KR20070121961A - System for automatically generating schedules for air conditioner - Google Patents

Abstract

A system for automatically generating schedules for an air conditioner is provided to generate operation schedule for an indoor unit efficiently and conveniently using data on human motion and control history of the air conditioner, thereby achieving optimum air conditioning for an indoor space where the indoor unit is installed. A system for automatically generating schedules for an air conditioner includes a human body sensor(38) for sensing a motion of a person including the existence or position in a predetermined space, a storage part(35) for storing data on the human motion and control history of the air conditioner, such as wind direction or wind speed, for a preset time period, and a converter(37) for converting the stored data into schedule data for the air conditioner and storing the schedule data to a storage part(36).

Description

System for automatically generating schedules for Air conditioner

1 is a flowchart illustrating schedule generation of a conventional multi-air conditioner.

2 is a diagram schematically showing the human body detection results and control history in a certain space.

3 is a control block diagram of an air conditioner schedule automatic generation system according to an embodiment of the present invention.

4 is a control flowchart of an air conditioner schedule automatic generation system according to an embodiment of the present invention.

* Description of symbols on the main parts of the drawings *

31: integrated controller 34: indoor unit

35: human body detection data and control history storage

37: conversion unit 38: human body detection sensor

The present invention relates to an air conditioner schedule automatic generation system, and more particularly, using a human body sensor using a data about the movement of a person in a certain space and the control history of the air conditioner in the meantime to easily schedule suitable for each space The present invention relates to an automatic air conditioner schedule automatic generation system.

In general, a multi-air conditioner is an air conditioner that cools and heats an indoor space in which a plurality of indoor unit units are installed by using one or more outdoor unit units. Individual air-conditioning and heating units having an outdoor unit corresponding to each indoor unit are conventionally used. Compared to the system, the price of the equipment is low and the energy use efficiency is high.

In recent years, as the use of air conditioners has increased greatly, a plurality of air conditioning systems in which an air conditioner composed of indoor units and outdoor units are installed in each room of a home or in an office in a building, or a plurality of indoor units which share this outdoor unit with one outdoor unit in the building itself Multi air conditioners or system air conditioners are installed.

As shown in FIG. 1, in order to generate a schedule in the related art, a user selects an indoor unit through which a user wants to generate a schedule through a control device (201), and selects a reservation period to which a schedule is to be applied and an exception day to which the schedule is not applied (202). After selecting the application time and the day of the week to which the schedule is applied (203), the operation status of each indoor unit, the amount of air flow, and the control of the temperature are selected (204) to generate a schedule.

This conventional schedule generation method is very cumbersome because the number of indoor units has to be input for each indoor unit one by one, and when it is difficult to accurately grasp the situation of each room where the indoor unit is installed when the schedule of many indoor units is input by the integrated controller. In addition, it is also uncertain whether the schedule of the indoor unit created by the integrated controller is suitable for the situation of each room in which the indoor unit is installed, and there is a problem of whether the schedule of each indoor unit is appropriate for each room.

In addition, there is a lot of inconvenience in the process of creating or using the schedule as described above, the user tends not to use the schedule function, there is a problem that can not efficiently reflect each room in the schedule of each indoor unit.

The present invention is to solve the above problems, an object of the present invention is to provide an air conditioner schedule automatic generation system that can efficiently and simply create a schedule of each indoor unit using the movement and control history of each person in each air conditioning space. have.

Automatic air conditioning schedule generation system of the present invention for achieving the above object is a human body sensor for detecting the movement of a person in a certain space, the air conditioner for heating and cooling the predetermined space, and the movement of the person detected by the human body sensor A storage unit for storing the data of the air conditioner and the control history of the air conditioner, and converting the data to the schedule data of the air conditioner using the data of the movement of the person stored in the storage unit and the control history of the air conditioner and storing the data in the storage unit. Contains wealth.

The converting unit may convert the stored data into schedule data of the air conditioner by using data for a predetermined time.

In addition, the movement of the person detected by the human body sensor is characterized in that the presence of the person and the position of the person in the predetermined space.

In addition, the control history of the air conditioner is characterized by including the control of the wind direction and the wind speed of the air conditioner.

The converting unit may convert the power of the air conditioner to be cut off for the predetermined time in the schedule stored in the storage unit when the movement of the person is not detected by the human body sensor for a predetermined time.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

Referring to Figures 2 and 3 will be described below an automatic air conditioning schedule generation system according to an embodiment of the present invention. As shown in FIG. 3, the air conditioner schedule automatic generation system of the present invention provides a coolant to the indoor unit 34 provided in each room (schedule space) 20 and the human body sensor 38 and the indoor unit 34 provided to each indoor unit. It includes an outdoor unit 33 for transmitting. Although the outdoor unit 33 is not an essential component of the air conditioner schedule generation system of the present invention, in recent years, many multi-type air conditioners are widely distributed, and high-performance microcomputers are provided in the outdoor unit 33 and each indoor unit 34 includes a multi-type air conditioner. As it is common to control the air conditioning schedule automatic generation system of the present invention may be installed in the outdoor unit (33).

