KR20210097325A - Building automatic control device having facilities management - Google Patents

Abstract

The present invention relates to a building automatic controller having a display touch-type facility management and remote control function. More specifically, a plurality of remote control panels are provided to control a plurality of control target devices placed in a building through a control command transmitted from a server placed in a central control center. The remote control panels are provided with a master controller including a display capable of touch input. A plurality of remote control panels are configured to be able to communicate with each other, so that a controlled device managed by another remote control panel can be controlled through any one remote control panel. The specifications (example: capacity, power consumption, cooling capacity, heating capacity, etc.) of the controlled device installed in the building in the server are input and stored. By inputting and storing the maintenance, management history, and special matters of equipment (example: pumps, fans, air conditioners, refrigerators, new and renewable energy, etc.) constituting each controlled device, through a plurality of remote control panels placed in the building, the information of a controlled device stored in the server can be called and checked, so it is easy to check a past history of maintenance and management of the equipment. By inputting information about the current state of the equipment, the information stored in the server is updated in real time to improve the convenience of management and operations. It is easy to manage the controlled device placed in a remote location and control the information and operation of multiple controlled devices through a single remote control panel, so it is possible to reduce labor costs.

Description

Building automatic control device having facilities management with display touch type facility management and remote control function

The present invention relates to an automatic building controller having a display touch type facility management and remote control function, and more particularly, a control command transmitted from a server disposed in a central control center to a plurality of control target devices disposed in a building. A plurality of remote control panels to be controlled through the remote control panel are provided, and the remote control panel is provided with a master controller including a touch input capable display. It can control the control target device managed by this system, input and store the specifications of the control target device installed in the building in the server (eg capacity, power consumption, cooling capacity, heating capacity, etc.), and configure each control target device. Inputs and stores maintenance, management history, and special matters of equipment (eg, pumps, fans, air conditioners, refrigerators, renewable energy, etc.) Information can be called and checked, so it is easy to check the past history of maintenance and management of the equipment. A touch-based facility management and remote control function that can reduce labor costs because it is easy to manage remote control devices and control information and operations of multiple control devices through a single remote control panel It relates to a building automatic controller having

Recently, as buildings become larger and more functional, various facilities such as air conditioning, sanitation, power, lighting, crime prevention, disaster prevention, and water treatment are complexly installed, and an automated building facility management system for detecting and controlling the installed facilities has been proposed. .

In the conventionally proposed building facility management automation system, the type and installation location of the control target device to be installed is determined according to the purpose of the building during architectural design, and accordingly, the location of the central control center and the number of remote control panels for controlling the control target device and location is determined.

Looking at this in more detail, in the conventional building facility management automation system, a server for overall management and control of the system is provided in the central control center, a control target device (field device) constituting various facilities, and information on the control target device It is composed of a plurality of remote control panels that collects, analyzes and responds, and transmits the collected and analyzed information to the server.

Here, the remote control panel is configured to independently control and operate the control target devices independently of the server, that is, at the location where the remote control panel is installed, the operator operates the remote control panel to control the operation of the control target device and monitor the operation status, etc. should be able to check

However, since the conventional remote control panel is installed to manage and supervise only the control target devices managed and supervised by the remote control panel 1:1, as described above, when communication with the server is cut off or a failure occurs, or an abnormality occurs in the server In this case, there was a problem in that it was impossible to control the operation state of the controlled device and collect information.

In addition, when the operating state of the control target device is erroneously inspected due to a malfunction of the server, there is a problem in that time and economic loss due to the erroneous inspection occur.

And since each remote control panel is configured to communicate 1:1 with the server, the operator must directly move to the location where the remote control panel is installed to check the operation status of multiple remote control panels, and after moving, each remote control panel and server Since it is necessary to update the operation status of the controlled device after communication connection with Therefore, it was not easy to check the operating status of the controlled device and the environmental information inside and outside the building, which made maintenance difficult.

On the other hand, the conventional building facility management automation system includes the specifications (eg, capacity, power consumption, cooling capacity, heating capacity, etc.) of the control target device installed in the building and the equipment (eg, pump, fan, air conditioner, etc.) constituting the control target device. It is difficult to check the maintenance and management history at the site where the control target device is installed because it does not provide information on the control target device, such as refrigerators, renewable energy, etc. It is attached to the outer surface of the controlled device, but the recorded contents can be checked only at the location where the controlled device is installed There is a problem that it is difficult to do, and it is possible to input and check maintenance or management history by establishing a separate system such as a facility management system, but there is a problem in that additional costs are incurred for separately establishing and operating the FMS system.

