KR200147243Y1 - Device for detecting the dust of a vacuum cleaner - Google Patents

Abstract

The present invention relates to a dust detection apparatus of a vacuum cleaner, and more particularly, to a light emitting unit (LED) and a light receiving unit (PTR) which is installed to face the light emitting unit (LED) and receives the light of the light emitting unit (LED). In the vacuum cleaner which has a high degree of light sensor (2) and determines the amount of dust flowing between the light emitting unit (LED) and the light receiving unit (PTR) according to the detection result of the upper limb light receiving unit (PTR), The quantity of light adjusting unit 5 having a plurality of resistors Rl-R3 connected in parallel to the light emitting unit LED and the detection amount of the dust absorbed by the detection result of the light receiving unit PTR are determined in proportion to the amount of dust. The microcomputer 10 for controlling the light amount adjusting unit 5 to change the light amount of the light emitting unit LED is provided so that the light receiving unit PTR has an optimum sensitivity according to the amount of dust.

Description

Dust detection device of vacuum cleaner

Figure 1 shows a circuit configuration of a dust detector of a conventional vacuum cleaner.

2 is a circuit diagram of a dust detection apparatus according to the present invention.

* Explanation of symbols for main parts of the drawings

2: dust sensor unit 5: light quantity control unit

The present invention relates to a dust detector of a vacuum cleaner, and more particularly, to a vacuum cleaner and a dust detector for adjusting the light quantity of the light emitting unit by a plurality of resistors so that the sensitivity of the light receiver of the dust sensor is always maintained optimally.

In general, the vacuum cleaner is vacuumed inside the main body by high-speed rotation of the impeller, and the air volume of about 1.95 m ³ / min is generated by the pressure difference between the main body and the main body, and the surrounding air is sucked into the main body. The dust and contaminants in the air are sucked up with the air, so cleaning is performed. In addition, in the vacuum cleaner, the dust detection device detects the amount of dust sucked into the main body during cleaning and increases the cleaning efficiency by adding or subtracting the suction amount of the main body according to the amount of dust, which uses a dust sensor having a light emitting part and a light receiving part. Detect the amount of dust.

As shown in FIG. 1, the dust detection apparatus of the conventional vacuum cleaner includes a dust sensor including a light emitting unit (LED) for emitting a predetermined amount of light and a light receiving unit (PTR) for receiving light from the light emitting unit (LED). 2) and a light amount adjusting unit 1 for controlling a light amount of the light emitting unit LED by applying different voltages to the light emitting unit LED, and dust from the light receiving unit PTR of the dust sensor 2. A fluctuation detection and amplification section 3 for detecting and amplifying the fluctuation signal for detection, and a level comparison section 4 for comparing the amplified signal in the fluctuation detection and amplification section 3 with a reference value.

In addition, the light amount of the light emitting unit (LED) of the dust sensor 2 is compared with a predetermined reference value, for example, 1.5V, which is obtained by receiving the change signal for detecting the smoke detection from the upper limb light receiving unit PTR. It is provided with a microcomputer 10 for adjusting the microcomputer 10 receives the dust detection signal of the level comparison unit 4 to determine the amount of dust in the room to adjust the output voltage.

For example, the strongest output voltage is 950-1100w depending on the amount of dust and the size of dust determined by the dust detection signal.

The microcomputer 10 has a constant duty to the light amount control unit 1 to adjust the light amount of the light emitting unit (LED) of the dust sensor 2 to the light amount control unit 1 connected to one output terminal (OPI). Output pulse signal.

Referring to the operation of the dust detector of the conventional vacuum cleaner, first, when the power is applied, the microcomputer 10 sets a predetermined pulse duty (ratio of pulse widths per cycle) set in the light amount adjusting unit 1, for example. A pulse signal having a 75% duty is output, and the light amount adjusting unit 1 rectifies the pulse signal and applies DC voltage, for example, 1.5 V, to the light emitting unit (LED).

In addition, when the dust and contaminants contained in the indoor air are introduced by the driving of the motor and the impeller, the dust sensor 2 for detecting the same operates. If there is no dust flowing into the main body, the light emitting unit (LED) Since all the light emitted from the light is supplied to the light-receiving unit (PTR), the phototransistor (PTR) is turned on to lower the collector voltage of the light-receiving unit (PTR). By blocking some of the light, the light receiving unit PTR is turned off, thereby increasing the collector voltage.

