KR102329478B1 - Air conditioning and heation control system - Google Patents

Abstract

An object of the present invention is to provide a heating and cooling control system, and the configuration of the present invention includes: a sensing unit 20 for detecting whether a person has entered a heating and cooling zone; a main control unit 30 for selecting a cooling operation mode or a heating operation mode by receiving an entry signal sensed by the sensing unit 20 when a person enters the heating/cooling zone; a cooling driving unit 40 for operating the air conditioner 44 according to a cooling operation mode command of the main control unit 30; a heating driving unit that operates the heater 54 according to the heating operation mode command of the main control unit 30; It is configured to delay the operation of the air conditioner 44 and the heater 54 for a predetermined time, and the sensing unit 20 includes the cooling driving unit 40 and After stopping the operation of the air conditioner 44 and the heater 54 by the heating driving unit, respectively, the air conditioner 44 or the heater 54 is driven by detecting whether a person is staying in the heating/cooling zone characterized in that

Description

Air conditioning and heating control system

The present invention relates to a heating and cooling control system, and more particularly, to a new configuration of heating and cooling that can efficiently cool and heat an outdoor place such as an outdoor golf driving range or a train station, and can efficiently cool and heat any place indoors It is about the control system.

In places such as outdoor golf courses, train stations, and outdoor workshops, people have to receive the outside temperature as it is. Difficulties accompany outdoor activities. Recently, more and more people are playing golf at outdoor golf courses. In the hot summer, it is difficult to enjoy golf because of the heat, and in winter, it is difficult to enjoy golf properly because of the cold. On the other hand, in outdoor activity places such as subway stations, outdoor workshops, and guard posts, it is rare that an air conditioner is installed in the summer or a heating system is installed in the winter. If you want to install a heating device or a cooling device in an outdoor place such as a workplace or outdoor golf course exposed to the outside, there is a problem that you need to install a separate heating device and cooling device. There is a problem in that it is not easy to separately install a cooling device and a heating device in terms of cost or an installation space in an outdoor place.

Korea Registered Utility Model No. 20-0375327 (Registered on January 29, 2005) Korean Patent Registration No. 10-0864219 (registered on October 13, 2008) Korean Patent Registration No. 10-1087528 (November 22, 2011)

The present invention has been developed to solve the above problems, and an object of the present invention is to provide cooling or An object of the present invention is to provide a cooling/heating control system of a new configuration that can efficiently adopt and perform heating and can efficiently cool and heat any place indoors.

According to the present invention for solving the above problems, a sensing unit for detecting whether a person has entered the air conditioning zone; a main control unit for selecting a cooling operation mode or a heating operation mode by receiving an entry signal detected by the sensing unit when a person enters the heating/cooling zone; a cooling driving unit operating the air conditioner according to the cooling operation mode command of the main control unit; There is provided a heating and cooling control system comprising a; a heating driving unit that operates the heater according to the heating operation mode command of the main control unit.

It is characterized in that it is configured to delay the operation of the air conditioner and the heater for a predetermined time after a state in which a person enters the heating/cooling zone is detected by the sensing unit.

The cooling driving unit and the heating driving unit generate an entry signal indicating that a person has entered the heating/cooling zone by the sensing unit, and then delay the operation of the air conditioner and the heater for a time determined by the main control unit. characterized in that it is controlled.

It characterized in that it is configured to further include a cooling delay driving unit and a heating delay driving unit for delaying the operation of the air conditioner and the heater.

The cooling delay driving unit and the heating delay driving unit may be respectively connected to a main control unit, the air conditioner, and the heater.

The sensing unit stops the operation of the air conditioner and the heater by the cooling driving unit and the heating driving unit for a predetermined time while a person enters the heating/cooling zone, and then detects whether a person stays in the heating/cooling zone. It is characterized in that the air conditioner or the heater is driven.

It is characterized in that the main controller determines whether the air conditioner is operated through the cooling driving unit or whether the heater is operated through the heating driving unit is determined by the main controller.

The sensing unit delays the operation of the air conditioner and the heater by the cooling driving unit and the heating driving unit for a predetermined time in a state in which a person enters the heating/cooling zone, and then detects whether there is a movement of a person in the heating/cooling zone. to generate a residual detection sensing signal, and the residual detection sensing signal is received by the main control unit, and the cooling driving unit or the heating driving unit operates the air conditioner or the heater according to an operation command of the main control unit do.