Republic of Korea Patent Registration No. 10-1041223 Republic of Korea Patent Registration No. 10-1662507

The present invention has been proposed to solve the above problems, and a plurality of remote control panels for monitoring and controlling the operation of a plurality of control target devices installed in a building are provided, and the remote control panel can communicate with a server as well as mutually Display touch-type facility management and remote control system that is equipped to enable communication of An object of the present invention is to provide a building automatic controller having a function.

In addition, according to the present invention, the specifications of the control target device whose operation is controlled by another remote control panel through any one of the plurality of remote control panels and the management history of the equipment can be checked through the display, and the operation is performed by the remote control panel It transmits the management or repair history of the controlled device to the server in real time, and the server stores it and provides it when calling. An object of the present invention is to provide an automatic building controller with facility management and remote control functions.

In order to achieve the above object, the present invention

In a building automatic controller having a display touch type facility management and remote control function,

A plurality of remote control panels equipped with a multi-communication unit are arranged to enable communication between the server or each other, and the detection value and control target for environmental information detected through the sensor from one remote control panel to another remote control panel among the plurality of remote control panels It is configured to transmit or receive a control command of the device,

The remote control panel,

Controls the operation of a plurality of controlled devices placed in a building, and a multi-communication unit for communication between the server and each other is provided to exchange information between the server and a plurality of remote control panels, and from one remote control panel to another remote control panel A master controller including a touch input type display to control the operation of the control panel,

a multi-communication unit for communication with the server or other remote control panel;

an arithmetic unit that analyzes the request signal input through the display or received through the multi-communication unit and generates a result value;

an operation control unit that executes a command for controlling the operation of the controlled device through the result value generated by the operation unit;

a detection value input unit to which the detection value sensed from the sensor is input;

Signal conversion for calculating a result value by matching the detection value of the sensor input through the input unit with the request signal when requesting a detection value detected by the sensor among the request signals input through the display or received through the multi-communication unit wealth,

a storage unit connected to the signal conversion unit to store the converted data;

and an output unit for transmitting the data converted by the signal conversion unit to the display,

The result value calculated through the operation unit includes verification of the request signal received through the multi-communication unit, confirming the presence or absence of environmental information data input through the input unit, and request information of the environmental information data requested by the input unit, ,

The calculation unit searches for environment information data matching the change value converted through the signal conversion unit, and retransmits the matched environment information data to the signal conversion unit, but if the matching environment information data is not found during the search, the conversion value Generates an error value as a result for and transmits it to the signal conversion unit,

The environment information data stored in the storage includes a request time requested from the server, a type of environment information, and a matched environment information data value, and when an error value is generated in the operation unit, matched environment information data The error value is stored instead of the value,

It characterized in that the environmental information data converted through the signal conversion unit is transmitted to the server or another remote control panel to which the request signal is sent through the multi-communication unit of the master controller.

In addition, in the remote control panel,

It stores the specifications of a large number of controlled devices placed in the building and maintenance history, management history and special matters of the controlled devices, and transmits the stored information to the server to update the information of the controlled devices in real time, and from the manager When information of the maintenance history and management history of the device is requested, it is characterized in that it further includes a facility management unit that transmits the manager's request to the server and provides the maintenance history and management history of the control target device transmitted from the server.

In addition, the sensor comprises a state data detection sensor for detecting the operation state information of the device to be controlled, and an environmental data detection sensor for detecting temperature, humidity, pressure, carbon monoxide, and presence of flames inside and outside the building. do.

According to the present invention made as described above, information such as the operation status, specifications, and repair history of a plurality of control target devices, which the administrator managed only through the server, is transferred to another remote control panel through any one of the server and the plurality of remote control panels. There is an advantage in that it is possible to control the operation state of the control target device managed and supervised by the system and to check the above-mentioned information, thereby improving the convenience of management.

In addition, the operation status and management history of the controlled device can be checked through the display provided on the remote control panel, and in particular, the control target device disposed at various locations in the building can be managed and supervised as a whole from one remote control panel. It has the advantage of maximizing convenience.

