KR20160115426A - blind cleaner - Google Patents

Abstract

A blind that can be cleaned according to the present invention includes a case which is positioned and fixed on a window, a blind provided inside the case and formed to be pulled in or pulled out from the lower end of the case by rotation of the shaft, A windshield motor provided on the outer surface of the case in the direction of the window and configured to condense sunlight to generate electricity; A battery for storing electricity generated by the solar panel; a guide rail formed on a lower surface of the case in a longitudinal direction of the case; and a suction unit slidingly driven in a longitudinal direction of the case along the guide rail, , The suction unit is connected to the guide And a suction port formed in the blind direction for sucking in air to the inside of the case, wherein when the blind is wound inside the case, the dust on the blind outer side is removed through the suction port To a cleanable blind.

Description

A blind cleaner {blind cleaner}

The present invention relates to a blind installed on a window, and can automatically open or close a window by moving the blind to the upper or lower side automatically using electric power stored in a battery by a solar panel, And a cleanable blind that can always maintain a clean blind by sucking dust on the outside of the blind by driving the unit.

Generally, curtains and blinds are installed on windows to open or close curtains or blinds as needed for housing, offices, and the like in order to protect mining, heating, and privacy.

In conventional blinds, the user manually pulls or loosens the main rope to open or close the blind, thereby opening or closing the blind.

Such a conventional blind has a problem in that it is troublesome for the user to manually operate the blind by a manual method, and in particular, there is a problem that an infant safety accident due to the main rope occurs.

Also, in order to compensate for the inconvenience of the manual method, a product which opens or closes the blind by a motorized method has been released. However, there is a problem that the operation of the blind must be directly performed by the user and the power supply must be continuously supplied.

A cleaning blind according to the present invention is a blind that can store clean electricity by storing electricity in a storage battery on the outside of a case located on the upper side of a window and automatically opening and closing the blind without electricity using electricity of a battery The purpose is to provide.

It is another object of the present invention to provide a blind which is provided with a guide rail at the lower end of the case, moves along the guide rail, and can be automatically cleaned by a suction unit which sucks dust adhering to the outer surface of the blind.

Another object of the present invention is to provide a cleanable blind that can sterilize the blinds by forming an antibacterial rod to keep the room in a comfortable state.

In addition, it provides a cleanable blind that enables the user to operate the blinds wirelessly by utilizing the application installed on the user's smartphone whether the electric parts such as the opening and closing of the blind, the operation of the suction unit, There is another purpose.

The problems to be solved by the present invention are not limited to the above-mentioned problems, and other problems to be solved by the present invention, which are not mentioned here, can be clarified to those skilled in the art from the following description It can be understood.

A blind that can be cleaned according to the present invention includes a case which is positioned and fixed on a window, a blind provided inside the case and formed to be pulled in or pulled out from the lower end of the case by rotation of the shaft, A windshield motor provided on the outer surface of the case in the direction of the window and configured to condense sunlight to generate electricity; A battery for storing electricity generated by the solar panel; a guide rail formed on a lower surface of the case in a longitudinal direction of the case; and a suction unit slidingly driven in a longitudinal direction of the case along the guide rail, , The suction unit is connected to the guide And a suction port formed in the blind direction for sucking in air to the inside of the case, wherein when the blind is wound inside the case, the dust on the blind outer side is removed through the suction port .

And an antibacterial bar is installed on the suction port of the suction unit in the blind direction to sterilize the blind.

A dust brush formed to be in contact with the blind at either the upper end or the lower end of the suction port of the suction unit is provided to remove dust adhering to the blind when the blind is lifted by driving of the winding motor .

A first sensor for measuring direct sunlight coming in from the outside of the window toward the inside of the window is formed on the outside surface of the case in the window direction and a second sensor for measuring the brightness on the inside of the case is formed on the outside surface of the case in the room direction And the winding motor is operated on the basis of the measured values of the first sensor and the second sensor to move the blind upward or downward inside the case.

A control unit for controlling operation of the winding motor, the suction unit, and the antibacterial bar on the basis of a predetermined set value is provided on the inside of the case, and the control unit controls the operation of the winder, And the command signal of the smart phone is received by the Bluetooth method which is near-field wireless communication to operate the winding motor, the suction unit and the antibacterial bar.

