KR20050064812A - System for saving power consumption and operation method thereof - Google Patents

Abstract

The disclosed invention accurately measures the temperature and humidity of a place where a plurality of thermo-hygrostats are installed to operate the plurality of thermo-hygrostats under the same conditions, so that the thermo-hygrostat of some of the plurality of thermo-hygrostats does not malfunction according to a misdetection. A power consumption-saving thermo-hygrostat system for reducing power consumption and a method of operating the same, comprising: a network communication network; And a plurality of thermo-hygrostats, which are connected to each other through the network communication network, and whose ranks are set, are received by an operation control signal transmitted from a host thermo-hygrostat, and determine a current operation state. A storage unit which stores operation program data, and stores at least one of reference signals for temperature and humidity, an operation time, and an operation interval input from the outside; and a temperature and humidity stored in the storage unit according to a user's operation. A keypad unit for inputting information on operation time and operation interval, a display unit for outputting a current operation state on the screen in response to a control signal input from the outside, a temperature sensor unit for detecting an ambient temperature, and a sensor for sensing an ambient humidity A humidity sensor connected to the network communication network and connected to the other thermo-hygrostat In response to a key signal input through the card and the keypad unit, the operating program data and the reference signal stored in the storage unit are read out to control the entire system, while the operation control signal and the temperature sensing unit input through the communication card; A control unit for comparing the current temperature and humidity input through the humidity sensing unit and outputting a temperature control signal or a humidity control signal according to the comparison result, a temperature control unit for lowering or raising the current temperature in response to the temperature control signal of the control unit; And a humidity controller for lowering or raising the current humidity in response to the humidity control signal of the controller.

Description

System for Saving Power Consumption and Operation Method

The present invention relates to a power-saving constant temperature and humidity system and its operation method.

In particular, by accurately measuring the temperature and humidity of the place where a plurality of thermo-hygrostats are installed to operate a plurality of thermo-hygrostats under the same conditions, so that the thermo-hygrostat of some of the thermo-hygrostats does not malfunction according to the mis-detection to reduce the power consumption The present invention relates to a power-saving constant temperature and humidity system and a method of operating the same.

In general, the thermo-hygrostat has a function of arranging at least one or more places in an appropriate place such as a computer room so that the temperature and humidity of the installed place can be kept constant at all times.

That is, if the desired temperature and humidity is set in the thermo-hygrostat, and set to the automatic mode, the thermo-hygrostat continuously checks the current temperature and humidity, and the room temperature and humidity can maintain the temperature and humidity set by the user. Start driving so that.

However, in the case of the thermo-hygrostat, the temperature and humidity of the surroundings are checked so that the thermo-hygrostat installed near the window or the door or the thermo-hygrostat installed in a high light position does not adjust the temperature or the humidity due to the positional environment. .

Unnecessary temperature control and humidity control as described above increases the power consumption, which has a problem that increases the use cost.

The present invention has been made to solve the above problems, the object of the present invention is because a plurality of thermo-hygrostats installed in the same place as in the prior art individually detects the surrounding environment, and operates arbitrarily according to the detected conditions Some thermohygrostats do humidification, while other thermohygrostats dehumidify and prevent power consumption from being more than doubled. The present invention provides a power-saving constant temperature and humidity system and a method of operating the same, such that the constant temperature and humidity chamber installed at a predetermined place by accurately measuring in a constant temperature and humidity chamber or a central processing unit operates under the same conditions as humidification and dehumidification.

The present invention to achieve the above object is a network communication network; And a plurality of thermo-hygrostats, which are connected to each other through the network communication network, and whose ranks are set, are received by an operation control signal transmitted from a host thermo-hygrostat, and determine a current operation state. A storage unit which stores operation program data, and stores at least one of reference signals for temperature and humidity, an operation time, and an operation interval input from the outside; and a temperature and humidity stored in the storage unit according to a user's operation. A keypad unit for inputting information on operation time and operation interval, a display unit for outputting a current operation state on the screen in response to a control signal input from the outside, a temperature sensor unit for detecting an ambient temperature, and a sensor for sensing an ambient humidity A humidity sensor connected to the network communication network and connected to the other thermo-hygrostat In response to a key signal input through the card and the keypad unit, the operating program data and the reference signal stored in the storage unit are read out to control the entire system, while the operation control signal and the temperature sensing unit input through the communication card; A control unit for comparing the current temperature and humidity input through the humidity sensing unit and outputting a temperature control signal or a humidity control signal according to the comparison result, a temperature control unit for lowering or raising the current temperature in response to the temperature control signal of the control unit; And a humidity controller for lowering or raising the current humidity in response to the humidity control signal of the controller.

