KR101591680B1 - Automatic Cooking Apparatus With Improved Insulation Property - Google Patents

Abstract

The present invention relates to a protective module of a detection unit, and an automatic cooker with improved insulation properties having the same and, more particularly, to a protective module of a detection unit which allows the detection unit to be protected by a separate switch and an independent power, and an automatic cooker having the improved insulation properties using the same. The protective module (10) comprises: a detection sensor (12) for detecting an operation condition of an output unit (H); a first detection processor (14) for receiving a signal of the detection sensor (12); a separate switch (15) for receiving a control signal outputted from the first detection processor (14); and a second detection processor (16) for receiving a signal transmitted from the separate switch (15) to control an operation of the output unit. The separate switch (15) consists of transmission and reception terminals which are spatially spaced, and the first detection processor (14) and the second detection processor (16) are operated by the independent power.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a protection module for a detection unit,

The present invention relates to a protection module of a detection unit and an automatic cooker having improved insulation with the protection module, and more particularly to a protection module of a detection unit for protecting a detection unit by a separation switch and an independent power source, will be.

Various types of detection units can be applied to a cooker for automatically cooking soybean milk or soybean milk. For example, an overflow prevention unit for preventing the water from overflowing in the cooking process may be installed in the automatic cooker so that the water level inside the cooker can be detected. In addition, a water-free detection unit is provided to prevent the automatic cooker from overheating by operating the heater in the absence of water. Thus, various types of detection units can be arranged in the automatic cooker and appropriate circuits for the operation of such detection units can be arranged. However, if an excessive voltage or current is introduced, the circuit itself included in the detection unit or detection unit may be damaged. Therefore, protection measures for the detection unit are needed.

Japanese Patent Application Laid-Open No. 1996-0006694 discloses an inverter that alternately switches a switching element when a DC voltage is input through filtering means and a rectifying / smoothing means to apply a high frequency current to a working coil to heat the load, A microcomputer for outputting a signal for heating a load and for detecting the presence or absence of a load; and a microcomputer for outputting a signal for heating the load, A current setting unit for changing a current level signal of the signal separated and inputted through the separating unit, and a controller for comparing the input current monitoring signal with the set current level to determine whether the current is a normal load Normal load determination means for determining whether or not the inverter A start / stop means for controlling the operation of the voltage control oscillation means for controlling the operation means, and a current feedback means for supplying a control voltage to the voltage control oscillation means in accordance with the output of the start / .

Utility Model Registration No. 20-0327502 discloses a soymilk for producing soymilk by crushing soybean, separating the soybean oil into beans and soybean juice, and heating the soybean juice to produce soybean milk. In the soybean milk maker, A bubble detection / blocking device for a soybean milk maker is disclosed which detects a level of bubbles generated by a bar-shaped sensor and controls the heating plate to heat bean juice according to a sensed signal to remove bubbles.

Patent Publication No. 10-2009-0116074 is a reference voltage for judging whether or not the resonance current supplied to the working coil is overloaded in a protection circuit for preventing overload due to the eccentricity of the container in the induction heating cooker. A node whose limiting voltage is measured; A start limiter and an intermediate output limiter connected to the node for outputting the levels of the limit voltages different from each other depending on whether a short circuit occurs; And a comparator for comparing the voltage level of the resonance current supplied to the working coil with the limiting voltage measured at the node.

The Utility Model Registration No. 20-0272968 has a ground electrode and a signal electrode connected by selecting two of the components on the main body, a resistor and a switching transistor connected to the signal electrode, And a buzzer connected to the switching transistor and a resistor connected to the controller, and a buzzer connected to the switching transistor.

The cooking apparatus disclosed in the prior art does not have any protection means or detects an overload by an independent judgment process. However, the detection unit or the detection circuit itself is not protected by such means. Damage to the detection unit or the detection circuit has a disadvantage in that the detection itself is prevented from proceeding and, as a result, the entire cooker can be damaged or a safety accident can be caused.

The present invention has been made to solve the problems of the prior art and has the following purpose.

