KR20090017261A - Vacuum cleaner - Google Patents

Abstract

A vacuum cleaner is provided to allow to a user to confirm a status of cleaning though a liquid crystal display of a display unit and to get bactericidal action by ultraviolet ray irradiated from a ultra-violet ray lamp. A vacuum cleaner comprises a chuck(10), which is installed in an end of a suction pipe, inhaling the foreign material, a photographic unit(110), which is installed in a lower part of the chuck, outputting a video signal toward a cleaning object of a bottom, a controller comparing an operation value with a standard value and outputting a suitable control signal, a signal processing unit receiving the video signal outputted by the photographic unit, and changing the signal to the image restoration signal and a display unit(300) indicating a level of contamination according to the control signal of the controller by radiating lamps of different color.

Description

Vacuum cleaner {VACUUM CLEANER}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vacuum cleaner, and more particularly, to a vacuum cleaner that enables a user to easily identify the degree of contamination of a cleaning object and whether to clean after cleaning, and to improve sterilization efficiency through ultraviolet rays.

In general, a vacuum cleaner is a device for suctioning air containing foreign substances into the inside by using suction power generated by a motor installed inside the main body, and filtering foreign substances, such as dust, among them. Are classified as

The structure of a conventional vacuum cleaner includes a suction pipe having a vacuum suction force by a driving force of a motor installed in a main body, and a suction plate coupled to an end of the suction pipe and in contact with a cleaning object.

In general, the suction plate is provided with a roller and a brush-type brush on the bottom surface to facilitate the movement of the suction plate and suction of foreign substances according to the cleaning object.

On the other hand, a number of pests and harmful bacteria such as ticks are breeding on the floors of homes and offices, especially carpets, and many of them are inhaled by vacuum cleaners together with dust on the floors. Since it will continue to live in the dust collector without being completely eradicated, conventional vacuum cleaners could not be expected to have an insecticidal or sterilizing effect other than a cleaning function that sucks in dust.

As a result, products using a sterilization function in a vacuum cleaner are on the trend. The sterilization function of the vacuum cleaner is not sterilizing using heat like a steam cleaner, but using ultraviolet sterilization. Sterilization functions of vacuum cleaners are classified into two types depending on the method of use.

There is a method of sterilization using an ultraviolet lamp in the cleaner body, the dust collecting container or the suction passage. However, in the case of installing an ultraviolet lamp in the dust collector or the suction passage inside the body in this way, the inhaled ticks or bacteria are sterilized by the method of sterilizing and removing the sucked ticks or various bacteria, There is a drawback to not killing bacteria.

Another method is to install a UV lamp on the suction plate of the vacuum cleaner and irradiate UV rays to inhale and remove the mites and other germs that are parasitic on carpets or beds while being sucked together with foreign substances.

This method has the advantage of sterilizing even ticks and bacteria that remain uninhaled, but the ultraviolet rays are exposed to the outside and have a harmful effect on the human body. In particular, UV lamps using methods such as lighting fluorescent lamps are very harmful to the human body when turned on and should not be seen by the naked eye or directly on the skin. In addition, additional circuits such as ballasts and glow starters are required to increase the complexity of the product, and the life of the lamp is also limited. Therefore, when the UV light that emits germicidal effect is not emitted, the lamp must be detected and replaced. Since the ultraviolet ray of the existing ultraviolet lamp is wide, there is a problem that the sterilization efficiency is lowered.

In addition, the existing vacuum cleaner has no way of visually checking whether the foreign substance or mites such as mites have been removed after the user cleans the cleaning area, so the user may not be able to clean or miss the cleaned area again. .

Conventional technology for overcoming this, the Korean Utility Model Registration No. 0412389 "vacuum cleaner" is attached to a microscope to clean while watching fine objects or pests, and also the Korean Patent Registration No. 0607683 "ultraviolet sterilization vacuum The vacuum cleaner " attaches a sterilizing ultraviolet LED to the suction plate of the vacuum cleaner, and supplies power to the ultraviolet LED when the cleaning object contacts the suction plate.

The above-mentioned conventional technologies simply have a problem of seeing foreign substances or having a sterilization function, so that the user cannot easily check whether the object is visually cleaned or check the state of the object to be cleaned.

The present invention has been proposed to solve the above problems in view of the above, the object is to make it easy for the user to recognize whether or not the harmful bacteria and foreign substances such as ticks, and cleaning, while having a sterilization function It is to provide a vacuum cleaner to determine the timing.