In addition, there is an effect of improving the stability of management and supervision by allowing the operation of the controlled device to be controlled even when a communication error occurs between the server and the remote control panel or when a server status error occurs.

1 is a configuration diagram schematically showing the configuration of a building automatic controller having a display touch type facility management and remote control function according to the present invention.
2 is a block diagram showing the configuration of a remote control panel according to the present invention.
3 is an exemplary view showing an operation embodiment of a building automatic controller having a facility management and remote control function of the touch display method according to the present invention.
Figure 4 is an exemplary view showing another embodiment of the operation embodiment of the building automatic controller having a touch display type facility management and remote control function according to the present invention.

Hereinafter, in addition to the above objects, other objects and features of the present invention will become apparent through the description of the embodiments with reference to the accompanying drawings.

Unless defined otherwise, all terms used herein, including technical and scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present application. does not

Hereinafter, a preferred embodiment of a building automatic controller having a display touch type facility management and remote control function according to the present invention will be described with reference to the accompanying drawings.

Building automatic controller (1) having a facility management and remote control function of the display touch method according to the present invention,

The server (S) disposed in the central control center or the multi-communication unit 12 is provided to enable mutual communication, each of which is connected to the control target device to control the operating state of the control target device, and through the sensor 30 A plurality of remote control panels (10) configured to mutually transmit or receive sensing values for the operation state information of the detected control target device and environmental information detecting the presence or absence of temperature, humidity, pressure, carbon monoxide, and flame inside and outside the building include

Looking at the remote control panel 10 in detail, the multi-communication unit 12 is provided, and information such as repair and management history of the controlled device or a control command for controlling the operation of the controlled device can be input. The master controller 11 including the display 111, the multi-communication unit 12 for communication with the server (S) or other remote control panel 10, and the request signal received through the multi-communication unit 12 A calculation unit 13 for analyzing and generating a result value, an operation control unit 14 for executing a command for controlling the operation of a control target device through the result value generated by the calculation unit 13, and the sensor 30 When a detection value detected by the sensor 30 is requested among the detection value input unit 15 to which the detected environmental information is input and the request signal input through the display 111 or received through the multi-communication unit 12 A signal conversion unit 16 that matches the detection value of the sensor input through the detection value input unit 15 and the request signal to calculate a result value, and the signal conversion unit 16 is connected to store the converted data and a storage unit 17 that transmits the data converted by the signal conversion unit 16 to the display 111 .

The remote control panel 10 made as described above is configured to be able to communicate with the server S as well as communicate with other remote control panels 10 installed in the building, so that the operation status of the other remote control panel from any one remote control panel is monitored. It is possible to control the operating state of the controlled device being controlled.

In addition, in the process of the administrator monitoring the operating state of the controlled device through any one remote control panel 10 , the operating state of the controlled device matched to the other remote control panel 10 and the building detected through the sensor 30 It has the advantage of improving the convenience of management, supervision and maintenance by being able to check internal and external environmental information.

The master controller 11 is provided with a display 111 capable of touch input and information output on one surface, and a multi-communication unit 12 for communication with the server S or other remote control panel 10 is included.

The shape and size of the display 111 can be variously changed according to the external shape of the remote control panel, and can be implemented in various implementation forms, such as a pressure-sensitive type, a capacitive type, and an infrared type.

For example, when the remote control panel 10 is installed outside and the external temperature is low, such as in winter, it is composed of a pressure-sensitive type that detects physical pressure and determines a touch, so that a glove is worn or a pen such as a stylus. It may be made to enable touch using .

This is because the display 111 according to the present invention does not require a precise touch input and only needs to operate a few buttons output on the display screen, and there is an advantage of high safety.

That is, a malfunction occurs when there is moisture or water droplets on the electrostatic screen. As described above, since the remote control panel is disposed in an environment exposed to the outside, moisture may occur due to temperature difference, and the moisture caused by the electrostatic The display has a problem in that the probability of malfunction increases and thus stability is lowered.

In order to solve this problem, an openable/openable cover may be further provided on the front surface of the display in the form of a capacitive touch.

The multi-communication unit 12 is for communication with the server S and another remote control panel 10, and this multi-communication unit 12 is composed of a wired or wireless communication module and includes a receiving unit 121 and a transmitting unit 122. include

Here, the wireless communication module is WIFI, ZigBee, Bluetooth, etc. that can be used. Preferably, the wired communication module operates by default, and when an error occurs in the wired communication module, WIFI among the wireless communication modules may be configured to operate, but is not limited thereto. Of course.

