KR0128535B1 - Method and device for filter dusting check of vacuum cleaner - Google Patents

Abstract

A detection device and method for detecting contamination in the dust filter of vacuum cleaners is disclosed to preventing breakdown and damage due to a temperature rise in the motor by detecting the contamination level by the temperature change of the motor and limiting the motor driving power. The device comprises a power supply (6); an interrupter (8); a handle (2); a 1st temperature sensor(14); a 2nd temperature sensor (15); a microprocessor (11); a display (12); and a motor (16). The processor senses (S1) the ambient temperature (T1); calculates (S2) the compensation temperature (TC); senses (S3) the motor temperature (TM); and calculates (S4) the reference temperature (T); calculates (S5) the dirt level (FPD); compares (S6) the dirt level with a reference; and displays and generates signals (S7,S8).

Description

Dust filter contamination detection device and method of vacuum cleaner

1 is a perspective view of a conventional vacuum cleaner.

2 is a block diagram of a dust filter contamination detection device of a conventional vacuum cleaner.

3 is a flow chart of a dust filter contamination detection process of a conventional vacuum cleaner.

4 is a perspective view of a vacuum cleaner according to the present invention.

5 is a block diagram of a dust filter contamination detection device of a vacuum cleaner according to the present invention.

Figure 6 is a flow chart of the dust filter contamination detection process of the vacuum cleaner according to the present invention.

7 is a temperature change of the motor unit according to the dust filter contamination degree in the present invention.

* Explanation of symbols for main parts of the drawings

11: micom 14,15: first and second temperature sensor

16: motor.

The present invention relates to a vacuum cleaner, and in particular, to determine the degree of contamination of the dust filter due to the temperature change of the motor unit and to limit the motor driving power when the dust filter is contaminated to prevent the exaggeration of the vacuum cleaner and damage to parts due to the temperature rise of the motor unit. The present invention relates to a dust filter contamination detection device of a vacuum cleaner and a method thereof.

Conventional vacuum cleaners, as shown in Figure 1 of the accompanying drawings, the first and second pressure sensors (4) for measuring the pressure for measuring the pollution degree of the dust filter (3) on the body (1) and the handle (2) (5) is attached.

2 is a block diagram of a dust filter contamination detection device of a conventional vacuum cleaner, as shown in FIG. 2, a power supply unit 6 for supplying driving power to each stage of the apparatus, a dust sensor unit 7 for detecting whether or not dust is inhaled, An interrupt unit 8 for generating an interrupt, first and second pressure sensor parts 9 and 10 for signal processing the pressure detected by the first and second pressure sensors 4 and 5, and the dust The microcomputer 11 which determines the pollution degree of the dust filter according to each output of the sensor unit 7, the interrupt unit 8, the first and second pressure sensor units 9 and 10 and controls the overall operation of the vacuum cleaner. And a display unit 12 for displaying a filter replacement time according to the display signal output from the microcomputer 11 and a motor driving unit 13 for driving the motor by the motor driving control signal output from the microcomputer 11. Configured.

The operation of the dust filter contamination detection device of the conventional vacuum cleaner configured as described above will be described with reference to FIG. 3.

First, when a cleaning operation is performed in a state in which power is supplied to each end of the device by the power supply unit 6, the dust sensor unit 7 determines whether to suck in dust and applies it to the microcomputer 11.

Then, the microcomputer 11 generates an appropriate motor driving control signal to the motor driving unit 13 according to the amount of dust sucked in, and thus the motor driving unit 13 drives the motor by the control signal to suck the dust. .

Here, the first and second pressure sensor parts 9 and 10 signal-process the output signals of the first and second pressure sensors 4 and 5 shown in FIG. 1 and apply them to the microcomputer 11. The first and second pressure sensors 4 and 5 measure pressure by a function of being turned on and off by a spring based on the degree of vacuum set by the designer.

That is, the dust is accumulated in the dust filter 3 as the vacuum cleaner is cleaned, and the degree of vacuum inside the vacuum cleaner changes according to the accumulated amount of dust.

In other words, as the dust accumulates, the degree of vacuum in front of the dust filter 3 decreases and the degree of vacuum in the rear of the dust filter increases. Therefore, when a certain amount of dust accumulates, the first pressure sensor 4 which is initially on is turned on, and the second pressure sensor 5 which is initially off is turned on.

