JPH0942737A - Air conditioner controller - Google Patents

Abstract

PROBLEM TO BE SOLVED: To set the annual electric energy consumption to a predetermined value or less and to delete the power consumption by setting the annual energy consumption from the operating conditions of present air conditioner, and displaying the value for a user. SOLUTION: The air conditioner controller comprises annual electric energy consumption estimating means 9 for estimating the annual electric energy consumption from the present atmospheric temperature, air conditioning capacity, set temperature ts and past historical information stored in air conditioning result memory means 8. The controller comprises electric rate calculating means 10 for calculating electric rate from the estimated annual electric energy consumption, and electric energy consumption display input means 11 for evidently displaying information such as estimated electric rate for an air conditioner user and outputting the set temperature ts input by the user to air conditioner control means 5. Further, the controller comprises electric energy consumption control means 12 for so automatically regulating the set temperature ts that the estimated annual power consumption becomes a predetermined certain value.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air conditioner,
In particular, the present invention relates to an air conditioner for estimating energy consumption by estimating annual electric energy.

[0002]

2. Description of the Related Art Conventionally, as a device for calculating the power consumption of an air conditioner, the amount of energy used in each installed indoor unit is estimated based on the operating rate of each indoor unit of a multi air conditioner. However, some have been proposed as devices for charging on this.

For example, in a multi-air conditioner system as described in Japanese Patent Laid-Open No. 31945/1993, the operation command frequency and the coefficient proportional to the air conditioning capacity are multiplied for each indoor unit, and the obtained value is used. It has been proposed to obtain the power consumption of each indoor unit. In addition, JP-A-3-211
In the air conditioner described in Japanese Patent No. 348, it is proposed that the total power amount of the multi-air conditioner is appropriately distributed to each room by correcting the power consumption amount using a specific formula.

Further, in the electric energy charge calculation device for an air conditioner described in Japanese Patent Laid-Open No. 6-117676, the charge is calculated by distributing the electric power by a method such as an operating time ratio, an operating current value ratio and a thermo-on time ratio. What to do is suggested. And
In these devices, generally, the amount of electric power consumed in each indoor unit of the multi-air conditioner is obtained from the operation command frequency, the operation time ratio, etc., and the data is used for the charging process.

Further, in the air conditioning system as described in Japanese Patent Laid-Open No. 6-193938, each air conditioner is operated in order to operate a plurality of air conditioners within a fixed power charge budget for a certain period. Equipped with an electric energy pulse meter to measure the amount of electric power consumption, the budget allocated to each air conditioner is multiplied by the weight for each day and also the unit time to obtain the budget per unit time. I try to drive on budget.

Now, in any of the above-mentioned proposals, it is necessary to measure the current power consumption of the air conditioner in some form and use the value to perform billing or limit the power consumption of the air conditioner. Has an aim. On the other hand, as another idea, there is one that calculates annual power consumption, which is defined in Annex 3 of JIS standard (C9612) for room air conditioners, in which tests and calculation methods for period energy efficiency calculation are defined. There is. Also, a simplified period energy efficiency calculation method of this calculation method is defined. Now,
The idea and method is to operate in advance under rated indoor and outdoor temperature and humidity conditions, and use information such as the annual outside air temperature generation time from the measured operating capacity of the air conditioner and the actual power consumption data. Then, the annual power consumption is estimated.

[0007]

However, in the above techniques and methods, the actual data of the amount of electric power using the actually measured electric power is simply used. For this reason, when the current operating condition of the air conditioner is changed throughout the year or season, how much power is consumed is not considered at all.

On the other hand, the JIS method of estimating the annual power consumption uses experimental data of an air conditioner under rated conditions. However, this is a fixed amount of air conditioning load, which is a prerequisite, which is determined from the rated operating capacity. For this reason,
For example, the actual operating conditions at the place where the air conditioner is actually installed often differ from this value. Therefore,
In many cases, the power used by air conditioners exceeded the budget and quota. In particular, when the heat and cold summer continue as in recent years, for example, the budget limit is used in the middle of the cooling period, and the person in charge often struggles with the exchange of electric power charges thereafter.

[0009] Further, it is sometimes difficult to cooperate with the power consumption reduction request often made by the electric power company to the company during the peak power consumption in summer. Next, when the actual power consumption of the air conditioner is likely to exceed the budget, etc., it is not efficient to uniformly set the air conditioning temperature to a value close to the ambient temperature and the ambient temperature. However,
For example, in the case of an air conditioner, it is not only troublesome for the person in charge to start and stop and change the set temperature in consideration of the external temperature, whether it is a rest time, etc., it is good for the machine and the device. is not. However, it is hard to say that appropriate measures and measures have been taken.

The present invention has been made in view of the above problems, and an object of the present invention is to provide an air conditioner in which annual power consumption and the like are below a certain value. Also,
It is an object of the present invention to provide an air conditioner capable of efficiently reducing power consumption.