The present invention for achieving the above object is a vacuum cleaner having a suction plate formed with a suction nozzle for sucking the foreign matter contained in the object to be cleaned,

Photographing means installed at a lower portion of the suction plate and outputting an image signal of an object to be cleaned on the floor;

A control unit which receives a video signal from the photographing means, calculates a distribution ratio per unit area of the foreign material, compares the calculated value with a reference value, and outputs a control signal;

A signal processor which receives an image signal output from the photographing means and converts the image signal into a reproduction signal;

It is characterized in that it comprises a display unit for receiving the reproduced signal converted by the signal processor to output an image and to display the pollution value step by step according to the control signal of the controller.

The display unit is provided with a plurality of lamps having different colors to display the pollution level step by step according to the applied control signal.

The present invention further includes an ultraviolet lamp installed inside the suction plate and irradiating ultraviolet rays toward the object to be cleaned on the floor as power is supplied.

The lens unit may further include a lens unit installed at the bottom of the suction plate and irradiating ultraviolet rays incident from the ultraviolet lamp downward in a vertical direction with respect to the bottom of the suction plate.

The lens unit includes a plurality of cylindrical lenses having a convex lens shape to focus and irradiate ultraviolet rays generated from the ultraviolet lamp.

The present invention is an improved structure to easily identify the degree of contamination of the object to be cleaned and whether or not cleaning, according to the present invention by using a plurality of lamps different in color from each other to facilitate the degree of contamination of the object to be cleaned It can be identified and has a useful effect that can be easily checked through the liquid crystal display of the display unit even during cleaning.

Further, sterilization efficiency is improved by focusing ultraviolet rays irradiated from the ultraviolet lamp and irradiating them toward the object to be cleaned.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, but the motor, the main body, the dust collecting container, etc. which are common components in the existing vacuum cleaner are the same as the existing ones, and the following drawings and the detailed description The description will be omitted.

A preferred embodiment of the vacuum cleaner according to the present invention will be described with reference to FIGS. 1 to 4, which is installed at the end of the suction pipe 20 to directly contact the surface of the object to be cleaned and sucks foreign matter such as dust. 10, a photographing means 110 installed under the suction plate 10 and outputting an image signal for a cleaning object on the lower side, and a foreign object per unit area of the object to be cleaned by receiving an image signal from the photographing means 110. A control unit 210 for calculating after calculating the distribution ratio, comparing the calculated value with a reference value, and outputting a control signal suitable for the calculated value; and a signal processing unit for receiving an image signal output from the photographing means 110 and converting the image signal into an image reproduction signal ( 220 and the reproduction signal converted by the signal processor 220 are outputted as an image, and the lamps 310, 320 and 330 of different colors are emitted step by step according to the control signal of the controller 210. The display unit 300 is configured to display light.

In more detail, the photographing means 110 is installed vertically on the lower portion of the suction plate 10 to employ a camera to photograph the bottom surface of the object to be cleaned.

The signal processor 220 has a function of receiving an image signal output from the photographing means 110 (camera), converting the image signal into an enlarged image (magnification * 100 or more) and converting an analog signal into a digital signal.

The display unit 300 receives an image reproduction signal output from the signal processor 220 to reproduce an image of the bottom surface, which is a cleaning object, as an analog signal, and controls the degree of contamination value by a control signal of the controller 210. For display, a plurality of lamps 310, 320, and 330 having different colors are installed.

The lamps 310, 320, 330 adopt lamps 310, 320, 330 (eg, green (safe), yellow (caution), red (danger)) that differ in color depending on the contamination level (number of ticks per unit area) of the object to be cleaned. The condition of the cleaning object can be easily recognized.

Lamps 310, 320, and 330 of the display unit 300 preferably employ a light emitting diode (LED) that emits light according to a control signal.

In addition, as the external power is supplied to the inside of the suction plate 10, an ultraviolet lamp 400 (U.V LAMP) which emits ultraviolet rays toward the bottom surface side of the object to be cleaned is further provided.

Preferably, the central lower surface of the suction plate 10 is further provided with a lens portion 450 for concentrating the ultraviolet rays irradiated from the ultraviolet lamp 400 to irradiate in the vertical direction toward the bottom surface side which is the object to be cleaned below. .

The lens unit 450 preferably adopts a convex lens-shaped cylindrical lens capable of focusing ultraviolet light emitted from the ultraviolet lamp 400 to improve the efficiency of the ultraviolet light.

In addition, a battery 420 for supplying power to the ultraviolet lamp 400 and a charging terminal 430 for charging the battery 420 are installed inside or outside the suction plate 10.

Reference numeral 410 denotes a reflector for reflecting light emitted from the ultraviolet lamp 400 toward the lower lens unit 450 provided in a lampshade shape on the upper side of the ultraviolet lamp 400.

