JPS62162845A - Controller for air conditioner - Google Patents

Abstract

PURPOSE:To make it possible to indicate a portion to be inspected in an inspection mode when a power supply is again turned ON after interruption of the power supply by loading a rewritable non-volatile memory element, and writing the portion to be inspected into the memory element when the controller assumes the inspection mode. CONSTITUTION:When a contact 6a showing the operation of a protective device A is being operated, an inspection mode is started, due to the operation of a protective device, and a portion A to be inspected is set in display data. When a contact 6b showing the operation of a protective device B is under operation, and inspection mode due to the protective device B is set in the display data, thereby thus set display data B is written into a memory element 8. By the processing, the portion A to be inspected or the portion B to be inspected is retained in a non-volatile memory element. When an inspection switch 9 is turned ON, data stored in the memory element 8 are read out and set in the display data. When the inspection switch 9 is not turned ON, it is set in the display data that the controller is under normal operation. The display data is displayed by means of light emitting diodes 7a and 7b, accordingly.

Description

[Detailed Description of the Invention] [Industrial Application Field] This invention relates to a control device for an air conditioner, and in particular, two inspection points? This relates to a self-diagnosis method for displaying information in an easy-to-understand manner.

[Prior art]

FIG. 3 is a part of a block diagram showing an example of a conventional air conditioner control device shown in case number BPP-8321.

(1) is a microcomputer that executes a predetermined program (accordingly) to control this control device.

General memory (21, CPU (Central Processing Unit) (3)
It is composed of a 1° input section (4) and an output section (5). (6a).

(6b) are contacts each indicating the operation of the protective device.

(6a) and (6b) correspond to different types of protection devices. (7a) and (7b) are light emitting diodes (LEDs)
The combination of lights serves as a display means for determining whether normal operation is being performed, whether the contact (6a) is operating, or whether the contact (6b) is operating. In this conventional example, the microcomputer 11) is programmed so that even if the contact (6a) or (6b) is restored, the light emitting diodes (7a) and (7b) will continue to display the inspection mode. This is because in many cases, the person who inspects and services the air conditioner is not a general user, but a professional serviceman, and this is done in consideration of the time it takes from the time the air conditioner enters the 9-inspection mode until the serviceman performs the service. 2 displays are left. However, since this display continues based on the information stored in the memo 2) in the microcomputer 11), all of this information disappears when the power supply to the control device is cut off. Normally, the power for the air conditioner control device is obtained from the commercial power line that supplies the air conditioner.

When the power supply to the air conditioner is cut off, the power supply to the control device is also cut off.

[Problem that the invention seeks to solve]

Conventional air conditioner control devices are configured in one or more ways, so especially for air conditioners for industrial air conditioning where the power supply is turned on and off relatively frequently, it is difficult for service personnel to service them. In many cases, the It source is shut off before the test is carried out, and in such cases there is a problem in that the self-diagnosis function cannot be performed.

This invention was made to solve the above-mentioned problems, and even after the power supply to the control device is cut off, if the power is turned on again.

It is an object of the present invention to provide a control device jt for an air conditioner that can display inspection points in an inspection mode that occur before power is cut off.

[Means for solving problems]

The control device for an air conditioner according to the present invention is equipped with a rewritable nonvolatile memory element, and when the two-inspection mode is entered, the inspection points are written in the memory element.

[Effect]

Since the control device for an air conditioner according to the present invention stores inspection points using a rewritable memory element, information on the two inspection points can be maintained even if the power supply to the control device is cut off.

[Embodiments of the invention]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram of a control circuit showing one embodiment of the present invention. Microcomputer (1).

Regarding the contacts (6a), (sb) that indicate the operation of the protective device and the light emitting diodes (7a), (7b) used as indicators.

The configuration is similar to that shown in FIG. (8) is a rewritable nonvolatile memory element, (6a) or (6b)
) contacts are activated and the mode is set to 9 inspection mode.

(6a), (6b) Writes which one is activated via the output section +511 of the microcomputer 11).

(9) is a switch for inspection, and this switch is ON.
When the microcomputer 11) receives the information written in the memory element (8), that is, the contact (6)
Read out which one of a) and (6b) is activated.

FIG. 2 is a flowchart of the display processing portion of the processing of the microcomputer 11) shown in FIG.

First, in step (201), protective device A (not shown)
It is determined whether the contact point (6a) indicating the operation is activated. If it is activated, the inspection mode is entered by the operation of the protective bag #A, and in step (202).

Inspection point AI set step (205) on display data
Proceed to. If the contact (6a) is not activated in step (201), the protective device B (
It is determined whether the contact (6b) indicating the operation of the device (not shown) is operating, and if it is operating, the inspection mode is set due to the operation of the protective device B, and the inspection point B is set in the display data in step (204). Then, proceed to step (205).

In step (205), the display data set in step (202) or step (204) is written into the storage element (8). Through this process, one inspection point A or one inspection point B is stored in a nonvolatile memory element. After this process, the process proceeds to step (209).

If the contact (6b) is not operating in step (203), the check switch (
9) is turned on. When it is turned on.

In step (207), the information stored in the memory element (8) is read out and set as display data, and in step (207), the information stored in the memory element (8) is read out and set as display data.
209). If the 9 inspection switch (9) is not turned on in step (206), step (20
In step 8), set the display data to indicate that it is normal. Then, in step (209), step (202),
Alternatively, the display is performed by the light emitting diodes (7a) and (7b) according to the display data set in step (204), step (207), and step (208).

As a result of the above processing, protection device A and protection device B are activated to enter the 9-inspection mode, and then.

Even if the power supply to the control device is cut off once, self-diagnosis is possible using the light emitting diodes (7a) and (7b) by returning the power supply and turning on the 1st check switch (9). .

In the above embodiment, a self-diagnosis of an air conditioner was explained, but the same effects as in the above embodiment can be obtained even if the present invention is applied to a self-diagnosis of a control device of a device in which a nine-hand switch is frequently operated.

〔Effect of the invention〕

As described above, according to the present invention, the inspection points displayed by self-diagnosis are stored in a rewritable non-volatile memory element.

Even after the power supply to the control device has been cut off.

It makes it possible to display inspection points, expands the range of self-diagnosis functions, and has the effect of contributing to services.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing a control device for an air conditioner according to an embodiment of the present invention, FIG. 2 is a flowchart showing the operation of the circuit shown in FIG. It is a block diagram showing a control device. 11) is a microcomputer, (6a) and (6
b) are contacts indicating the activation of different protective devices, (
7a) and (7b) Vi display light emitting diode, 1
8) is a memory element, and (9) is a switch for inspection. Note that in the two figures, the same reference numerals indicate the same or equivalent parts.

Claims (2)

[Claims] (1) A rewritable, non-volatile control device is used in an air conditioner control device that has the function of displaying the inspection point when an abnormality occurs during operation or a protective device is activated and the inspection status is entered. A storage means and a writing/reading means for writing to and reading from the storage means are provided, so that when an abnormality occurs in the air conditioner and the air conditioner enters an inspection state, the inspection point where the abnormality has occurred is stored in the storage element. An air conditioner control device characterized by writing. (2) Claim 1, characterized in that the inspection points written in the memory element are read out and displayed.
A control device for an air conditioner as described in Section 1. (3) The control device for an air conditioner according to claim 1, further comprising a switch for reading out and displaying the inspection points written in the memory element.