JP2625672C - - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a suction device for a vacuum cleaner provided with a rotary brush effective for cleaning dust and the like. 2. Description of the Related Art A conventional suction tool of this type is disclosed in, for example, Japanese Patent Application Laid-Open No. 57-180929.
The structure was as shown in FIG. That is, the suction tool main body 1 is equipped with a turbine 2 that rotates by suction air and a rotating brush 3 that works with the turbine 2.
In addition, the air flow for driving the turbine 2 is increased or decreased by adjusting the opening area of the ventilation port 5 by the switching lever 4, and the switching lever 4 is provided with a general type of the surface to be cleaned (for example, carpet, floor, folding, etc.). ) Is generally used, and the number of rotations of the rotating brush is changed according to each setting. Problems to be Solved by the Invention However, with such a structure, it is difficult to determine whether or not an ideal rotation speed of the rotating brush 3 is obtained while the actual cleaning operation is continued. However, there is a problem that an inefficient cleaning operation may be performed. This is for the following reasons. That is, the switching lever 4 has several stages of switching in accordance with the type of the general surface to be cleaned, and since the switching lever 4 does not adjust the actual use state, for example, " Even if the switching lever 4 is set at the "carpet" position, the load applied to the rotating brush 3 and the number of rotations differ depending on the type of carpet and the state of the surface. However, even if an attempt is made to appropriately adjust the rotation of the rotating brush 3 using a vacuum cleaner having a strong suction force and a suction port capable of freely adjusting the opening and closing of the ventilation port 5, the number of rotations is easily measured. It was hard. Therefore, there is a problem that the turbine 2 is damaged or worn when the rotation speed is higher than the rotation speed (3000 to 4000 rpm) considered appropriate for normal cleaning, and the dust collection efficiency is reduced when the rotation speed is low. The problem could not be dealt with as a user. Also,
A decrease in the number of revolutions cannot be found in the rotating brush 3 due to a decrease in the suction force of the vacuum cleaner body, a decrease in the cleaning efficiency due to an erroneous switching of the switching lever 4, and a failure in the suction tool itself cannot be found at an early stage. Had problems. The present invention solves such a problem, and detects and displays the number of revolutions of the turbine and the rotating brush, informs a user of a state in which the suction tool is used efficiently, and enables proper use. The purpose is to do so. Means for Solving the Problems In order to solve the above problems, the present invention provides a suction tool main body with a turbine rotating by suction air, a rotating brush interlocking with the turbine, and a power generation interlocking with the turbine or the rotating brush. A plurality of indicator lamps for indicating the magnitude of the output of the generator are provided on the suction tool main body, and an adjusting means for adjusting the rotation speed of the turbine.
Having a step, the plurality of indicator lights indicate an appropriate rotation speed state, a state higher than the appropriate rotation speed
, A state lower than the appropriate rotation speed is displayed . Operation According to the above configuration, when the turbine rotates, the generator rotates in conjunction with the rotation to generate an output, and the output of the generator changes according to the rotation speed of the turbine. Since the plurality of indicator lights arranged on the suction tool main body are made to blink according to the magnitude of the output, the user can determine the rotation speed of the turbine and the rotating brush. Thus, when the cleaning surface with a large load is cleaned by rotating the rotating brush, the ventilation opening is largely opened.On the other hand, when the cleaning surface with a small load is cleaned, the ventilation opening is closed small, In other words, by adjusting the adjusting means, it is possible to adjust the rotation speed of the rotating brush to an appropriate value in the actual cleaning state and use it properly. , And can be found at an early stage so that efficient cleaning can be performed. Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings. In FIG.
Reference numeral 6 denotes a suction tool main body. The suction tool main body 6 incorporates a turbine 7 and a rotating brush 8 which are rotated by suction air so as to be interlocked with each other by a belt 9, and has a switching lever.
By means of 10, the ratio of the opening of the ventilation port 11 through which the suction air flows to the turbine 7 and the opening of the suction port 12 for sucking the air without passing through the turbine 7 can be freely adjusted. The small DC generator 13 is arranged so as to interlock with the turbine 7 via a belt 14.