Prior Art 1: Patent Publication No. 1996-0006694 (published by LG Electronics Co., Ltd., February 23, 1996) Protection circuit of induction heating cooker Prior art 2: Utility model registration No. 20-0327502 (UniCo Cycom Com Co., Ltd., released on September 19, 2003) Foam detection device for soybean milk maker Prior Art 3: Patent Publication No. 10-2009-0116074 (published by LG Electronics Co., Ltd., November 11, 2009) Induction heating cooker including protection circuit and protection circuit of induction heating cooker Prior art 4: Utility model registration No. 20-0272968 (Kim, Hongbae, published April 20, 2002) Water alarm detection device for domestic soybean milk, soybean curd, tofu manufacturing device

It is an object of the present invention to provide a protection module of a detection unit and an automatic cooker having improved insulation with the detection module so that the detection unit is protected by disposing at least two mutually independent power sources connected to each other, .

According to a preferred embodiment of the present invention, the protection module of the detection unit for detecting the internal operating condition of the automatic cooker includes: a detection sensor for detecting an operating condition of the output unit; A first detection processor for receiving a signal of the detection sensor; A separation switch for receiving a control signal output from the first detection processor; And a second detection processor for receiving the signal transmitted from the separation switch and controlling operation of the output unit, wherein the separation switch comprises a spatially separated transmission terminal and a reception terminal, and the first detection processor and the second detection processor The processor is powered by an independent power supply.

According to another preferred embodiment of the present invention, the separation switch is a photocoupler, and the signal output from the second detection processor is transmitted to the relay via the transistor.

According to another preferred embodiment of the present invention, the automatic cooker comprises at least one detection unit for detecting foam, temperature or no-water detection inside the cooking vessel; A first detection processor and a second detection processor for receiving a detection signal generated from the detection unit; And an output unit whose operating status is controlled based on a signal transmitted from the detection processor, wherein the second detection processor is connected by a photocoupler from a first detection processor and the first detection processor and the second detection processor are independent Powered by power.

The protection module of the detection unit according to the present invention has an advantage that the detection unit is protected while the safety of the automatic cooker is enhanced while the detection unit is protected even if the insulation property of the automatic cooker itself is deteriorated. In addition, the protection module of the detection unit according to the present invention also enables different reference voltages to be set in different detection units, so that the detection unit can be protected under various conditions so that the state of the automatic cooker can be accurately detected. In addition, the automatic cooker according to the present invention prevents the introduction of a current or voltage exceeding a predetermined level into the detection circuit, thereby ensuring safe use of the automatic cooker.

1 is a block diagram illustrating an embodiment of a protection module according to the present invention.
Fig. 2 shows an embodiment of a protection circuit applied to a protection module according to the present invention.
3 shows an embodiment of an automatic cooker having a protection module according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto. In the following description, components having the same reference numerals in different drawings have similar functions, so that they will not be described repeatedly unless necessary for an understanding of the invention, and the known components will be briefly described or omitted. However, It should not be understood as being excluded from the embodiment of Fig.

1 shows a block diagram of an embodiment of a protection module 10 according to the present invention.

Referring to FIG. 1, a protection module 10 according to the present invention includes a detection sensor 12 for detecting an operating condition of an output unit H; A first detection processor (14) for receiving a signal of the detection sensor (12); A separation switch 15 for receiving a control signal output from the first detection processor 14; And a second detection processor (16) for receiving signals transmitted from the separation switch (15) and controlling the operation of the output unit, wherein the separation switch (15) comprises spatially spaced transmission and reception terminals And the first detection processor 14 and the second detection processor 16 are operated by an independent power source.