A temperature sensor is provided in the heating and cooling zone, and when the temperature of the heating and cooling zone is sensed below the lower limit minimum temperature by the temperature sensor, the heater is operated by the heating driving unit, and the temperature of the heating and cooling zone is higher than the intermediate inspection temperature The temperature sensor detects a state raised to It is characterized in that it is configured to determine whether the heater is operated.

A first relay is connected to the heater through the heating driving unit, and is configured to operate the heater in the heating/cooling zone in a switched-on state of the first relay.

When the temperature of the heating and cooling zone is in the range of the lower limit minimum temperature and the lower limit minimum temperature range, it is characterized in that it is configured to stop the operation of the heater and the air conditioner.

A temperature sensor is provided in the heating and cooling zone, and when the temperature of the heating and cooling zone is detected within the lower limit minimum temperature range by the temperature sensor, the air conditioner continues to operate up to the lower limit minimum temperature, and the temperature of the heating and cooling zone is the lower limit minimum temperature It is characterized in that it is configured to determine whether or not the air conditioner is operated by the cooling driving unit by sensing whether there is a movement of a person in the heating/cooling zone by the sensing unit at a lower temperature.

A second relay is connected to the air conditioner through the air conditioner driving unit, and the air conditioner is configured to operate in the heating/cooling zone in a switched-on state of the second relay.

It is characterized in that it is configured to be converted to a reset state when a person leaves the heating/cooling zone.

It is characterized in that it is configured to reset when a malfunction of the air conditioner and the heater occurs in the heating and cooling zone.

It is characterized in that it is configured to notify by voice when the air conditioner or the heater is operated.

It is characterized in that it is configured to control the system by the wireless router in case of a system failure.

A support frame is installed in the heating/cooling zone, and a shield member is supported and installed on the support frame, and the shield member goes up to the upper part of the support frame and, when necessary, spreads out like a awning to the lower part of the support frame to provide outside air in the heating/cooling zone It is characterized in that it is formed as an indoor space separated from the

The air conditioning control system of the present invention is capable of heating and cooling outdoors like an outdoor golf course. For example, when playing golf at an outdoor golf course, it can be very hot or very cold in summer or winter while playing golf. It prevents the golfer from feeling cold by warming up while waiting for the tee in the winter, and prevents the golfer from feeling hot while waiting for the tee in the summer.

On the other hand, it should be understood that the above-described effects are part of the effects of the present invention, and the present invention has various other effects in addition to the above-described effects.

1 is a block diagram showing the configuration of an air conditioning control system of the present invention;
Figure 2 is a front view of the main part of the present invention, the air conditioning system
3 is a view showing a shield member which is a main part of another embodiment of the present invention;
4 is a view showing a state in which the indoor space is formed to be separated from the outside by the shield member shown in FIG. 3;
5 is a front view showing a modified embodiment of the heating and cooling device, which is the main part of the present invention;

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The object, features and advantages of the present invention will be more readily understood by referring to the accompanying drawings and the following detailed description. In the drawings, the same reference numbers are used for the same parts. In addition, in describing the present invention, if it is determined that a detailed description of a related known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

In addition, in describing the components of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the components from other components, and the essence, order, or order of the components are not limited by the terms. When it is described that a component is “connected”, “coupled” or “connected” to another component, the component may be directly connected or connected to the other component, but another component is between each component. It will be understood that may also be "connected", "coupled" or "connected".

Referring to the drawings, the air conditioning control system according to the present invention includes a sensing unit 20 , a main control unit 30 , a cooling driving unit 40 , and a heating driving unit as a basic configuration. In the present invention, the sensing unit 20 , the main control unit 30 , the cooling driving unit 40 , and the heating driving unit may be provided in a control box installed at an appropriate location in the heating/cooling zone. Meanwhile, in the present invention, the term "heating/cooling zone" means any outdoor place requiring cooling or heating, such as an outdoor golf course, a train station, a train station, a guard post, and an outdoor golf driving range. The present invention is a cooling/heating control system that can be applied indoors as well as outdoors.

The sensing unit 20 detects whether a person has entered the heating/cooling zone. The sensing unit 20 may be configured as an optical sensor or a proximity sensor to sense whether or not a person has entered the heating/cooling zone.