Referring to the operation of the present invention having such a configuration as follows.

In the vacuum cleaner according to the present invention, after photographing the bottom surface of the object to be cleaned using a camera, which is a photographing means 110 provided below the suction plate 10, the vacuum cleaner outputs the captured image signal to the signal processor 220 and the controller ( Output to the 210) side.

Subsequently, when the signal processing unit 220 converts the image reproduction signal into the display unit 300 and transmits the image signal to the display unit 300, foreign substances such as mites or dusts are displayed on the floor while the user is cleaning while watching the image screen reproduced on the display unit 300. It is easy to check whether or not it is properly sucked and cleaned.

In addition, the controller 210 reads an image signal output from the photographing means 110, calculates a foreign matter (tick) distribution rate per unit area, compares the calculated value with a preset reference value, and then calculates the numerical value close to the reference value. When the control signal is output to the yellow lamp 320 side of the display unit 300, the control signal is output to the green lamp 310 side when the reference value is lower than the reference value, and the red lamp 330 side when the reference value is higher than the reference value, respectively. The lamp of the color corresponding to the numerical value is turned on.

Accordingly, the user can check the lighting color of the lamp without looking at the liquid crystal display of the display unit 300 to check whether the cleaning is performed, and the contamination value is displayed step by step so that the user can easily check the state of the cleaning object. .

On the other hand, when the power of the battery 420 is supplied to the ultraviolet lamp 400 side, the ultraviolet lamp 400 is emitted to irradiate ultraviolet rays, the irradiated ultraviolet rays to the lens unit 450 below the ultraviolet lamp 400 It is focused to the extent that it can sterilize foreign substances such as ticks and is irradiated to the object to be cleaned.

At this time, the light irradiated to the upper side of the ultraviolet lamp 400 is reflected back to the lower lens unit 450 through the reflector 410.

Therefore, the vacuum cleaner of the present invention can not only easily identify the cleaning state of the object to be cleaned, but also the lens unit 450 and the camera are positioned at the central position, and the plurality of suction nozzles 12 are located at both sides of the front and rear sides. Therefore, the hole size of the suction nozzle 12 is relatively smaller than that of the conventional suction nozzle 12, so that the suction force is improved.

The present invention has been described in the above embodiments, but the present invention is not limited to the above-described embodiments, and those skilled in the art without departing from the gist of the present invention claimed in the claims. Anyone can make a variety of variations.

1 is a block diagram schematically showing the configuration of a vacuum cleaner according to the present invention;

2 is a perspective view of main parts of the present invention vacuum cleaner,

3 is a bottom view of FIG. 2, and

4 is a state diagram used in the present invention.

Explanation of symbols on the main parts of the drawings

10 suction plate 12 suction nozzle

110: recording means (camera)

210: control unit 220: signal processing unit

300: display unit

310,320,330: (green, yellow, red) lamp

400: ultraviolet lamp 450: lens unit

Claims (5)

In the vacuum cleaner having a suction plate 10 is formed with a suction nozzle 12 for sucking the foreign matter contained in the object to be cleaned, A photographing means (110) installed at the lower portion of the suction plate (10) and outputting an image signal of an object to be cleaned on the floor; A control unit 210 which receives the image signal of the photographing means 110 and calculates a distribution ratio per unit area of the foreign material, compares the calculated value with a reference value, and outputs a control signal; A signal processor 220 which receives an image signal output from the photographing means 110 and converts the image signal into a reproduction signal; A vacuum cleaner comprising a display unit 300 for receiving the converted signal from the signal processor 220 and outputting it as an image and displaying the pollution value step by step according to the control signal of the controller 210. . The method according to claim 1, The display unit 300 is a vacuum cleaner, characterized in that a plurality of lamps having different colors are installed in order to display the pollution level step by step according to the applied control signal. The method according to claim 1 or 2, The vacuum cleaner further comprises an ultraviolet lamp (400) installed inside the suction plate (10) and irradiating ultraviolet rays toward the object to be cleaned on the floor as power is supplied thereto. The method according to claim 3, The lens unit 450 is installed on the bottom of the suction plate 10 and irradiates ultraviolet rays incident from the ultraviolet lamp 400 downwardly in a vertical direction with respect to the bottom of the suction plate 10. Vacuum cleaner. The method according to claim 4, The lens unit 450 is a vacuum cleaner, characterized in that composed of a plurality of circumferential lens having a convex lens shape to focus and irradiate ultraviolet rays generated from the ultraviolet lamp (400).

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