In addition, the controller checks the priority stored in the storage unit when the operation control signal is not input from the upper temperature and humidity controller, and outputs the operation control signal to the lower temperature and humidity chamber when it is determined as a host temperature and humidity chamber.

Here, the operation control signal is generated by the temperature and humidity detected by the host thermo-hygrostat.

And, the thermo-hygrostat, the power-saving thermo-hygrostat system, characterized in that for supporting the command to set or cancel the central control mode using a keypad.

The thermo-hygrostat may provide a command for setting or releasing the central control mode so that the mode is set by selecting a setting or releasing menu item among the menu items.

In addition, another embodiment of the present invention, the central control means for sensing the ambient temperature and humidity, converting the operation control signal for setting the detected temperature and humidity to the reference temperature and humidity to a wireless signal and outputs; And a plurality of thermo-hygrostats that receive an operation control signal transmitted from the central control means and determine a current operating state. The thermo-hygrostat stores operation program data, and receives temperature, humidity, and operation from an external source. A storage unit for storing at least one of reference signals for time and operation interval, a keypad unit for inputting information on temperature and humidity, operation time, and operation interval stored in the storage unit according to a user's operation, and from outside Receives a display for outputting the current operation state on the screen in response to the input control signal, a temperature sensor for sensing the ambient temperature, a humidity sensor for sensing the ambient humidity, and an operation control signal output from the central control means A reception unit and an operation program stored in the storage unit in response to a key signal input through the keypad unit. Read the gram data and the reference signal to control the whole system, compare the operation control signal input through the receiver with the current temperature and humidity input through the temperature sensor and humidity sensor, and adjust the temperature according to the comparison result And a controller for outputting a signal or a humidity control signal, a temperature controller for lowering or raising a current temperature in response to a temperature control signal of the controller, and a humidity controller for lowering or raising a current humidity in response to a humidity control signal of the controller. It is characterized by.

The objects, features and advantages of the present invention will be more readily understood by reference to the accompanying drawings and the following detailed description.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

Before describing Embodiments 1 and 2, the plurality of thermo-hygrostats have the same structure, and the components thereof are also the same, so that a detailed block is shown for one thermo-hygrostat, and the detailed block is the same name as the other thermo-hygrostat. It will be described by reference numeral.

Example 1

1 is a block diagram for explaining an embodiment of the present invention, a power-saving constant temperature and humidity system, Figure 3 is a flow chart for explaining the operation method of the power-saving constant temperature and humidity system according to the present invention.

1 and 3, the present invention is connected to each other through a network communication network 100 and the network communication network 100, and the order is set for each operation is transmitted from the host thermo-hygrostat It is composed of a plurality of thermo-hygrostat 200 that receives the control signal and determines the current operating state.

At this time, the thermo-hygrostat 200 stores the operation program data, the storage unit 210 and at least one of the reference signal for the temperature and humidity, operating time, operating interval input from the outside and the user A keypad unit 220 for inputting information on temperature and humidity, an operating time, and an operating interval stored in the storage unit 210 according to an operation, and outputting a current operation state on the screen in response to a control signal input from the outside. Communication unit connected to the display unit 230, the temperature sensing unit 240 for sensing the ambient temperature, the humidity sensing unit 250 for sensing the ambient humidity, the network communication network 100 is connected to the other thermo-hygrostat 260 and the operating program data and reference signals stored in the storage unit 210 are read in response to the key signal input through the keypad unit 220 to control the entire system, and the communication The operation control signal input through the card 260 and the current temperature and humidity input through the temperature sensor 270 and the humidity sensor 280 are compared, and the temperature control signal or the humidity control signal according to the comparison result. An output control unit 290, a temperature control unit 270 for lowering or raising the current temperature in response to the temperature control signal of the control unit 290, and a humidity control unit for lowering or raising the current humidity in response to the humidity control signal of the control unit It consists of 280.