The main control unit 30 receives a detection signal from the sensing unit 20 . When a person enters the heating/cooling zone, the sensing unit 20 detects that a person has entered, and the main control unit 30 receives the entry signal detected by the sensing unit 20 to control the cooling operation mode or the heating operation mode. will choose

The cooling driving unit 40 operates the air conditioner 44 according to the cooling operation mode command of the main control unit 30 . In the present invention, the air conditioner 44 may employ any device capable of generating cool air in the air conditioning zone, such as a fan or an air conditioner. When a person enters the heating/cooling zone, the sensing unit 20 transmits an entry signal to the main control unit 30, and the main control unit 30 commands the cooling driving unit 40 to operate the air conditioner 44 do. At this time, the sensing unit 20 is configured to delay (delay) the operation of the air conditioner 44 for a predetermined time (eg, for 3 seconds) even if it detects that a person has entered the air conditioning zone. This will be described later.

The heating driving unit operates the heater 54 according to the heating operation mode command of the main control unit 30 . In the present invention, the heater 54 may employ any device capable of generating heat in the heating/cooling zone, such as a heater or an electric stove. When a person enters the heating/cooling zone, the sensing unit 20 transmits an entry signal to the main control unit 30 , and the main control unit 30 gives a command to the heating driving unit to operate the heater 54 . In this case, the sensing unit 20 is configured to delay (delay) the operation of the heater 54 once for a predetermined time (eg, for 3 seconds) even if it detects that a person enters the heating/cooling zone. A drive delay of such a heater 54 will also be described later.

In the present invention, the air conditioner 44 and the heater 54, which are main parts, are built in the air conditioning unit 110, and the air conditioning unit 110 may be installed at a slight inclination toward the ground by a support such as a support pole in the air conditioning zone. The air conditioner (44) and the heater (54) are installed at a slight inclination to face the ground of the air conditioner (110).

It is configured to delay the operation of the air conditioner 44 and the heater 54 for a predetermined time after a state in which a person enters the air conditioning zone is detected by the sensing unit 20 .

The sensing unit 20 generates an entry signal in which a person has entered the heating/cooling zone, and even if the sensing unit 20 generates this entry signal, the air conditioner ( 44) and the heater 54 are controlled to delay the operation. The time for delaying the operation of the air conditioner 44 or the heater 54 after a person enters the heating/cooling zone by the sensing unit 20 may be referred to as a delay time. In the present invention, the delay time is 3 seconds.

The present invention further includes a cooling delay driving unit 42 and a heating delay driving unit 52 for delaying the operation of the air conditioner 44 and the heater 54 for the delay time. The cooling delay driving unit 42 and the heating delay driving unit 52 are respectively connected to the main control unit 30 , the air conditioner 44 , and the heater 54 . The cooling delay driving unit 42 is connected between the main control unit 30 and the air conditioner 44 , and the heating delay driving unit 52 is connected between the main control unit 30 and the heater 54 .

The sensing unit 20 stops the operation of the air conditioner 44 and the heater 54 by the cooling driving unit 40 and the heating driving unit for a predetermined time while a person enters the heating/cooling zone, and then By re-sensing whether or not a person is staying in the heating/cooling zone, it is determined whether the air conditioner 44 or the heater 54 is driven or stopped.

Whether the air conditioner 44 is operated through the cooling driving unit 40 is determined by the main controller or whether the heater 54 is operated through the heating driving unit is determined. That is, even if the sensing unit 20 detects a state in which a person enters the heating/cooling zone, the air conditioner 44 and the heater are operated by the cooling driving unit 40 and the heating driving unit for a time determined by the main control unit 30 . After delaying the operation of step 54 , the sensing unit 20 generates a residual detection sensing signal for detecting whether there is a movement of a person in the heating/cooling zone. The residual detection sensing signal is a signal indicating that a person is staying in the heating/cooling zone, and the residual detection signal is generated by the sensing unit 20 to receive the residual detection sensing signal from the main control unit 30, and the main control unit 30 ), the cooling driving unit 40 or the heating driving unit operates the air conditioner 44 or the heater 54 according to an operation command. In winter, the main control unit 30 controls the heater 54 to continue operating, and in summer, the main control unit 30 controls the air conditioner 44 to continue operating.

A temperature sensor 22 is provided in the heating/cooling zone. The temperature sensor 22 may also be configured to be provided in a control box installed in the heating/cooling zone. It is configured to operate the heater 54 by the heating driving unit when the temperature of the heating/cooling zone is sensed below the lower limit minimum temperature by the temperature sensor 22 . The minimum minimum temperature is 5 degrees C or less.

