JPH0698846A - Air volume sensor and vacuum cleaner using the same - Google Patents

Abstract

PURPOSE:To obtain inexpensively an air volume sensor by providing a generator rotating a rotor in accordance with the rotation of a rotating fan corresponding to the wind power of a suction path and outputting the generated electric voltage as an air volume signal. CONSTITUTION:A sensor unit is constituted of an air volume sensor part 8, a refuse sensor part 9 and a const. electric voltage circuit 17. A fan 11 in the air volume sensor part is rotated by the suction force of a cleaner and a rotor of a generator 12 is rotated in accordance with the rotating power. The generator 12 generates an electric voltage in accordance with the air volume and this electric voltage is displayed as the air volume on a display part 16 through a diode D and an amplifier 18. In addition, the electric voltage generated by the generator 12 is charged in a capacitor C and a const. electric voltage V is given as an electric source voltage through a const. electric voltage circuit 17 to the amplifier 18, a light emitting circuit 13, a light receiving circuit 14, an amplifier 15 and the display part 16.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air volume sensor for an electric vacuum cleaner and an electric vacuum cleaner using the air volume sensor.

[0002]

2. Description of the Related Art Generally, in an electric vacuum cleaner, a motor is rotated to generate suction air. This wind is the condition of the floor,
For example, the optimum amount varies depending on the space between boards, tatami mats, rugs, etc., and the optimum amount of air flow also varies depending on the amount of dust. Therefore, some conventional vacuum cleaners include a dust sensor that detects the amount of dust and an air volume sensor that detects how much the air volume is. These dust sensors and air flow sensors have been supplied with two electric wires as a power source from the main body section to the operation section where the sensors are arranged and the suction section. . Also,
As the air flow sensor, a sensor including a spring, a magnet and a hall element was used.

[0003]

In the above conventional air flow sensor, as described above, power is supplied from the main body portion by the two electric wires, but the bellows hose portion is interposed in the middle, so that the bellows hose and There is a problem in that the connection mechanism of the electric wires at both ends becomes complicated and the cost becomes high. Also, as the air flow sensor, a sensor composed of a spring, a magnet, and a hall element was used. However, this is a relatively expensive and inexpensive electric cleaning system because the structure is complicated and individual adjustment is required. It was an obstacle to the realization of the machine.

The present invention has been made in view of the above problems, and a first object thereof is to provide an inexpensive air flow sensor. A second object is to provide an electric vacuum cleaner that does not require a battery as a power source for the circuit of the sensor unit.

[0005]

The air volume sensor according to claim 1 of the present invention includes a fan that responds to the wind force in the suction path and rotates, and a generator that rotates a rotor in response to the rotation of the fan. The output voltage of this generator is output as an air volume signal. With this air volume sensor, when the air volume is large, the rotation speed of the fan is large, and when the air volume is small, the rotation speed of the fan is small, and the generator generates voltage according to the rotation speed of the fan. The voltage corresponding to is output. Since this air flow sensor is composed of a fan and a small generator, it can be realized at low cost.

The vacuum cleaner according to claim 2 of the present invention is
In a device provided with a sensor unit having an air flow sensor, a dust sensor, etc., the air flow sensor comprises a fan that rotates in response to the wind force in the suction path, and a generator whose rotor rotates in response to the rotation of the fan. The generated voltage of the generator is output as an air flow signal and used as the circuit power supply voltage of the sensor unit.

In this vacuum cleaner, the fan rotates due to the amount of suctioned air, and the generator generates a voltage according to the rotating force. That is, a voltage corresponding to the air volume is generated. Since this generated voltage is also used as the rotation power source of the sensor unit, no battery is required.

[0008]

The present invention will be described in more detail with reference to the following examples. FIG. 1 is a diagram showing an external appearance of an electric vacuum cleaner in which the present invention is implemented. This vacuum cleaner has a main body 1
, A bellows hose portion 2, an operating portion 3, a tubular portion 4, and a T-shaped suction portion 5. The main body 1 has a suction motor, a dust collecting bag, and the like built therein, and the basic configuration thereof is not particularly different from that of a well-known vacuum cleaner.

A sensor unit including a dust sensor and an air flow sensor is built in the cylindrical portion 6 of the suction portion 5. Figure 2
The circuit configuration of the sensor unit 7 is shown in FIG. The sensor unit 7 is composed of an air volume sensor section 8, a dust sensor section 9 and a constant voltage circuit 17. The air volume sensor section 8 is characterized in this embodiment. The air volume sensor unit 8 includes a fan 11 that rotates due to sucked wind force, and the fan 11
It has a rotor that rotates in response to the rotation of the fan, and includes a generator 12 that generates a voltage according to the rotation speed of the fan 11, a diode D, a capacitor C, and an amplifier 18.

