JPH01269827A - Electric cooker - Google Patents

Abstract

PURPOSE:To maintain safety during disaster, such as earthquake, by cutting off the power supply to an electric heating element when a vibration detection means designed to detect the vibration of a cooking device main body 1 operated. CONSTITUTION:Generally, a drive circuit 14 for ON/OFF means 7, 8, 9 and 10 drives relay-composed ON/OFF means 7, 8 and TRIAC-composed ON/OFF means 9 and 10 at an energization rate set by an energization rate set means, thereby supplying power to electric heating elements 5 and 6, and heating a cooking device placed on the electric heating elements 5 and 6 so as to perform cooking. When a vibration detection means 13 detects vibration, the drive circuit 14 for the ON/OFF means is prohibited to work, thereby turning off the relay- composed ON/OFF means 7 and 8, and the TRIAC-composed ON/OFF means 8 and 9. This stops the power supply to the electric heating elements 5 and 6. Even if something inflammable should drop on a cooking device later, it can not be heated.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of Industrial Application The present invention relates to electric heating cookers such as electric cooking heaters used in general households. BACKGROUND ART Electric cooking heaters that use an electric heating element such as a sheathed heater as a heating source have come to be used as a heating cooker. Such electric shoe heaters are safer than gas staples, with no worries about gas leaks.

An example of such an electric heating cooker is shown in FIG. 7th
In the figure, 1 is an electric heating element such as a sheathed heater, 2 is an on/off switch, 3 is an energization rate setting means for setting the energization rate of the electric heating element 1, and 4 is an energization rate set by the energization rate setting means 3. This is an energization rate display means for displaying the rate.

In such a configuration, a cooking container is placed on top of the electric heating element 1 to perform cooking.

Problems to be Solved by the Invention However, with such electric heating cookers, if an earthquake occurs and flammable materials fall onto the cooker or the cooker is about to topple over, there is a risk that it will be left as it is. There was a risk that combustible materials would heat up and catch fire, resulting in a friendly disaster.

An object of the present invention is to provide an electric heating cooker that solves these problems.

Means for Solving the Problems 1 In order to solve the problems, the electric cooking appliance of the present invention includes an electric heating element, an on/off means connected in series to the electric heating element, and an electric heating element connected to the electric heating element in series. An electric heating cooking device comprising: an energization rate setting means for setting an energization rate; an energization rate display means for displaying the energization rate set by the energization rate setting means; and a drive circuit for the on/off means, A vibration detecting means for detecting vibrations of the cooking appliance body is provided, and when the vibration detecting means is activated, electricity to the electric heating element is cut off.

The vibration detection means includes a concave portion having an opening at the bottom, a connecting portion slidably provided in the opening of the concave portion, and a connecting portion provided movably within the concave portion, and usually The vibration detector is constituted by a sphere that closes an electric contact located on the connecting part and electrically connected to the electric heating element through the connecting part.

In addition, a sounding body that emits an audible sound and a liquid crystal display element are separately provided, and when the vibration detecting means is activated, the electric heating element is de-energized, and the sounding body is made to sound, or the liquid crystal display element is used to indicate an "earthquake". It is configured to display.

Furthermore, a reset means is provided separately, and the state where the vibration detecting means is activated and the electricity to the electric heating element is cut off, the state where the sounding element makes a sound, and the state where the liquid crystal display element displays "earthquake" can be determined as described above. The configuration is such that it can be canceled by a reset means. Furthermore, the reset means uses a voltage drop reset circuit.

Function: With the above configuration, if an earthquake occurs during use and flammable materials fall onto the electric heating cooker or it falls over, the vibration detection device will automatically shut down the electric generator. Since electricity is cut off, there is no risk that combustible materials will heat up and ignite, causing a fire.

