JP2658415C - - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vacuum cleaner used in ordinary households, and more particularly to a control device for a fan motor thereof. 2. Description of the Related Art Looking at a cleaning operation using an electric vacuum cleaner in a general home, continuous operations are relatively few, and for example, intermittent operations are often performed while clearing is performed. In addition, the cleaning speed, that is, the moving speed of the floor nozzle varies widely. The fan motor in the main body of the vacuum cleaner is always operated at a predetermined number of revolutions in response to such a cleaning operation. Problems to be Solved by the Invention By the way, in the above-described conventional vacuum cleaner, even when the substantial cleaning work is not performed by clearing or the like, the fan motor continues to be operated at a predetermined rotation speed, so that power is wasted, and cleaning is also performed. Since the fan motor speed is set to a predetermined value regardless of the speed, the cleaning itself becomes uncertain when the cleaning speed is high, and the cleaning operation is inefficient when the cleaning speed is too low. . The present invention has solved such a conventional problem, and one of its objects is to enable economical cleaning operation, and another object is to streamline the cleaning operation. Means for Solving the Problems In order to achieve the first object, a first means of the present invention is to provide a cleaner main body in which a fan motor, a filter device and the like are installed, and an air passage system in the cleaner main body. A floor nozzle communicated with the floor nozzle, a state detection unit provided on the floor nozzle for detecting rotation of a wheel, and a signal from the state detection unit. it is obtained by having a control means for the lower low rotation of the motor. In order to achieve the second object, a second means of the present invention comprises a cleaner body having a fan motor, a filter device, etc. installed therein, and a floor nozzle connected to the cleaner body via an air passage system. A speed detecting means provided on the floor nozzle for detecting a moving speed by rotation of a wheel; and a control means for receiving a signal from the speed detecting means and controlling the number of revolutions of the fan motor. . In effect the first means, the state detecting means through the wheel movement of the floor nozzle sends the signal to detect and control means which causes please lower the rotation of the fan motor. The rotation of the fan motor may be completely stopped, or may be reduced to a low speed in consideration of the re-rotation. In the second means, the moving speed of the floor nozzle is detected by the speed detecting means via the wheel, and a signal corresponding to the speed is output to the control means. The control means changes the number of revolutions of the fan motor in proportion to the moving speed of the floor nozzle. Examples Examples will be described below with reference to the accompanying drawings. 1 and 2, a floor nozzle 6 is connected via a hose 4, an extension pipe 5 and the like to a suction portion of a vacuum cleaner main body 3 having a fan motor 1 and a filter device 2 provided on the suction side thereof. I have. The floor nozzle 6 has wheels 7 for facilitating movement on the surface to be cleaned. Numeral 8 denotes state detecting means provided inside the floor nozzle 6 for detecting the rotation of the pulley 9 linked to the wheel 7. An output signal of the state detecting means 8 is transmitted to a control means 10 in the cleaner main body 3 via a lead wire (not shown) embedded in the extension pipe 5 and the hose 4.
The control means 10 receives a signal from the state detection means 8 and rotates the fan motor 1
This is to stop. In the above configuration, when the floor nozzle 6 is now moving on the surface to be cleaned, that is, when a cleaning operation is being performed, the pulley 9 linked to the wheel 7 rotates, and the state detecting means 8 The rotation signal of the pulley 9 is output. In response to this output, the control means 10
Inputs a predetermined electric power to the fan motor 1 to generate a suction action. Conversely, floor nozzle 6
Is stopped, the rotation of the pulley 9 is also stopped, and the state detecting means 8 outputs a rotation stop signal. As a result, the control means 10 stops the input of the fan motor 1 and stops its rotation. FIG. 3 shows the correlation between the rotation of the wheels 7 and the input of the fan motor 1. It is conceivable to completely stop the fan motor 1 when the floor nozzle stops, but it may be reduced to a low rotation speed. Therefore, in the present embodiment, when the cleaning operation is not substantially performed, the input to the fan motor 1 is limited, so that power is not wasted and economical. Next, another embodiment of the present invention will be described with reference to FIGS. 4 and 5, a floor nozzle 16 is connected via a hose 14, an extension pipe 15, and the like to a suction portion of a cleaner body 13 in which a filter device 12 is inscribed on a fan motor 11 and a suction side thereof. I have. The floor nozzle 16 has wheels 17 for facilitating movement on the cleaning surface. Reference numeral 18 denotes a speed detecting means provided inside the floor nozzle 6 for detecting the rotation speed of the pulley 19 linked to the wheel 17. An output signal of the speed detecting means 18 is transmitted to a control means 20 in the cleaner body 13 via a lead wire (not shown) embedded in the extension pipe 15 and the hose 14. The control means 20 receives the signal from the speed detection means 18 and varies the rotation speed of the fan motor 11. In the above configuration, when the floor nozzle 16 is slowly moving on the surface to be cleaned, the rotation speed of the wheel 17 and the pulley 19 associated therewith is low, and the speed detection means 1
8 outputs a low-speed signal. In response to this output, the control means 20 controls the fan motor 11
The input power of the motor is limited and its rotation speed is reduced. Conversely, when the movement of the floor nozzle 16 is accelerated, the rotation speed of the pulley 19 also increases, and the speed detection means 18 outputs a high-speed signal. As a result, the control means 20 increases the input power to the fan motor 11 and increases the rotation speed. FIG. 6 shows the correlation between the rotation speed of the wheels 17 and the input of the fan motor 11. It is conceivable that the fan motor 11 is substantially stopped when the floor nozzle is stopped, as in the previous embodiment. Therefore, in this embodiment, the fan motor 1 is proportional to the operation speed of the floor nozzle 16.
Since the number of rotations of 1 is limited, reliable cleaning can be performed, and power consumption is economical without waste. According to the first means effect Thus the present invention, since the low Please causes the rotation of the fan motor when the floor nozzle is not moving on the surface to be cleaned, as it can efficiently cleaning operation is there. Further, according to the second means, since the rotation speed of the fan motor is controlled in proportion to the moving speed of the floor nozzle, a reliable and rational cleaning operation can be performed.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a half cross-sectional view of a floor nozzle showing an embodiment of the present invention, FIG. 2 is a side view showing a partial cross section of the entire vacuum cleaner, and FIG. FIG. 4 is a half cross-sectional view of a floor nozzle showing another embodiment of the present invention, FIG. 5 is a side view showing a partial cross section of the entire vacuum cleaner, and FIG. 6 is a characteristic diagram. 1, 11 fan motor, 2, 12 filter device, 3, 13 cleaner body, 6, 16 floor nozzle, 8 state detection means, 10, 20 control means, 18 ... Speed detection means.

Claims (1)

Claims: (1) A vacuum cleaner main body in which a fan motor, a filter device, and the like are installed, a floor nozzle connected to the vacuum cleaner main body through an air passage system, and wheels provided on the floor nozzle a state detecting means for detecting the rotation of, upon receiving a signal from said state detecting means, when the floor nozzle is substantially stationary state, the control of the electric vacuum cleaner provided with the control means for the lower low rotation of the fan motor apparatus. (2) A vacuum cleaner body with a fan motor, filter device, etc. installed inside, a floor nozzle connected to the vacuum cleaner body via an air passage system, and a moving speed provided by the rotation of the wheels. A control device for a vacuum cleaner, comprising: a speed detecting means for detecting; and a control means for receiving a signal from the speed detecting means and controlling a rotation speed of a fan motor.