CN113567881A - Working method for reducing false alarm leakage fault of cleaning machine - Google Patents

Abstract

The invention relates to a working method for reducing the false alarm of electric leakage fault of a cleaning machine, which comprises the following steps of obtaining the detection waveform of an electric leakage detection circuit connected on a power supply zero line of the cleaning machine when the cleaning machine is just powered on; calculating the duty ratio P of low and high levels in the detection waveform; determining whether the zero line and the live line are reversely connected and whether the ground line is connected according to the reference values of the duty ratio of the low level and the high level corresponding to the different connection conditions of the P and the preset zero line, the live line and the ground line; in the subsequent use process of the cleaning machine, the detection waveform of the leakage detection circuit connected to the power supply zero line of the cleaning machine is obtained, the duty ratio A of low and high levels in the detection waveform is calculated, whether A changes relative to P is judged, leakage fault alarm is carried out if A changes, and normal operation is continued if not. The working method for reducing the false alarm leakage fault of the cleaning machine reduces unnecessary maintenance rate.

Description

Working method for reducing false alarm leakage fault of cleaning machine

Technical Field

The invention relates to the technical field of cleaning machines, in particular to a working method for reducing the false alarm and leakage faults of a cleaning machine.

Background

At present, in the market, for the electric leakage protection of a water tank dish washing machine, an electric leakage detection circuit is mainly added on a zero line, and then whether a washing machine is in an electric leakage state or not is identified through software. The current leakage detection scheme can carry out electric leakage alarm for zero-live wire reverse connection usually, but in the cleaning machine application, the cleaning machine still can normally work when zero-live wire reverse connection, need not to carry out electric leakage alarm under this condition, so then can lead to because of the electric leakage trouble that zero-live wire reverse connection caused too much, improved the maintenance rate of product, increased product cost of maintenance. In addition, under the condition that the ground wire of the cleaning machine is disconnected or damaged, effective identification cannot be carried out, and certain potential safety hazards exist in the use of the cleaning machine.

Disclosure of Invention

The invention aims to solve the technical problem of providing a working method for reducing the false alarm leakage fault of a cleaning machine, which can effectively identify the reverse connection condition of a zero wire and a live wire, can effectively identify the condition that a ground wire is not connected or the ground wire is damaged, and can reduce the false alarm leakage under the condition that only the zero wire and the live wire are reversely connected.

The technical scheme adopted by the invention for solving the problems is as follows: a working method for reducing false alarm leakage faults of a cleaning machine is characterized by comprising the following steps: comprises the following steps

When the cleaning machine is just powered on, acquiring a detection waveform of a leakage detection circuit connected to a power supply zero line of the cleaning machine;

calculating the duty ratio P of low and high levels in the detection waveform;

determining whether the zero line and the live line are reversely connected and whether the ground line is connected according to the reference values of the duty ratio of the low level and the high level corresponding to the different connection conditions of the P and the preset zero line, the live line and the ground line;

in the subsequent use process of the cleaning machine, the detection waveform of the leakage detection circuit connected to the power supply zero line of the cleaning machine is obtained, the duty ratio A of low and high levels in the detection waveform is calculated, whether A changes relative to P is judged, leakage fault alarm is carried out if A changes, and normal operation is continued if not.

Preferably, the preset low and high level duty cycle ratio reference values corresponding to different connection conditions of the zero line, the live line and the ground line include the following types:

when the zero fire wire is normally connected, the detection waveform is continuously high level, and the corresponding low and high level duty ratio reference value is P1, P1= 0;

when the zero live wire is reversely connected and the ground wire is normally connected, the detection waveform is a high-low level waveform with periodic variation, and the duty ratio reference value of the low level and the high level corresponding to the condition is P2;

when the zero live wire is reversely connected and the ground wire is not connected or damaged, the detection waveform is a high-low level waveform with periodic variation, and the corresponding low-high level duty ratio reference value is P3;

when P = P1, judging that the zero fire wire is normally connected, and recording the information;

when P = P2, judging that the zero live wire is reversely connected and the ground wire is normally connected, and recording the information;

when P = P3, it is judged that the zero wire is reversely connected and the ground wire is not connected or damaged, and the information is recorded.

As an improvement, the relationship between P2 and P3 is: p2 > P3.

In order to reduce the false alarm of electric leakage under the condition of not influencing the working condition of the cleaning machine, when the zero-live wire is reversely connected and the ground wire is normally connected, the electric leakage fault alarm is not carried out;

and when the zero line and the live line are reversely connected and the ground line is not connected or damaged, whether leakage fault alarm is carried out or not is set according to requirements.

In order to ensure that the wiring of the cleaning machine is in a normal connection state during electrification and further accurately determine the electric leakage condition of the cleaning machine in the subsequent use process of the cleaning machine, when the cleaning machine is in a self-locking state before electrification, a technician energizes the cleaning machine, a self-checking program in the cleaning machine is matched with the technician to check and complete the electric leakage check work of the cleaning machine, and after the zero line, the live line and the ground line of the cleaning machine are normally connected, the technician sets the cleaning machine in an unlocking state and electrifys the cleaning machine again.