In addition, the temperature sensor 22 detects a state that the temperature of the heating and cooling zone has risen above the intermediate inspection temperature, and after the temperature of the heating and cooling zone rises above the intermediate inspection temperature, a person in the heating and cooling zone by the sensing unit 20 It senses whether there is movement of The intermediate check temperature is 7℃ or higher. The temperature sensor 22 detects whether the temperature of the heating and cooling zone has risen from the lower limit minimum temperature of 5 ° C or less to the intermediate inspection temperature of 7 ° C or more, and then determines whether the heater 54 is operated by the heating driving unit. do. At this time, when the sensing unit 20 detects that there is a person in the heating/cooling zone, the heater 54 continues to operate, and when it is detected that there is no person in the heating/cooling zone, the heater 54 stops operating. At this time, the determination of whether to operate the heater 54 by the heating driving unit is performed by the main control unit 30 .

On the other hand, the first relay 60 is connected to the heater 54 through the heating driving unit, and is configured to operate the heater 54 in the heating/cooling zone in the switched-on state of the first relay 60 . The first relay 60 is connected to the main control unit 30 , and the first relay 60 is switched to the switched-on state under the control of the main control unit 30 to automatically turn the heater 54 into the heating/cooling zone. will be activated

The second relay 70 is connected to the air conditioner 44 through the cooling drive unit 40 to operate the air conditioner 44 in the cooling and heating zone when the second relay 70 is switched on.

If the temperature of the heating and cooling zone is in the range of the lower limit minimum temperature and the upper limit maximum temperature range, the operation of the heater 54 and the air conditioner 44 is stopped. The lower limit minimum temperature is 5°C, and the upper limit maximum temperature is 27°C.

The temperature sensor 22 senses the maximum operating temperature of the heater 54 and the lowest operating temperature of the air conditioner 44, and stops the operation of the heater 54 and the air conditioner 44 by the main control unit 30 . The switching on/off operation of the first relay 60 and the second relay 70 is performed by the main control unit 30 . The first relay 60 and the second relay 70 are switched on/off by the critical temperature operation unit 39 provided in the main control unit 30 to stop the operation of the heater 54 and the air conditioner 44 or The operation of the heater 54 and the air conditioner 44 is continued. The critical temperature means that the lower limit minimum temperature is 5 °C and the upper limit maximum temperature is 27 °C. When the temperature of the heating and cooling zone is lower than the lower limit minimum temperature, the heater (54) is controlled to operate, and when the temperature of the heating and cooling zone is higher than the upper limit maximum temperature, the temperature sensor When 22 detects the temperature of the heating and cooling zone in the range of 5 ° C to 27 ° C, which is the lower limit minimum temperature and upper limit maximum temperature range, the operation of the critical temperature operation unit 39 of the main controller is in a stopped state and the heater 54 And the operation of the air conditioner 44 is to turn off. It will be said that the main controller controls the temperature control operation in the heating/cooling zone as described above.

The heating and cooling zone is provided with a temperature sensor 22, and when the temperature of the heating and cooling zone is sensed within the lower limit minimum temperature range by the temperature sensor 22 (that is, detected as a temperature higher than the lower limit minimum temperature of 5 ° C.), the The air conditioner 44 continues to operate up to the lower limit minimum temperature, and when the temperature of the air conditioning zone is in the lower limit minimum temperature and upper limit maximum temperature range, it is determined whether there is a human movement in the heating and cooling zone by the sensing unit 20 It is sensed to determine whether the air conditioner 44 is operated by the cooling driving unit 40 . If it is detected by the sensing unit 20 that there is no person in the heating/cooling zone, the operation of the air conditioner 44 will be stopped.

The heating and cooling zone is provided with a temperature sensor 22, and when the temperature of the heating and cooling zone is sensed within the upper limit maximum temperature range by the temperature sensor 22 (that is, detected as a temperature lower than the upper limit maximum temperature of 27 ° C.), the The heater 54 continues to operate up to the upper limit maximum temperature, and when the temperature of the heating and cooling zone is in the lower limit minimum temperature and upper limit maximum temperature range, it is determined whether there is a person's movement in the heating and cooling zone by the sensing unit 20 It is sensed to determine whether the heater 54 is operated by the heating driving unit. If it is detected that there is no person in the heating/cooling zone by the sensing unit 20 , the operation of the heater 54 will be stopped.

In addition, in the present invention, when a person leaves the heating/cooling zone, it is converted to a reset state. A reset unit 34 is connected to the sensing unit 20 and the main control unit 30 , and when the sensing unit 20 detects that a person has left the heating/cooling zone, the system is activated by the reset unit 34 . reset the Resetting the system means switching the heater 54 and the air conditioner 44 to an initial state in which the heater 54 and the air conditioner 44 are in standby mode by stopping the operation.