As such, when the first and second pressure sensors 4 and 5 are turned on or off, the first and second pressure sensors 9 and 10 transmit a signal corresponding to the on or off to the microcomputer 11. The input will be a high or low signal. Then, the microcomputer 11 searches the high or low signals obtained from the first and second pressure sensor units 9 and 10, respectively, to determine the degree of contamination of the dust filter.

Here, as shown in FIG. 3, the contamination level of the dust filter is first searched for the output signal of the first pressure sensor 4 (S1), and when the low signal is turned off, the output of the second pressure sensor 5 is again output. The signal is searched for (S2).

At this time, if the output signal of the second pressure sensor 5 is a high signal (on state), it is determined that the dust filter is severely polluted, and the display unit 12 displays a mark to replace the dust filter (S3).

On the contrary, if the output signal of the first pressure sensor 4 is a low signal (off state), and the output signal of the second pressure sensor 5 is a low signal (off state), it is determined that the dust filter is less polluted. The control is made to the operation (S4).

Further, if the output signal of the first pressure sensor 4 is a high signal (on state) and the output signal of the second pressure sensor 5 is a low signal (off state) (S5), the dust filter is less contaminated. It makes judgment and controls to make normal operation. (S4)

On the other hand, if the output signal of the first pressure sensor 4 is a high signal (on state) and the output signal of the second pressure sensor 5 is also a high signal (on state), it is determined that the intake port is blocked and the display unit 12 is turned off. Through the inlet blockage (S6)

However, such a conventional vacuum cleaner uses two pressure sensors to determine the degree of contamination of the dust filter, which can only know the replacement time of the dust filter in which the dust filter is full of dust and accumulates dust on the dust filter. Had an unknown disadvantage.

In addition, when the reference vacuum degree to which the pressure sensor is turned on / off may not be turned on / off at the desired vacuum degree due to the elasticity change of the spring included in the pressure sensor, reliability of the dust filter replacement time cannot be guaranteed. There was also.

Therefore, the present invention is to solve the problems of the prior art as described above, an object of the present invention is to determine the pollution degree of the dust filter by the temperature change of the motor portion, and when the dust filter is contaminated by limiting the motor driving power of the motor unit on the rise The present invention provides an apparatus and method for detecting a dust filter contamination of a vacuum cleaner to prevent breakdown of a vacuum cleaner and damage to components. Technical means for achieving the object of the present invention is the temperature rise of the motor portion to the temperature values respectively obtained in the first and second temperature sensing means for detecting the temperature for detecting the temperature rise of the motor portion is respectively installed in the main body and the handle portion The result is a microcomputer that determines whether or not to replace the dust filter and display the contamination level or limit the motor power as a result.

A method for achieving the object of the present invention is the first process of detecting the initial temperature of the cleaning space when the power is applied or reset, and the second process of calculating the compensation temperature by subtracting the reference temperature set from the detected initial temperature And a third process of detecting a temperature of the motor unit after calculating the compensation temperature, a fourth process of calculating a temperature for determining a pollution degree of the dust filter by subtracting the calculated compensation temperature from the detected motor unit temperature, and A fifth process of determining the pollution degree of the dust filter by calculating first and second constants set to obtain the pollution degree of the dust filter at a temperature for calculating the pollution degree of the dust filter; A sixth process is performed to determine the filter replacement time or the reduction of the driving power of the mutter by comparing with the reference value set for the determination.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

4 is a perspective view of a vacuum cleaner according to the present invention.

As shown, the first and second temperature sensors 14 and 15 for measuring the temperature for measuring the pollution degree of the dust filter 3 are attached to the main body 1 and the handle 2.

In the figure, reference numeral 16 denotes a motor.

5 is a block diagram of a dust filter contamination detection device of a vacuum cleaner according to the present invention.

As shown, the dust filter contamination detection apparatus according to the present invention includes a power supply unit 6 for supplying a driving source to each stage of the apparatus, a dust sensor unit 7 for detecting whether dust is inhaled, and an interrupt unit for generating an interruption. (8), first and second temperature sensor sections (17) (18) for signal processing the temperature values detected by the first and second temperature sensors (14) (15), and the dust sensor section (7). The microcomputer 11 determines the pollution degree of the dust filter according to each output of the interrupter 8 and the first and second temperature sensor units 17 and 18, and controls the overall operation of the vacuum cleaner. 11) the display unit 12 for displaying the filter replacement time according to the display signal output from 11), and the motor drive unit 13 for driving the motor 16 by the mitter driving control signal output from the microcomputer (11). .

The operation and effects of the dust filter contamination detection device of the vacuum cleaner according to the present invention configured as described above will be described with reference to FIGS. 6 and 7.