The protection module 10 according to the present invention can be applied to an automatic cooker for cooking soymilk or tofu, but is not limited thereto. For example, the protection module according to the present invention can be applied to various automatic cookers including a porridge cooker or a steamed cooker, and the present invention is not limited by the type of cooker. The automatic cooker includes a heater for generating heat by electric power supply, and the heater can be installed inside or outside the cooking vessel. The heater may also be a sheath heater or an induction heater. Thus, the heat source of the automatic cooker can be any form known in the art, and the present invention is not limited by the heat source of the automatic cooker. The automatic cooker to which the protection module according to the present invention is applied may include a cooking container into which the cooking material is inputted, a detection sensor 12 for detecting the inside of the cooking container, and a control unit 11 for controlling the cooking state And may include a crushing unit as required. The automatic cooker according to the present invention may include various types of units for improving the convenience of the cooking, and the present invention is not specifically described below regarding whether or not the unit is known in the art. It is to be understood, however, that the same is by way of illustration and example only, and is not to be construed as limiting the invention. The control unit 11 in the protection module 10 or automatic cooker according to the present invention may be installed separately from the first detection processor 14 or the second detection processor 16 or may include the second detection processor 16 . Specifically, the second detection processor 16 may be an independent microprocessor or a part of the control unit 11. The control unit 11 may receive the necessary signals from the detection processor 14 or the second detection processor 16 while controlling the overall operation of the automatic cooker or protection module 10. [ However, it is advantageous that the first detection processor 14 and the second detection processor 16 are logically and physically independent units.

The detection sensor 12 can be installed inside the cooking container and is for detecting the state inside the cooking container, such as an overflow prevention sensor, a foam detection sensor, a temperature sensor or a water absence sensor, It is not limited. The detection sensor 12 can be installed at an appropriate position inside the cooking container. The detection sensor 12 is for detecting an operating condition inside the automatic cooker and can detect, for example, presence of water, water level inside the cooking container or whether foam is generated. There can also be more than one sensor to detect one physical property. For example, two temperature sensors may be installed inside the cooking vessel to detect temperatures at different locations. On the other hand, one sensor can detect two or more physical quantities. For example, temperature and bubble generation can be detected simultaneously by a single sensor. Various kinds of detection sensors 12 can be installed in the cooking container and each detection sensor 12 can convert the detected information into an electric signal and transmit it to the first detection processor 14. [

The first detection processor 14 may be, for example, a device such as a microprocessor and may process signals transmitted from the detection sensor 12. And can be detected by the detection sensor 12 when an abnormal condition occurs in the cooking container. When the first detection processor 14 receives a signal of a certain level or more from the detection signal, the first detection processor 14 may determine whether to transmit the signal to the second detection processor 16 according to the signal size or signal type . The first detection processor 14 can distinguish signals transmitted to the respective detection sensors 12 and transmit them to the second detection processor 16.

The second detection processor 16 can determine the signal transferred from the first detection processor 14 and control the operating state of the output unit H. [ Alternatively, an associated signal may be sent to the control unit 11 to control the operating state of the output unit H. [ The second detection processor 16 may be a processing device that is the same as or similar to the first detection processor 14. However, an appropriate program according to the processing type of the signal transmitted to each detection processor 16 may be embedded.

According to the present invention, a separation switch 15 may be provided between the first detection processor 14 and the second detection processor 16. The isolation switch 15 has a function of separating the first detection processor 14 and the second detection processor 16 from each other to block an excessive signal or a signal having an unexpected size from being transmitted to the second detection processor 16 Lt; / RTI > For example, the isolation switch 15 may be an element such as a photo coupler. The separation switch 15 has a function of spatially separating the first detection processor 14 and the second detection processor 16. For this purpose, the isolation switch 15 may be composed of a transmission terminal and a reception terminal, and the transmission terminal and the reception terminal may be spatially separated from each other. Spatially separated in this specification means not connected by a conductive material during signal transmission. In this manner, the detection signal is processed by the microprocessors separated from each other, such as the first detection processor 14 and the second detection processor 16, thereby improving the safety of the automatic cooker. For example, when water is not fed or foamed in the automatic cooking process of tofu, soy milk or porridge, a control device such as a transistor or a silicon controlled rectifier device may be used. A reference voltage, such as a bias voltage, may be applied during signal propagation. In this process, when the dielectric strength of the peripheral power supply component or the device is reduced or leakage occurs, the microprocessor may be damaged due to high voltage or current flow. This may cause the automatic cooker itself to overheat and cause safety accidents.