Therefore, when the output voltage value of the light receiving unit (PTR) input to the A / D terminal of the microcomputer 10 is 1.5V or more, the amount of dust is not introduced and the light quantity of the light emitting unit (LED) is blocked, so the dust sensor (2) In order to maintain the optimal sensitivity of the light emitting unit (LED) to increase the amount of light is required, the microcomputer 10 increases the pulse duty to the light amount control unit 1 by applying the light amount of the light emitting unit (LED) It will increase the output voltage.

On the contrary, when the output voltage value of the light receiving unit (PTR) input to the A / D terminal of the microcomputer 10 is 1.5V or less, the amount of dust introduced is small and the light of the light emitting unit (LED) is cut off. In order to maintain the optimal intensity of the light-receiving portion (PTR) of the light emitting unit (LED) to reduce the amount of light, which is applied to the light amount control unit 1 by the microcomputer 10 to reduce the pulse duty light emitting unit (2) Will reduce the output voltage.

In the dust detection device of the vacuum cleaner having the polarity and function as described above, the light emitting unit (LED) to adjust the light amount of the light emitting unit (LED) and the resistor and the capacitor to smooth the pulse signal output from the microcomputer (10) Since there is a separate IC to control the driving of the) there was a problem that the parts and product cost increases.

Therefore, the present invention has been made to solve the above problems and its object is to provide a dust detection apparatus of a vacuum cleaner that can adjust the light amount of the light emitting portion of the dust sensor by using a plurality of resistors having different resistance values.

In order to achieve the above object, the present invention has a light sensor and an optical sensor installed opposite to the light emitting unit and equipped with a light receiving unit for receiving the light of the light emitting unit, and flows between the light emitting unit and the light receiving unit according to the detection result of the light receiving unit. In the vacuum cleaner for determining the amount of dust to be changed, the amount of dust to be sucked by the light amount control unit having a plurality of resistors connected in parallel with the light emitting unit and the detection result of the light receiving unit, And a microcomputer for controlling the cutting of the light amount to change the light amount of the light emitting portion in proportion to the amount of dust.

In addition, the resistance of the light amount control unit has a different resistance value to each other by changing the connection between each resistor and the light emitting unit by the microcomputer to measure the light amount of the light emitting unit can be finely adjusted.

Hereinafter, with reference to the accompanying drawings will be described in detail a dust detection device of a vacuum cleaner according to the present invention.

2 is a circuit diagram showing a dust detection device of a vacuum cleaner according to the present invention. As shown in FIG. 2, the dust detection apparatus according to the present invention is mounted at a light emitting unit consisting of an infrared LED emitting infrared light and a position opposite to the light emitting unit (LED), and when dust is introduced, the collector potential of the phototransistor is increased. A dust sensor unit 2 comprising a light receiving unit PTR, a light quantity adjusting unit 5 connected in parallel with the light emitting unit LED, and having a plurality of resistors Rl-R3 having different resistances, and the light receiving unit A fluctuation noise and amplification section 3 for detecting a change in the potential of the phototransmitter terminal of the phototransistor and amplifying the detected signal, and a level comparison book 4 for comparing the delay detection signal to be amplified with a predetermined existing voltage value. And, by receiving the output signal of the level comparator 4 and varying the suction amount of dust, the collector potential of the phototransistor (PTR) by taking the A / D conversion by comparing with the preset existing value the light amount tank Provided with a microcomputer (10 ') for controlling the operation of the unit 5.

The fluctuation detecting and amplifying unit 3 divides the potential of the collector terminal of the phototransistor, which is the light receiving unit of the dust sensor 2, into the inverting terminal (-) via the capacitor CI and the partial pressure on the non-inverting terminal (+). The voltage divided by the resistors R4 and R5 is input and includes an operational amplifier AMP through which the output signal is returned to the inverting terminal (-) via the resistor R6. The level comparison unit 4 includes: The output terminal of the operational amplifier AMP is connected to the non-inverting terminal (+), the voltage divided by the voltage divider resistors R7 and R8 is input to the inverting terminal (-), and the non-inverting terminal (+) and the discharge terminal ( Comparator COMP compares the input signal of-) and outputs it to one input terminal IPI of the microcomputer 10 '.

In addition, the light amount adjusting unit 5 is connected in parallel to the cathode plate of the infrared light emitting unit of the light emitting unit and is polarized into a plurality of resistors (Rl-R3) each having a different resistance value, and the resistor Rl has a resistance value of R. Assuming that resistor R2 and resistor R3 have resistance values of 2R and 3R, respectively. In addition, the resistors Rl-R3 are respectively connected to the output terminal OPI-7P3 of the microcomputer 10, and the output terminals 7Pl-OP3 are each resistor Rl-R3 by a switching element configured therein. The flow of current is controlled to adjust the flow rate of the light emitting unit (LED).