In addition, the control unit 270 checks the priority stored in the storage unit 210 when the operation control signal is not input from the upper temperature and humidity chamber, and then operates as the lower temperature and humidity chamber when it is determined as a host temperature and humidity chamber. Output a control signal.

Here, the operation control signal is generated by the temperature and humidity detected by the host thermo-hygrostat.

In particular, the thermo-hygrostat 200 supports a command for setting or releasing the central control mode using the keypad 210.

The thermo-hygrostat 200 provides a menu item with a command for setting or releasing the central control mode so that the mode is set by selecting a setting or releasing menu item among the menu items.

Looking at the action of sensing the temperature and humidity of the present invention configured as described above are as follows.

First, serial numbers are set for the plurality of thermo-hygrostats 200 as shown in the accompanying drawings. The serial number corresponds to a rank that should be operated by the host thermo-hygrostat 200. That is, the lower thermo-hygrostat 200 set to 1 operates as a host thermo-hygrostat at the start of operation, and if the thermo-hygrostat 200 set to 1 cannot be operated due to a failure, etc. Lower thermo-hygrostat 200 is set to operate as the host thermo-hygrostat. Therefore, the plurality of thermo-hygrostat 200 recognizes its own priority information currently set when power is input (YES in S100) (S110).

The thermo-hygrostat 200 recognized by the host thermo-hygrostat 200 (example of S120) checks the current temperature and humidity (S130), generates an operation control signal according to the check result (S140), and starts operation. On the other hand, outputs the operation control signal to the lower temperature and humidity chamber (200) (S150). The thermo-hygrostat recognized as the lower thermo-hygrostat (S120) is operated by receiving an operation control signal input from the outside.

That is, the control unit 270 of the host thermo-hygrostat 200 performs the blowing operation and the ventilation operation according to the operating condition set by the user through the keypad unit 220. In this case, the user may control the operation of the thermo-hygrostat by inputting operation conditions such as a set temperature, humidity, an operation time, an operation interval, and the like through the keypad unit 220. The driving condition input by the user is stored in the storage 210.

The controller 290 receives the current temperature and humidity through the temperature sensor 220 and the humidity sensor 230. The controller 290 reads the temperature and humidity of the operating conditions stored in the storage 210 and compares the current temperature with the humidity.

When the comparison result does not match the reference temperature and humidity stored in the storage unit 210, the control unit 290 is the temperature and humidity input through the temperature detection unit 240 and the humidity detection unit 250 matches the reference temperature and humidity The temperature control unit 270 and the humidity control unit 280 is controlled.

The host thermo-hygrostat 200 transmits an operation control signal generated by the detected current temperature and humidity to the lower thermo-hygrostat 200 connected to the network communication network 100. Then, the control unit 290 of all the lower temperature and humidity chamber 200 receives the information related to the current temperature and humidity through the communication card 260 to control the operating state of the temperature control unit 270 and humidity control unit 280 Done.

Therefore, the plurality of thermo-hygrostats can perform temperature and humidity control without being affected by the presently arranged and installed location environment.

Example 2

In addition, another embodiment of the present invention, and the central control unit 300 for sensing the ambient temperature and humidity, and converts the operation control signal for setting the detected temperature and humidity to the reference temperature and humidity to a wireless signal and outputs; It is composed of a plurality of thermo-hygrostat 200 for receiving an operation control signal transmitted from the central control device 300 to determine the current operating state.