In addition, it is configured to reset when malfunctions of the air conditioner 44 and the heater 54 occur in the heating/cooling zone. The initial state reset mode is entered not only when the air conditioner 44 and the heater 54 malfunction, but also when the system of the present invention malfunctions. There is a main reset unit 32 in the main control unit 30 , so that the main reset unit 32 switches to the initial state reset mode. That is, when a program error occurs, the system of the present invention is automatically switched to the reset state by the watchdog function.

In addition, the present invention is configured to notify by voice when the air conditioner 44 or the heater 54 is operated. The voice generating unit 36 is connected to the main control unit 30 that operates the air conditioner 44 through the cooling driving unit 40, and the voice generating unit 36 is connected to the voice generating device, and the main control unit ( 30) is configured to generate a cooling operation voice. In addition, the voice generating device is connected to the voice generating unit 36 of the main control unit 30 that operates the heater 54 through the heating driving unit, so as to generate a heating operation voice by the main control unit 30 . do.

Further, the present invention is configured to control the system by the wireless router 38 in the event of a system failure. The wireless router 38 is connected to the main control unit 30, and the wireless router 38 is connected to a base station or a remote controller through a wireless communication network. It may be configured to remotely control the system of the present invention by a base station or remote controller.

The air conditioning control system according to the present invention is capable of heating and cooling outdoors like an outdoor golf course. For example, it can be very hot or very cold in summer or winter while playing golf while playing golf at an outdoor golf course. Prevents golfers from warming up and feeling cold while waiting for a tee-up in winter, and preventing golfers from feeling hot while waiting for a tee-up in summer. In addition to the outdoor golf course, the present invention can perform cooling or heating in other air-conditioning and heating areas such as outdoor golf courses, train stations, train stations, guard posts, and all outdoor places that require cooling or heating, such as an outdoor golf driving range. Rather than having it turned on all the time, it only works when a person enters the heating/cooling zone.

All functions of the outdoor heating and cooling system of the present invention are operated only when a person enters the heating and cooling zone is detected.

When the power is turned on, the person detection sensor ignores it for 3 seconds. That is, when a person enters the heating/cooling zone, the sensing unit 20 detects the person for 3 seconds. After ignoring, if it is detected that a person is in the heating/cooling zone even after that, the outdoor heating/cooling system of the present invention will continue to operate only then. In this case, the 3 seconds is a delay time, and the delay time may be set at an interval other than 3 seconds (eg, 5 seconds).

The system of the present invention continuously delays the human detection basic output for 1 minute, intermediate detection. When the amount of time a person stays in the heating/cooling zone is sensed for 1 minute by the sensing unit 20, the system of the present invention is operated. Again, the system of the present invention is stopped. In this case, the sensing time of 1 minute is also an example, and the sensing duration time may also be changed.

In the present invention, when the temperature sensor 22 is 5° C. or less, the first relay 60 is switched to the switched-on state to turn on the heater 54 (heater, etc.).

During the initial operation, the operation of the heater 54 is maintained so that the temperature rises to 7°C. When the temperature is raised from 5°C to 7°C, the heater 54 is operated until the temperature is further increased by 2°C. At this time, the sensing unit 20 senses and determines whether a person is in the heating/cooling zone. When the sensing unit 20 senses that there is a person in the heating/cooling zone, the heater 54 is continuously operated. Conversely, when it is detected that there is no person in the heating/cooling zone by the sensing unit 20, the operation of the heater 54 is stopped.

In the present invention, the first relay 60 and the second relay 70 are switched off between 6 and 27° C. to stop the operation of the heater 54 (heater) and the air conditioner 44 (fan).

When the temperature sensor 22 is 28° C. or higher, the second relay 70 is switched to the switched-on state to operate the air conditioner 44 (a fan or air conditioner).

In the present invention, the operation of the air conditioner 44 is maintained up to a temperature of 26° C. during initial operation. During the initial operation, the air conditioner 44 is maintained until the temperature of the heating and cooling zone is lowered to 26°C. When the temperature of the heating/cooling zone falls below 26°C, the operation of the air conditioner 44 is stopped. At this time, if a person is not detected in the outdoor cold bag area, the operation of the air conditioner 44 is emphasized.

On the other hand, the outdoor heating and cooling system of the present invention can be operated in a manual mode.