[0011]

In order to achieve the above object, in the invention of claim 1, the outside temperature such as the cooling water serving as an endothermic source in a heater and the exhaust heat source in an air conditioner and the outside temperature are measured. The external temperature sensor and the set temperature input by the user (as shown in Japanese Patent Application No. 7-29864, include settings in a fluctuation form such as just before the end of work, stop during lunch break, etc.). Air conditioner output control means for controlling the operation output of the air conditioner having at least one function of cooling or heating based on information about the actual room temperature detected by the built-in room temperature sensor) ,summer,
When operating an air conditioner in winter, one year, etc., an air conditioner such as the outside air temperature during a certain period of time, for example, June to September, which is a reference when considering the amount of power consumption of the air conditioner. Period load heat source storage means for directly or indirectly storing information about the load heat source for, information stored in the period load heat source storage means, and the external temperature present date and time detected by the external temperature sensor or The air conditioner consumes during the above period by using at least one piece of information on time and minutes and the information on the operation output of at least one of the past and the past integration which is controlled by the air conditioner output control means. User of the air conditioner (including the period power consumption estimation means for estimating the power consumption) and information related to the period power consumption estimated by the period power consumption estimation means (including the period power consumption itself) Not only occupants, is characterized in that it has a power-related information display means for displaying the administrator).

According to the second aspect of the present invention, the period allowable power consumption storage means for storing the period allowable power consumption determined by the budget etc. entered by the administrator, and the period power consumption estimated by the period power consumption estimating means. The amount of allowable power consumption stored in the allowable period power consumption storage means is compared, and if the former is larger than the latter, the amount of period power newly estimated by the period power consumption estimation means is determined from the latter. , For example, automatically adjust the set temperature of the air conditioner to the outside air temperature in a predetermined procedure so that the amount or within 5% increase (if some overuse is allowed due to diversion of other budget, etc.), It is characterized by having a power consumption reducing means for reducing the intake amount of fresh air.

According to the third aspect of the invention, based on the information on the operation output from the air conditioner output control means, if necessary, the information is also obtained from the integrating wattmeter according to this information, and the information is obtained during the period. In the consumed power storage means for recognizing and storing the already consumed power, the power consumption reduction means reflects the consumed power stored in the consumed power storage means,
Automatically correct the set temperature and air conditioning capacity of the air conditioner. Therefore,
If there is not enough room, it is characterized by having a power consumption reduction unit that considers the remaining power, such as bringing the temperature closer to the outside temperature or prolonging the stop time immediately before the end of work.

According to another aspect of the present invention, the period power consumption estimation means has an electricity rate calculation unit for calculating an electricity rate during the period from the estimated period power consumption and other electricity rates per unit. The power consumption related information display means,
An electricity charge display unit for displaying information about the electricity charge calculated based on the calculation result of the electricity charge calculation unit (including an indirect display such as “set temperature closer to the outside air”) It is characterized by doing.

In the invention of claim 5, the power consumption reducing means inputs at least one of the time when a person enters the space to be air-conditioned such as 8:00 am or the time when work is started such as 1:00 pm. For the first specific time storage unit to be stored as a memory and the time stored in the first specific time storage unit or a fixed time period determined from the time, automatic correction or the like of the set temperature is not performed or is made gentle. It is characterized by having an automatic correction relaxation unit.

In a sixth aspect of the present invention, the power consumption reduction means inputs and stores at least one of the time when a person leaves the space to be air-conditioned or the time when work such as lunch break is stopped, and the second specification is stored. Regarding the time storage unit and the time stored in the second specific time storage unit or the time zones before and after the time determined from the time, the automatic correction of the set temperature or the like should be strengthened or at least compared with other time zones. It is characterized in that it has an automatic correction adjusting unit that is not loose.

According to a seventh aspect of the present invention, the remaining power-considered power consumption reduction section is input with at least one of a time for a person to enter the space to be air-conditioned and a time for starting work to be stored and stored. A time storage unit and an automatic correction / relaxation unit that does not automatically adjust the set temperature or makes the setting temperature gentle for the time stored in the first specific time storage unit or the time period determined from the time. It is characterized by being.

In the eighth aspect of the present invention, the remaining power-considered power consumption reduction unit receives and inputs at least one of the time for a person to leave the room to be air-conditioned or the time for stopping work to be stored in the second specification. Regarding the time storage unit and the time stored in the second specific time storage unit or the time zone determined from the time, the automatic correction of the set temperature or the like should be strengthened or at least gentle compared with other time zones. It is characterized by having an automatic correction adjustment unit that does not.

According to a ninth aspect of the present invention, the air conditioner has at least one of a cooling section and a dehumidifying section, and the above-mentioned period includes a summer period when cooling is required. According to a tenth aspect of the present invention, the air conditioner has a heating unit, and the period includes the winter season when heating is required.

According to the eleventh aspect of the present invention, information on the temperature set by the user, information on the actual room temperature, and information from the external temperature sensor is used to determine the control capability of the air conditioner output control means and the load heat source. The verification means for the air-conditioning control device according to claim 1 or claim 2 verifies at least one piece of information.

[0021]

According to the above construction, in the invention of claim 1,
The external temperature sensor measures an external temperature which is a heat absorption source in a heating machine and an exhaust heat source in a cooling machine. The air conditioner output control means performs at least one function of cooling or heating based on the information about the room temperature set by the user of the air conditioner such as the person in the room and the actual room temperature detected by the room temperature sensor. The operation output of the air conditioner is controlled, for example, by adjusting the power supply frequency for driving the motor and adjusting the throttle of the valve. The period load heat source storage means stores the outside air temperature (other average occupants, etc.) during a certain period of time during which the amount of power consumption is examined when operating the air conditioner during summer, winter, year, etc. Information about load heat sources such as indoor heat sources such as lighting) is stored. The period power consumption estimation means, information stored in the period load heat source storage means,
The external temperature detected by the external temperature sensor, at least one of the information about the time and date such as month, day, time, etc., and at least the current time controlled by the air conditioner output control means , Using the information about at least one operation output of past integration, and therefore considering the outside air temperature, etc., if necessary, while also reflecting the efficiency of the air conditioner, etc. Estimate the power consumed. The power consumption related information display means displays to the user of the air conditioner relevant information about the period power consumption estimated by the period power consumption estimation means (including the period power consumption and the charge, which is the information itself).