The receiving unit 121 receives information transmitted from the server S or another remote control panel 10 , and the transmitting unit 122 transmits a control command input by the user by touching the display 111 .

The operation unit 13 generates a result value by analyzing a request signal input through the display 111 or received through the multi-communication unit 12, and receives the input or received request signal and a request value included therein Analyze and generate the result value.

Here, the result value is generated after verifying whether the input or requested request signal is normal, and if it is normal, verifying whether the request signal is a request signal for a control target device matched to the remote control panel 10, and the request signal If a control command for controlling the operating state of the controlled device is included, it is a value converted into a command signal that can operate the corresponding controlled device.

For example, the request signal requested to the remote control panel 10 matching the heater as a control target device among the plurality of remote control panels 10 is the temperature of the heater, the temperature around the heater, the supply status of raw materials and the operation state of the pump, the circulation number A signal conversion unit ( 16) is sent.

Then, after receiving the sensed value sensed through the sensor 30 transmitted from the signal conversion unit 16 , it is transmitted to the output unit 18 to be output through the display 111 .

The operation control unit 14 executes a command for controlling the operation of the matched control target device through the result value generated by the operation unit 13 .

After receiving the result value generated by the operation unit 13, the operation control unit 14 searches for the operation control command of the control target device included in the result value from the stored operation control signal, and then performs an operation corresponding to the matched command. The control signal is transmitted to the control target device to operate the control target device.

Here, the pre-stored operation control signal includes On/Off, acceleration, deceleration, emergency stop, etc. of the corresponding control target device, and is provided in various forms depending on the type of the corresponding controlled device, and is controlled through these motion control signals and Since the operation relationship of the controlling device is similar to that of a TV controlled through a remote controller, a detailed description thereof will be omitted.

The detection value input unit 15 receives environmental information data sensed from the sensor 30, where the sensor 30 detects the operating state of the control target device or a detection value that detects environmental information inside and outside the building is transmitted to the sensed value input unit 15 .

The sensed value input unit 15 may be connected to the sensor 30 by wire or wirelessly. When connected wirelessly, the sensed value input unit 15 may be configured to receive the sensed value sensed by the sensor 30 through the multi-communication unit 12 .

In addition, the sensed value input unit 15 may be configured such that an administrator who directly confirms the sensed value sensed by the sensor 30 receives the inputted information through the touch input type display 111 and inputted information.

On the other hand, the detection value input unit 15 is configured to perform machine learning-based learning for optimizing abnormal state detection by collecting all the detection values detected by the sensor 30. It may be configured to predict the occurrence of an abnormal state through By collecting information on the presence or absence of abnormalities in the detection values in the form of yellow big data, a normal operation trend distribution curve and an abnormal occurrence trend distribution curve are generated and stored, and the detected value received from the sensor is judged as the most similar through the trend distribution for a certain period of time. It is to predict the future trend distribution by tracing the existing trend distribution curve. Accordingly, when an event regarding whether an abnormality will occur after a certain time elapses in the future occurs, a preliminary alarm event is generated for this and then transmitted to the signal conversion unit, and the signal conversion unit may be configured to transmit it to the server through the transmitter of the multi-communication unit. .

In addition, it may be configured to calculate average data by averaging the sensed values received from the sensor for each predetermined time unit, and then determine whether there is an abnormality based on this. This is to filter out data errors due to instantaneous malfunction of the sensor.

Here, if any one of the detected values has a value of 10% or more or 10% or less than the average data averaging the detected values excluding them, the corresponding detected value is configured to be excluded when calculating the average data, and the calculated average data is then It is preferable that the situation judgment is made, but of course, it is not limited thereto.

That is, whether the average data calculation exclusion is made with any one detection value or the average data calculation exclusion is made with a specific number of detection values may be set in consideration of the characteristics of the sensor or the operation period of the sensor.

When the signal conversion unit 16 requests a sensed value detected through the sensor 30 by a request signal input through the display 111 or received through the multi-communication unit 12, information matching it This is to search and provide information input from the sensed value input unit 15 .