As shown in FIG. 2, the output of the small DC generator 13 is connected so as to be divided by resistors 14 and 15, and in parallel with the resistor 15, light-emitting diodes 16, 17, and 18 are connected to the resistors 19 and 18, respectively. A resistor 20 and a Zener diode 21, and Zener diodes 22 and 23 are connected in series, and the light emitting diodes 16, 17, 18 are connected to a display 24 on the suction tool main body 6 as shown in FIG. The blinking can be visually recognized. Next, the operation of the above configuration will be described. First, when the turbine 7 is rotated by the air flowing from the ventilation port 11, the rotating brush 8 and the generator 13 are rotated, and the generator 13 generates an output. That is, the rotating brush 8 is interlocked with the generator 13. In general, the output of the generator 13 increases as the rotating speed of the rotating brush 8 increases, and conversely, the output of the generator 13 decreases as the rotating speed decreases. On the other hand, since the output of the generator 13 can be regarded as a current, the voltage generated at both ends of the resistor 15 increases and decreases as the output of the generator 13 increases and decreases. Here, assuming that the voltage across the resistor 15 is VL, the forward voltage drop of the light emitting diodes 16, 17, 18 is Vf, and the Zener voltage of the Zener diodes 21, 22, 23 is VZ, when VL is smaller than Vf, Light emitting diodes 16, 17, 18 are all off, and when VL is greater than Vf and less than Vf + VZ, only light emitting diode 16 is lit. Next, when VL is larger than Vf + VZ and smaller than Vf + VZ + VZ, the light emitting diodes 16 and 17 are turned on. When VL becomes larger than Vf + VZ + VZ, all the light emitting diodes 16, 17, and 18 are turned on. VL can be arbitrarily selected by the values of the resistors 14 and 15, Vf can be arbitrarily selected by the element characteristics, and VZ can be arbitrarily selected by setting the Zener voltage.
In the range of Vf + VZ <VL <Vf + VZ + VZ, if the rotating speed of the rotating brush 8 is set to be optimal, it is optimal when two light emitting diodes are lit, low when one light emitting diode is used, and high when three light emitting diodes are used. Can be confirmed by the user, and as a result, the adjustment of the lever 10 makes it possible to obtain the optimum rotation speed. It is also possible to check whether the rotating brush 8 is rotating. In the above embodiment, the example using the DC generator has been described.
Even if an AC generator is used and a rectifier circuit or the like is used, the same effect as in the above embodiment can be obtained. Effect of the Invention As described above, according to the present invention, since the generator is used for detecting the number of revolutions, the use of batteries and the supply of power from sources other than the suction tool are not required, and the display of the indicator light is extremely confirmed. Can display the rotation speed level in actual use of the rotating brush in an easy-to-use form, so that a small and lightweight display function with a high display effect can be provided at a low cost, and thereby the user can easily check the actual cleaning state. By being able to grasp and adjusting to a more appropriate state, efficient cleaning can be facilitated, and at the same time, the suction power is reduced due to dust from the vacuum cleaner body, and the malfunction of the suction tool is detected at an early stage, and cleaning is performed. It can promote effective use of the machine itself. In addition, since the state of the surface to be cleaned where the load is particularly large and the use of the turbine-type rotating brush is inappropriate can be detected, it is also useful for preventing failure of the suction tool.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a sectional view of a suction device of a vacuum cleaner showing one embodiment of the present invention, FIG. 2 is a circuit diagram thereof, FIG. 3 is a perspective view of the suction device, FIG. The figure is a sectional view showing a conventional suction tool. 6 Suction implement body, 7 Turbine, 8 Rotary brush, 13 Generator, 16, 1
7,18 …… Light-emitting diodes (indicators).

Claims (1)

Claims: (1) A suction tool main body incorporates a turbine that rotates by suction air, a rotating brush that works with the turbine, and a generator that works with the turbine or the rotating brush.
When a plurality of indicator lights indicating the magnitude of the output of the generator are arranged on the suction tool main body ,
Both have adjusting means for adjusting the rotation speed of the turbine, and the plurality of indicator lights
, Appropriate speed, higher than appropriate speed, lower than appropriate speed
Suction tool of the electric vacuum cleaner that was to so that. (2) The suction tool of a vacuum cleaner according to claim 1, wherein the indicator light is turned on in accordance with a generated voltage or a generated current of the DC generator.