In addition, when the electricity to the electric heating element is cut off, a sounding element that emits an audible sound is blown to notify the user, and the word "earthquake" is displayed on a liquid crystal display element to indicate that there is no malfunction. An electric heating cooker that can be used with peace of mind by people can be obtained.

Furthermore, the state in which power is cut off to the electric heating element remains in that state until it is released by the reset means, so there is no chance of the switch being turned on accidentally and restarting the power supply. Furthermore, by the reset means, it is possible to easily cancel a state in which the electricity to the electric heating element is cut off, a state in which the sounding element makes a sound, and a state in which the liquid crystal display element displays "earthquake". Since this reset circuit is composed of a voltage drop detection reset circuit, it can be reset by operating the power switch, and is therefore extremely safe and easy to use. It is something.

Embodiment Hereinafter, one embodiment of the present invention will be described based on the accompanying drawings.

FIG. 1 shows a block diagram of an electric heating cooker according to an embodiment of the present invention.
is an electric heating element such as a sheathed heater installed on the top of the cooker body to heat the food to be cooked; 7 and 8 are on/off means made of relays; and 9 and 10 are on/off means made of triacs. . Reference numeral 11 denotes an energization rate setting means for setting the energization rate to the electric heating elements 6, 6, 12 an energization rate display means for displaying the energization rate set by the energization rate setting means 11, 13 a vibration detection means, and 14 a vibration detection means. Said on.

A drive circuit for the off means 7, 8, 9.10, this drive circuit 14 normally operates at the energization rate set by the energization rate setting means 11, and the on/off means 7, 8 consisting of relays and a triac. drive the on/off means 9, 1o,
As a result, electricity is supplied to the electric heating elements 6, 6, and cooking is performed by heating the cooking container placed on the electric heating elements 5, 6.

Here, when the vibration detection means 13 detects vibration now, the operation of the drive circuit 14 of the on/off means is prohibited, and the on/off means 7, 8 consisting of relays, the on/off means 9, such as a triac, Turn off 1o. As a result, the power supply to the electric heating elements 5 and 6 is stopped, so that even if combustible material falls onto the cooking device thereafter, it will not be heated.

FIG. 2 shows a cross-sectional view of the vibration detection means of an electric heating cooker according to an embodiment of the present invention. In this FIG. The portion 16 is made of synthetic resin. 16 is a sphere made of metal or the like, and this sphere 16 is connected to the concave portion 1.
It is movably provided within 5. 17 is the concave portion 1
6 is a connecting portion made of synthetic resin that is slidably provided in the opening 15a of the opening 15a.
is formed. Reference numeral 18 denotes a vibration detector main body that has the concave portion 15 inside, and a terminal block 19 is provided at the inner bottom of the main body 18, and a fixed contact 2 is provided on the terminal block 19.
0a, and a movable contact plate 21 made of a spring material having a movable contact 21a that comes into contact with and separates from the fixed contact 20a. It is always urged in the direction of separation, and its free end is in contact with the lower end of the connecting portion 17. Further, the spherical body 16 is normally connected to the connecting portion 17.
The movable contact 21a is located above and is brought into contact with the fixed contact 20a via the connecting portion 17 thereof.

In the configuration shown in FIG. 2 above, when subjected to vibration, the sphere 1e
moves left and right in response to vibrations, and when the sphere 16 comes off from above the connecting portion 17, the upward spring force of the movable contact plate 21 pushes the connecting portion 17 upward, and the free end of the movable contact plate 21 also moves upward. Moving upward, the movable contact 21a separates from the fixed contact 20a. In this way, when the vibration detector of FIG. 2 detects vibration, the movable contact 21a and the fixed contact 2
0a is in contact, that is, the contact is closed, and the movable contact 21a is separated from the fixed contact 20a, that is, the contact is open. Also, due to the vibration, the sphere 1
6 swings left and right, and at that time, it swings while passing over the top of the connecting part 17, so the contact signal opens, closes, opens, closes...
and becomes a dynamic signal.