This signal conversion unit 16 searches for a value requested from the request signal from the sensor detection value input from the detection value input unit 15, provides it to the operation unit 13, and transmits the request to the storage unit 17 to be described later. The signal and the detected value provided to the operation unit 13 by searching are stored.

And, when there is no detection value matching the request signal transmitted to the signal conversion unit 16 , an error value is generated and transmitted to the storage unit 17 and the operation unit 13 .

The storage unit 17 stores the information generated by the signal conversion unit 16, and the stored information matches the request signal requested through the display 111 or the multi-communication unit 12 and the corresponding request signal. It includes the detected value to be detected, the type of environmental information included in the sensed value, the request time, etc., and includes and stores it when an error value occurs in the signal conversion unit 16 .

The output unit 18 is for converting the information transmitted from the calculating unit 13 or the signal converting unit 16 and transmitting it to the display 111 for output.

Looking at the operating state of the present invention made as described above,

First, an embodiment in which the server (S) or a plurality of remote control panel 10 from any one remote control panel 10 to another remote control panel 10 requests a detection value for the environmental information sensed through the sensor 30 look at

Example 1)

1-A) requesting the environmental information detection value detected by the sensor 30 from the server (S) or the remote control panel 10 of any one of the plurality of remote control panels 10 to the other remote control panel 10 (S1) -One),

1-B) the remote control panel 10 receiving the request signal analyzes the request value included in the request signal through the provided operation unit 13 and generates a result value (S1-2),

1-C) The signal conversion unit 16 receives the result value generated through the operation unit 13, searches for the detected value detected through the sensor 30, and stores the matched detected value with the operation unit 13 transmitting each to the unit 17 (S1-3);

1-D) The operation unit 13 transmits the detection value matched with the request signal transmitted from the signal conversion unit 16 to the output unit 18 and outputs it through the display 111 (S1-4) ,

1-E) transmitting the detection value matched with the request signal transmitted from the signal conversion unit 16 in the operation unit 13 to the server S or another remote control panel 10 that has transmitted the request signal ( S1-5).

At this time, in step 1-c), if there is no detected value matching the request signal, an error value is generated and transmitted to the operation unit 13 and the storage unit 17. Step 1-c-2) (S1-3-1) is further included.

Looking at Example 1) above in more detail,

First, step 1-a) requests the environmental information detection value detected by the sensor 30 from the remote control panel 10 of any one of the server S or the plurality of remote control panels 10 to the other remote control panel 10 . In this step, a request signal from the server S or a request signal transmitted from another remote control panel 10 is received through the receiving unit 121 of the multi-communication unit 12 provided in the remote control panel 10 .

In addition, a request signal input through a touch input type display to request a sensed value detected by the sensor 30 connected to the corresponding remote control panel 10 is also included.

Here, the multi-communication unit 12 is made of wired or wireless communication or both, as described above, and various communication types (WIFI, ZigBee, Bluetooth, etc.) may be provided in a complex manner in order to improve communication stability.

On the other hand, when a request signal is transmitted from any one of the plurality of remote control panels 10, identification information such as a unique identification number or unique identification name of the remote control panel 10 that has sent the request signal is transmitted together. do. That is, which remote control panel 10 transmits the request signal is stored, and the time the request signal is received, the type of the requested detection value and the time when the detection value is transmitted are also stored.

In addition, the remote control panel 10 that requests the request signal is also provided with a selection screen for selecting which remote control panel among the plurality of remote control panels 10 to transmit the request signal, transmission of such a request signal, selection of the remote control panel, The output of the received sensing value is input and output through the touch input type display 111 provided in the remote control panel 10 .

Step 1-B) is a step of generating a result value by analyzing the request value included in the request signal received by the operation unit 13 provided in the remote control panel 10 that has received the request signal.

Here, the result value verifies whether the request signal input through the display or received through the multi-communication unit is normal, and analyzes and extracts the request value (environmental information detection value) included in the verified request signal.

Of course, in this step, if it is determined that the request signal is abnormal, the corresponding error is output through the display or transmitted to the server or remote control panel that transmitted the request signal through the multi-communication unit.

In step 1-c), the result value transmitted from the operation unit 13 through the signal conversion unit 16 and the detection value sensed by the sensor 30 are searched to find a matched detection value, and then the operation unit 13 and It is a step of transmitting each to the storage unit 17 .

