KR20120069224A - The window shading light regulation and crime prevention shutter opening and shutting method - Google Patents

Abstract

The present invention relates to a window shading control combined security shutter device for windows, and more particularly, a pair of guide portions formed with a guide groove; A light shielding part installed to be rotatable, the light blocking part having a rotating hole for moving along the guide part at both ends or one end of each light shielding plate; A light shielding moving part which moves the light blocking part upward and downward along the guide part to open or close the entire side of the window; And a movement mode for moving the light blocking part of the window shading control combined security shutter device having a rotating means for rotating the respective light blocking plates positioned in the guide part to adjust the amount of sunlight irradiated to the window in the vertical direction of the window. In the mode selection step of selecting at least one of the rotation mode for selecting the rotation position, when the movement mode is selected in the mode selection step, the movement of the light-shielding portion by the movement control unit to move the light-shielding portion in the vertical direction along the guide portion And a rotation mode execution step of rotating each of the light blocking plates according to the operation of the rotation means by the rotation control unit when the rotation mode is selected in the mode execution step and the mode selection step.
According to the present invention as described above, it is possible to shield the window to prevent the sun from being damaged, as well as damage to the window from strong winds such as intruders and typhoons.

Description

The window shading light regulation and crime prevention shutter opening and shutting method}

The present invention relates to a control method of a combined anti-glare shutter for window shading, and more particularly, in addition to the anti-theft function to protect the window of the building and to prevent intrusion from the outside, the combined anti-glare control for window to enable the shading control A control method of a shutter device.

In general, it is well known that a building including an apartment, an officetel, or the like is usually provided with a window for opening and closing a glass or a window for a general glass (a window for opening and closing a glass window is hereinafter referred to as a window in the present invention). As shown.

Sunlight is projected into the room during the day through such a window, it is necessary to block the sunlight from the outside as needed.

In order to block the sun in this way, usually adopts a device such as roll blinds or vertical in the room, mainly because it is installed in the room may be a phenomenon that the window is destroyed from the impact applied to the window from the outside.

For example, when a typhoon accompanied by a strong wind such as a gust or a hurricane occurs, there is a phenomenon in which the impact is applied to the window side and damaged due to other price items blowing with the strong wind from the outside.

In addition, when the window is broken by an external intruder, etc. may occur. The conventional roll blind or vertical has only a light shielding effect, and it does not prevent the window from being damaged from the outside, but also flies from the outside. Even if the incoming price is prevented by roll-blind or a particle, it is already known that there is a problem that the external price may cause physical damage to the people staying indoors after breaking the window.

Therefore, the present invention has been devised to solve the above problems, and the user can perform the shading role by the user as needed outside the window, as well as the strong winds caused by hurricanes and typhoons or the price and intruders from the outside. It is possible to control the structure that can protect the window from and at the same time act as a crime prevention to prevent indoor intrusion.

In particular, the light shielding part can be selectively shielded by positioning the entire or part of the front side (outer side) of the window, and the light blocking plate of the light blocking part can be rotated to be positioned on the front side (outer side) of the window, so that the light shielding role can be easily and effectively made It is an object of the present invention to provide a control method of a shading device for controlling a shading for windows that can satisfy a consumer's desire.

The present invention for achieving the above object is provided with a pair of guide portions each provided on both sides of the window groove guide; A light shielding part rotatably provided to each light shielding plate, and having a rotating hole for moving along the guide part at both ends or one end of each light shielding plate; A light shielding moving part provided above the guide part to move the light blocking part upward and downward along the guide part to open or close the entire side of the window; And a movement mode for moving the position of the light shielding portion of the light shielding control combined security shutter device for a window having a rotation means for rotating the respective light shielding plates of the light shielding portion positioned in the guide portion to adjust the amount of sunlight irradiated to the window. And a mode selection step for selecting at least one of a rotation mode for selecting a rotational position of the light shielding plate, and when the movement mode is selected in the mode selection step, the light shielding moving part is operated by a moving control unit so that the light shielding part moves up and down along the guide part. And a rotation mode execution step of rotating each of the light shielding plates as the rotation means is operated by the rotation control unit when the rotation mode is selected in the mode selection step.

