of the air conditioners 11, 12 in the peak period and the off-peak period will be described with reference to Figs. 3 and 4, respectively. Among them, Figure 3 is the three temperature control intervals under the peak period, which are A (24〇c or less), B (24 between 1300835 and scratch), and c (above 28°c); The 4 series is under the peak period. The three temperature control intervals are a (26. 〇 below) and Μ 9 C) c (29 C or more). In this embodiment, when the control device 21 of the control terminal 2 transmits the control condition (8) through the Internet (10) to the control device 3 after being controlled, and stores it in the background control device 13 unit, the background control «set 13 According to the control condition of the memory unit, it is judged to be the peak period or the peak period according to the current time period. 15 If the background control device 13 determines that it is in the ♦ time period, the two air conditioners 1U2 are controlled to perform the cold room operation or the air supply operation in accordance with the three temperature control intervals of the group temperature control conditions in the control ir' 101. For example: in ^, the room temperature of the i-air room is 2 generations or less, and the background control device (4) judges the 2 peak periods, then controls the air conditioner u, _ when the air is sent, 'other' in the air-conditioned room of the controlled terminal 1 The room temperature is 24. . ~28. . During the period, when the background control «set_break is the line time, the dragon system = turn, and the air conditioner 12 performs the air supply operation; in addition, during the control: the room temperature of the second work is adjusted to catch the above, and the background control peak period Then, the two air conditioners u, 12 are controlled to perform the cold room operation at the same time. The large bar control device 13 judges that, in the off-peak period, the three I-air air conditioners 11, 12 are operated in accordance with another set of temperature control conditions of the control room 2, and the cold room operation or the air supply operation is performed. For example: The room temperature in the air-conditioned room is 26. . Hereinafter, when the background control device 13=ΓΓ, the two air conditioners u and 12 are controlled to simultaneously perform the air supply. In addition, when the room temperature of the air-conditioned room is controlled by the control terminal, the air-conditioning room is determined to be the school time period. The air conditioner 20 1300835 is controlled to perform the cold room operation, and the air conditioner 12 performs the air supply operation; and the room temperature in the control terminal air conditioner room is 29. 〇 Above, when the background control device 13/off is in the off-peak period, the two-spot fresh-supplied u, 12 is simultaneously operated in the cold room. Please refer to FIG. 2 again to illustrate another preferred embodiment of the present invention. The other five preferred embodiments are substantially the same as the system configuration of the foregoing preferred embodiment, except that in the second air conditioning device 1U2 of the system of the other preferred embodiment, a temperature monitoring device 11U21 and a current are respectively included. The monitoring device m, m, which can (4) monitor the temperature value of the air conditioning room and the electric recording of the air conditioning device, and periodically transfer it back to the control bar 1 of the control terminal 2 by the background control device 13 to store the The temperature value and current value can be judged and analyzed during the post-survey inspection, so that the controlled end i obtains more appropriate energy-saving control. The above embodiments are merely examples for convenience of explanation. The scope of the claims is intended to be limited only by the scope of the claims. 15

[Simple description of the diagram] Figure 1 is a graph of hourly temperature changes on a certain day in summer. 2 is a system architecture diagram of an air conditioning management energy saving control system of the present invention. Schematic diagram of the system operation of the peak time of the preferred embodiment 0 Schematic diagram of the system operation of the peak time of the preferred embodiment 20 1300835 [Description of the main components] Controlled end 1 Control terminal 2 Internet 100 Control condition 101 Air conditioning Device 11, 12 background control device 13 interval input unit 14 A, B, C, a, b, c control device 21 control condition database 22 temperature monitoring device 11U.21 current monitoring device 112, 122 air conditioning management energy saving control system 10

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Claims (1)

1300835 X. Patent application scope: 1 · An air conditioning management energy-saving control wheel at least one control condition, into the ▲, its system with an Internet tradition includes: speed control to achieve the best temperature, the system is at least one controlled End A control terminal includes a control = a memory unit, and a library. The control condition database is stored, set, and controlled. The data is less: the condition is: the condition is transmitted, and the network is transmitted through the network. Up to 15 The background control is placed and stored in the background control device to cause the background control device to control the at least two air conditioners according to the memory unit/integrated pen control condition. * = The system of claim 2, wherein the background t includes an input list a '俾 enabling the presence of the memory unit to apply at least one control condition via the input unit to input correction data. Corrected. 3. The system of claim 1, wherein the at least one control condition is set corresponding to a magnitude of an air conditioning load of the at least one controlled end. 4. The system of claim 3, wherein the air conditioning load comprises a personnel load and an external air load. 13 1300835 5. The system of claim 3, wherein at least one control condition sets at least two sets of temperature control conditions corresponding to a time period in which the size of the air conditioner of the at least one controlled end occurs respectively . 6. The system of claim 5, wherein each set of temperature control conditions comprises at least three temperature control intervals, the at least three zm degree control intervals being calculated based on the air conditioning load. Φ. The system of claim 1, wherein the background control is controlled according to the at least one-pen control condition of the memory unit, and the control device is configured to perform at least, including selecting from a shutdown, a cold room operation, and a supply air operation. The group of people. The system, wherein the space is as described in the first paragraph of the patent application, the device is a separate air conditioner. 15 9. If the patent application scope is controlled, the control device is a computer. 10. If the scope of the patent application is set to be the computer. The system described in item 1, wherein the background is the control 14