KR200248274Y1 - Automatic remote temperature controller - Google Patents

Abstract

The present invention relates to a remote thermostat for controlling the temperature and turning on and off by remotely controlling the thermostat for operating a heater or a refrigerator.

According to the present invention, the control temperature setting unit, the sensor input unit and the control output unit are independent, and the sensor input unit and the control output unit are embedded in the cooler in the case of the closest position or the cooler to the heater or cooler, and transmit and receive data necessary for the period It is to provide a remote thermostat by removing the wiring of the sensor line and control output line from the thermostat.

Description

Automatic remote temperature controller

The present invention relates to a remote thermostat for controlling the temperature and turning on and off by remotely controlling the thermostat for operating a heater or a refrigerator.

In the conventional temperature controller (a), the temperature setting unit 100, the sensor input unit, and the control unit are integrated as shown in FIG. 3, so that the sensor line and the control output line from the temperature controller to the control object in order to control the temperature of a certain object. Long wiring is required.

Therefore, complicated wiring is required. Especially, if the distance between the temperature controller and the control target 7 is several tens of meters, the length of the wiring is increased by that much, which causes breakdowns, short circuits, or fire. Due to the wiring, the temperature controller and controller must be fixed in a certain place, and even if some functions of the temperature controller fail, the temperature control is impossible, and it is inconvenient to go to the place where the temperature controller is installed for operation monitoring. there was.

The purpose of the present invention is to solve such various problems, and the control temperature setting unit, the sensor input unit and the control unit are independent of each other, and the sensor input unit and the control unit are built in the cooler when the heater or cooler is closest to the heater or the cooler. It is to provide a remote automatic temperature control device by removing the wiring of the sensor line and the control output line in the temperature controller by using a method for transmitting and receiving the data required during the period.

1 is a block diagram of the present invention

2 is a schematic view illustrating an embodiment of the present invention

3 is a block diagram of a conventional structure

Figure 4 is an example of the use of a conventional temperature control device

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

100: temperature setting unit 200: control output unit 1,1 ': power line modem

2 display unit 3 CPU 4 power supply unit

5 plug 6 temperature sensor 7 control target

8: outlet

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

1 is a block diagram of the present invention, in which the temperature setting unit 100 and the sensor input and control output unit 200 (hereinafter abbreviated as sensor unit) are independently separated, and they transmit and receive data through the power line modem 1. Done.

The temperature setting unit 100 includes a display unit 2, a CPU 3, a power supply unit 4, a power line modem 1, and a plug 5. The sensor unit 200 includes a temperature sensor 6 and a heater or It consists of the CPU 3 which outputs to the control object 7, such as a cooler, the power supply part 4, the power line modem 1 ', and the plug 5.

In the figure, reference numeral 8 denotes an outlet installed in a power line line.

The present invention as described above is to separate the temperature setting unit 100 and the sensor unit 200, each having a power line modem (1) (1 ') and connected to the plug (5) connected to the power source, so the sensor unit 200 is connected to the control object (7), for example, plug (5) to the outlet (8) in the position close to the heater or cooler, the temperature setting unit 100 is in a convenient place with a power line line operation When connected to the outlet (8) by using the plug (5) can control the sensor unit 200 anywhere.

For example, in the case of the aquarium shown in Figs. 2 and 3, for example, the conventional temperature controller (a), as shown in Figure 3, since the temperature setting unit 100, the sensor input unit and the control output unit is integrated In order to control the temperature of the aquarium, a very long wiring is required from the temperature controller (a) to the control object (7) such as a freezer and a heat exchanger installed in the aquarium.