Preferably, in the movement mode execution step, the roll-up shaft of the light-shielding movement portion is rotated by the movement control unit to move the light-shielding portion closing the front side (outside) of the window to the upper side to wind the roll-up shaft to open the window front. Or, the entire moving step of closing the front side of the window as the light-shielding portion wound on the roll-up shaft is released and moved to the lower side, and the roll-up shaft of the light-shielding movement portion is rotated by the movement control unit, and the window is opened and closed. And a partial moving step of controlling the lower end of the light shielding portion.

And before the moving mode execution step, the light shielding plate position detection step of measuring each light shielding plate rotation position by the light shielding plate position detection unit having a position sensor, and the surface of the light shielding plate to block the light through the light shielding plate position detection step in the longitudinal direction of the guide portion When forming an angle with the light shielding plate, the surface of the light shielding plate may further include a light blocking plate alignment step controlled by the rotation control unit to be parallel to the longitudinal direction of the guide part.

In addition, the light blocking portion of the mode selection step, the interval holding means is further provided to maintain a constant number of light shielding plate intervals, wherein the gap holding means, at least one or more times folded between the area where each light shielding plate is installed and adjacent two light shielding plates Of the nodes to be rotated and rotated, an elastic member is further provided at a node rotation part positioned between two adjacent light shielding plates so that when the light shielding part is moved up and down by the light shielding moving part, it is maintained at an obtuse angle relative to the rotation part. This prevents the gap between each light blocking plate.

In the mode selection step, the rotation means is provided in a plurality in the height direction to be rotatable in the guide portion, and a linear seating groove having the same width and depth as the guide groove is formed at one end of the light shielding plate. Sockets on which the end is seated, a plurality of rotating members provided on the other end of each socket and rotated in the same manner, a plurality of connecting members connected to rotate the two rotating members in the same manner, and the plurality of connecting members in a forward or reverse direction. It is made to include a drive motor to rotate in the same way, when the light-shielding portion is moved by the light-shielding moving part during the movement mode execution step, the seating groove by the rotation control unit so that the seating groove is located on the same line as the guide groove Rotate

In addition, during the rotation mode execution step, the light blocking unit is stopped, and each light blocking plate is seated on the socket, and each light blocking plate is rotated by a predetermined angle by rotating a plurality of sockets by each connecting member transmitting the rotational force of the driving motor.

The rotation mode execution step may include an annual automatic rotation step of automatically adjusting the angle of the shading plate by inputting sunshine information of one year or more according to the installation area of the shading plate, and having a sun sensor on the shading plate. A power saving rotation step of operating the rotation means by a control unit to prevent unnecessary operation, and a selective rotation step of operating the rotation means by the rotation control unit to rotate the light shielding plate according to a user's intention. Priority is assigned in order of phase, power saving cycle, and annual automatic rotation stage.

In addition, a solar cell unit is further provided on the rear surface of the light shielding plate, and the solar cell unit is further provided in the rotation mode execution step, and the solar cell unit is orthogonal to the solar light as the rotation means is operated by the rotation control unit. Power is generated by sunlight by adjusting the angle of the generated power is charged in the charging unit.

In addition, the solar sensor and the air flow sensor is further provided, the surface of the light shield plate by the sun sensor is perpendicular to the sunlight, when the amount of sunshine measured by the sun sensor exceeds a predetermined reference value, the solar charging step is carried out When the air flow rate measured by the air flow sensor exceeds a predetermined reference value, the rotation means is operated by the rotation control unit to shield the front side of the window so that the front surface of the light blocking plate is parallel to the longitudinal direction of the guide part.

The rotation control unit controls the rotation means by giving priority to the signal of the airflow sensor over the signal of the solar sensor.

And the interval of the socket is formed larger than the interval of each light shielding plate, the inner surface of the mounting groove of the socket is provided with a magnetic material having a magnetic force by the power applied selectively to easily seat the end of the light shielding plate by magnetic Accordingly, during the rotation mode execution step, a gap is generated between each light blocking plate closing the front side of the window, thereby preventing interference between the light blocking plates.