According to the present invention, the detection signal is transmitted via the separation switch 15 by the first detection processor 14 and the second detection processor 16 which are separated from each other. Then, the operation state of the automatic cooker is determined by determining the internal operation state of the automatic cooker according to the transmitted signal. Such a structure can prevent the first detection processor 14 or the second detection processor 16 from being damaged at the same time.

The signal transmitted to the second detection processor 16 may be transmitted to the control unit 11 as needed. Then, the control unit 11 can control the operating state of the output unit H of the automatic cooker according to the transmitted signal. The operation control of the output unit H by the control unit 11 can be performed according to a method known in the art. Alternatively, the output unit H can be directly controlled by the second detection processor 16.

The isolation switch 15 may be a switch known in the art in various forms.

Fig. 2 shows an embodiment of a protection circuit applied to a protection module according to the present invention.

2, a signal detected from the output unit H. J is passed through a first detection processor 14, a separation switch 15 and a second detection processor 16 via a transistor, such as a relay, Units RE1 and RE2.

The isolation switch 15 may be an element such as a photocoupler consisting of a first terminal 151 such as a light emitting element and a second terminal 152 such as a light receiving element. A bias voltage may be applied to the first terminal 151 and the second terminal 152 by resistors R1 and R2, respectively. The bias voltage can be appropriately selected depending on the operating structure of the photocoupler, for example.

An external power supply 21 for supplying AC power may be connected to the application coil L0 and the application coil L0 may be connected to the first detection processor 14 and the second detection processor 16, And may be magnetically connected to the first power supply coil L1 and the second power supply coil L2. Each of the power coils L1 and L2 can supply power for operation of the detection processors 14 and 16 of FIG. 3 through the rectifiers 221 and 222. FIG. Each independent power supply (see S1 and S2 in FIG. 3) can be appropriately adjusted by making the first or second power supply coils L1 and L2 have a variable coil structure.

The output units H and J may be, for example, devices for generating a signal to a foam detection sensor, an overflow prevention sensor or a water absence sensor installed inside the cooking container. When a detection signal is generated from the output units H and J, a detection signal such as a voltage change at the first or second input terminals 141 and 142 of the first detection processor 14 by the values of the bias resistors R3 and R4 Can be input. The first detection processor 14 processes the input signal and outputs the signal through the output terminal 143 to the separation switch 15 when the signal has a predetermined level or a predetermined signal form. When the separation switch 15 is an optical device such as a photocoupler, an optical signal is generated based on the bias resistor R2 of the first electrode terminal 151 when an electrical signal is transmitted from the output terminal 143 have. When the optical signal becomes a level that generates an electric signal based on a power source connected to the second electrode terminal 152 via the bias resistor R1, an input signal is inputted to the input terminal 161 of the second detection processor 16 Can be input. The second detection processor 16 processes the signal input from the input terminal 161 and outputs the processed signal through the first output terminal 162 or the second output terminal 163, respectively.

2, the first output terminal 162 is connected to the first transistor Q1 via a resistor R9 and is transmitted to a first switch unit RE1 such as a relay to output an output of the cooker And generate alarms as needed. The second output terminal 163 may be inputted to the second transistor Q2 via the resistor R10 and may be transmitted to the second switch unit RE2 such as a relay, May operate in the same or similar manner as the first switch unit RE1.

Thus, according to the present invention, the detection signal is processed in the first detection processor 14 and the second detection processor 16, which are connected to each other via the separation switch 15, It is possible to prevent a malfunction. At the same time, at least the flow of current to the second detection processor 16 is limited so that the second detection processor 16 can be protected.

The protection module according to the present invention can control the operation state of the automatic cooker through various protection circuits.

3 shows an embodiment of an automatic cooker having a protection module according to the present invention.

Referring to FIG. 3, the automatic cooker according to the present invention includes at least one detection unit 32a, 32b, 32c for detecting bubble, temperature, or no-water detection inside the cooking vessel 31; A first detection processor 33 and a second detection processor 36 for receiving a detection signal generated from the detection units 32a, 32b, 32c; And an output unit whose operating state is controlled based on a signal transmitted from the detection processor (33, 36), the second detection processor (36) being connected by a photocoupler from the first detection processor (33) The first detection processor 33 and the second detection processor 36 are operated by independent power sources.

