KR200205692Y1 - Power saving vacuum cleaner - Google Patents

Abstract

The present invention varies the time constant set by the drive control means by the resistor and the condenser by using the slide volume, drives the motor using a triac driven periodically according to the variable time constant, and the vacuum suction force generated at this time. In the vacuum cleaner for cleaning by using a suction means including a brush,

A switch is installed between one end of the triac and an application line to the drive control means, and the switch is a power saving vacuum cleaner which is installed on the bottom surface of the suction means near the brush,

The switch is turned on only during the cleaning process to drive the motor, and when it is not in progress, the switch is turned off as soon as the suction means falls from the floor, so the motor is turned off to stop the vacuum cleaner momentarily so that power is applied only during cleaning. You can save your use.

Description

Power saving vacuum cleaner

The present invention changes the time constant set by the drive control means by the resistor and the condenser by using the slide volume and drives the motor by controlling the phase angle of the AC power by using the triac which is periodically driven according to the variable time constant. In the vacuum cleaner having a suction means including a brush with a vacuum suction force generated at this time, a switch is installed between one end of the triac and the application line to the drive control means, the switch is installed on the bottom of the suction means near the brush It relates to a vacuum cleaner.

In general, a vacuum cleaner is a device for cleaning a room by sucking dust and the like with a vacuum suction force generated by generating a vacuum by the rotational force of the motor. Therefore, the vacuum cleaner is mainly connected to the housing (main body) for accommodating the motor and the dust suction filter (pouch), the suction connection (flexible) hose which is connected through the connecting means installed in the housing, and provides a passage for sucking dust, and the suction connection. It is made to include a flexible tube connected to the hose and stretchable to engage the suction means including a suction brush at the end. In addition, a handle coupled to the connection hose is provided with a switch unit (for example, a slide volume) that turns on and off the power and selects the suction force from "strong" to "weak". This can be illustrated as shown in Figure 1, the main body (housing) for accommodating a vacuum generating motor and suction filter, etc., and a flexible connection hose (2) which transmits a vacuum suction force and the electric power driving wire is wound on the outer shell (2). ), A flexible pipe (2-1) coupled to the connection hose (2) detachably and having a suction means (2-2) having a suction brush (2-3) at the tip, and the connection hose (2) and And a switch section 3-1 having a slide volume 3 for engaging the expansion tube 2-1 and adjusting the suction level. In this case, the degree of suction force due to the motor (state of the output level of the motor) is determined by the volume 3 corresponding to the selection level of the switch section 3-1 (in FIG. When the staging is set), the value recognized from this is used as a time constant to control the output of the motor by phase controlling the gate of the triac for motor drive control. In other words, the gate is phase-controlled with the corresponding time constant in the "strong" state, and the gate is phase-controlled with the corresponding time constant in the "weak" state. This can be illustrated in a circuit representation as shown in Figure 2, the vacuum cleaner main body (1) to provide an AC power through the plug, the AC power applied to the main body 1 through the flexible connection hose (2) The on-off (example of on-off means is omitted), and the connection hose 2 includes a volume 3 for selecting the suction force (output of the motor). The main body 1 includes a vacuum suction force generating motor M, and the selection level of the volume 3 drives the gate to determine the time constant and thereby control the triac 5 in phase. The resistors R1, R2, R3, S / V in the above constitute drive control means for driving the gate of the triac 5 through the diaak 6 while providing a time constant with the capacitor C1. The principle of the gate control of the triac 5 is a time point when the gate driving current is applied when the input power source as shown in FIG. 3A is applied (the time point when the capacitor C1 discharges. gate output power is applied to the motor M from t3 .. That is, the gate driving current is directly applied at 0 and 360 degrees (when sine wave output is applied) or 90 The phase angle control of the AC power supply is performed by using an output level that varies depending on whether the power is applied at the time of FIGS.

By the way, the vacuum cleaner using this method is to adjust the slide volume (3) to the desired level to clean the suction means (2-2) to the floor to be cleaned. By the way, when the phone is in use or to hold the switch unit (3-1) to do other things for a while, even when placed on the floor is a way that the motor is continuously driven power consumption situation.

An object of the present invention is to solve this, it is to provide a vacuum cleaner to automatically turn off the power of the vacuum cleaner when not in use for a while.

To this end, the present invention adds a switch to the bottom of the suction means including the brush of the vacuum cleaner, a function of turning on during operation and off when stopping the operation.

1 is a perspective view of a general vacuum cleaner,

2 is an output control circuit diagram of a general vacuum cleaner;

3A is a triac applied power waveform diagram used in FIG. 1;

3B is an exemplary diagram of an output waveform of a triac used in FIG. 1, FIG.

Figure 4 is a sectional view of the main portion showing an example of the suction means used in the present invention,

5 is a circuit diagram of the present invention,

6 is a circuit diagram showing another example of the present invention.

Explanation of symbols for main parts of the drawings

10; switch 10-1, 10-2; lead

11; sustainable mode switch

That is, the present invention varies the time constant set by the drive control means by the resistor and the condenser by using the slide volume, drives the motor by using a triac driven periodically according to the variable time constant, and the vacuum generated at this time. A vacuum cleaner for cleaning by using suction means including a brush with suction force, wherein a switch is installed between one end of the triac and an application line to the drive control means, and the switch is a power saving vacuum cleaner installed on the bottom of the brush near the suction means. Is to provide.