As an improvement, the cleaning machine is set to be in a self-locking state just before delivery and installation.

As an improvement, the cleaning machine is automatically set to be in a self-locking state when an electric leakage fault alarm is carried out.

Compared with the prior art, the invention has the advantages that: according to the working method for reducing the false alarm leakage fault of the cleaning machine, the conditions of whether the zero line and the live line are reversely connected and whether the ground line is connected can be judged through the difference of the detection waveforms of the leakage detection circuit, so that the false alarm leakage can be avoided when the cleaning machine can normally work under the condition that the zero line and the live line are reversely connected and have no leakage, and the unnecessary maintenance rate is reduced. Meanwhile, the electric leakage condition can be accurately found, and the use safety of the cleaning machine is ensured.

Drawings

Fig. 1 is a flowchart of a working method for reducing a false alarm leakage fault of a cleaning machine according to an embodiment of the present invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

The working method for reducing the false alarm of the leakage fault of the cleaning machine in the embodiment can utilize the leakage detection circuit in the chinese utility model patent "a detection circuit for leakage fault" with the authorization publication number of CN207764355U to connect the leakage detection circuit on the zero line of the power supply of the cleaning machine, and further detect the leakage condition.

According to experimental tests, detection waveforms are different for different wiring conditions and leakage conditions, so that the following results can be obtained.

1) And under the condition that the zero live wire is normally connected and no electric leakage occurs, the electric leakage detection circuit can output a continuous high-level signal.

2) For the case of reverse connection of zero and live wires, the detection circuit will output periodic high and low level signals, and the duty ratio of low and high levels in the case of ground wire connection and ground wire disconnection will be different.

In the present embodiment, for 1) the case where the detection waveform is continuously high when the zero line and the fire line are normally connected, the duty ratio of the low level and the high level corresponding to this case is P1, and P1= 0.

In contrast, in the case of 2), when the zero line and the ground line are connected in reverse and the ground line is connected normally, the detected waveform is a high-low level waveform that changes periodically, and the duty ratio of the corresponding low level and high level is P2. When the zero live wire is reversely connected and the ground wire is not connected or damaged, the detection waveform is a high-low level waveform with periodic change, and the corresponding low-high level duty ratio is P3.

Therefore, the duty ratios of the P1, P2 and P3 for the low and high levels of different wiring conditions are pre-stored for judgment, and further form the reference values of the duty ratios of the low and high levels of different wiring conditions. In this example, P2 > P3.

The cleaning machine is usually powered on during initial installation or after being overhauled by a maintainer, so that the cleaning machine is usually powered on without electricity leakage.

Based on the above, as shown in fig. 1, the working method for reducing the false alarm leakage fault of the cleaning machine in the present application includes the following steps.

And S0, setting the state of the cleaning machine just before delivery and installation as a self-locking state as required. When the cleaning machine carries out electric leakage fault alarm, the state of the cleaning machine is automatically set to be a self-locking state.

Thus, when the washer is in a self-locking state before being powered on, a technician is usually required to go to the door to perform an electrical leakage check for the user. During the inspection, a technician powers on the cleaning machine, and the self-checking program in the cleaning machine is matched with the technician to complete the electric leakage inspection work of the cleaning machine, and the process can be carried out by adopting various electric leakage condition detection schemes in the prior art. And after the technician determines that the zero line, the live line and the ground wire of the cleaning machine are normally connected, the technician sets the cleaning machine to be in an unlocking state and powers on the cleaning machine again.

And S1, when the cleaning machine is just powered on, acquiring the detection waveform of the electric leakage detection circuit connected to the power supply zero line of the cleaning machine.

S2, the duty ratio P of the low and high levels in the detected waveform is calculated.

And S3, determining whether the zero line and the live line are reversely connected and whether the ground line is connected according to the reference values of the duty ratio of the low level and the high level corresponding to the different connection conditions of the P and the preset zero line, the live line and the ground line.

Specifically, when P = P1, it is judged that the zero fire line is normally connected, and this information is recorded.

When P = P2, judging that the zero live wire is reversely connected and the ground wire is normally connected, and recording the information; when the zero-fire wire is reversely connected and the ground wire is normally connected, because the normal use of the cleaning machine is not influenced, the leakage fault alarm can not be carried out at the moment, so that the unnecessary leakage alarm quantity can be reduced, and the unnecessary maintenance rate of the cleaning machine is reduced.

When P = P3, it is judged that the zero wire is reversely connected and the ground wire is not connected or damaged, and the information is recorded. When the zero live wire is reversely connected and the ground wire is not connected or damaged, and when the live wire does not leak electricity to the ground, whether leakage fault alarm is carried out or not can be set according to requirements. In the case of a high safety requirement, this situation may be set as an alarm situation.

When P is aligned with P1, P2 and P3, if the error of P relative to P1 is within the set first error e1, P = P1. If the error of P relative to P2 is within the set second error e2, let P = P2. Let P = P3 if the error of P with respect to P3 is within the set third error e 3.