The outdoor air conditioning system of the present invention operates the air conditioner 44 by switching the second relay 70 to the switched-on state regardless of the sensing temperature of the temperature sensor 22 once a person enters the air conditioning zone in hot summer. When a person who has been outside in hot summer and entered the air conditioning area wants to manually operate the air conditioner 44 quickly, the person manually presses the air conditioner switch 72 of the control box provided in the air conditioning area and manually presses the air conditioner 44 can make it go back faster.

In this case, the cooling switch 72 supplies power to operate the heater 54 in response to a command from the main control unit 30 in the normally off state. In the manual operation mode, when a person presses the air conditioner switch 72 once, the air conditioner 44 operation signal is transmitted to the main control unit 30 to operate the air conditioner 44 in the manual mode, and in the main controller, the air conditioner drive unit 40 ) to transmit a command to operate the air conditioner 44 to operate the air conditioner 44 .

When a person presses the air conditioner switch 72 once again, the air conditioner switch 72 is switched to a switched-off state, and the air conditioner 44 is converted into an automatic operation mode.

At this time, the air conditioner 44 operation switch is set to high, medium, and low, so that the user can adjust the operating intensity of the air conditioner 44 by selecting a convenient one from strong, medium, and low depending on the outdoor heating and cooling temperature.

On the other hand, the outdoor heating and cooling system of the present invention operates the heater 54 by switching the first relay 60 to the switched-on state regardless of the sensing temperature of the temperature sensor 22 once a person enters the heating and cooling zone in cold winter. However, when a person who entered the heating/cooling zone after being outside in the cold winter wants to manually operate the heater 54 quickly, the person manually presses the heating switch 62 of the control box provided in the heating and cooling zone by hand. 54) can be made to go back quickly.

At this time, the heating switch 62 supplies power to operate the heater 54 in response to a command from the main control unit 30 in a normally off state. In the manual operation mode, when a person presses the heating switch 62 once, the heater 54 operation signal is transmitted to the main controller 30 to operate the heater 54 in the manual mode, and in the main controller, the heater 54 is operated in the manual mode. Transmitting a command to operate (54) causes the heater (54) to operate.

When a person presses the heating switch 62 once again, the heating switch 62 is switched to a switched-off state, and the heater 54 is switched to an automatic operation mode.

At this time, the operation switch of the heater 54 is set to high, medium, and low, so that the user can adjust the operating intensity of the heater 54 by selecting a convenient one among high, medium, and low depending on the outdoor heating and cooling temperature. For example, when a person enters the air-conditioning area after being outside at an outdoor golf course, if it is too cold, the temperature of the air-conditioning area can be raised the fastest by pressing the operation switch of the heater 54 to high.

The system of the present invention has a Watchdog function. It is a function to reset when a program error occurs. All resetting of the system of the present invention may be performed by the third relay 80 . It may be configured to connect the third relay 80 to the main controller. When a malfunction in which the system of the present invention malfunctions occurs, the third relay 80 resets the system of the present invention. The third relay 80 may be configured to be connected to the main reset unit 32 of the main controller. Resetting the system of the present invention is mainly to reset the air conditioner 44 and the heater 54 to the initial state. At this time, in the present invention, manual reset by a person pressing the third relay 80 by hand is also possible, and it can also be reset in case of malfunction of the present invention from a distance by a remote controller connected to a wireless communication network.

In addition, in the present invention, there is a voice support function. When the first relay 60 is switched on and the heater 54 operates, a voice support service such as “The heater 54 has been activated” can be provided, and the second relay 70 is switched on. When the air conditioner 44 is activated, a voice assistance service such as "The air conditioner 44 has been activated" can also be provided.

Meanwhile, in the present invention, the support frame 122 is installed in the heating/cooling zone, the shield member 132 is supported and installed on the support frame 122 , and the shield member 132 is moved toward the upper portion of the support frame 122 . It rises and spreads like a awning to the lower part of the support frame 122 when necessary to form a heating/cooling zone as an indoor space separated from outside air.

The shield member 132 is configured to normally rise upwards toward the support frame 122 by an unfolding assembly installed on the support frame 122 . Any means for raising and lowering the shield member 132 in the heating/cooling zone may be employed as an unfolding assembly.