The thermo-hygrostat 200 stores operation program data, the storage unit 210 storing at least one or more of reference signals for temperature and humidity, an operation time, and an operation interval input from the outside, and a user's operation. According to the keypad unit 220 for inputting information on the temperature and humidity, operating time, operating interval stored in the storage unit 210, and a display unit for outputting the current operation state on the screen in response to a control signal input from the outside ( 230, a temperature detector 240 for sensing the ambient temperature, a humidity detector 250 for sensing the ambient humidity, and a receiver 295 for receiving an operation control signal output from the central controller 300. And, in response to the key signal input through the keypad unit 220 to read the operating program data and the reference signal stored in the storage unit 210 to control the entire system, while the reception unit 295 The controller 290 compares the input operation control signal with the current temperature and humidity input through the temperature sensor 240 and the humidity sensor 250, and outputs a temperature control signal or a humidity control signal according to a comparison result. And a temperature controller 270 for lowering or raising the current temperature in response to the temperature control signal of the controller 290, and a humidity controller 280 for lowering or raising the current humidity in response to the humidity control signal of the controller. .

The operation of the second embodiment configured as described above is as follows.

The central control unit 300 is installed at a position that can accurately check the overall temperature and humidity of the place where the thermo-hygrostat 200 is installed.

The central control apparatus 300 continuously checks the temperature and humidity of the current place, and compares it with a preset temperature and humidity, so that the temperature and humidity control of the thermo-hygrostat 200 can be performed according to the comparison result. The operation control signal is generated and transmitted to the thermo-hygrostat 200 through a wireless transmitter (not shown).

Then, the thermo-hygrostats 200 receive the reception units 295 provided, respectively, to start the operation for temperature control and humidity control in the operation control signal.

Since the internal operation of the thermo-hygrostat 200 is the same as the first embodiment, a detailed description thereof will be omitted.

Meanwhile, in the first and second embodiments, a function key is provided on the keypad 220 for inputting a command for setting or releasing the central control mode, or the control unit 290 is provided on the display unit 230. Provided as a menu item, it is implemented to select, set by using the selection key of the keypad (220).

The temperature control and humidity control functions of the thermo-hygrostat 200 in Examples 1 and 2 include a heating, cooling, moisture generation, dehumidification (dehumidification) function, as is commonly known, the host thermo-hygrostat (B) An appropriate function is selected from among the plurality of functions according to the operation control signal of the central control apparatus and is applied as an operating condition, and the thermo-hygrostat is operated according to the operating condition.

In addition, the structure and the operating state of the temperature control unit and the humidity control unit of the thermo-hygrostat 200 of Examples 1 and 2 are the same as or similar to the conventional temperature control unit and the humidity control unit, so the detailed description thereof will be omitted. .

As described above, according to the present invention, since a plurality of thermo-hygrostats installed in the same place, which is a problem of the prior art, individually detect the surrounding environment and operate arbitrarily according to the detected conditions, some thermo-hygrostats do humidification operation. Another thermohygrostat is to prevent the power consumption from being consumed more than twice by dehumidifying operation, and accurately measured in a thermo-hygrostat or a central processing unit that performs a reference role based on temperature and humidity of a place where a plurality of thermo-hygrostats are installed. Thus, if the thermo-hygrostat installed at a predetermined place is operated under the same conditions as humidification, dehumidification, etc., if the humidification is dehumidified, power consumption can be reduced, and thus the use cost can be reduced.

Figure 1 is a block diagram for explaining an embodiment of the present invention power consumption constant temperature and humidity system;

Figure 2 is a block diagram for explaining another embodiment of the present invention power consumption constant temperature and humidity system;

3 is an operation flowchart for explaining a method of operating a power-saving constant temperature and humidity system according to the present invention.

<Explanation of symbols for the main parts of the drawings>

100: network communication network 200: constant temperature and humidity

210: storage unit 220: keypad unit

230: display unit 240: temperature detection unit

250: humidity detection unit 260: communication card

270: temperature control unit 280: humidity control unit

Claims (10)