FIG. 3 is a block diagram of an electric cooking device according to an embodiment of the present invention, in which a sounding body 22 that emits an audible sound and a drive circuit 23 for this sounding body 22 are added to the electric cooking device of FIG. 1. It is. According to this configuration, when the vibration detection means 13 detects vibration, the operation of the drive circuit 14 of the on/off means 7, 8, 9.10 is prohibited, and the drive circuit 23 of the sounding body 22 is driven and blows, and the electric heating element 5. It is possible to notify that the energization of θ is cut off.

FIG. 4 shows an embodiment of a structure for displaying an "earthquake" on a liquid crystal display element. In this Figure 4, 24
is the on/off switch, 25.26 is the electric heating cooker body 2
28 is a liquid crystal display element which is a means for displaying the energization rate.

According to this configuration, when vibration is detected and the power supply to the electric heating element 6.6 is cut off, the energization rate display is turned off as shown in 29, and the "earthquake" indicator is turned off as shown in 3Q. A display is made on the liquid crystal display element 28 which is a display means of the energization rate.

FIG. 5 shows an example of the configuration of a software flowchart when the present invention is implemented using a microcomputer. The first step is a step in the main flow in which the vibration detection means detects the vibration, and if there is no vibration, the vibration switch is turned on and the process moves to the next second step. This second step is a step in which the relay and triac are turned on in order to energize during the main flow. Thereafter, normal operations are performed.

Now, when vibration is detected and the vibration switch is turned off, the process branches to the third step. In this third step, the relay and triac are turned off, and in the fourth step, the sounding body (
buzzer).

The sixth step is to turn off the energization rate display that has been displayed up to that point.

In the sixth step, "earthquake" is displayed on the liquid crystal display element which is the means for displaying the energization rate.

The 7th to 9th steps are steps that serve as a reset means.
When the UP switch and Down switch, which are the on/off switch and the energization rate setting switch, are pressed at the same time, the system exits from this branch, returns to the 10th step of the main flow, accepts the next switch input, and operates normally. It becomes like this. Since the device exits from this branch only when multiple switches are pressed as a reset means, even when vibration is detected and the device is stopped, the device will not be inadvertently turned on and re-energized, increasing safety.

FIG. 6 similarly shows an electrical circuit diagram of an embodiment of the present invention using a microcomputer.
In the figure, 31 is a vibration detection means, 32 is a microcomputer, 133 is an energization rate setting means consisting of an input switch, 34 is a liquid crystal display element for displaying the energization rate, 3
5 is a drive circuit for the on/off means, 36 is an electric heating element such as a sheathed heater, and 37 and 3B are triacs and relays constituting the on/off means. 39 is a voltage comparator that constitutes a voltage drop detection reset circuit. This voltage comparator 39 compares the power supply voltage (VDD) divided by the Zener diode 40 and the resistor 41. , input terminal PI of microcomputer-32
Send OKLOW signal. By using this Low signal as a reset signal, vibrations are detected and the state in which electricity is stopped is restored, and the power switch 43
It can be easily reset by operating the button.

Effects of the Invention As is clear from the description of the above embodiments, according to the present invention,
A vibration detection means is provided to detect vibrations of the cooker body, and when the vibration detection means is activated, electricity to the electric heating element is cut off. Therefore, in the event of a disaster such as an earthquake, the vibration detection means will not be activated. As a result, even if an earthquake occurs during use and flammable materials fall onto the heating cooker, it will not ignite, making it safer. It is guaranteed.

In addition, when the power to the electric heating element is cut off, the sounding element emits an audible sound and the liquid crystal display displays an "earthquake" message, so the operation is reliable and easy to understand. After the reset is completed, the state continues until it is reset by the reset means, so there is no chance of accidentally turning on the switch and energizing, and on the other hand, once reset, the energization can be resumed. It is possible to obtain an electric heating cooker that is easy to use.