The output voltage V of the constant voltage circuit 17 is supplied to the amplifier 18 of the air flow sensor unit 8, the circuits of the dust sensor unit 9, and the circuit power supply voltage to the display unit 16. Although the display unit 16 is integrally provided on the sensor unit 7, the display unit 16 may be provided on the operation unit 3. In the vacuum cleaner of this embodiment, when the power switch of the operation unit 3 is turned on, a motor (not shown) is driven, and the cleaner starts a suction operation. Then, due to the suction force, the fan 11 rotates, the rotor of the generator 12 rotates according to the rotating force, and the generator 12 generates a voltage according to the air volume, and this voltage passes through the diode D and the amplifier 18. The air volume is added to the display unit 16 and the air volume is displayed. Also, the generator 1
The voltage generated in 2 is charged by the capacitor C, passes through the constant voltage circuit 17, and the constant voltage V is applied to the amplifier 18, the light emitting circuit 13, the light receiving circuit 14, the amplifier 15, and the display unit 16 as a power supply voltage. Each circuit then functions normally.

In the dust sensor unit 9, when a large amount of dust is sucked, a large amount of infrared light from the light emitting circuit 13 is blocked, and the light entering the light receiving circuit 14 is small. Conversely, when the amount of dust is small,
Infrared light from the light emitting circuit 13 is not shielded so much, so that the light entering the light receiving circuit 14 becomes large. This light receiving circuit 14
It is possible to detect a small amount of dust depending on the amount of received light. The amount of dust detected by the dust sensor unit 9 is also displayed on the display unit 16
Is displayed in.

In the above-described embodiment, the circuit power source for the dust sensor unit 9 and the like uses the voltage generated by the air flow rate sensor unit 8. However, the air flow rate sensor unit 8 is used only for detecting the air flow rate. Even if a battery is used as the power source, the air volume can be detected with a cheaper component than that using a spring, a magnet and a hall element as the air volume sensor, which is practical.

[0013]

According to the present invention, since the air volume sensor is composed of the fan provided in the suction portion and the generator that generates the voltage according to the rotation of the fan, the air volume sensor can be realized at a low cost, and therefore the electric A low-priced vacuum cleaner can be provided as a whole. In addition, the voltage generated by the air flow sensor consisting of the fan and the generator is also used as the power source for the circuit of the sensor unit, so that the sensor unit has a built-in battery or two wires from the main body via the bellows hose. A negative pressure switch or the like for supplying the power supply voltage or automatically turning off the circuit is unnecessary.

[Brief description of drawings]

FIG. 1 is an external view of an electric vacuum cleaner in which the present invention is implemented.

FIG. 2 is a block diagram showing a circuit configuration of an electric vacuum cleaner according to an embodiment.

[Explanation of symbols]

 11 fan 12 generator

─────────────────────────────────────────────────── ───

[Procedure amendment]

[Submission date] November 13, 1992

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be amended] Claims

[Correction method] Change

[Correction content]

[Claims]

[Procedure Amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0004

[Correction method] Change

[Correction content]

The present invention has been made in view of the above problems, and a first object thereof is to provide an inexpensive air flow sensor. A second object is to provide an electric vacuum cleaner that does not require a battery as a power source for circuits .

[Procedure 3]

[Document name to be amended] Statement

[Correction target item name] 0006

[Correction method] Change

[Correction content]

The vacuum cleaner according to claim 2 of the present invention is
In a device provided with a sensor unit having an air flow sensor, a dust sensor, etc., the air flow sensor comprises a fan that rotates in response to the wind force in the suction path, and a generator whose rotor rotates in response to the rotation of the fan. The voltage generated by the generator is output as an airflow signal and used as the circuit power supply voltage .

[Procedure amendment 4]

[Document name to be amended] Statement

[Correction target item name] 0007

[Correction method] Change

[Correction content]

In this vacuum cleaner, the fan rotates due to the amount of suctioned air, and the generator generates a voltage according to the rotating force. That is, a voltage corresponding to the air volume is generated. Since this generated voltage is also used as the circuit power supply , no battery is required.

[Procedure Amendment 5]

[Document name to be amended] Statement

[Correction target item name] 0013

[Correction method] Change

[Correction content]

[0013]

According to the present invention, since the air volume sensor is composed of the fan provided in the suction portion and the generator that generates the voltage according to the rotation of the fan, the air volume sensor can be realized at a low cost, and therefore the electric A low-priced vacuum cleaner can be provided as a whole. Also, by using the generated voltage of the air flow sensor consisting of a fan and a generator as the circuit power supply , a battery is built in the sensor unit, and the power supply voltage is supplied from the main body via the bellows hose via two wires. A negative pressure switch or the like for supplying or automatically turning off the circuit is unnecessary.

Claims (2)

[Claims] 1. A fan that rotates in response to wind force in a suction path, and a generator whose rotor rotates in response to the rotation of the fan. The voltage generated by the generator is output as an air volume signal. An air flow sensor for electric cleaning. 2. An electric vacuum cleaner provided with a sensor unit having an air flow sensor, a dust sensor, etc., wherein the air flow sensor responds to the wind force in a suction path and rotates a fan, and a rotor rotates in response to the rotation of the fan. An electric vacuum cleaner comprising a generator and outputting the generated voltage of the generator as an air volume signal and using it as a circuit power supply voltage of the sensor unit.