The smartphone for transmitting a command signal to the receiver includes a power supply unit for turning on / off the electric components, a blind operation unit for driving the blinds up or down by operating the coiling motor, A speed control unit for controlling the speed of the suction unit, an antibacterial rod operating unit for turning on / off the antibacterial rods, an operating time display unit for displaying the suction unit and the antibacterial rod operating time, And an electric power amount display unit for displaying the electric power amount of the electric component, and the electric component can be controlled by the smart phone by the application operation.

The blind capable of cleaning according to the present invention has the effect of storing electricity in the storage battery with the solar panel on the outside surface of the case located on the upper side of the window and automatically opening and closing the blind without power supply using the electricity of the storage battery.

In addition, a guide rail is provided at the lower end of the case, and the cleaning unit can be automatically cleaned by a suction unit that moves along the guide rail and sucks dust adhering to the outer surface of the blind.

Further, an antibacterial rod is formed in the suction unit, and the blind is sterilized to keep the room in a comfortable state.

Further, whether or not the electrical components such as the opening and closing of the blind, the operation of the suction unit, and the operation of the antibacterial bar are operated can be performed by the user using the application installed in the smartphone of the user, thereby cleaning the blinds by wireless operation.

1 is an inner front view of a cleanable blind according to the present invention;
2 is an external front view of a cleanable blind according to the present invention;
Fig. 3 is a sectional view of the cleaning unit side of the blind according to the present invention. Fig.
4 is a conceptual view of application operation of a cleanable blind according to the present invention;
5 is a conceptual view of an application configuration of a cleanable blind according to the present invention;

The above and other objects, features and advantages of the present invention will be more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention and the manner of achieving them will become apparent by reference to an embodiment which will be described in detail below with reference to the accompanying drawings.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in more detail with reference to the accompanying drawings.

A cleaning blind according to the present invention is provided with a case 10 which is positioned and fixed on the upper side of a window and a case 10 which is provided inside the case 10 and which is rotated by the rotation of the shaft 22 A winding motor (12) installed in the case (10) and generating power to rotate the shaft (22) in one direction or the other direction; a blind motor A solar battery 30 which is provided on the outer surface of the case 10 and generates electricity by condensing sunlight; a battery (not shown) provided inside the case 10 for storing electricity generated by the solar battery 30 A guide rail 40 formed on the lower end surface of the case 10 in the longitudinal direction of the case and a suction unit 50 slidingly driven in the longitudinal direction of the case 10 along the guide rail 40, .

First, a case 10 is provided in a cleanable blind according to the present invention.

The case 10 is located on the upper side of the window, and has a space formed therein to allow the configuration described below to be located.

Inside the case 10, a blind 20 is provided. The blind 20 is provided inside the case 10 and is formed to be pulled or pulled out from the lower end of the case 10 by rotation of the shaft 22. [

That is, the blind 20 is wound around the shaft 22 in the case 10, and the shaft 22 receives the rotational force of the winding motor 12 to be described below, 20 are moved upward or downward to open and close the windows.

Inside the case 10, a winding motor 12 is formed. The winding motor 12 is provided at one side of the shaft 22 inside the case 10 and generates power to rotate the shaft 22 in one direction or the other direction.

That is, the winding motor 12 generates a power capable of rotating the shaft 22 in one direction or the other direction so as to rotate the shaft 22, and the shaft 22 rotates the winding motor 12, So that the blind 20 is moved upward or downward.

On the outer surface of the case 10, a solar panel 30 is formed. The solar panel 30 is formed on the outer surface of the case 10 in the direction of the window, and collects solar light to generate electricity.

The case (10) is provided with a battery (14). The battery (14) is provided inside the case (10) and serves to store electricity generated by the solar panel (30). That is, the electricity generated by condensing the sunlight in the solar panel 30 is stored in the battery 14 to drive electric components.

A guide rail (40) is provided on the lower end surface of the case (10).

The guide rail 40 is formed on the lower end surface of the case 10 in the longitudinal direction of the case 10. That is, the guide rail 40 is formed on the lower end surface of the case 10 to guide the movement of the suction unit 50, which will be described below.

That is, the guide rail 40 serves to enable the suction unit 50, which sucks dust on the outer surface of the blind 20, to be slidably driven in the longitudinal direction of the case 10.

At the lower end of the guide rail 40, a suction unit 50 is formed.