As described above, according to the control method of the window shading control combined security shutter device for windows according to the present invention, by installing a window shading control combined security shutter device for the window outside the building window, if necessary to shield the window of the building to It is possible to prevent the intrusion of the intruder and prevent damage of the window from strong winds such as typhoons, and even if an unspecified price strongly strikes the window side due to the strong wind, the shading plate can protect the window. The effect can be expected to eliminate the problem in advance.

In particular, the light blocking moving part may open or close the whole or part of the window when the light blocking part is moved, and adjust the amount of sunlight by rotating the light blocking plate located outside the window to satisfy various consumer's needs. It is a very useful and effective invention.

1 is a view showing a control method of a light blocking control combined security shutter device for a window according to the present invention,
2 is a view showing a light blocking control combined security shutter device for a window according to the present invention,
3 is a flowchart illustrating a movement mode execution step of the method for controlling a shutter device according to the present invention;
4 is a view showing the entire movement step of the movement mode execution step according to the present invention,
5 is a diagram illustrating a partial moving step of the moving mode execution step according to the present invention;
FIG. 6 is a view illustrating a light shielding moving part of a window blocking and anti-theft shutter device according to the present invention;
FIG. 7 is a flowchart illustrating a detection and alignment step further included in a method of controlling a light blocking control combined security shutter for a window according to the present invention;
FIG. 8 is a diagram illustrating a detection and alignment state of FIG. 7;
9 is a view showing a light shielding portion and a rotating means of the window shading control combined security shutter device for a window according to the present invention,
10 is a flowchart illustrating a rotation mode execution step of the shutter control method according to the present invention;
11 is a view showing a state and an operating state that the solar power generation unit is further provided in the shutter device according to the invention,
12 is a view showing the interval of the light-shielding plate for each section by the interval maintaining means according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings.

In addition, the present embodiment is not intended to limit the scope of the present invention, but is presented by way of example only, and various modifications may be made without departing from the technical gist of the present invention.

1 is a view showing a control method of the window shading control combined security shutter device for a window according to the present invention, Figure 2 is a view showing a window shading control combined security shutter device according to the invention, Figure 3 FIG. 4 is a flowchart illustrating a movement mode execution step of the shutter system control method according to the present invention. FIG. 4 is a view illustrating an entire movement step of the movement mode execution step according to the present invention. FIG. 6 is a view illustrating a partial moving step of FIG. 6, and FIG. 6 is a view illustrating a light shielding moving part of a window shading control combined security shutter device according to the present invention, and FIG. 7 is a window shading control combined security shutter device according to the present invention. FIG. 8 is a flowchart illustrating a detection and alignment step in the control method of FIG. 8, FIG. 8 is a view illustrating the detection and alignment state of FIG. 7, and FIG. FIG. 10 is a view illustrating a light blocking unit and a rotation means of a combined anti-theft security shutter device, and FIG. 10 is a flowchart illustrating a rotation mode execution step of the shutter device control method according to the present invention, and FIG. FIG. 12 is a view illustrating a state in which a solar power generation unit is further provided and an operating state, and FIG. 12 is a view illustrating intervals of light shielding plates for each section by the interval maintaining means according to the present invention.

As shown in the figure, the control method of the window shading control combined security shutter device 10 for windows comprises a mode selection step (S10), a moving mode execution step (S20) and a rotation mode execution step (S30).

First, referring to the window shading control combined security shutter device 10, as shown in FIG. 2, the guide part 100, the light blocking part 200, the light blocking moving part 300, and the rotation means 400 are illustrated. do.

The guide part 100 is provided on both sides of the window, respectively, and the guide grooves 110 are formed on the surfaces facing each other, and the light shielding part 200 is sufficient to open and close the front side of the window. The length is formed to provide a travel distance.

Here, the outside is wrapped and protected by the guide case 120 of the guide part 100, and the guide case 120 also protects the rotation means 400 provided in the guide part 100.

And the light shield 200 is provided to open and close the front side of the window to protect the window as needed, and to adjust the amount of sunlight irradiated by the window.

The light blocking moving part 300 is provided above the guide part 100 to move the light blocking part 200 in the up and down direction along the guide part 100, and opens and closes the front of the window, and moves upward to open the front side of the window. At the time of construction, the light blocking unit 200 is configured to be wound up.