When the unfolding assembly includes a winding roller 132WR rotatably installed on the support frame 122 and a motor connected to rotate the winding roller 132WR forward and reverse, the winding roller 132WR is provided with a shield such as vinyl. When the winding roller 132WR is rotated in one direction while the member 132 is connected, the shield member 132 is wound around the winding roller 132WR and rises above the support frame 122, so that the heating/cooling zone is opened to the outside. space, and when the winding roller 132WR is rotated in the other direction, the shield member 132 such as vinyl wound around the winding roller 132WR descends from the upper part of the support frame 122 to the lower part. , the heating and cooling zone is formed as an indoor space separated from the outside. At this time, the shield member 132 is provided with a doorway, and a door (since the shield member 132 is made of a material such as flexible vinyl, the door can also be a flexible vinyl door) is provided at the doorway. The door is configured so that the door can be opened and closed by female Velcro and male Velcro (aka squeak). In a state in which the doorway is opened as a door, a person can enter and exit the interior space of the shield member 132 that descends like a tent through the doorway. In a state in which the doorway is closed with the door, the cooling efficiency by the air conditioner 44 may be further increased, and the heating efficiency by the heater 54 may be further increased. In a state in which the shield member 132 is lowered from the support frame 122, the heating and cooling zone descends like a tent, making the heating and cooling zone an indoor space, and cooling or heating the indoor space increases the cooling efficiency or heating efficiency. it can be In this case, the operation of the unfolding assembly may automatically raise and lower the shield member 132 by an operation switch installed on the support frame 122 of the heating/cooling zone, etc. (132) can also be raised and lowered. Preferably, the shield member 132 is provided with a window 133 through which the outside can be seen or is made of a transparent material so that the outside can be seen.

Accordingly, the shield member 132 automatically descends like a tent to create an indoor space separated from the outside in the heating/cooling zone, thereby lowering the temperature or raising the temperature. It is possible to further increase the heating efficiency or cooling efficiency.

On the other hand, in the present invention, in order to prevent the air conditioner or heater from automatically turning off when there is no movement of a person when a person enters the air conditioner or heater when a person enters the air conditioner or heater, the voice generating unit "moves" before the air conditioner or heater is turned off. Please. If it does not move, it will turn off." Before the air conditioner or heater is turned off, try to give a movement guidance message such as "Move it. If it does not move, it will turn off." Of course, the 40 seconds may vary depending on circumstances. When a movement guide message is generated like this, a person will hear the voice and move a little. If a person moves, the air conditioner or heater will continue to operate without being turned off.

In the above, specific embodiments of the present invention have been described above. However, the spirit and scope of the present invention is not limited to these specific embodiments, and various modifications and variations are possible within the scope that does not change the gist of the present invention. Anyone who has it will understand.

Accordingly, since the embodiments described above are provided to fully inform those of ordinary skill in the art to which the present invention belongs the scope of the invention, it should be understood that they are exemplary in all respects and not limiting, The invention is only defined by the scope of the claims.

20. Sensing unit 22. Temperature sensor
30. Main control unit 32. Main reset unit
34. Reset part 36. Voice generating part
38. Wireless router 39. Critical temperature operation part
40. Cooling drive part 42. Cooling delay drive part
44. Air conditioner 50. Heating drive unit
52. Heating delay drive unit 54. Heater
60. Relay 1 62. Heating switch
70. Second relay 72. Cooling switch
80. 3rd relay

Claims (12)