First, when the power is supplied to the microcomputer 11 by the power supply unit 6 or an interrupt is generated by the interrupt 8 during use, and the microcomputer 11 is reset, the microcomputer 11 is mounted on the handle 2 part. The first temperature sensor 14 detects the initial temperature T1 of the cleaning space. (S1)

And to compensate that the detected temperature is different from the reference temperature (T _R ) arbitrarily set by the designer when collecting the dust filter pollution degree data about the motor part temperature, the compensation temperature (T) _C ) (S2)

Compensation Temperature (T _C ) = T1-T _R ... Equation (1)

Since the motor part temperature to the second temperature sensor (15) (T _M) to detect and (S3), the motor unit temperature, as a formula (2) to obtain the temperature (T) to determine the dust filter contamination (T _M Subtract the calculated compensation temperature (T _C ) from the (S4)

T = T _M -T _C ..................... ........................................ Equation (2)

The constant value is set so that the pollution degree (FPD) is 0% for a clean dust filter and the pollution degree (FPD) is 100% for a dust filter at the time of replacement. Wow The pollution degree (FPD) of the dust filter is obtained from the calculated temperature T using the following equation (3).

FPD = T + ........................................ Equation (3)

The present dust filter contamination degree (FPD) thus obtained is compared with a reference value (A%) set to determine the dust filter replacement time (S6). If the dust filter contamination degree (FPD) is A% or more, it is determined that the dust filter is replaced. In addition, the display unit 12 indicates that the dust filter is to be replaced, and at the same time, the motor driving power is limited to the motor driving unit 13 by limiting the motor driving power in order to prevent the motor 16 from being damaged due to the temperature increase of the motor unit. (S7, S8)

On the contrary, if the current dust filter pollution degree (FPD) is less than A%, the above-described steps (S3-S6) are repeated by continuously detecting the temperature of the motor unit while controlling the vacuum cleaner normally.

In the above, A% is the dust filter pollution degree at the time of dust filter replacement, and the designer is 95% or 98%.

Figure 7 shows the temperature change of the motor unit according to the dust filter pollution degree calculated by the experiment.

As shown in the figure, it can be seen that the temperature of the motor unit increases as the degree of contamination of the dust filter increases.

As described above, the present invention has the effect of accurately detecting the degree of contamination of the dust filter by measuring the degree of contamination of the dust filter by sensing the temperature of the motor unit.

In addition, when the dust filter has a high degree of contamination, it is displayed, and at the same time, it limits the driving power of the motor, thereby preventing the motor from being burned due to the temperature increase of the motor unit.

In addition, there is an effect that can know the dust accumulation situation of the dust filter by the temperature of the motor unit.

Claims (3)

First and second temperature sensing means respectively installed at the main body and the handle portion for detecting an initial temperature and a motor temperature for detecting an increase in motor temperature, and an initial temperature obtained at each of the first and second temperature sensing means, respectively. And a microcomputer for controlling whether the temperature of the motor unit is increased based on the temperature of the motor unit, and controlling the display of the dust filter replacement time and the degree of contamination or limiting the motor power as a result of the dust filter contamination detection device of the vacuum cleaner. When the power is applied or reset, the first process of detecting the initial temperature T1 of the cleaning space and the reference temperature T _R set from the detected initial temperature T1 are subtracted to reduce the dust filter contamination of the motor part temperature. A second process of calculating a compensation temperature Tc for compensating for a difference between a reference temperature T _R arbitrarily set at the time of data collection, and a step of sensing the motor temperature T _M after calculating the compensation temperature Tc. A third step of subtracting the calculated compensation temperature Tc from the detected motor part temperature T _M and calculating a temperature T for determining a pollution degree of the dust filter; and a pollution degree of the dust filter. A fifth process of determining the pollution degree (FPD) of the dust filter by calculating the first and second said (α) (β) set to obtain the pollution degree of the dust filter at the temperature T for calculation, and the determined dust filter Set to determine the pollution degree (FPD) of the filter and when to replace the dust filter (A%) dust filter change time, for the dust filter contamination monitoring method of a vacuum cleaner, characterized in the sixth constituted by any process for determining a drive power reduction of the motor by comparing the. The vacuum according to claim 2, wherein the first and second phases (α) and (β) are constants determined to have a pollution degree of 0% when the dust filter is clean and 100% when the dust filter is replaced. Dust filter contamination detection method of the vacuum cleaner.