S4, in the subsequent use process of the cleaning machine, the detection waveform of the electric leakage detection circuit connected on the power supply zero line of the cleaning machine is obtained, the duty ratio A of low level and high level in the detection waveform is calculated, whether A changes relative to P is judged, if yes, electric leakage fault alarm is carried out, and if not, normal work is continued.

If the cleaning machine is just powered on and P = P1, whether A changes relative to P1 or not is judged in the subsequent use process of the cleaning machine, if so, the situation of electric leakage is judged under the condition that the zero-fire wire is normally connected, and at the moment, an electric leakage fault alarm is carried out.

If the cleaning machine is just powered on and P = P2, whether A changes relative to P2 or not is judged in the subsequent use process of the cleaning machine, if so, the situation of electric leakage is judged under the condition that the zero-fire wire is normally connected, and at the moment, an electric leakage fault alarm is carried out.

If the cleaning machine is just powered on and P = P3, whether A changes relative to P3 or not is judged in the subsequent use process of the cleaning machine, if so, the situation of electric leakage is judged under the condition that the zero-fire wire is normally connected, and at the moment, an electric leakage fault alarm is carried out.

According to the working method for reducing the false alarm leakage fault of the cleaning machine, the conditions of whether the zero line and the live line are reversely connected and whether the ground line is connected can be judged through the difference of the detection waveforms of the leakage detection circuit, so that the false alarm leakage can be avoided when the cleaning machine can normally work under the condition that the zero line and the live line are reversely connected and have no leakage, and the unnecessary maintenance rate is reduced. Meanwhile, the electric leakage condition can be accurately found, and the use safety of the cleaning machine is ensured.

Claims (7)

1. A working method for reducing false alarm leakage faults of a cleaning machine is characterized by comprising the following steps: comprises the following steps

When the cleaning machine is just powered on, acquiring a detection waveform of a leakage detection circuit connected to a power supply zero line of the cleaning machine;

calculating the duty ratio P of low and high levels in the detection waveform;

determining whether the zero line and the live line are reversely connected and whether the ground line is connected according to the reference values of the duty ratio of the low level and the high level corresponding to the different connection conditions of the P and the preset zero line, the live line and the ground line;

in the subsequent use process of the cleaning machine, the detection waveform of the leakage detection circuit connected to the power supply zero line of the cleaning machine is obtained, the duty ratio A of low and high levels in the detection waveform is calculated, whether A changes relative to P is judged, leakage fault alarm is carried out if A changes, and normal operation is continued if not.

2. The operating method for reducing the false alarm leakage fault of the cleaning machine according to claim 1, characterized in that: the preset low and high level duty cycle ratio reference values corresponding to different connection conditions of the zero line, the live line and the ground line comprise the following steps:

when the zero fire wire is normally connected, the detection waveform is continuously high level, and the corresponding low and high level duty ratio reference value is P1, P1= 0;

when the zero live wire is reversely connected and the ground wire is normally connected, the detection waveform is a high-low level waveform with periodic variation, and the duty ratio reference value of the low level and the high level corresponding to the condition is P2;

when the zero live wire is reversely connected and the ground wire is not connected or damaged, the detection waveform is a high-low level waveform with periodic variation, and the corresponding low-high level duty ratio reference value is P3;

when P = P1, judging that the zero fire wire is normally connected, and recording the information;

when P = P2, judging that the zero live wire is reversely connected and the ground wire is normally connected, and recording the information;

when P = P3, it is judged that the zero wire is reversely connected and the ground wire is not connected or damaged, and the information is recorded.

3. The operating method for reducing the false alarm leakage fault of the cleaning machine according to claim 2, characterized in that: the relationship between P2 and P3 is: p2 > P3.

4. The operating method for reducing the false alarm leakage fault of the cleaning machine according to claim 2, characterized in that: when the zero line and the live line are reversely connected and the ground line is normally connected, the leakage fault alarm is not carried out;

and when the zero line and the live line are reversely connected and the ground line is not connected or damaged, whether leakage fault alarm is carried out or not is set according to requirements.

5. The operating method for reducing the false alarm leakage fault of the cleaning machine according to any one of claims 1 to 4, wherein: when the cleaning machine is in a self-locking state before being electrified, a technician powers on the cleaning machine, a self-checking program in the cleaning machine is matched with the technician to check to finish the electric leakage check work of the cleaning machine, and after the zero line, the live line and the ground wire of the cleaning machine are normally connected, the technician sets the cleaning machine to be in an unlocking state and powers on the cleaning machine again.

6. The operating method for reducing the false alarm leakage fault of the cleaning machine according to claim 5, characterized in that: the cleaning machine is set to be in a self-locking state just before leaving a factory and being not installed.

7. The operating method for reducing false alarm leakage faults of a cleaning machine according to claim 6, wherein the operating method comprises the following steps: when the cleaning machine carries out leakage fault alarm, the cleaning machine is automatically set to be in a self-locking state.

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