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

Fig. 4 is a sectional view of the suction means showing the case where the switch of the present invention is installed, and a cleaning floor near the suction brush 2-3 of the suction means 2-2 including the suction brush 2-3; Install a switch (10) that is turned on when it touches the surface. The switch 10 is connected to the switch portion 3-1 shown in FIG. 1 through the conductive wires 10-1 and 10-2 and the flexible pipe 2-1. The switch 10 also includes a switch rod 10-3 that operates to touch on the bottom surface. An example of such a switch 10 may be illustrated to perform a function of turning on and off when contacting, such as a micro switch, an optical sensor, and the like.

5 is a circuit diagram of the present invention, in which the phase 3 of the AC power control triac 5 is controlled by the volume 3 for selecting the output level of the vacuum cleaner and the time constant based on the selection value of the volume 3. In the vacuum cleaner comprising a drive control means for driving the gate in each control method, and a motor (M) for driving in accordance with the gate output to generate a vacuum force, it is connected to the main body (1) through a flexible connection hose (2) And an additional switch 10 is provided between the slide volume 3 and one end of the triac 5 for controlling the time constant determination, and the switch 10 is connected to the suction means 2 through the expansion pipe 2-1. -2) near the suction brush (2-3) (bottom). The switch 10 installed in the suction means 2-2 is connected to the movable terminal of the slide volume 3 through the lead wire 10-2, and the triac ( The configuration which connects to the node (for example, T1) which is one end of 5) can be illustrated. In the above, the conductive wires 10-2 and 10-1 connecting the slide volume 3 movable end of the switch unit 3-1 and the node T1 may be integrally attached to the flexible pipe 2-1. The flexible pipe 2-1 may be formed by coating and insulating the conductive wire.

Fig. 6 is a circuit diagram showing another example of the present invention, in which the main body 1 is connected to the switch unit 3-1 through a connecting hose 2 to operate, and the main body 1 also includes the suction means 2- It is driven by the switch 10 attached to 2), the switch unit 3-1 is further provided with a continuous mode switch 11 for discontinuing operation by ignoring the operation of the switch 10. The continuous mode switch 11 is commonly connected to the conductive lines 10-2 and 10-1, for example.

The present invention configured in this way is connected to the AC power plug (not shown) of the vacuum cleaner to the outlet and manipulate the volume (3) to adjust the position of the volume (3) to come to the desired position of the desired strong, weak state, When the power switch (not shown) is turned on, AC power is applied to the motor M generating the vacuum. The cleaning is then performed in the state shown in FIG. 1. Of course, during cleaning, the suction means (2-2) abuts on the bottom surface, so that the switch 10 is turned on, which corresponds to the case where the contact of the switch 10 is turned on, as shown in FIG. When turned on, the same electrical characteristics as those of FIG. 2 are achieved. Therefore, clean as usual.

However, if you stop using the phone or suddenly do other things while using the phone, tilt the switch part (3-1) that you hold or obliquely hang on the wall, and the cleaning surface and the suction means (2-2) will naturally separate the switch (10). Is off. Therefore, when the switch 10 is turned off, power to the drive control means including the slide volume 3 is cut off, so that the gate control of the triac 5 through the diaak 6 is stopped. Therefore, the driving of the motor is stopped at the same time as the work is stopped, thereby reducing the power consumption.

Meanwhile, the present invention does not require a switch when cleaning a window or a small space without cleaning the floor due to the characteristics of the automatic cleaner. In this case, as shown in FIG. 6, the continuous mode switch 11 is turned on regardless of the operation of the switch 10. Since it is installed in (3-1), regardless of the operation of the switch 10 can be used to drive the cleaner continuously.

The present invention described above is not limited to the above-described embodiments and drawings, and various substitutions, modifications, and changes are possible within the scope without departing from the technical spirit of the present invention. It will be apparent to those who have

As described above, the present invention adds a switch to apply power to the suction means only when cleaning, so when the cleaning is suspended using a vacuum cleaner, the bottom surface to be cleaned is separated from the suction means, and the switch is turned off at this time. If you stop the cleaning, it will switch off and automatically shut off the power, reducing power consumption. In addition, the present invention provides a convenience that can continuously clean the area that requires continuous cleaning by installing a continuous mode switch that is turned on regardless of the operation of the switch if necessary.

Claims (2)

The time constant set by the drive control means by the resistor and the condenser is varied using the slide volume, and the motor is driven by the phase angle control method using the triac which is periodically driven according to the variable time constant. In the vacuum cleaner for cleaning by using a suction means including a brush with a vacuum suction force, A switch is installed between one end of the triac and an application line to the drive control means, and the switch is installed on the bottom surface of the suction means near the brush. The energy saving vacuum cleaner of claim 1, wherein a continuous mode switch for turning the switch on and off is connected to both ends of the switch, and the continuous mode switch is installed near the slide volume.