That is, the light intensity control unit 5 inside the output terminal 7Pl has a resistance value of R. When the output terminals OPI and OP2 are turned on (3/2) 7R, the output terminals OPI-OP3 ) Has on-resistance (l1 / 6) 7R resistance, and the light quantity of the light emitting part (LED) is changed by changing the resistance of the light quantity adjusting part 5 by turning on and off the output terminals 7Pl-7P3. It is adjustable. Referring to the operation of the dust detector of the vacuum cleaner having such a property as follows.

In the early stage of rotation, if one output terminal (OPI) and (OP2) of the microcomputer (10 ') are connected and the resistors (Rl) and (R2) are connected in parallel to the light emitting part (LED) of the dust sensor part 2, the light emitting part The LED is driven by applying a constant voltage, and the light emitted from the light emitting unit LED is approximately half. The light emitting unit PTR is included in the light receiving unit PTR, and it is assumed that the collector potential of the light receiving unit PTR is set to 1.5V.

First, power is applied and a constant voltage is applied to the light emitting unit LED of the dust sensor 2 by the resistor Rl and forgetting R2 to emit a predetermined amount of light, and the light receiving unit PTR is the light emitting unit LED. In this case, when the amount of dust flowing into the main body is small, the potential of the collector terminal of the light receiving unit PTR is low because there are many squares received by the light receiving unit PTR. Therefore, since the signal input from the collector terminal to the A / D terminal of the microcomputer 10 'has a voltage lower than the reference voltage (for example, 1.5V), the microcomputer 10' outputs the output terminals 7Pl-OP3. By controlling the signal and increasing the resistance value, the amount of light of the light emitting unit LED is reduced so that the light receiving unit PTR maintains the optimum sensitivity. On the contrary, when the amount of dust does not flow into the main body and the reception sin from the light emitting unit LED to the light receiving unit PTR is low, the collector potential of the light receiving unit PTR is increased and corresponds to the collector potential of the light receiving unit PTR. Is input to the A / D terminal of the microcomputer 10 '. Since the microcomputer 10 'has a signal input to the A / D terminal greater than a predetermined reference voltage of 1.5V, the light amount of the light emitting part LED is controlled by reducing the resistance value by controlling the output signal of the output terminals OPl-OP3. Increase the sensitivity of the light receiving unit (PTR) to maintain the optimum sensitivity. In addition, according to the amount of dust sucked in dust signal received by the light receiving unit (PTR) is interlocked and amplified by the amplifier (3) and then compared with a predetermined existing value by the level comparison unit (4) Input to one input terminal (IPI) of '), the microcomputer 10' determines the amount of dust sucked in accordance with the input dust detection signal to control the driving of the motor and the impeller to adjust the amount of hop.

As described above, the light quantity of the light emitting part of the dust sensor can be adjusted using only a plurality of resistors by the dust detection apparatus of the vacuum cleaner according to the present invention, so that the number of parts and the defrosting cost can be reduced, and the combination of resistors The voltage applied to the light emitting unit can be variously adjusted.

Claims (2)

A light sensor (2) and an optical sensor (2) mounted opposite to the light emitting unit (LED) and equipped with a light receiving unit (PTR) for receiving the light of the light emitting unit (LED), and the detection result of the light receiving unit (PTR) According to the vacuum cleaner for changing the suction amount of the indoor air by determining the amount of dust flowing between the light emitting unit (LED) and the light receiving unit (PTR), a plurality of resistors Rl-R3 connected in parallel to the light emitting unit (LED) The light amount adjusting unit 5 including the light amount adjusting unit 5 and the light amount adjusting unit 5 to determine the amount of dust sucked in according to the detection result of the light receiving unit PTR, and to change the light amount of the light emitting unit LED in proportion to the amount of dust. The dust detection apparatus of the vacuum cleaner which measures that the sensitivity of the said light-receiving part (PTR) was made to be optimal according to the amount of dust, with the microcomputer (10) which controls (5) being extremely secreted. The method of claim 1, wherein the resistors Rl-R3 of the light amount adjusting unit 5 have different resistance values and are connected to each of the resistors Rl-R3 and the light emitting part LED by the microcomputer 10. The dust detection device of the vacuum cleaner, characterized in that to adjust the amount of light of the light emitting portion (LED) finely by changing.