The signal conversion unit 16 finds a detection value that matches the request value included in the request signal among the detection values of the sensor input through the detection value input unit 15 and sends it to the operation unit 13 and the storage unit 17 . each is transmitted.

In this case, step 1-c) further includes a step 1-c-2) of generating an error value when there is no detection value matching the request signal and transmitting it to the operation unit 13 and the storage unit 17 .

That is, in step 1-C-2), if there is no detected value matching the request value included in the request signal, it is generated as an error value and then transmitted to the operation unit 13 and the storage unit 17 to provide information on error generation to print and save.

In step 1-d), the calculated value of the signal conversion unit 16 received by the operation unit 13, that is, the sensing value of the sensor matched with the request value included in the request signal, is transmitted to the output unit 18, It is a step of outputting through the display 111 .

The output unit 18 converts information so that the administrator can check it, and outputs the converted information through a display. Since the operation relationship of the output unit and the process for information conversion are well known, a detailed description thereof will be omitted.

In step 1-E), the operation unit 13 transmits the detected value matched with the request signal transmitted from the signal conversion unit 16 to the server S or another remote control panel 10 that has transmitted the request signal. is a step to

That is, it is a step of transmitting the detected value matched to the received request signal to the server or remote control panel that has transmitted the request signal, which is transmitted through the transmitter 122 of the multi-communication unit 12 .

After analyzing the request signal transmitted through the server or the remote control panel through Embodiment 1) that operates as described above, the request value included in the request signal is extracted, and the detection value of the sensor matching the extracted request value is searched. The detected value is transmitted to the server or remote control panel that transmitted the request signal.

Therefore, it is possible to check the sensed values detected through a sensor connected to the other remote control panel in any one remote control panel among a plurality of remote control panels, so that it is easy to manage and supervise and collect and classify the detected values through the sensors.

The following embodiment 2) is an embodiment of controlling the operation of a control target device matched to the other remote control panel 10 from any one of the server or a plurality of remote control panels 10 .

Example 2)

2-A) transmitting the operation signal value of the control target device from the server (S) or the remote control panel 10 of any one of the plurality of remote control panel 10 to the other remote control panel 10 (S2-1),

2-B) generating a result value by analyzing the operation signal value received through the receiving unit 121 of the multi-communication unit 12 through the calculating unit 13 (S2-2);

2-C) The result value generated by the operation unit 13 is transmitted to the signal conversion unit 16 to search for a matching operation command among the operation commands of the control target device pre-stored in the signal conversion unit 16, and Transmitting the matching operation command to the operation control unit 14 (S2-3),

2-D) controlling the operation of the control target device through the matching operation command received by the operation control unit 14 (S2-4);

2-E) After detecting the state information of the control target device whose operation is controlled through the operation control unit 14 through the sensor 30 and inputting the detected operation state detection value through the detection value input unit 15 Transmitting this to the operation unit 13 and the storage unit 17, respectively (S2-5),

2-B) Transmitting the operation state detection value transmitted to the operation unit 13 to the server S or the remote control panel 10 that has transmitted the request signal through the transmission unit 122 of the multi-communication unit 12 (S2) -6).

In step 2-A), an operation signal value for controlling the operation of the control target device is transmitted from the server (S) or any one of the plurality of remote control panels (10) to the other remote control panel (10). As a step, the receiving unit of the remote control panel 10 of the receiving side of the operation signal value through the transmission unit 122 of the multi-communication unit 12 provided in the communication module provided in the server (S) or the remote control panel of the requesting side. transmit a signal to

Step 2-B) is a step of generating a result value by analyzing the operation signal value through the operation unit 13 provided in the remote control panel 10 that has received the operation signal value. and the operation unit 13 analyzes the operation control command of the control target device included in the operation signal value and generates a result value.

Here, the result value is the verification of the operation command requested by the remote control panel 10, the approval or disapproval of whether to execute the operation command by comparing the operation state of the controlled device detected through the sensor with the requested operation command, and the determination of the operation command. It includes values such as approval or non-approval of whether to execute the operation command by comparing the operation allowable limit value of the target control target device with the requested operation command.

Step 2-c) transmits the result generated by the operation unit 13 to the signal conversion unit 16, and searches for a matching operation command among the operation commands of the control target device pre-stored in the signal conversion unit 16 and transmitting the searched matching operation command to the operation control unit 14 .