In addition, the rotation means 400 is provided in the guide part 100 to rotate the respective light shielding plates 210 of the light shielding part 200 located at the front side of the window to close the whole or part of the window to adjust the amount of sunlight irradiated to the window. Done.

In the mode selection step (S10), one or more of the movement mode for moving the position of the light blocking unit 200 of the shutter device 10 in the vertical direction of the window and the rotation mode for selecting the rotation position of the light blocking plate 210 are selected.

That is, the operation mode of the shutter device 10 provided on the front side (outside) of the window is selected.

In the moving mode execution step S20, when the moving mode is selected in the mode selection step S10, the light blocking unit 300 is operated by the moving control unit 20 so that the light blocking unit 200 follows the guide unit 100. It moves up and down.

This opens and closes the window front side.

In the rotation mode execution step S30, when the rotation mode is selected in the mode selection step S10, the respective light blocking plates 210 are rotated by operating the rotation means 400 by the rotation control unit 30.

Accordingly, the user's desire may be satisfied by adjusting the amount of sunlight irradiated between the rotated light blocking plates 210.

In other words, in the moving mode execution step (S20), the light shielding unit 200 is moved upward to open the front side of the window so that the outside can be seen from the inside, and the lower side is closed by closing the window. As a result, the window blocks the sun and protects the window from objects transmitted from the outside.

The case of protecting the window is to prevent outsiders from invading at night and to prevent the window from being damaged by wind or flying objects when a strong wind occurs due to a rainy season or a typhoon in summer.

And by adjusting the rotation angle of the light shielding plate 210 by the rotation means 400 in the rotation mode execution step (S30) by adjusting the amount of sunlight irradiated into the window, the user can meet the desire to provide convenience of life can do.

Here, as shown in FIG. 3, the movement mode execution step S20 is constituted by the entire movement step S21 and the partial movement step S22.

As shown in FIG. 6, the light blocking moving unit 300 includes a housing case 310, a roll up shaft 320, an open / close motor 330, and a reducer 340.

The accommodating case 310 has an accommodating space 312 formed therein, and the roll-up shaft 320 is installed to be rotatable in the accommodating space 312 of the accommodating case 310 so that the light shield 200 is wound. Lose.

And the opening and closing motor 330 is to rotate the roll-up shaft 320 in the forward and reverse direction, is provided in the housing case 310, the reducer 340 is provided between the opening and closing motor 330 and the roll-up shaft 320 to open and close As the rotational force of the motor 330 is constantly transmitted to the rollup shaft 320, the failure rate is reduced.

At this time, the reduction gear 340 is the central axis of the rotational force initially transmitted from the opening and closing motor 330 and the reduction of the central axis of the rotational force for rotating the roll-up shaft 320 is reduced to the same line, the opening and closing The motor 330, the reducer 340, and the rollup shaft 320 are located on one axis and interconnected.

Here, the reduction ratio of the reducer 340 is 100: 1 to stably transmit the rotational force of the open / close motor 330 to the roll-up shaft 320.

As shown in FIG. 4, the roll-up shaft 320 of the light blocking move unit 300 is rotated by the movement control unit 20 by the light blocking move unit 300. ) To move the light shield 200 closed to the upper side to the roll-up shaft 320 to open the front side of the window or the light-shield 200 wound around the roll-up shaft 320 is released to move downward Therefore, the front side of the window is closed.

As shown in FIG. 5, in the partial movement step S22, the roll-up shaft 320 of the light shielding movement unit 300 is rotated by the movement control unit 20, and the vehicle is moved to a position where the front side of the window is to be opened and closed. As the lower end of the lighter 200 is controlled to be positioned, the user may satisfy the desire by placing the lower end of the light shielder 200 at a desired position.

In addition, as shown in FIGS. 7 to 8, before the moving mode execution step S20, the light shielding plate position detecting step S15 and the light blocking plate arranging step S16 are further provided.

In the light blocking plate position detecting step S15, the light blocking plate position detecting unit 40 having the position sensor 42 measures the rotation positions of the light blocking plates 210.