The suction unit 50 is slidably driven in the longitudinal direction of the case 10 along the guide rails 40.

That is, the suction unit (50) is driven along the baby dray (1) by a motor using the battery of the battery (14).

Further, the suction unit (50) is provided with a suction port (52). The suction port 52 is formed toward the outer side of the blind 20. That is, the suction port 52 is formed in the direction of the blind 20 and sucks air into the suction unit 50 to remove dust on the outer surface of the blind 20.

More specifically, when the blind 20 is wound inside the case 10 while the shaft 22 is driven to rotate by the winding motor 12, the suction unit (50) 50 reciprocate along the guide line 1 to suck the dust on the outer surface of the blind 20 through the suction port.

An antibacterial rod 54 is formed on the suction port 52 of the suction unit 50.

The antibacterial rod 54 is installed on the suction port 52 in the direction of the blind 20 to sterilize the blind 20. That is, after the dust on the outer surface of the blind 20 is removed by the suction port 52, the antibacterial rod 54 is sterilized by the antibacterial rod 54 to sterilize the outer surface of the blind 20, Thereby maintaining the cleanliness of the battery 20.

A dust brush 56 is formed at either the upper end or the lower end of the suction port 52 of the suction unit 50.

The dust brush 56 is formed to contact the outer surface of the blind 20 at either the upper end or the lower end of the suction port 52 of the suction unit 50.

That is, when the shaft 22 rotates and the blind 20 is wound up into the case 10 according to the driving of the winding motor 12, the dust brush 56 is rotated by the blind 20, To remove the dust attached to it. This has the effect of improving the dust removing effect on the outer surface of the blind 20 by the suction force of the suction port 52. [

On the outer surface of the case 10 in the direction of the window, a first sensor 16 is formed.

The first sensor (16) formed on the outer surface of the case (10) in the direction of the window measures direct sunlight coming in from the outside of the window toward the room.

A second sensor 18 for measuring the brightness of the indoor side is formed on the outer surface of the case 10 in the indoor direction.

The second sensor formed on the outer surface of the case 10 in the indoor direction measures the brightness of the indoor side.

The measurement value measured by the first sensor 16 and the second sensor 18 causes the winding motor 12 to operate based on the measured value.

That is, when the direct sunlight value measured by the first sensor 16 increases, the winding motor 12 operates in one direction to move the blind 20 downward to block direct sunlight flowing into the room do. On the other hand, when the indoor side brightness value measured by the second sensor 18 decreases, the wind motor 12 is operated in the other direction to move the blind 20 upward, and direct sunlight into the room do.

The measured values of the first sensor 16 and the second sensor 18 are transmitted to the control unit 60 to be described below and the control unit 60 determines whether or not the user (12).

A control unit (60) is provided inside the case (10).

The control unit 60 controls the operation of the winding motor 12, the suction unit 50, and the antibacterial bar 54 on the basis of predetermined set values.

A receiving portion 62 is formed on one side of the case 10.

The receiving unit 62 is formed at one side of the case 10 in the indoor direction and performs wireless communication with the smartphone 70 that can be operated by the user in a Bluetooth manner. That is, the receiving unit 62 receives the command signal of the smartphone 70 and transmits a command signal to the controller 60, and the control unit 60 controls the winding motor 12, the suction unit 50 and the antibacterial rod 54 are operated.

An application is installed in the smart phone 70 that transmits a command signal to the receiver 62. The application installed in the smartphone 70 includes an operation unit 83 for operating the suction unit 50, a speed control unit 60 for controlling the speed of the suction unit 50, An antibacterial rod operating part 85 for turning on and off the rod 54, an operating time display part 86 for displaying the operating time of the suction unit 50 and a power amount display part 87 for displaying the amount of electric power of the battery 14 ).

First, a power supply unit 81 is provided in an application installed in the smartphone 70. [ The power supply unit 81 turns on / off the power of the electric components provided inside the case 10. That is, the electric power of the electric component is controlled by using the electric power of the battery 14.

Further, in the application, a blind operation portion 82 is provided. The blind operation part 82 functions to operate the windup motor 12 to drive the blind 20 upward or downward.

Further, the above-described application is provided with a suction unit operating portion 83. The suction unit operating portion 83 operates the suction unit 50 to absorb the dust on the outer surface of the blind 20. That is, when the suction unit operating portion 83 is operated, the blind 20 is moved to the lowermost position, and then the winding motor 12 rotates at a predetermined speed to move the blind 20 upward The suction unit 50 is slidably driven in the horizontal direction to remove the dust of the blind 20.