Of course, each indoor unit may be separately or separately provided to include the air conditioning schedule automatic generation system of the present invention.

The outdoor unit 33 and the indoor unit 34 are connected to the integrated controller 31 through a communication line such as RS-485. The integrated controller 31 receives the movement data of the person in each room 20 through the human body sensor 38 of the indoor unit 34 installed in each room (single space) 20 and transmits it to a predetermined time unit (T1). The human body sensing data and control history storage unit (hereinafter referred to as "storage unit") 35 store the control history of each indoor unit including the number of each indoor unit as an index and the like.

The predetermined time unit (T1) is a value that can be set by the user in advance and may be set in various ways such as 1 day, 1 week, and 1 month depending on the situation of each room.

For each predetermined time unit T1, the conversion unit 37 converts the data stored in the storage unit 35 into a schedule of each indoor unit 34 and stores the converted schedule in the schedule data storage unit 36. The schedule data storage unit 36 and the storage unit 35 may be provided in one storage space and are not necessarily installed separately.

If the human movement is not detected for a predetermined time (T2) from the human body sensor 38 provided in each indoor unit 34 in the schedule of each indoor unit 34 stored in the conversion unit 37 regardless of the control history of each indoor unit, At that time, the air conditioner can be set to shut off. This will reduce power consumption of the air conditioner simply and efficiently.

Such a change of the schedule may be performed even if a predetermined time T1 at which the schedule is generated does not pass.

An example of generating a schedule will be described with reference to FIG. 2 when the movement and control history of a person for two days (2006/01/01 ~ 2006/01/02) are recorded from ① to ④. To control the wind direction from 12 o'clock to 17 o'clock, and the wind direction from 17 o'clock to about 17 o'clock to 21 o'clock. After that, turn off the air conditioner and then turn the wind direction to the left from 01/02 9 o'clock to 12 o'clock. Will be able to create a schedule that is strongly controlled.

This schedule can be used as it is, but can be called and modified and changed by the user.

Once a conventional schedule is set, even if the situation of each room changes, the schedule does not change until the user modifies it, so that a schedule does not fit the situation of each room. In particular, when the time of the person in each room is changed, even if there is no person, the air conditioner operates according to the schedule, causing unnecessary power consumption. In this case, the schedule needs to be modified, but in the related art, since each room has to be changed daily after designating each room, there is a very troublesome problem. The present invention automatically generates a schedule based on the movement and control history of a person in each room, so that the schedule can be easily generated to suit the situation of each room.

4 is a control flowchart of an air conditioner schedule automatic generation system according to an embodiment of the present invention. The user selects a period T1 to record as human body sensing (human motion) data and then inputs a command to start recording. (Step S410) The user or the integrated controller 31 controls the user's control or preset control. The wind direction and the wind speed of the air conditioner are controlled according to the program (step S420). The movement data of the person, such as the time and location at which the person was detected in each room, is stored (step S430). As described above, the motion data and the control history of the air conditioner are converted into schedule data and stored in the schedule data storage unit 36 (step S440). It may also include various additional control functions such as whether or not. However, since the schedule is complicated and a certain pattern is not formed, inclusion in the control history should be properly considered in terms of efficiency. The stored schedule data may be used immediately, but may be retrieved by the user (step S450), and if a modification change is needed, the modification / change (step S460) is finally used as a schedule of each indoor unit.

As described in detail above, the present invention has the effect of efficiently and simply generating the schedule of each indoor unit.

In addition, there is an effect that can generate the schedule data to be most suitable for the space that each indoor unit is air-conditioned.

In addition, there is an advantage that unmanned control of the air conditioner is possible.

Claims (5)

Human body detection sensor for detecting the movement of a person in a certain space, An air conditioner for heating and cooling the predetermined space, A storage unit for storing data on the movement of the person detected by the human body sensor and the control history of the air conditioner; And a conversion unit configured to convert the data of the movement of the person stored in the storage unit and the control history of the air conditioner into the schedule data of the air conditioner and store the converted data in the storage unit. The method of claim 1, And the conversion unit converts the air conditioner schedule data into schedule data of the air conditioner by using data for a predetermined time T1 among the stored data of the storage unit. The method of claim 1, The movement of the person sensed by the human body sensor is the air conditioner schedule automatic generation system, characterized in that there is a person in the predetermined space and the location of the person. The method of claim 1, The control history of the air conditioner, the air conditioner schedule automatic generation system, characterized in that it comprises the control of the wind direction and wind speed of the air conditioner. The method of claim 1, The converting unit automatically converts the air conditioner to cut off the power of the air conditioner for the predetermined time from the schedule stored in the storage unit when the human motion is not detected by the human body sensor continuously for a predetermined time T2. Generation system.

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