The detection units 32a, 32b and 32c may be installed inside or outside the cooking vessel 31 and may detect the inside of the cooking vessel 31 during the cooking process or when power is applied to the automatic cooking vessel. The detection units 32a, 32b, and 32c may be a temperature sensor, an overflow prevention sensor, a foam detection sensor, or a water absence sensor. The first detection processor 33 can receive the signals transmitted from the detection sensors 32a, 32b and 32c and transmit the signals transmitted from the detection sensors 32a, 32b and 32c to different levels of signals or Signal form and forward it to the second detection processor 36. For example, a signal input from each of the detection sensors 32a, 32b, and 32c may be converted to voltages of a first level, a second level, and a third level and transmitted to the second detection processor 36. [ Alternatively, the signals input from the respective detection sensors 32a, 32b and 32c may be transformed into a pulse signal having a different period or a signal having a different waveform such as a sawtooth wave or a square wave and transmitted to the second detection processor 36 . The signal from the first detection processor 33 to the second detection processor 36 may be transmitted via a split switch consisting of the first and second terminals 34a and 34b described above. The first and second detection processors 33 and 36 may be operated by independent power sources S1 and S2. The state inside the cooking vessel 31 can be detected according to the signal transmitted from the first and second detection processors 33 and 36 and the state inside the cooking vessel 31 according to the signal level or signal form as described above Can be determined. It is also possible to judge a signal generated due to the deterioration of the insulation state or a signal flowing through another path.

Thus, the automatic cooker according to the present invention receives the signals of the detection units 32a, 32b, 32c by independent and different detection processors 33, 36 and also by the separation switches 34a, 34b to the first detection processor 33 and the second detection processor 36 so as to accurately detect the operating state of the automatic cooker.

The protection module of the detection unit according to the present invention has an advantage that the detection unit is protected while the safety of the automatic cooker is enhanced while the detection unit is protected even if the insulation property of the automatic cooker itself is deteriorated. In addition, the protection module of the detection unit according to the present invention also enables different reference voltages to be set in different detection units, so that the detection unit can be protected under various conditions so that the state of the automatic cooker can be accurately detected. In addition, the automatic cooker according to the present invention prevents the introduction of a current or voltage exceeding a predetermined level into the detection circuit, thereby ensuring safe use of the automatic cooker.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention . The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: protection module 11: control unit
12: detection sensor 14: first detection processor
15: separation switch 16: second detection processor
21: external power source 31: cooking vessel
32a, 32b, 32c: Detection unit 33, 36: Detection processor
141, 142: Input terminal 143: Output terminal
151: first terminal 152: second terminal
161: input terminal 162, 163: output terminal

Claims (3)

A protection module of a detection unit for detecting an internal operating condition of an automatic cooker,
A detection sensor (12) for detecting an operating condition of the output unit (H);
A first detection processor (14) for receiving a signal of the detection sensor (12);
A separation switch 15 for receiving a control signal output from the first detection processor 14; And
And a second detection processor (16) for receiving the signal transmitted from the separation switch (15) and controlling the operation of the output unit,
Characterized in that the isolation switch (15) comprises a spatially spaced transmission and reception terminal and the first detection processor (14) and the second detection processor (16) are operated by separate power sources module. The protection module of claim 1, wherein the isolation switch (15) is a photocoupler and the signal output from the second detection processor (16) is transferred to a relay via a transistor. At least one detection unit (32a, 32b, 32c) for detecting bubble, temperature or water absence detection inside the cooking vessel (31); A first detection processor 33 and a second detection processor 36 for receiving a detection signal generated from the detection units 32a, 32b, 32c; And
And an output unit whose operating state is controlled based on a signal transmitted from the detection processor (33, 36)
Characterized in that the second detection processor (36) is connected by a photocoupler from a first detection processor (33) and the first detection processor (33) and the second detection processor (36) Automatic cooker.

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