According to the second aspect of the present invention, the period power consumption storage means stores the period allowable power consumption determined by the budget or the like input in advance by the administrator or the like. The power consumption reduction unit compares the period power consumption estimated by the period power consumption estimation unit with the allowable power consumption amount stored in the period allowable power consumption storage unit, and if the former is larger than the latter, The set temperature of the air conditioner and the air conditioning capacity are automatically corrected to energy saving so that the period power consumption newly estimated by the period power consumption estimation means becomes the amount determined by the latter (including other measures. Get).

In the invention of claim 3, the consumed power storage means stores the power already consumed during the period based on the information on the operation output from the air conditioner output control means, for example, the integrated consumption amount. Recognize and remember. The remaining power consideration power consumption reduction unit of the power consumption reduction unit reflects the consumed power stored in the consumed power storage unit and more accurately and automatically corrects the set temperature of the air conditioner and the like.

[0024] In the invention of claim 4, the electricity charge calculation unit in the period power consumption estimating means predicts and calculates the electricity charge during the period from the estimated period power consumption. The electricity charge display section in the power consumption related information display means displays information about the electricity charge based on the calculation result of the electricity charge calculation means, thereby strongly appealing to the occupant for energy saving.

In a fifth aspect of the present invention, the first specific time zone storage unit in the power consumption reducing means has a time (including a plurality) when a person enters the space to be air-conditioned or a time when a work is started (including). , A plurality of), and at least one is input and stored in advance by an administrator or the like. Similarly, the automatic correction easing unit does not automatically correct the set temperature or the like for the time stored in the first specific time storage unit or the time zone determined from the time.

In a sixth aspect of the present invention, the second specific time zone storage section in the power consumption reducing means is the time when a person leaves the space to be air-conditioned, such as midnight or 5:00 pm, or during lunch break or control. At least one of the time for stopping the work such as tea time is directly input or indirectly input such as by detecting by turning off the indoor lighting and stored. Similarly, the automatic correction adjustment unit sets the set temperature for the time stored in the second specific time storage unit or a time period determined from the time, for example, from 30 minutes before leaving the room to leaving the room or when the room is turned off. Etc. will not be gradual compared to other time zones, or at least to strengthen automatic correction.

In the invention of claim 7, the first specific time storage unit in the remaining power consideration power consumption reduction unit inputs at least one of the time when a person enters the space to be air-conditioned or the time when work is started. Be remembered. Similarly, the automatic correction mitigating unit automatically corrects the set temperature or the like for the time stored in the first specific time storage unit or the time zone determined from the time, for example, from 8 am to 8:30 am. Do not do it or make it loose.

In the eighth aspect of the present invention, the second specific time zone storage section in the remaining power consideration power consumption reduction section stores the time when a person leaves the space to be air-conditioned, or from midnight to 1:00 pm. At least one is input and memorized during the time period when the work is stopped. Similarly, for the time stored in the second specific time zone storage section or the time zone determined from the time, the automatic correction adjusting section enhances the automatic correction of the set temperature or the like or at least compares it with other time zones. Do not loosen.

[0029] In the invention of claim 9, the air conditioner has at least one of a cooling unit and a dehumidifying unit, and the period includes the summer when the cooling is required (of course, the place where the unit is installed). In Australia, the moon is the opposite of Japan.) According to a tenth aspect of the invention, the air conditioner has a heating unit, and the period includes a period when heating is required, for example, winter.

According to the eleventh aspect of the present invention, the verification unit controls the control capability of the air conditioner output control unit based on the information about the temperature set by the user, the information about the actual room temperature, and the information from the external temperature sensor. You can get at least one of the information about the heat source of load, and as a result, you can get the performance guarantee of the air conditioner and the data of future air conditioning.

[0031]

DESCRIPTION OF THE PREFERRED EMBODIMENTS An air conditioning control device according to the present invention will be described below based on embodiments. (First Embodiment) FIG. 1 shows an air conditioning controller 13 according to the present invention.
It is a block diagram of a first embodiment of. The air-conditioning control device 13 of the present embodiment comprises equipment constituting an air-conditioner main body composed of a compressor 1, an expansion valve 2, an indoor / outdoor blower 3, a wind direction plate 4, etc., and an air-conditioner control means 5 for controlling those equipment, An air conditioning capacity estimating means 6 for estimating the air conditioning capacity from the operating frequency f of the compressor 1, an outside air temperature sensor 7 for detecting the outside air temperature outside the room, and an air conditioning performance storage means 8 for storing the estimated values of the outside air temperature and the air conditioning capacity. ,
Based on the current outside air temperature, the air conditioning capacity, the set temperature ts, and the past year history information stored in the air conditioning result storage means 8, the annual power consumption estimation means 9 for estimating the annual power consumption, and the estimated annual power consumption The electricity charge calculation means 10 for calculating the electricity charge and the information such as the estimated electricity charge are clearly shown to the air conditioner user, and the set temperature ts input by the air conditioner user is output to the air conditioner control means 5. The power consumption amount display input means 11 and the power consumption amount control means 12 that automatically adjusts the set temperature ts so that the estimated annual power consumption becomes a predetermined value.

