JPS5816497A - Controller for heater or like - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a control device for a heater or the like. When one control device is configured using a plurality of control elements having logical operation functions, for example, microcomputers,
Data required for control is exchanged between each control element.

1 - +71-m
-Then, based on that data, it controls the energy supply to the load on the control device, such as the magnetron (radio wave oscillation source) in the case of a microwave oven, or the electric heater if the electricity is open. If the above data exchange becomes abnormal due to noise, damage to other elements, or damage to one control element, it is necessary to take some measures to keep the entire system in a safe state. be. The present invention aims to disclose a method for maintaining safety in such cases.

A case in which the present invention is applied to a household microwave oven will be specifically described with reference to the drawings.

FIG. 1 is a load connection diagram of an open microwave oven body controlled by a control device according to the present invention. 1.2 is a power supply connection terminal, 3 is a fuse, 4 is a contact of a relay 4A which is opened and closed by the control device, 6 is a contact of the relay 6A, and 6 is a contact of the relay 6A. 7 and 8 are switches that are linked to the opening and closing of the door of the heating chamber, and are turned off when the door is open.

9 is a lamp for illuminating the heating chamber, 1o is a heater for opening, and 11 is a power source for the magnetron 12.

That is, by a control device to be described later, relays 4A,
esA, 6A contacts 4, 5.6 are closed, and if 6 is on the NC side, the magnetron oscillates and heating is performed by radio waves, operating as a microwave oven, and if 6 is on the NC side, the heater -10Vc When energized, open heating is performed, and when 4 or 6 is opened, both heating is stopped.

Now, FIG. 2 is a block diagram of main parts of the control device according to the present invention.

13 and 14 are control elements each having a logical operation function. As such a control element, a so-called microcomputer is suitable, which is capable of storing a program internally, executing logical operations according to the program, and inputting/outputting externally through input/output terminals.

The control element 13 inputs the switch operated by the user using the operation switch 16, and as a result, displays an appropriate display on the display tube 16 according to a predetermined procedure, and also transmits necessary data to the control element 14. The transmission line 1
Send via 7.

Another control element 14 receives data from said control element 13 and sends back the necessary data through a transmission line 18, and also a relay 4A.

The load shown in FIG. 1 is driven by controlling sA and sA. It also reads the temperature sensor 19, calculates the temperature of the heating chamber, and sends the result back to another control element 13.

Now, as mentioned above, the control elements 13 and 14 are connected to the transmission line 17.
Data is exchanged via 18 and 18, but if data exchange is not performed normally due to noise or element destruction, it is necessary to determine this and cut off the energy supply to the load. is the object of the present invention.

For this reason, in the present invention, the data to be exchanged is formed as one block of several words, and the transmission of one block is
If it is not completed within a predetermined time, it is determined as abnormal and relays 4A, sA.

Cut off 6A.

This will be specifically explained using an example.

Now, if there are four transmission lines 17.1g each, there will be 16 signal combinations as shown in Table 1. The control element 13 outputs and inputs these four signals at predetermined time intervals, and the control element 14 inputs and outputs the responses at shorter time intervals. Furthermore, the delta is set so that one word is made up of 4 bits, and one block is made up of a certain number of words.For example, if the data code 1F'' (16 messages displayed) is the first code of Pro i, this code is If it is determined that only the beginning of a block is used, and one block is defined as four words, the control element can detect an abnormality in transmission by following the sequence shown in FIG.

In other words, the error counter is set to zero at the beginning (a) and when one block of data transmission is successfully completed (b), and in other cases (by executing Runo, it is added to the error counter, and this is By determining whether the value exceeds a predetermined value, it is possible to detect an abnormality in which transmission has not been completed normally for a predetermined period of time or more.In this case, by shutting off the relay as in the c-can Cut off the energy supply to the load.

(Margins below) Table 1 As explained above, data abnormality detection logic is provided to detect whether a given transmission has been completed within a predetermined time, and the result is used to reduce energy to the load. It is something to block.

For the data abnormality detection logic, in addition to providing a block start code for identification as described above, for example, a predetermined pause time may be provided after one block of data, and one block may be judged based on this pause time. Alternatively, data errors can be detected by providing a parity pit or the like.

The present invention is characterized in that it detects such a data error and cuts off the energy supply to the load only when this error continues for a predetermined period of time or more.

As explained above, according to the present invention, the following effects can be expected.

1. It is safe because the abnormality detection of data transmission is determined for a predetermined period of time as to whether or not it is completed normally.

11 It is safe because the energy supply to the load is cut off in the event of an abnormality.

111 Since it is determined whether or not the process is completed within a predetermined period of time, inconveniences such as relays being cut off due to one-off noises can be prevented.

By appropriately selecting the predetermined time, security suitable for each system can be maintained.

[Brief explanation of the drawing]

FIG. 1 is a circuit diagram showing an embodiment of the present invention, FIG. 2 is a block diagram of a main part of a control section of the present invention, and FIG. 3 is a sequence diagram of error checking of data transmission in the control device. 13 14, , , , Control element having logical operation function, 17 , 18 , , , Transmission line connecting control elements 13.14 , 4A , 5A , 6A , , , ,
, a relay that opens and closes energy to the load, 10,...
,,,Heater, which is one of the loads, 12 ,,,,,,
A magnetron is one of the loads. Name of agent: Patent attorney Toshio Nakao and 1 other person 1st
figure

Claims (1)

[Claims] (1) A plurality of control elements having logical operation functions are provided, each control element is connected by a data line, information necessary for control is exchanged between each control element through the data line, and at least one Each control element is provided with a logic section that opens and closes energy to a load such as a heating heat source and detects an error in the information exchange. A control device for a heater or the like, characterized in that the supply of energy to the load is cut off according to a sequence determined by the load. (2. In a control device such as a heater according to claim 1, a sequence characterized in that when an error in information exchange continues for a predetermined number of times or more, energy supply to a load is cut off. Control equipment such as heaters with