KR200487054Y1 - Wireless remote controller connected induction range and having tempereture sensor attached to the pot - Google Patents

Abstract

Disclosed is a remote controller having a temperature sensor wirelessly connected to an under-range and attached to a container. A temperature sensor attached to the vessel; And a remote controller receiving the temperature value of the temperature sensor and transmitting the temperature value to the underrange. The temperature sensor is attached to the container by a magnet to measure the container temperature. The remote controller receives the container temperature value by the temperature sensor, And the underrange compares the container temperature value with the target temperature to shut off the power supplied to the induction coil when the container temperature value reaches the target temperature, and the temperature sensor is detachably attached to the container; And a sensor coupled to the magnet for measuring the temperature of the container. Thus, a temperature sensor is attached to the container and the remote controller can transmit the container temperature to the underrange. When the remote controller receives the user-set target temperature from the underrange and the container temperature reaches the target temperature, The container temperature can be measured with a temperature sensor detachable to the container, and the degree of heating of the undermentor can be controlled by the container temperature.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a remote controller having a temperature sensor attached to a container and wirelessly connected to an underrange,

The present invention relates to a remote controller having a temperature sensor attached wirelessly to an under-range and having a temperature sensor attached thereto. More specifically, the temperature sensor is magnetically attached to the container to measure the container temperature, And the underrange is compared with the container temperature value and the target temperature. When the container temperature value reaches the target temperature, the underrange is wirelessly connected to the underrange which cuts off the power supplied to the induction coil. To a remote controller having a temperature sensor.

Underlange applies electricity to the induction coil and applies heat to the container by magnetic induction. Under-range is heated by applying magnetic induction heat to the container and heated for a certain time. The user can set a certain time in the timer and use underrange. The vessel is heated and the temperature is changed. The under-range supplies power to the induction coil corresponding to the temperature value input by the user. The induction amount varies depending on the amount of power applied to the induction coil, so that the degree of vessel heating varies. Under-range can not know the temperature of the container, so that it is difficult to control the heating.

Registration number: 10-1597173, Fire prevention device for induction range including underrange

In order to solve the above problems, an object of the present invention is to provide a remote controller having a temperature sensor attached to a container and a remote controller having a temperature sensor attached wirelessly to an under- .

In addition, when the remote controller receives the target temperature set by the user from the under-range, and wirelessly connects with the under-range which transmits the OFF signal to the under-range when the container temperature reaches the target temperature, .

In order to accomplish the above object, the present invention provides a temperature sensor comprising: a temperature sensor attached to a container; And a remote controller receiving the temperature value of the temperature sensor and transmitting the temperature value to the underrange. The temperature sensor is attached to the container by a magnet to measure the container temperature. The remote controller receives the container temperature value by the temperature sensor, And the underrange compares the container temperature value with the target temperature to shut off the power supplied to the induction coil when the container temperature value reaches the target temperature, and the temperature sensor is detachably attached to the container; And a sensor coupled to the magnet for measuring the temperature of the container.

The remote controller receives the target temperature value set by the user from the under-range, compares the target temperature value with the container temperature value, and transmits the off signal to the under-range when the container temperature value reaches the target temperature value, When the signal is received, the power supplied to the induction coil is cut off.

When the remote controller having the temperature sensor attached to the container is wirelessly connected to the undergarment according to the present invention as described above, a temperature sensor is attached to the container, and the remote controller can transmit the container temperature to the underrange.

Further, there is an advantage that the remote controller receives the target temperature set by the user from the under-range and transmits the OFF signal to the under-range when the container temperature reaches the target temperature.

Further, the container temperature can be measured by a temperature sensor detachably attached to the container, and the degree of heating of the undermentor can be controlled by the container temperature.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an illustration of an under-range connected wirelessly with a remote controller with a temperature sensor according to an embodiment of the present invention; FIG.
2 is a block diagram showing a configuration of a remote controller according to an embodiment of the present invention.
3 is a block diagram showing a configuration of a remote controller according to another embodiment of the present invention.
4 is a view showing an example in which the temperature sensor is attached to a container.

Unless otherwise defined, all terms used herein, including technical or 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 commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

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

A temperature sensor attached to the container measures the container temperature, and the remote controller transmits the container temperature to the underrange. The underrange compares the vessel temperature with the target temperature and controls the power supplied to the induction coil. In another embodiment, the remote controller can receive the target temperature from the underrange. The remote controller compares the container temperature with the target temperature and wirelessly transmits the off signal to the underrange when the container temperature reaches the target temperature.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is an illustration of an under-range wirelessly connected to a remote controller with a temperature sensor according to an embodiment of the present invention; FIG.

A temperature sensor 140 is attached to the container 120. The temperature sensor 140 is removably attachable to the container 120 by a magnet.

The remote controller 130 measures the container temperature from the temperature sensor 140 and transmits the measured container temperature to the underrange 110. [ The underrange 110 is installed under the table 150.

The underhood 110 and the container 120 are separated by a table and the undermentor 110 applies heat to the container 120 by induction heating.