Next, the operation of the air conditioning controller 13 will be described. The air conditioner control means 5 controls each part of the air conditioner so that the room temperature becomes the set temperature ts. Specifically, the compressor frequency is changed based on the difference between the set temperature and the actual room temperature so that the difference between the two is reduced. However, although various inventions are made in details in this regard, the principle itself is not directly related to the so-called well-known technology and the gist of the invention of the present application, and therefore further description will be omitted.

The air conditioning capacity estimating means 6 is the compressor 1 in operation.
The current air conditioning capacity Q'is estimated from the operating frequency f of. In addition, in principle, this is because the operating frequency is the number of revolutions of the compressor,
As a result, the fact that it is almost proportional to the air conditioning capacity is used. Now, as is obvious from the second law of thermodynamics, the air conditioning capacity changes when the outside air temperature tg changes. For example, in the case of cooling operation, the capacity increases as the outside air temperature tg, which is the exhaust heat source, decreases as shown in FIG. FIG. 2 is a characteristic diagram that is the basis of the estimation method of the air conditioning capacity estimation means 6 of the present embodiment. This figure shows that the operating frequency f of the compressor is 100% of the rating.
%, 50%, and 20%, the capacity changes linearly with respect to the outside air temperature tg. The slope of this straight line is the JIS standard for room air conditioners (room air conditioner, C9612).
As shown in, the estimation can be performed by assuming that at the outside air temperature of 29 ° C., a capacity of 1.077 times the capacity at the rated condition outside air temperature of 35 ° C. can be obtained.
Therefore, if the outside air temperature tg during operation and the operating frequency f of the compressor 1 at that time are known, the current air conditioning capacity Q (tg) can be estimated as follows. That is, the air-conditioning capacity straight line of frequency 100% is set to the linear expression (coefficients are Aa and Ba) Qa (tg) = Aa * tg + Ba concerning the outside air temperature tg, and the air-conditioning capacity straight line of frequency 50% and 20% is Qb. Assuming that (tg) = Ab * tg + Bb Qc (tg) = Ac * tg + Bc, the air-conditioning capacity Qa (tg '), Qb (tg'), Qc (tg) for the current outside air temperature tg 'can be calculated by the above three equations. ') Is obtained, and the air conditioning capacity Q'is estimated by the following equation from the ratio fr' [%] of the current operating frequency f'and the rated operating frequency.

Q '= Qb (tg') + (fr'-50) * (Qa
(tg ')-Qb (tg')) / 50 When 50≤fr'≤100 Q '= Qb (tg') + (fr'-50) * (Qb (tg ')-Qc
(tg ′)) / 30 fr ′ ≦ 50 Next, the outside air temperature detected by the outside air temperature sensor 7 and
Information on the air conditioning capacity of the air conditioner in operation estimated by the air conditioning capacity estimating means 6, record information of the air condition record storing means 8 for storing the past record data, and air conditioner controlling means 5
The annual power consumption estimated by the air-conditioning unit is estimated by the annual power consumption estimation means 9 from the set temperature set in.

An estimation method in the annual power consumption estimation means 9 in such a configuration will be described below. FIG. 3 is a characteristic diagram that is the principle of a general calculation method of annual power consumption. As shown in the figure, it is assumed that the air conditioning load linearly varies depending on the outside air temperature during cooling and heating (according to JIS standard C9612 regarding room air conditioners). On the other hand, the air conditioning capacity of the air conditioner also varies linearly with the outside air temperature as described in the description of the function of the air conditioning capacity estimating means 6. It is also assumed that the power consumption of the air conditioner varies linearly with the outside air temperature (according to JIS standard C9612 for room air conditioners). Further, the time for operating the air conditioner has a certain time frequency distribution depending on the outside air temperature. Although it varies depending on the climate characteristics of the area where the air conditioner is installed, it is known that the frequency distribution shown in Fig. 4 is averaged over Japan (according to JIS standard C9612 for room air conditioners). . Based on these information, the power consumption corresponding to the air conditioning load is calculated as follows.

First, the operating frequency rating ratio is 100%, 50
The points (E1, E2, E3, E4, E5, E6) at which the air conditioning capacity straight lines of% and 20% intersect the air conditioning load straight line are obtained. Power consumption at the intersection (P1, P2, P3,
It is considered that the polygonal line connecting P4, P5, P6) in a straight line represents the power consumption required to realize the air conditioning load. Therefore, the power consumption P (tg) thus obtained and the generation time T (t of the outside air temperature tg
From g), the period power consumption KP is calculated by the following equation.

KP = Σ P (tg) * T (tg) (Σ
Is performed for tg) FIG. 5 is a characteristic diagram which is the basis of the calculation method of the annual power consumption in the annual power consumption estimation means 9 of the present embodiment. The air-conditioning load as shown in Figure 3, but is approximated in advance assumed linear W, is estimated actual outside air temperature tg ⁿ of the air conditioner in operation, the operation frequency of the compressor 1 at that time A straight line V parallel to the air conditioning load can be drawn from the air conditioning capacity Q ⁿ . This straight line V is assumed as the current approximate straight line of the air conditioning load, and the annual power consumption is newly calculated by the method described in FIG. 3 to obtain the annual power consumption according to the current installation condition and operating method of the air conditioner. The quantity can be estimated.