In addition, when the surface of the light blocking plate 210 that blocks light through the light blocking plate position detecting step S15 forms an angle with the length direction of the guide part 100, the surface of the light blocking plate 210 is guided. It is controlled by the rotation control unit 30 to be parallel to the longitudinal direction of the unit (100).

This, in the movement mode execution step (S20), it is possible to prevent the occurrence of failure as each light blocking plate 210 is arranged to be accommodated while being wound inside the housing case 310 of the light shielding moving part 300.

In addition, the light blocking part 200 and the rotating means 400 of the mode selection step S10 are illustrated in FIG. 9. First, the light blocking part 200 includes a plurality of light blocking plates 210, a gap maintaining means 220, and a rotating hole. 230, each of the light blocking plates 210 is installed to be rotatable in the gap maintaining means 220.

The space maintaining means 220 is spaced apart a plurality of light shielding plates 210 at a predetermined interval, and having a plurality of rotating nodes, when moved to the upper side by the light shielding moving part 300 is wound on the roll-up shaft 320 It can be easily rotated and wound along the outer circumferential surface.

The gap maintaining means 220 is rotated so as to be folded at least one time between two adjacent light blocking plates and a portion where each light blocking plate 210 is installed, and in one embodiment, two light blocking plates adjacent to a portion where the light blocking plate 210 is installed. One rotational portion is formed therebetween, and can be easily wound up when the roll up shaft 320 is wound up.

And, among the nodes that are rotated, the elastic member 600 is further provided at the node rotation portion positioned between two adjacent light shielding plates, when the light shielding portion 200 is moved up and down by the light shielding moving part 300, based on the rotation portion By maintaining in an obtuse angle with each other to prevent the gap between each light blocking plate 210 is generated.

In addition, the rotation holes 230 are provided at both ends of each light blocking plate 210 to be rotated in the same way, and are provided to be moved along the guide grooves 110. Each of the light blocking plates connected to each other is rotated by the rotating means 400. 210 is rotated.

The rotating hole 230 is formed in a cylindrical shape, and is formed to have a plane so that both sides can be moved along the guide groove 110, when the front surface of the light shielding plate 210 is leaked toward the front, the rotating hole 230 is positioned such that both planes correspond to both side surfaces of the guide groove 110 so as to move along the guide groove 110.

And the rotating means 400 is composed of a socket 410 and the rotating member 420, the connecting member 430 and the drive motor 440.

A plurality of sockets 410 are provided along the height direction so as to be rotatable in the guide part 100, and a linear seating groove 412 having the same width and depth as the guide groove 110 is formed at one end of the light shielding plate 210. End) is seated.

In other words, the rotating hole 230 connected to the end of the light shielding plate 210 is seated.

The rotating member 420 is provided at the other end of each socket 410 to be rotated in the same manner, and is formed to protrude on the outer surface of the guide part 100.

The connection member 430 is connected to rotate two adjacent rotating members 420 in the same manner, and transmits the rotational force transmitted from the driving motor 440 to all the rotating members 420 to be seated in each socket 410. The light shielding plate 210 is rotated.

Of course, the drive motor 440 can be reversely rotated, the connecting member 430 is formed of any one or more selected from the belt and chain or gear is to transmit the rotational force to all the rotating member 420 at the same time.

When the light blocking unit 200 is moved by the light blocking moving unit 300 in the movement mode execution step (S20), the pivoting means 400 is positioned on the same line as the guide groove 110. Rotating the socket 410 so as to guide the rotatable opening 230 of the light shield 200 to be movable.

And when the light blocking unit 200 is stopped and each light blocking plate 210 is seated on the socket 410, the amount of sunlight irradiated to the window by rotating each light blocking plate 210 at a predetermined angle by the rotational force of the driving motor 440. Adjust.

Naturally, a manipulator (not shown) for operating the pivoting means 400 is provided separately, and the manipulator may operate the pivoting means 400 by either wired or wireless.

In addition, the manipulator may also operate the light blocking moving part 300 to move the light blocking part 200 or move the angle of the light blocking plate 210.