The operation relationship of the operation control unit 14, that is, the previously stored operation commands are provided in various ways according to the type of the control target device.

Step 2-d) is a step of controlling the operation of the control target device through the matching operation command received by the operation control unit 14. Since the operation of the operation control unit and the control of the control target device are known, a detailed description will be omitted. (Example: TV or set-top box controlled by remote controller)

2 E) After detecting the state information of the control target device whose operation is controlled through the operation control unit 14 through the sensor 30, the detected operation state detection value is inputted through the detection value input unit 15 Then, it is a step of transmitting it to the operation unit 13 and the storage unit 17, respectively.

The state information of the control target device sensed through the sensor 30, the control target device checks the operation status information of the control target device whose operation is controlled through the operation control unit 14, and receives the checked information through the input unit After input, it is stored in the operation unit 13 and the storage unit 17, respectively, to check and store the operation state of the corresponding control target device.

Here, the government stored in the storage unit 17 indicates the operation state of the control target device, the detection time when the operating status is detected through the sensor, the operation command transmitted to the control target device, and the first device (server, remote control panel) that transmitted the operation command. By storing such information together, it is possible to improve the convenience of management and maintenance of the controlled device through the stored information.

The step of 2-bar) transmitting the operation state detection value transmitted to the operation unit 13 to the server S or the remote control panel 10 that transmitted the request signal through the transmission unit 122 of the multi-communication unit 12, , wherein the information transmitted through the transmitting unit is the same information as the information stored in the storage unit.

Through the second embodiment operating as described above, the operation of the controlled device can be controlled from a distance, and the operation state of the controlled device can be checked from the server or a remote control panel at a distance, so the convenience of management and the convenience of maintenance can be maximized.

On the other hand, the remote control panel 10 stores the specifications of a plurality of control target devices disposed in the building, maintenance history, management history and special matters of the control target device, and transmits the stored information to the server to transmit the information of the control target device. A facility management unit (20) that updates in real time, and transmits the manager's request to the server when information on the maintenance history and management history of the controlled device is requested from the manager and provides the maintenance and management history of the controlled device sent from the server (20) ) is further included.

The facility management unit 20 can check the specifications of the control target device whose operation is controlled by the other remote control panel through any one of the plurality of remote control panels and the management history of the equipment, and the control that the administrator wants to check Information on the repair history and inspection history of the target device is requested to the server, and the server transmits the requested information of the controlled target device to the requested remote control panel so that the administrator can check it.

In particular, it is possible to check the repair history and inspection history of the control target device whose operation is controlled by the other remote control panel in any one of the plurality of remote control panels, thereby improving the convenience of management and supervision of the controlled device.

And the facility management unit 20 stores the specifications of the control target device that controls the operation in the remote control panel and the repair history and inspection history of the equipment constituting the control target device, and sends the stored information to the server at regular intervals or as a manager It is configured to update the information stored in the server by providing it through the transmission command of will be.

The sensor 30 detects the operating state of the device to be controlled and the temperature, humidity, pressure, carbon monoxide, and the presence or absence of a flame inside and outside the building, and provides the sensed value to the detection value input unit 15 of the remote control panel 10 As such, it includes a state data detection sensor 31 for detecting operation state information of the control target device, and an environmental data detection sensor 32 for detecting temperature, humidity, pressure, carbon monoxide, and presence of flames inside and outside the building.

Here, the state data detection sensor 31 detects the On/Off of the control target device, the driving speed, the heat generated when the control target device is driven, and changes in temperature and humidity due to this. It is disposed inside and outside the device and is communicatively connected to the remote control panel 10 through wired or wireless communication.

The environmental data detection sensor 32 detects information about various environments inside and outside the building in real time, and creates a comfortable and stable building environment by controlling the operation of the control target device according to the environment inside and outside the building. can do.

The environmental data detection sensor 32 includes a temperature sensor for detecting temperature inside and outside the building, a humidity sensor for detecting humidity, a pressure sensor for detecting wind pressure or load pressure, etc., cleanliness inside and outside the building It may include a dust sensor that detects the presence of a fire, a carbon monoxide sensor that detects the presence of fire by detecting the ratio of carbon monoxide in the air, and a flame sensor that detects the presence of a fire by detecting the presence or absence of a flame. Various sensors may be further included in addition to the above-described sensors depending on the application. In other words, a door opening/closing sensor that detects the opening and closing of a door in an office or laboratory in a building that requires security, and a water quality that detects the quality of sewage/wastewater discharged at a location where various types of sewage and wastewater generated inside the building are discharged A detection sensor and the like may be further provided.

