JPS63297954A - Air conditioning control method - Google Patents

Abstract

PURPOSE:To enable control of air conditioning according to an air conditioning condition desired by each person in a room, by a method wherein a personal condition of a person entering a specified portion is discriminated, and according to parameter determined according to the personal condition, an air conditioning state of the specified portion is controlled. CONSTITUTION:According to data received from an access controller (ACC) 9 an individual code and each parameter are registered on an in-room table (INRT) in a RAM 3. Thus, in the INRT, each parameter is registered according to the entrance order of each individual, and is erased, in order, as an individual exists. An average value of parameter of current persons in room is determined, according to the average value, a set value SP of each item is corrected, and the correcting result is transmitted as command data to an air conditioner AHC 8. The AHC 8 controls temperature, an airflow, and an open air amount in a direction in which each item is coincided with its set value SP.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a method of controlling air conditioning conditions in a specific location such as a specific premises or a specific room.

[Conventional technology]

In recent years, building management has adopted a method called intelligent building, which comprehensively manages multiple management items such as air conditioning, lighting, personnel access, and crime prevention. ID (
Identification.

) At the same time as providing a card, the password is memorized, and when entering the site, the ID card is inserted into the card league, and the password is entered on the keyboard, and the card is read and output by the card reader, and the password is The control device determines whether the information is correct or not by comparing the information, and if the information is determined to be legitimate, entry is permitted by unlocking the electric lock.

On the other hand, it has become common for air conditioning control to perform cooling and heating according to seasonal changes, as well as to control according to changes in personnel's working hours and time of day, indoor temperature, indoor humidity, etc. There is.

[Problem that the invention seeks to solve]

However, the desired indoor environment (by air conditioning) varies depending on personal preferences or demands, and it may be preferable and economical to control the air conditioning status accordingly. Since the air conditioning is not controlled according to individual conditions, it is not only uneconomical but also uncomfortable for some individuals.

[Means for solving problems]

In order to solve the above-mentioned problems, the present invention is constructed by the following means.

In other words, all the personal conditions of the person entering a specific area are determined, and the parameters are determined according to these personal conditions.
It is intended to control the air conditioning status of specific areas.

[Effect]

Therefore, by setting parameters according to personal conditions, the air conditioning status of a specific area can be controlled according to the personal conditions of the person who enters the specific area.

〔Example〕

Hereinafter, the present invention will be explained in detail with reference to figures showing examples.

Figure 2 is a block diagram showing the configuration.
ROM) 2 and variable memory (RAM) 3
A main control device (hereinafter referred to as MCT) 4 consisting of a cathode ray tube display (hereinafter referred to as CRT) is provided.
5, and a keyboard (hereinafter referred to as KB) 6 are included. 9. The CPU 1 executes the program in the ROM 2, and the RA
In accordance with the time program (hereinafter referred to as TPO) in M5, it controls each management item such as air conditioning, personnel entry/exit, and lighting, and also performs data setting in RAM5, update, etc. in response to the operation of KB6, and , these conditions and control conditions are displayed on the CRT 5.

In addition, the CPU 1 performs various control operations while accessing the necessary data from the RAM 3, and also transmits and receives data.
t'Lfc blank controllers (hereinafter referred to as AMC) 81 to 8 connected to 7S and distributed to each part of the structure.
L1 access control device (hereinafter referred to as ACC) 9s to 9M% and,
It transmits and receives data to and from the lighting controllers (hereinafter referred to as LTC) 10t to 1ON, instructs the control start and end times for each according to the TPO, receives monitoring data, etc. from each, and makes judgments and commands accordingly. CR
Display etc. are performed using T5.

On the other hand, each of AH081 to 8L has an air conditioner (hereinafter referred to as A
CE)111~11L are connected, and AHCL~8L controls the start, stop, and air conditioning status of ACE11t~11L, and for ACC91~9M, a card reader (hereinafter referred to as CR) 12□~12M1 "0"
, rlJ to "9", etc. (hereinafter referred to as a numeric keypad)
TK) 131 to 13M1 and electric locks (hereinafter referred to as EL) 141 to 14M for locking entrances and exits are connected in the required number, the ID card is inserted into CR12r to 12M, and the password is entered by TK131 to 13M. According to the input, ACC91~9M decodes it, and if it is legitimate, unlocks EL141~14M and allows passage.0 Also, LTC10r~1ONK each has multiple Lighting light (
Hereinafter, IL) 15u ~ 15x, 15u ~ 15y
is connected, LTC10□~1 ON is MCT4
In response to commands from the ILs 15u to 15y, the lights are turned on, turned off, and dimmed, and then a combination of these is controlled.

However, the air conditioning control status by AHC8t~8L is A
AHC81~8L is determined according to the operation of CR12 and TK13 provided at the entrance and exit of each room to be controlled, and in response to a command from MCT4 that follows each output of CR12 and TK13 via the corresponding ACC9. 8L controls the air conditioning status.