Further, by using the past performance data of the outside air temperature and the air conditioning capacity stored in the air conditioning performance storage means 8, the accuracy of the annual power consumption can be further improved. FIG. 6 is a characteristic diagram which is the basis of the method of calculating the annual power consumption with high accuracy by the annual power consumption estimation means 9 of the present embodiment. For example, past outside air temperature (tg1 to tg4) and air conditioning load (Q1 to Q4)
If there are four points of data, it is possible to newly draw an air conditioning load approximate straight line U connecting them. Considering that line as a new air conditioning load line, the annual power consumption is estimated by the method described in FIG. As a result, the more the past air-conditioning performance information is collected, the more accurate the annual power consumption can be estimated according to the installation condition of the air conditioner.

Further, using the annual power consumption estimated by the annual power consumption estimation means 9, the electricity charge calculation means 10 multiplies the electricity charge calculation coefficient to calculate the electricity charge. Further, the information on the electricity charge is displayed on the power consumption display input means 11 and is clearly shown to the air conditioner user. The air conditioner user can raise or lower the set temperature based on this information. FIG. 7 is an external view of the power consumption display input means 11 of this embodiment. In this figure, (1) shows the monthly electricity cost and annual electricity cost estimated from the current set temperature, and (2) is not only the estimated electricity cost and budget of this season, but also desirable from the viewpoint of budget. The set temperature is also displayed. With these indications, the air conditioner user can take the displayed electricity bill into consideration and set the temperature ts.
Can be determined and entered.

Further, when the annual power consumption estimated by the annual power consumption estimating means 9 exceeds a predetermined target value, the power consumption control means 12 raises the set temperature ts if it is cooling. It has a correction function such as making it. In other words, the target value of annual power consumption is KPref,
When the estimated annual power consumption is KP, KP> KP
At the time of ref, the set temperature ts is increased by a predetermined step width ΔS during cooling, and is decreased during heating. By adjusting the set temperature in this way, it becomes possible to perform energy-saving air conditioning considering the annual power consumption. (Second Embodiment) This embodiment relates to efficient correction of a set temperature.

In the case of reducing the load on the air conditioner for energy saving, it is inefficient to correct the set temperature to a value closer to the outside temperature, for example, in the following points. (1) In the case of air conditioning, for example, companies and offices often walk for commuting at the beginning of work, and are often outdoors in hot weather at the beginning of work immediately after the lunch break. It is preferable that the room temperature is the same as during the original cooling operation to recover the physical condition.

(2) It is uneconomical to perform at least the original cooling operation because no work is performed during the lunch break and the room temperature is cold for a while even if the cooling is stopped at a time close to leaving the office. is there. (3) From the viewpoint of human health, it is not preferable that there is a large difference between the room temperature and the outside temperature when leaving the room.

(4) In order to give a person a nervous feeling, it is preferable that the room temperature has some fluctuations that fluctuate up and down. (5) In the morning and evening when the outside temperature is relatively low, there is little trouble even if there is little cooling or no cooling. (6) It is uneconomical to air-condition a room with no occupants.

Therefore, in the present embodiment, these settings are reflected to automatically correct the set temperature. FIG.
The contents are shown in. In this figure, (1) shows the relationship between time, working hours, and lunch break hours. As shown in the figure, the start time is 8 am, the end time is 5 pm, and the lunch break is from 2:00 pm to 1:00 pm. (2) shows a first example of operation for energy saving, (3) shows a second example, and (4) shows a third example.
In (1), (2), and (3), the horizontal axis represents the time corresponding to (1). The vertical axis shows the original air conditioning load of 1
The load when it is set to 00% is shown. The horizontal black line in these figures is the original air conditioning load. (Therefore, this is different from the load on the air conditioner itself. Also, the load on the original air conditioner probably peaks at about 2:00 pm in summer, so if the load on the air conditioner is taken as the standard, The air conditioning load of
It becomes a convex curve with a peak at about 2:00 pm. ) Next, the broken line is the corrected load.

By the way, in the first example, the entry time and the work start time immediately after a person exercises for commuting or the like are set as the original air conditioning load, so that the work can be promptly performed. On the other hand, at the stage of starting work, the air conditioning capacity is being reduced. Also, during lunch break when no work is done, the load is set to 0, considering that there are few people in the room due to meals and the like. Second
In the example, at lunch break and at the time of leaving the office, the load of the air conditioner is gradually reduced, and while maintaining the cooling by using the room air and the excess cooling of the indoor equipment, the room temperature of the person in the room is adjusted to the outside temperature. Is gradually increasing.

In the third example, for the purpose of maintaining the tension of the person in the room, fluctuations are taken in the room air temperature, and at the same time, the room temperature is moderate so that the physical condition is not disturbed by the temperature difference between the lunch break and the outdoors. We are trying to maintain the health of the people in the room, while trying to maintain the tension while maintaining a healthy rise. In addition to the above, in all of the above three examples, when the room lighting is detected and turned off, the refrigerant valve is closed or the blower fan is stopped to stop or minimize the air conditioning in the room. I am trying. However, since detection of indoor lighting and the like are so-called known techniques, illustration and description thereof are omitted. (Third Embodiment) FIG. 9 is a block diagram of a third embodiment of the air conditioning control device according to the present invention.