The underrange 110 can not directly measure the temperature of the container 120. There is a table between the underrange 110 and the container 120 so that the underrangement 110 and the container 120 are not in close contact with each other and the underrange 110 can not directly measure the container temperature. Since the underrange 110 can not directly measure the container temperature, it must measure the container temperature and receive the measured container temperature. A temperature sensor 140 attached to the vessel 120 measures the temperature of the vessel 120 and transmits it wirelessly to the underground station 110. The temperature sensor 140 is finished with a magnet and the magnet is attached to the container, so that the temperature sensor 140 measures the temperature of the container. The temperature sensor 140 transmits the wirelessly measured temperature to the underrange 110. The temperature sensor 140 and the remote controller 130 are wired and the remote controller 130 receives the temperature of the container from the temperature sensor.

The underrange 110 receives the container temperature in real time from the remote controller 130, compares the container temperature with the target temperature, and controls the power supplied to the induction coil.

The undermentor 110 compares the container temperature with the target temperature and cuts off the power supplied to the induction coil when the container temperature reaches the target temperature.

2 is a block diagram showing a configuration of a remote controller according to an embodiment of the present invention.

A temperature sensor 210 attached to the vessel; And a remote controller 220 receiving the temperature value of the temperature sensor 210 and transmitting the received temperature value to the underrange 230. A configuration that enables the operation of the remote controller 220 wirelessly connected to the under-stand 230 and having the temperature sensor 210 attached to the container will be described.

A temperature sensor 210 is attached to the container.

The remote controller 220 receives the temperature value of the temperature sensor 210 and transmits the temperature value to the underrange 230.

The temperature sensor 210 is magnetically attached to the container to measure the container temperature.

The remote controller 220 receives the container temperature value from the temperature sensor and transmits the container temperature value to the underrange 230.

The underrange 230 compares the container temperature value with the target temperature and cuts off the power supplied to the induction coil when the container temperature value reaches the target temperature.

The temperature sensor 210 includes a magnet 211 detachably attached to the container; And a sensor 212 coupled to the magnet for measuring the temperature of the container.

The remote controller 220 has a temperature sensor 210 that is wirelessly connected to the underrange 230 and attached to the container.

3 is a block diagram showing a configuration of a remote controller according to another embodiment of the present invention.

A temperature sensor 310 attached to the vessel; A remote controller 320 that receives a target temperature set by the user from the underrange 330 and compares the target temperature with the container temperature and transmits an OFF signal to the underrange 330 when the container temperature reaches the target temperature; And an underrange 330 for shutting off the power supplied to the induction coil upon receiving the OFF signal.

A temperature sensor 310 is attached to the container.

The remote controller 320 receives the container temperature from the temperature sensor 310.

The remote controller 320 has a temperature sensor 310 wirelessly connected to the underrange 330 and attached to the container.

The remote controller 320 receives the target temperature value set by the user from the underrange 330 and compares the target temperature value with the container temperature value. When the container temperature value reaches the target temperature value, the remote controller 320 outputs the OFF signal to the underrange 330 ).

When the underrange 330 receives the OFF signal, the underrange 330 cuts off the power supplied to the induction coil.

4 is a view showing an example in which the temperature sensor is attached to a container.

The user attaches the temperature sensor to the container.

The temperature sensor measures the container temperature and delivers it to the remote controller.

The remote controller can transmit the container temperature to the underrange.

The underrange compares the vessel temperature with the target temperature and controls the power supplied to the induction coil.

Example 1

A temperature sensor attached to the container measures the container temperature and communicates the measured container temperature to the remote controller.

The remote controller wirelessly transmits the vessel temperature to the underground.

The remote controller and underrange are wirelessly connected to transmit and receive data.

The underrange can receive the container temperature and control the power supplied to the induction coil by comparing the container temperature with the target temperature set by the user.

Example 2

A temperature sensor attached to the container measures the container temperature and communicates the measured container temperature to the remote controller.

The remote controller receives the target temperature set by the user from the underrange.

The remote controller compares the container temperature with the target temperature and wirelessly transmits the off signal to the underrange when the container temperature reaches the target temperature.

When the underrange receives the off signal, it cuts off the power supplied to the induction coil.

Example 3

A temperature sensor is attached to the container using a magnet.

The temperature sensor is easy to attach and detach to the container.

The temperature sensor measures the container temperature and delivers it to the wired connected remote controller.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the following claims. It will be understood that the present invention can be changed.

110: Underneath 120: container
130: remote controller 140: temperature sensor
210: Temperature sensor 220: Remote controller
230: underrange 310: temperature sensor
320: remote controller 330: underrange

Claims (2)

In an under-range in which the degree of heating of the container varies depending on the amount of power applied to the induction coil,
A container which is heated by magnetic induction and whose temperature varies;
A magnet detachably attached to the container; a temperature sensor coupled to the magnet and including a sensor for measuring the temperature of the container, the container being easily detachable from the container;
A temperature sensor connected to the temperature sensor and receiving the temperature of the container, receiving a target temperature set by the user from the under temperature sensor,
A remote controller which compares the container temperature with a target temperature and transmits an off signal to an underrange when the container temperature reaches a target temperature;
When receiving the off signal from the remote controller, cut off the power supplied to the induction coil,
There is a table between the container and the container temperature can not be measured directly
An under-range in which the amount of magnetic induction varies according to the amount of power applied to the induction coil, and the degree of heating of the container changes. delete

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