a sensing unit 20 for detecting whether a person has entered the heating/cooling zone;
a main control unit 30 for selecting a cooling operation mode or a heating operation mode by receiving an entry signal detected by the sensing unit 20 when a person enters the heating/cooling zone;
a cooling driving unit 40 for operating the air conditioner 44 according to a cooling operation mode command of the main control unit 30;
and a heating driving unit 50 for operating the heater 54 according to the heating operation mode command of the main control unit 30;
It is configured to delay the operation of the air conditioner 44 and the heater 54 for a certain period of time after a state in which a person enters the heating/cooling zone is detected by the sensing unit 20,
The time for delaying the operation of the air conditioner 44 or the heater 54 after a person enters the air-conditioning zone by the sensing unit 20 is a delay time,
It further includes a cooling delay driving unit 42 and a heating delay driving unit 52 for delaying the operation of the air conditioner 44 and the heater 54 for the delay time, the cooling delay driving unit 42 and the heating delay driving unit ( 52) is connected to the main control unit 30, the air conditioner 44, and the heater 54, respectively,
The sensing unit 20 stops the operation of the air conditioner 44 and the heater 54 by the cooling driving unit 40 and the heating driving unit 50, respectively, for a predetermined time while a person enters the heating/cooling zone. Next, by re-sensing whether or not a person is staying in the heating/cooling zone, it is determined whether the air conditioner 44 or the heater 54 is driven or stopped by the main control unit 30 and
Once a person enters the heating/cooling zone in hot summer, regardless of the sensing temperature of the temperature sensor 22, the second relay 70 is switched to the switched-on state to operate the air conditioner 44. When a person who has entered the air conditioning zone wants to manually operate the air conditioner 44 quickly, the person manually presses the air conditioner switch 72 provided in the air conditioning zone so that the air conditioner 44 is quickly operated in the manual operation mode. composed,
In the normally off state, the air conditioner switch 72 supplies power to operate the heater 54 according to a command from the main control unit 30, and in the manual operation mode, a person turns the air conditioner switch 72 once. When pressed, the air conditioner 44 operation signal is transmitted to the main control unit 30 to operate the air conditioner 44 in manual mode, and the main control unit 30 sends the air conditioner (44) to the air conditioner driving unit (40). 44) to operate the air conditioner 44,
When a person presses the air conditioner switch 72 once again, the air conditioner switch 72 is switched to a switched-off state and the air conditioner 44 is switched to an automatic operation mode,
Once a person enters the heating/cooling zone in cold winter, regardless of the sensing temperature of the temperature sensor 22, the first relay 60 is switched to the switched-on state to operate the heater 54. When a person who has entered the heating and cooling zone wants to manually operate the heater 54 quickly, the person can press the heating switch 62 provided in the heating and cooling zone by hand so that the heater 54 quickly returns to the manual operation mode. there is,
The heating switch 62 supplies power to operate the heater 54 by a command from the main control unit 30 in a normally off state, and in a manual operation mode, a person operates the heating switch 62 . When pressed once, the heater 54 operation signal is transmitted to the main control unit 30 to operate the heater 54 in manual mode, and the main control unit 30 sends the heater ( 54) so that the heater 54 is operated by sending a command to operate,
When a person presses the heating switch 62 once again, the heating switch 62 is switched to a switched-off state and is configured to be switched to an automatic operation mode of the heater 54,
A temperature sensor 22 is provided in the heating/cooling zone, and the temperature sensor 22 senses the maximum operating temperature of the heater 54 and the lowest operating temperature of the air conditioner 44, and heating and cooling by the temperature sensor 22 It is configured to operate the heater 54 by the heating driving unit 50 when the temperature of the zone is sensed below the lower limit minimum temperature, and when the temperature of the heating and cooling zone becomes higher than the upper limit maximum temperature by the temperature sensor 22, cooling configured to operate the air conditioner 44 by the driving unit 40,
When the temperature sensor 22 detects the temperature of the heating/cooling zone as the lower limit minimum temperature and the upper limit maximum temperature range, the operation of the critical temperature operation unit 39 of the main control unit 30 is in a stopped state and the heater 54 ) and the operation of the air conditioner 44 is configured to turn off,
A reset unit 34 is connected to the sensing unit 20 and the main control unit 30, and when the sensing unit 20 detects that a person has left the heating/cooling area, the reset unit 34 is By resetting the system by stopping the operation of the heater 54 and the air conditioner 44 by
A support frame 122 is installed in the heating/cooling zone, a shield member 132 is supported and installed on the support frame 122 , and the shield member 132 is installed in an unfolding assembly installed on the support frame 122 . It is configured to be able to go up and down in the heating and cooling zone by
The unfolding assembly includes a winding roller 132WR rotatably installed on the support frame 122 and a motor connected to rotate the winding roller 132WR forward and reverse, and the shield member is attached to the winding roller 132WR. When the winding roller 132WR is rotated in one direction while the 132 is connected, the shield member 132 is wound around the winding roller 132WR and rises above the support frame 122, so that the heating/cooling zone is removed from the outside. and an open space, and when the winding roller 132WR is rotated in the other direction, the shield member 132 wound around the winding roller 132WR moves from the upper part to the lower part of the support frame 122 . As it descends, the heating and cooling zone is formed as an indoor space separated from the outside, and when the shield member 132 is lowered from the support frame 122, the heating and cooling zone is made into an indoor space like a tent, When cooling or heating such an indoor space, it is configured to further increase the cooling efficiency or heating efficiency,
The shield member (132) is provided with a window (133) through which the outside can be seen or is made of a transparent material so that the outside can be seen.
delete delete delete delete delete delete delete delete According to claim 1,
and resetting when malfunctions of the air conditioner (44) and the heater (54) occur in the air conditioning zone.
According to claim 1,
Air conditioning control system, characterized in that it is configured to notify by voice when the air conditioner (44) or the heater (54) is operated.
According to claim 1,
A heating/cooling control system configured to control the system by means of a wireless router (38) in the event of a system failure.

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