In the figure, reference numeral 21 is an outside air temperature sensor for measuring the outside air temperature. An indoor temperature sensor 22 measures the indoor temperature. Reference numeral 23 is an exhaust heat source temperature sensor for measuring the temperature of the exhaust heat source of the air conditioner, for example, the temperature of cooling water or the outside air.
Reference numeral 24 denotes an integrated power meter for the compressor, which measures and stores the power consumption of the compressor of the air conditioner at the present time and for a fixed time. Reference numeral 25 denotes an infiltration heat calculation unit that calculates the infiltration heat into the room based on the outside air temperature and the indoor temperature. Therefore, the heat insulation condition stores the heat insulation conditions such as the outer surface area of the building and the concrete thickness. A storage unit 251 and a thermoconductive storage unit 252 which stores thermophysical property values such as the thermoconductivity of concrete are incorporated. Reference numeral 26 is a removal heat calculation unit that calculates the removal heat amount by the air conditioner from the indoor temperature, the exhaust heat source temperature, and the power consumption of the compressor. For this reason, the cooling cycle storage unit 261 that stores the heat cycle and the like adopted by the air conditioner, the refrigerant physical property storage unit 262 that stores the physical properties of the refrigerant, and the mechanical conditions such as the area of the cooler of the air conditioner and the compressor capacity are set. A built-in air conditioner condition storage unit 263 is stored. Reference numeral 27 denotes an indoor heat source calculation unit that calculates the number of people in the room by taking into consideration the indoor heat source amount, and eventually the dehumidifying amount, from the infiltration heat and the removal heat. Therefore, the amount and temperature of the fresh air taken in and the amount of heat from a separate fan or lighting are also input (however, these devices are not shown because they are complicated). 28 is a clock with a calendar. Reference numeral 29 denotes excess power calculation means, and therefore, period power consumption estimation means 291 and period power consumption storage means 29.
2 built-in. A power consumption reduction content determination unit 30 determines what kind of power consumption reduction is to be performed according to various conditions. For this reason, the condition unit 30
1 and a reduction content section 302 are built in. The condition part is a numerical value for each condition item such as excess rate of power consumption against planned power, number of occupants, room area, number of remaining days and date related to consumption, time, etc., and each digit. It has a judgment table of whether or not. The reduction content portion 302 describes the number corresponding to each digit of the judgment table, that is, the content of how to reduce the power consumption for each condition. Then, reductions are made according to the contents of this description. Specifically, (1) When the room is large and the number of people in the room is small, the ventilation rate of outside air and room air is reduced. In particular, it will be 3% from 1:30 pm to 3:30 pm in August. At the same time, when the air conditioning is stopped during lunch breaks or when operating at 20%, the ventilation volume will be set to 30% and efforts will be made to take in fresh air as much as possible.

(2) Even if there are many occupants for the room area, if the excess rate is high, it is 14:00 in summer.
By 15:00, exchange of fresh air and indoor air system will be reduced to 5%. (3) The room temperature will be set higher from 1:30 pm to 3:30 pm in August. This is because the outside temperature is originally high, and even if the room temperature rises to some extent, the person in the room does not feel that the cooling capacity is insufficient and natural energy saving can be achieved.

(4) In addition to the above, if the information that the number of smokers is small is obtained by a separate pyroelectric infrared sensor or smoke detector (not shown), the intake amount (rate) of fresh air can be determined. Lower it further. (5) If it is separately input that there are many young women in the room, the temperature of the room is raised a little because many women are cold.

As a result, the power consumption can be reduced according to the situation. At the same time, information about the control capability of the air conditioner output control means, that is, the air conditioning capability and the load heat source can be obtained. Then, such information can be used as the capacity guarantee of the air conditioner and future data. Although the present invention has been described above based on the embodiments, it goes without saying that the present invention is not limited to the above embodiments. That is, (1) Each unit such as the power consumption control unit according to the present embodiment may be dedicated hardware, a circuit, or software using a computer.

(2) Although the air-conditioning capacity estimating means estimates the air-conditioning capacity from the operating frequency of the compressor in the embodiment, it may be calculated using information such as a sensor for measuring the air-conditioning capacity. . In addition, to estimate the air conditioning capacity,
The opening degree of the expansion valve may also be taken into consideration. (3) In the embodiment, the annual power consumption estimation means estimates the annual power consumption and performs control based on the amount, but this is the monthly, weekly, or daily power consumption. May be estimated and used for control based on this, or may be used in combination with annual control.

(4) For the convenience of manufacturing, etc., one of the essential items (components or parts, means, parts) of the present invention may be divided into a plurality of parts, or conversely, a plurality of items may be integrated, or these items may be integrated. May be appropriately combined. (5) Depending on the budget of period power consumption, budget allowance, etc., the set temperature is not automatically corrected until the actual power consumption exceeds the planned power consumption by a certain threshold value or a ratio of a certain threshold value or more. Functions may be added.

(6) The output load of the compressor is adjusted not by the change of the frequency but by the change of the voltage and the current itself for driving the motor. The load control and the estimation of the air conditioning capacity are based on the voltage and the current. It may be performed. Further, the exhaust heat source may be cooling water instead of the outside air temperature. (7) In a heat pump for both heating and cooling, at least two types of thermometers are provided to measure the heat absorption source during heating and the exhaust heat source during cooling. It is also possible to perform accurate load control, estimation, etc., in consideration of the characteristics of (eg, chlorofluorocarbon gas). Centralized control of air conditioners such as large-scale buildings would be more preferable.

(8) Although mentioned a little in the third embodiment, it is possible to make a full-scale automatic correction not only for simple cooling and heating, but also for dehumidification, blowing, and the like. Further, dehumidification, ventilation, etc. may be controlled together with automatic correction of the set temperature. For example, a room temperature with a high heat load is automatically corrected to a higher value during cooling, and dehumidification with a relatively low load and air blowing with a low load are both compensated for and the ability is not reduced.