In addition, the speed control unit 84 is provided in the application. The speed control unit 84 serves to control the left and right sliding speeds of the suction unit 50 driven by the suction unit operation unit 83. [

In this application, an antibacterial rod operating portion 85 is provided. The antibacterial rod actuating part 85 serves to turn on / off the antibacterial rod 54. That is, when the antibacterial rod actuating part 85 is operated together with the suction unit actuating part 83 to sterilize the blind 20 or only the antibacterial rod actuating part 85 is operated, the suction unit actuating part 83 to sterilize the blind 20.

In the application, an operation time display unit 86 is provided. The operation time display unit 86 serves to display the operation time of the suction unit 50 and the antibacterial bar 54. [ That is, it serves to indicate the remaining time when the suction unit 50 and the antibacterial bar 54 operate.

Further, in the application, a power amount display unit 87 is provided. The power amount display unit 87 serves to display the amount of power of the battery 14.

As described above, it is to be understood that the technical structure of the present invention can be embodied in other specific forms without departing from the spirit and essential characteristics of the present invention.

Therefore, it should be understood that the above-described embodiments are to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than the foregoing description, All changes or modifications that come within the scope of the equivalent concept are to be construed as being included within the scope of the present invention.

10: Case
12: Winding motor
14: Storage battery
16: first sensor
18: Second sensor
20: Blinds
22: Shaft
30: Solar panel
40: Guide rail
50: Suction unit
52: inlet
54: Antimicrobial rods
56: Dust brush
60:
62: Receiver
70: Smartphone

Claims (6)

A case positioned and fixed on the upper side of the window;
A blind formed inside the case and formed to be pulled in or pulled out from the lower end of the case by rotation of the shaft;
A winding motor installed inside the case and generating power to rotate the shaft in one direction or the other direction;
A solar panel formed on an outer surface of the case in the direction of the window, for collecting solar light to generate electricity;
A battery provided inside the case and storing electricity generated by the solar panel;
A guide rail formed on a lower surface of the case in a longitudinal direction of the case; And
And a suction unit slidingly driven along the guide rail along the longitudinal direction of the case,
The suction unit includes:
A motor driven by the battery of the battery is driven along the guide rail,
A suction port formed in the blind direction and sucking air inward,
Wherein when the blind is wound inside the case by the winding motor, the dust on the outer side of the blind is removed through the suction port. The method according to claim 1,
On the upper portion of the suction port of the suction unit,
Wherein the antibacterial bar is installed in the blind direction, and an antibacterial bar for sterilizing the blind is formed. The method according to claim 1,
At either the upper end or the lower end of the suction port of the suction unit,
Wherein a dust brush formed so as to be in contact with the blind is provided to remove dust adhering to the blind when the blind is lifted by the driving of the winding motor. The method according to claim 1,
A first sensor for measuring direct sunlight coming in from the outside of the window toward the inside of the window is formed on the outer surface of the case in the direction of the window,
A second sensor for measuring the brightness of the indoor side is formed on the outer surface of the case in the indoor direction,
Wherein the winder motor is operated on the basis of the measured values of the first sensor and the second sensor to move the blind upward or downward inside the case. The method according to claim 1,
On the inside of the case,
A control unit for controlling the operation of the take-up motor, the suction unit, and the antibacterial bar on the basis of predetermined set values is provided,
Wherein,
Wherein a command signal of a smart phone operable by a user via a receiving unit formed at one side of the case is received in a bluetooth system of near field wireless communication to operate the winding motor, the suction unit, and the antibacterial bar. The method according to any one of claims 1, 2, and 5,
The smartphone, which transmits a command signal to the receiver,
A power supply unit for turning on / off the electric components;
A blind operation part for operating the windup motor to drive the blind upwards or downwards;
A suction unit operation part for operating the suction unit;
A speed control unit for controlling a speed of the suction unit;
An antibacterial rod operating part for turning on / off the antibacterial rods;
An operation time display unit for displaying an operation time of the suction unit and the antibacterial bar; And
A power amount display unit for displaying a power amount of the battery;
An application is provided,
Wherein the electric component is controllable in the smartphone by the application operation.

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