Network communication network; And It is connected to each other through the network communication network, and the rank is set for each is composed of a plurality of thermo-hygrostats to receive the operation control signal transmitted from the host thermo-hygrostat and determine the current operating state, The thermo-hygrostat, A storage unit which stores operation program data, and stores at least one of reference signals for temperature and humidity, an operation time, and an operation interval input from the outside; and a temperature and humidity stored in the storage unit according to a user's operation. A keypad unit for inputting information on operation time and operation interval, a display unit for outputting a current operation state on the screen in response to a control signal input from the outside, a temperature sensor unit for detecting an ambient temperature, and a sensor for sensing an ambient humidity Controls the entire system by reading the operating program data and the reference signal stored in the storage unit in response to a key signal input through the humidity detection unit, the communication card connected to the other thermo-hygrostat and the keypad unit connected to the network communication network On the other hand, the operation control signal, the temperature sensing unit and the humidity input through the communication card A control unit for comparing the current temperature and humidity input through the branch and outputting a temperature control signal or a humidity control signal according to the comparison result, a temperature control unit for lowering or raising the current temperature in response to the temperature control signal of the control unit; Humidity control unit to lower or increase the current humidity in response to the humidity control signal of the control unit, Power-saving constant temperature and humidity system, characterized in that consisting of. The method of claim 1, wherein the control unit, When the operation control signal is not input from the upper thermo-hygrostat, after checking the priority stored in the storage unit, if it is determined that the host thermo-hygrostat, the operation control signal is characterized by outputting the operation control signal to the lower thermo-hygrostat. Constant temperature and humidity system. The method of claim 2, wherein the operation control signal, Power-saving constant temperature and humidity system, characterized in that generated by the temperature and humidity detected by the host thermo-hygrostat. The method according to claim 2, wherein the thermo-hygrostat, A power-saving constant temperature / humidity system, which supports inputting a command for setting or canceling a central control mode using a keypad. The method according to claim 2, wherein the thermo-hygrostat, A power-saving constant temperature / humidity system, characterized by providing a menu item with a command for setting or releasing a central control mode, so that the mode is set by selecting a menu item among menu items. Central control means for sensing ambient temperature and humidity and converting and outputting an operation control signal for setting the detected temperature and humidity to a reference temperature and humidity into a wireless signal; And Consists of a plurality of thermo-hygrostat for receiving the operation control signal transmitted from the central control means to determine the current operating state, The thermo-hygrostat, A storage unit which stores operation program data, and stores at least one of reference signals for temperature and humidity, an operation time, and an operation interval input from the outside; and a temperature and humidity stored in the storage unit according to a user's operation. A keypad unit for inputting information on operation time and operation interval, a display unit for outputting a current operation state on the screen in response to a control signal input from the outside, a temperature sensor unit for detecting an ambient temperature, and a sensor for sensing an ambient humidity A humidity control unit, a reception unit for receiving an operation control signal output from the central control unit, and an operating program data and a reference signal stored in the storage unit in response to a key signal input through the keypad unit for controlling the entire system On the other hand, the operation control signal input through the receiver and the temperature sensor and humidity sensor A control unit for comparing the current temperature and humidity input through the control unit and outputting a temperature control signal or a humidity control signal according to a comparison result, a temperature control unit for lowering or raising the current temperature in response to the temperature control signal of the control unit, and Humidity control unit to lower or increase the current humidity in response to the humidity control signal, Power-saving constant temperature and humidity system, characterized in that consisting of. (1) when the power is input, each thermo-hygrostat recognizes the currently set ranking information; (2) the thermo-hygrostat, which is recognized as the host thermo-hygrostat, checks the current temperature and humidity, and generates an operation control signal according to the check result; (3) a host constant temperature and humidity chamber, outputting an operation control signal to a lower temperature and humidity chamber and starting operation according to the operation control signal; And (4) the lower thermo-hygrostat starts the operation in response to an operation control signal of the host thermo-hygrostat; Operation method of a power-saving constant temperature and humidity system, characterized in that consisting of. According to claim 1, wherein the lower thermo-hygrostat, When the operation control signal is not input from the host thermo-hygrostat, it checks the ranking set to itself, and if it is determined as the host thermo-hygrostat, outputs the operation control signal to the lower thermo-hygrostat. How to operate. According to claim 7, wherein the thermo-hygrostat, A method of operating a power-saving constant temperature / humidity system, characterized in that a user can input a command for setting or canceling a central control mode using a keypad. According to claim 7, wherein the thermo-hygrostat, A method for operating a power-saving constant temperature / humidity system, comprising providing a menu item with a command for setting or releasing a central control mode so that the mode is set by selecting a menu item among menu items.