Especially when there are many people in the room, dehumidification should not be avoided. Therefore, the amount of heat removed from the indoor air is the same, but the amount of cooling air is small, while the cooling temperature may be lowered (however, it depends on the indoor temperature and the indoor humidity). (9) In air conditioning, at around 2:00 pm when the heat load becomes large, the load becomes large (high temperature) The intake of outside air is reduced as much as possible compared to other time zones, and other means are used together. May be.

(10) Electric power is supplied throughout the year, and the set temperature may be automatically corrected through both cooling and heating. (11) In the case of multi-room type air conditioning, the electric power is saved according to the type of each room. (12) In addition to the above, the temperature of the exhaust heat source is almost constant yearly if it is groundwater. The outside air temperature is almost constant in the tropical zone. Therefore, various methods can be considered for estimating the power consumed during the period. The simplest one is that the consumption of the remaining days is proportional to the number of days elapsed up to the present.
The same applies to the estimation of the efficiency of the cooling machine and the estimation of the cooling capacity. That is, if the indoor set temperature and the exhaust heat source temperature are constant, the cooling capacity is almost proportional to the power consumption. In addition, the heat of entry is almost proportional to the difference between the outdoor temperature and the indoor temperature. For this reason,
To estimate the power consumption during the period that is the target of comparison with the allowable power consumption during the period, consider the latitude where the air conditioner is set, the condition of the cooling cycle such as the exhaust heat source of the air conditioner, and other heat insulation conditions of the building. However, an optimum method is adopted, and various measures are taken to save labor in creating a calculation program while exhibiting the effects of the present invention.

[0057]

As described above, in the air conditioning control device according to the present invention, the annual power consumption is estimated from the current operating conditions of the air conditioner, the value is notified to the user, and the estimated annual consumption is calculated. The set temperature of the air conditioner is determined so that the amount of electric power will be below a certain value, and eventually air conditioning can be performed in consideration of long-term energy saving.

At this time, the occupants of the room are not made uncomfortable, and they are comfortable from a psychological and health standpoint, and the power consumption is appropriately reduced. In addition, data on air conditioner performance guarantee and future air conditioning design can be obtained.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a first embodiment of an air conditioning control device according to the present invention.

FIG. 2 is a characteristic diagram that is the basis of the estimation method of the air conditioning capacity estimation means in the above embodiment.

FIG. 3 is a characteristic diagram that is the basis of a method of calculating an annual power consumption amount used in the above embodiment.

FIG. 4 is a characteristic diagram showing an outside air temperature generation frequency used in the above embodiment.

FIG. 5 is a basic characteristic diagram used when estimating the annual power consumption of the annual power consumption estimation means in the above-described embodiment.

FIG. 6 is a basic characteristic diagram used in the highly accurate calculation of the annual power consumption of the annual power consumption estimation means in the above-described embodiment.

FIG. 7 is a diagram of a specific example of a display of a power consumption amount display input unit in the above-described embodiment.

FIG. 8 is a specific example of power consumption reduction in the second embodiment of the air conditioning control device according to the present invention.

FIG. 9 is a configuration diagram of a third embodiment of the air conditioning control device according to the present invention.

[Explanation of symbols]

 1 Compressor 2 Expansion valve 3 Indoor / outdoor blower 4 Wind vane 5 Air conditioner control means 6 Air conditioning capacity estimation means 7 Outside air temperature sensor 8 Air conditioning result storage means 9 Annual power consumption estimation means 10 Electricity charge calculation means 11 Electric power consumption display input Means 12 Power consumption control means 13 Air conditioning control device 25 Infiltration heat calculation unit 26 Removal heat calculation unit 27 Indoor heat source calculation unit 28 Calendar clock 29 Excess power consumption calculation unit 30 Power consumption reduction content determination unit 301 Conditional unit 302 Reduction content unit

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[Procedure amendment]

[Submission date] September 13, 1995

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Claim 1

[Correction method] Change

[Correction contents]

[Procedure amendment 2]

[Document name to be amended] Statement

[Correction target item name] Claim 9

[Correction method] Change

[Correction contents]

[Procedure 3]

[Document name to be amended] Statement

[Correction target item name] Claim 10

[Correction method] Change

[Correction contents]

[Procedure amendment 4]

[Document name to be amended] Statement

[Correction target item name] Claim 11

[Correction method] Change

[Correction contents]

[Procedure Amendment 5]

[Document name to be amended] Statement

[Correction target item name] 0019

[Correction method] Change

[Correction contents]

In the invention of claim 9, the air conditioner has at least one of a cooling section and a dehumidifying section, and as the above-mentioned period, a cooling period storage section for storing the summer season when cooling is required. It is characterized by having. According to a tenth aspect of the invention, the air conditioner has a heating unit, and as the period, there is a heating period storage unit that stores a winter season when heating is required.

[Procedure correction 6]

[Document name to be amended] Statement

[Correction target item name] 0020

[Correction method] Change

[Correction contents]

According to the eleventh aspect of the present invention, a set temperature input section for inputting information about a set temperature by a user, a room temperature input section for inputting information about an actual room temperature, and information from an external temperature sensor. For an air-conditioning control device having an external temperature input unit for inputting, and a verification unit for verifying at least one of the information about the control capacity of the air-conditioner output control unit and the load heat source from the input information. It is used as a verification method.