FIG. 1 is a flowchart of the control status performed by the CPU 1 of the MCT 4, in response to data received from the ACC 9.
Inserting the ID card into the CR12 and entering the password using the TK13 will allow access to the TJ101.
If YES, use the card's personal code and use the personal table in Table 1 stored in the ROMZ to "determine each parameter that corresponds to the personal code."
102, use the password to determine "Enter?
Personal code, each parameter, registration" 111 is stored.

9. If step 103 is N (NO), leave the room, identify this individual in the same way, and make a friend rINR.
"Delete personal code, each parameter, and delete from T" 112.

In Table 1 and Table 2, the temperature deviation, air volume, outside air volume shown in Table 1,
Each parameter such as the degree of importance is determined as follows, for example, and is set according to each individual's preference or request.

Temperature deviation (filtration T) 1...high (+2℃) 2...somewhat high (+ltl:) 3...standard (0℃) 4...somewhat low (-1℃) ) 5...low (-2℃) Air volume (~) 1..., H (+20%) 2...M (Ocs) 3...Ki・L (-20%) Outside air volume C6 ) 1... Large (+20%) 2... Medium (+10%) 3... Small (arrogant) Importance (ω) 2... Normal 3... Important 4... Most importantly, in INRT in Table 2, each parameter is registered according to the entry order of each person, and the parameters corresponding to each person who is in the room are erased from the head and body as they leave the room. are always registered in INRT, so these are M l = g 1 ~ an\ωl = ω1 ~ ωn
and set value is rS with SP1 reference setting value as spb.
Calculate P=SPb+(>:1・ωt)/nJ121 for each item, correct SPb using the value indicated by the average of each parameter, and send the set value rsp of each item obtained from this 122. Okay, send it as command data to the corresponding AHC 8. Next, depending on whether INRT is registered, "Person in the room 4p?J"
Check 131 and select Y and 9 rACE・O
N command/send" 132 is performed in the same manner as step 122, while if step 131 is N, rACE/OFF command/send" 133 is performed in the same manner, and steps 101 and subsequent steps are repeated.

With this in mind, the AHC 8 that has received these commands controls the temperature, air volume, and outside air volume in a direction that matches the set value SP of each item corresponding to step 122, and also controls the operation according to steps 132 and 133. The air conditioner will be stopped, and the air conditioning will be controlled according to the air conditioning conditions preferred or requested by each individual in the room, taking into account the importance of each individual, and providing average air conditioning control to suit each individual. Provides comfortable and economical air conditioning control.

f:, ';However, identification of each individual may be based on either a card or a password, and entry/exit can be determined by installing CR12t or TK13 individually inside and outside the entrance/exit. The same applies to the case where the process is performed in response to these outputs.

In addition, the tables in Tables 1 and 2 can be selected arbitrarily as long as they have the same contents, and the types of parameters and stages of classification can be determined according to conditions. It is free.

〔Effect of the invention〕

As is clear from the above explanation, according to the present invention, rational air conditioning control is performed according to the personal conditions of the person who enters a specific area, so the air conditioning situation can be made comfortable and economical. , remarkable effects can be obtained in various control devices that perform comprehensive management.

[Brief explanation of the drawing]

The figures show an embodiment of the present invention, with FIG. 1 being a flowchart of the control situation, and FIG. 2 being a block diagram showing the configuration. , 1... CPU (processor), 2... ROM
(fixed memory), 3, number, RAM (variable memory), 4
・φ・-MCT (main control unit), 6 bones...KB (keyboard), 71~73...Transmission line, 81~8L・
...-AUC (air conditioning controller), 91~9M...AC
C (entry/exit controller), 101~1ON...LTC(
Lighting controller), 11□~11L...@ACE (air conditioner), 121~12M...CR (card reader), 1
31~13M...TK (numeric keypad), 141~14
M...@EL (electric lock). Figure 1 Procedural amendment (voluntary) 1. Display of the case 1985 Patent application No. 134050 2 Name of the invention Air conditioning control method 3 Person making the amendment Relationship to the case Patent applicant name (see) Yamatake Honeywell Co., Ltd. 4 Agent address 100 Address Chiyoda, Tokyo Yamakawa International Patent Office, 8th floor, Hidewa Tameike Building, 2-4-2 Nagatacho, ward Telephone: (580) 09B! (Representative) /・, -6 Name (8482) Patent attorney Kazu Yamakawa? , B5.5, Column 6 of Detailed Description of the Invention in the Specification Subject to Amendment, Contents of the Amendment (1) On page 6, line 9 of the specification, after ``Figure 1 is'', ``According to personal preference.'' Add "Judgment of temperature set value". that's all

Claims (1)

[Claims] An air conditioning control method characterized by determining the personal conditions of a person who enters a specific area, and controlling the air conditioning status of the specific area according to parameters determined according to the personal conditions.