[Brief explanation of the drawing]

Fig. 1 is a block diagram of an electric heating cooker showing an embodiment of the present invention, Fig. 2 is a sectional view of a swing detection section of the electric heating cooker, and Fig. 3 is a block diagram of the electric heating cooker. A block diagram showing another embodiment, FIG. 4 is a perspective view of the electric heating cooker, and FIG. 6 is a flowchart showing an example of the software of the microcomputer in the electric heating cooker. Fig. 7 is a perspective view showing an example of a conventional electric heating cooker. 5.6... Electric heating element, 7, 8... On, off means (relay), 9, 10... On,
Off means (TRIAC), 11... Energization rate setting means, 12... Energization rate display means, 13...
... Vibration detection means, 14 ... Drive circuit for on/off means, 16 ... Concave surface portion, 15a ...
...Opening, 16...Sphere, 17...
Connection part, 18...Vibration detector body, 2o...
...Fixed contact plate, 20a...Fixed contact, 21
......Movable contact plate, 21a...Movable contact, 22...Sounding body, 24...On/off switch, 25, 2, etc. ... Energization rate setting means, 2γ
... Cooker main body, 28 ... Liquid crystal display element, 31 ... Vibration detection means, 33 ...
Energization rate setting means, 34...Liquid crystal display element, 35
... Drive circuit for on/off means, 36...
・・Electric heating element, 37 ・・・On/off means ()
38...on/off means (relay), 39...voltage comparator (voltage drop detection reset circuit). Name of agent: Patent attorney Toshio Nakao and one other person5.
61--Delivery of electricity 7, 5-11 on, off thousand messengers (Lireli q, to -1 on 1.: tp means CC traffic hook) u--Single rate setting plan 4 /Z--One power display child 13-Vibration detection means 14-On/off +f Further drive rotation 4 Fig. 1a / / 15- Concave portion l5tt--One opening portion 16- Sphere 17- Continuous bulge portion l8= -Fujisan de Danshunne Salary π - Centipede 1 Concubine, Saka? 2I - Movable control board Figure 2 2 Red - Movable illumination, s, g - 1 Electric Sanskrit body Z4 - "Zokiri swift 25, 24 - 11 Home delivery rate setting hand R 27----- Precept 5.

Claims (1)

[Scope of Claims] (1) An electric heating element, an on/off means connected in series to the electric heating element, an energization rate setting means for setting the energization rate of the electric heating element, and the energization rate setting. In an electric heating cooker, the electric heating cooker has an energization rate display means for displaying an energization rate set by the energization rate, and a drive circuit for the on/off means. An electric heating cooking device characterized in that the electric heating element is configured to cut off electricity supply to the electric heating element when the detection means is activated. (2) The vibration detection means includes a concave portion having an opening at the bottom, a connecting portion provided vertically slidably in the opening of the concave portion, and a movable portion provided within the concave portion, and usually 2. The electric cooking device according to claim 1, further comprising a vibration detector comprising a sphere located on the connecting portion and closing a contact electrically connected to the electric heating element via the connecting portion. (3) The electric heating cooker according to claim 1, wherein a sounding body that emits an audible sound is separately provided, and when the vibration detecting means is activated, electricity to the electric heating element is cut off and the sounding body is made to emit a sound. (4) A liquid crystal display element is separately provided, and when the vibration detection means is activated, the electricity to the electric heating element is cut off, and
2. The electric heating cooking device according to claim 1, wherein the liquid crystal display element displays "earthquake". (5) A reset means is provided separately, and the state where the vibration detection means is activated and the electricity to the electric heating element is cut off, the sounding element makes a sound, and the liquid crystal display element displays "earthquake" can be detected as described above. Claim 1 wherein the release is performed by a reset means.
4. The electric heating cooker according to any one of 4 to 4. (6) The electric heating cooker according to claim 5, wherein the reset means is constituted by a voltage drop detection reset circuit.