As described above, the present invention has been described with specific matters such as specific components and limited embodiments and drawings, but these are provided to help a more general understanding of the present invention, and the present invention is not limited to the above embodiments. , various modifications and variations are possible from these descriptions by those of ordinary skill in the art to which the present invention pertains.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and not only the claims to be described later, but also all those with equivalent or equivalent modifications to the claims will be said to belong to the scope of the spirit of the present invention. .

1: Automatic building controller with display touch type facility management and remote control function
10: remote control panel
11: master controller 12: multi-communication unit
13: arithmetic unit 14: operation control unit
15: sensed value input unit 16: signal conversion unit
17: storage unit 18: output unit
111: display
121: receiver 122: transmitter
20: Facility Management Department
30: sensor
31: state data detection sensor
32: environmental data detection sensor

Claims (3)

In a building automatic controller having a display touch type facility management and remote control function,
A plurality of remote control panels 10 provided with a multi-communication unit 12 to enable communication with a server or each other are arranged, and from one remote control panel 10 of a plurality of remote control panels 10 to another remote control panel 10 To transmit or receive a detection value for the environmental information sensed through the sensor 30 and a control command of the control target device,
The remote control panel 10,
Controls the operation of a plurality of control target devices disposed in the building, the server (S) and the multi-communication unit 12 for mutual communication is provided, information exchange between the server (S) and a plurality of remote control panel (10) and a master controller 11 including a touch input type display 111 to control the operation of the other remote control panel 10 from any one remote control panel 10,
a multi-communication unit 12 for communication with the server or other remote control panel 10;
an arithmetic unit 13 for analyzing a request signal input through the display 111 or received through the multi-communication unit 12 to generate a result value;
an operation control unit 14 that executes a command for controlling the operation of the controlled device through the result value generated by the operation unit 13;
a sensed value input unit 15 to which the sensed value sensed from the sensor 30 is input;
When a detection value detected by the sensor 30 is requested among the request signals input through the display 111 or received through the multi-communication unit 12, the detection value of the sensor input through the detection value input unit 15 and a signal conversion unit 16 for matching the request signal and calculating a result value;
a storage unit 17 connected to the signal conversion unit 16 to store the converted data;
and an output unit 18 for transmitting the data converted by the signal conversion unit 16 to the display 111,
In the result value calculated through the operation unit 13, verification of the request signal received through the multi-communication unit 12 and the presence or absence of environmental information data input through the detection value input unit 15 are checked, and the detection The request information of the environmental information data requested by the value input unit 15 is included,
The operation unit 13 searches for environment information data matching the change value converted through the signal conversion unit 16, and retransmits the matched environment information data to the signal conversion unit 16, but is matched during the search When the environmental information data is not searched, an error value is generated as a result of the corresponding conversion value and transmitted to the signal conversion unit 16,
The environment information data stored in the storage unit 17 includes a request time requested from the server, a type of environment information, and a matched environment information data value, and the operation unit 13 generates an error value. In this case, the error value is stored instead of the matched environment information data value,
Transmitting the environment information data converted through the signal conversion unit 16 to the server S or another remote control panel 10 to which the request signal is sent through the multi-communication unit 12 of the master controller 11 A building automatic controller with a display touch type facility management and remote control function.
The method according to claim 1, The remote control panel (10),
It stores the specifications of a large number of controlled devices placed in the building, maintenance history, management history, and special matters of the controlled devices, and transmits the stored information to the server to update the information of the controlled devices in real time, and from the manager When information of the maintenance history and management history of the device is requested, the facility management unit 20 that transmits the manager's request to the server and provides the maintenance history and management history of the control target device transmitted from the server is further included. Building automatic controller with display touch type facility management and remote control function.
The method according to claim 1 or 2, wherein the sensor 30,
A state data detection sensor 31 for detecting operation state information of the control target device;
A building automatic controller having a facility management and remote control function of the display touch method, characterized in that it includes an environmental data detection sensor 32 that detects the presence or absence of flames, temperature, humidity, pressure, carbon monoxide, and flames inside and outside the building.

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