However, in the present invention shown in FIG. 2, since the temperature setting unit 100 and the sensor unit 200 are separately separated from each other, the power line modems 1 and 1 ′ are installed in the sensor unit 200. The plug 5 is connected to the outlet 8 of the power line line close to the control target 7 such as a refrigerator, and the temperature setting unit 100 is connected to the outlet 8 of the power line line in a place that is easy to control. When connected using a plug (5) to the temperature setting unit 100 and the sensor unit 200 can be controlled by transmitting and receiving data through the power line modem (1), so the temperature controller (a) and the sensor as in the prior art The unit 200 can be monitored by moving to any necessary place without requiring separate wiring, thereby preventing the risk in advance, and the sensor unit 200 is independent even when the control temperature setting unit has failed. Unexpected behavior, so unexpected It is possible to prevent accidents, reducing the risk of electric leakage or fire due to wiring is, because the communication to the power line modem (1) (1 ') it is not necessary to provide a separate communication line.

When the circuit operation of the present invention is described in more detail based on the embodiment, the data set by the user in the temperature setting unit 100, that is, the data such as control temperature, deviation, delay time, temperature correction, etc., are not erased even if the power failure occurs. At the same time as the EEPROM is stored, the set data are transferred from the serial communication port of the CPU 3 to the power line line via the power line modem 1 (1 ') at a communication speed of 4800 Baudrate at 50m Sec cycle.

The sensor unit 200 (sensor input / control output unit) receives data transmitted from the temperature setting unit 100 through the power line line, stores the data in the RAM, detects the power failure in case of power failure, and stores the data in the EEPROM. Save them.

The analog temperature value read from the temperature sensor in the sensor unit 200 is converted into a digital value through an 8-bit A / D converter of the CPU 3, and the converted temperature value is a temperature correction value transmitted from the temperature setting unit 100. To correct the temperature error.

The corrected temperature value is compared with the value of the set temperature plus or minus +-deviation (control temperature range) and then controls the output of the heater or cooler when it is out of the range. If the set delay time is not 0, it does not control the heater or cooler immediately, and the output is controlled when the temperature is still out of the set temperature range even after the delayed time by the set time, thereby preventing frequent operation of the heater or cooler. Minimize the occurrence of

When a sensor error occurs due to disconnection or short of the sensor, the error is judged by the value of the temperature sensor 6 read by the CPU 3, and the control output is turned off to prevent an accident.

The sensor unit 200 also receives the setting data from the temperature setting unit 100 and transmits a current temperature, a sensor error, a temperature abnormality, a control output state, and the like to the temperature setting unit 100.

The temperature setting unit 100 transmits the setting data to the sensor unit 200 and then prepares to receive the data of the sensor unit 200 for 8 m Sec, and receives the data if the sensor unit 200 transmits the data. After that, the temperature is displayed on the temperature display window and the output monitor lead is turned on when the control output is active, and the output monitor lead is turned off when there is no control output. In case of sensor error or temperature error, an error is displayed on the temperature display window. If there is no data in the sensor unit 200 before 8m Sec, a communication error occurs. Therefore, a communication error is displayed on the temperature display window and the communication monitor lead is turned on.

In addition, when an abnormality such as a temperature sensor error or a communication error occurs, a buzzer sounds to notify the surroundings, and when the sensor unit 200 does not communicate with the temperature setting unit 100, the output is controlled by the most recently received data. .

As such, the present invention separates the control temperature setting unit 100, the sensor input unit and the control output unit 200, and installs the power line modem 1, respectively, to transmit and receive data therethrough, so that no separate wiring is required as in the prior art. It eliminates various damages due to wiring, aesthetics, etc., and there is no wiring, so it can be moved from time to time, so it can be controlled at any place where power line line is located, and it does not need a separate communication line.

Claims (3)

In the temperature controller including the temperature setting unit 100 and the sensor input and control output unit 200, the temperature setting unit 100 and the sensor input and control output unit 200 are separated from each other independently of each other and the power line modem Remote thermostat installed (1), allowing the transmitter to transmit and receive via modem (1). 2. The remote automatic temperature control device according to claim 1, wherein the temperature setting unit (100) comprises a display unit (2), a CPU (3), a power supply unit (4), a power line modem (1), and a plug (5). 2. The sensor unit 200 according to claim 1, wherein the sensor unit 200 includes a CPU 3, a power supply unit 4, a power line modem 1 ', and a plug 5 for controlling output to the temperature sensor 6 and the control target 7. Remote thermostat.