[Procedure amendment 7]

[Document name to be amended] Statement

[Name of item to be corrected] 0029

[Correction method] Change

[Correction contents]

[0029] In the invention of claim 9, the air conditioner has at least one of a cooling unit and a dehumidifying unit, and the cooling period storage unit has a period such as summer when the cooling is required as the period (of course, (It depends on where it is installed. In Australia, it is the reverse of Japan in terms of the moon.) In the invention of claim 10, the air conditioner has a heating unit, and the heating period storage unit stores a period when heating is required, for example, winter as the period.

[Procedure amendment 8]

[Document name to be amended] Statement

[Correction target item name] 0030

[Correction method] Change

[Correction contents]

In the eleventh aspect of the invention, the verification unit outputs the air conditioner output based on the information input about the temperature set by the user, the information input about the actual room temperature, and the information input from the external temperature sensor. It is possible to obtain at least one of the information regarding the control capability of the control means and the load heat source, and thus the data regarding the performance guarantee of the air conditioner and future air conditioning.

Claims (11)

[Claims] 1. An external temperature sensor for measuring an external temperature, which is an endothermic source for a heating device and an exhaust heat source for a cooling device, and a set temperature input by a user and information about an actual room temperature detected by a room temperature sensor. Based on the air conditioner output control means that controls the operation output of the air conditioner that has at least one function of cooling or heating, and how much power is consumed when operating the air conditioner during summer, winter, year, etc. For a certain period of time to be studied, a period load heat source storage unit that stores information about the load heat source such as the outside air temperature during the period, information stored in the period load heat source storage unit, and the external temperature sensor. At least one piece of information about the external temperature, the month, day, hour, minute, etc. detected by and the current output controlled by the air conditioner output control means, and at least one operation output of past integration. Using the information about the period power consumption estimating means for estimating the power consumed by the air conditioner during the above period, and the information related to the period power consumption estimated by the period power consumption estimating means to the user of the air conditioner. An air conditioning control device, comprising: a power consumption related information display means for displaying the power consumption related information. 2. A period permissible power consumption storage unit for storing the period permissible power consumption determined by a budget or the like input by an administrator, and a period power consumption estimated by the period power consumption estimation unit and the permissible period power consumption storage. Compared with the allowable power consumption stored in the means, if the former is larger than the latter,
It has a power consumption reduction means that automatically corrects at least one of the set temperature and air conditioning capacity of the air conditioner so that the period power consumption newly estimated by the period power consumption estimation means becomes the amount determined from the latter. The air-conditioning control device according to claim 1. 3. The consumed power storage means for recognizing and storing the power already consumed during the period based on the information on the operation output from the air conditioner output control means, the power consumption reduction means Has a remaining power consideration power consumption reduction unit that automatically corrects at least one of the set temperature and the air conditioning capacity of the air conditioner by reflecting the consumed power stored in the consumed power storage means. The air conditioning control device according to claim 2. 4. The period power consumption estimation means includes an electricity rate calculation unit that calculates an expected electricity rate during the period from the estimated period power consumption, and the power consumption related information display means includes the electricity rate calculation unit. The air conditioning control according to claim 1, 2 or 3, further comprising an electricity charge display unit that displays information about an electricity charge calculated based on a calculation result of the charge calculation unit. apparatus. 5. The first specific time storage unit, wherein the power consumption reduction means stores and receives at least one of a time when a person enters a space to be air-conditioned or a time when work starts, and the first specific time storage unit. The air-conditioning system according to claim 2, further comprising an automatic correction mitigating unit that does not perform the automatic correction or makes the automatic correction moderate for a time stored in the time storage unit or a time zone determined from the time. Control device. 6. The second specific time zone storage unit, wherein the power consumption reduction unit stores and receives at least one of a time when a person leaves a room to be air-conditioned and a time when work is stopped, and is stored. The time stored in the specific time storage unit or the time zone determined from the time is provided with an automatic correction adjustment unit that strengthens the above automatic correction or at least does not make it slower than other times. The air conditioning control device according to claim 2. 7. The first specific time storage unit, wherein the remaining power consideration power consumption reduction unit stores and stores at least one of a time when a person enters a space to be air-conditioned or a time when work is started, 4. The automatic correction easing unit that does not perform or moderates the automatic correction for the time stored in the first specific time storage unit or the time zone determined from the time. The air conditioning control device described. 8. The second specific time storage unit, wherein the remaining power consideration power consumption reduction unit receives and stores at least one of a time when a person leaves a room to be air-conditioned or a time when work is stopped, The time stored in the second specific time storage unit or the time zone determined from the time is provided with an automatic correction adjustment unit that strengthens the above automatic correction or at least does not make it slower than other times. The air-conditioning control device according to claim 3, wherein: 9. The air conditioner has at least one of a cooling section and a dehumidifying section, and the season is a period when cooling is required, claim 1, and claim 2. The air conditioning control device according to claim 3, claim 4, claim 5, claim 6, claim 7, or claim 8. 10. The air conditioner has a heating section, and the season is a time when heating is required, claim 1, claim 2, claim 3, claim 4, The air conditioning control device according to claim 5, claim 6, claim 7, or claim 8. 11. At least one of the control capability of the air conditioner output control means and the load heat source is obtained from the information about the temperature set by the user, the information about the actual room temperature, and the information from the external temperature sensor. Verification means for the air-conditioning controller according to claim 1, claim 2, claim 3, claim 4, claim 5, claim 6, claim 7, claim 8, claim 9 or claim 10 to be verified. .