Here, in the rotation mode execution step (S30), the light blocking unit 200 is stopped and each light blocking plate 210 is seated in the socket 410, by each connecting member 430 for transmitting the rotational force of the drive motor 440. Each light blocking plate 210 is rotated by a predetermined angle by rotating the plurality of sockets 410.

As shown in FIG. 10, the rotation mode execution step S30 includes an annual automatic rotation step S31, a power saving rotation step S32, and a selective rotation step S33.

The annual automatic rotation step S31 may automatically adjust the angle of the light blocking plate 210 by inputting sunshine information of one year or more according to the installation area of the light blocking plate 210.

And the power saving rotation step (S32) is provided with a sun sensor (not shown) in the light shield plate 210, the rotation means 400 is operated by the rotation control unit 30 according to the weather conditions can be prevented unnecessary operation.

In addition, in the selective rotation step S33, the rotation means 400 is operated by the rotation control unit 30 to rotate the light shielding plate 210 according to the user's intention, thereby enabling direct manipulation.

At this time, the selective rotation step (S33), the power saving rotation step (S32), the annual automatic rotation step (S31) is preferably controlled in the order listed first.

Here, as shown in FIG. 11, the rotation mode execution step (S30) further includes a solar charging step, and the solar cell unit 500 is further provided on the rear surface of the light shielding plate 210 so that the rotation control unit 30 is provided. As the rotation means 400 is operated by the solar cell unit 500 to adjust the angle of the light blocking plate 210 to be orthogonal to the sunlight.

To this end, the light blocking plate 210 is rotated so that the rear surface is positioned in the front position by the rotation means 400, for each rotation, the light blocking plate 210 is spaced apart from each other by a certain distance, the distance is not hindered from mutual rotation Is enough.

Accordingly, power is generated using the sunlight to be irradiated, and the generated power is charged by the charging unit 510.

Power charged in the charging unit 510 is applied to each component to supply power.

In addition, the solar sensor and the air flow sensor is further provided, the surface of the light shielding plate 210 by the solar sensor perpendicular to the sunlight, when the amount of sunshine measured by the solar sensor exceeds a predetermined reference value, the solar charging step is in progress When the air flow rate measured by the air flow sensor exceeds a preset reference value, the rotation means 400 is operated by the rotation control unit 30 so that the front surface of the light shielding plate 210 is parallel to the longitudinal direction of the guide unit, thereby operating the front side of the window. Shield.

Here, the rotation controller 30 controls the rotation means 400 by preferentially controlling the signal of the air flow sensor rather than the signal of the sun sensor, so as to protect the window and adjust the dose in a safe state.

9 and 12, the interval between the sockets 410 is greater than that of each light shielding plate 210, and the power is selectively applied to the inner surface of the seating groove 412 of the socket 410. As the magnetic body 600 having magnetic properties is provided to easily seat the end of the light shielding plate 210 by magnetism, a gap is generated between each of the light blocking plates 210 closing the front side of the window, and the rotation mode execution step (S30). At the time of rotation of each of the light blocking plates 210 by the interval between the respective light blocking plates 210, it is prevented from interfering with each other.

Accordingly, during solar power generation, since the light blocking plate 210 can be easily rotated to position the solar cell unit 500 in the front direction, power can be generated using solar light.

In addition, each of the light blocking plates 210 is separated from the magnetic field 600 by the elastic member 700 provided at the node rotating portion positioned between two adjacent light blocking plates among the nodes that are rotated by the gap maintaining means 220. When moved up and down by the eastern part 300, the gap between the light shielding plates 200 is prevented by maintaining the obtuse angles with respect to the rotating part.

In other words, by preventing the gap between the plurality of light shielding plate 210 during the Shanghai movement by the light shielding moving unit 300 to minimize the shaking to prevent and minimize damage.

10: shutter unit 20: movement control unit
30: rotation control unit 40: shading plate position detection unit
42: position sensor 100: guide part
110: guide groove 120: guide case
200: shading unit 210: shading plate
220: spacing means 230: Hoedong-gu
300: shading moving part 310: housing case
320: roll-up shaft 330: opening and closing motor
340: reducer 400: rotation means
410: socket 420: rotating member
430: connecting member 440: driving motor
500: solar cell unit 510: charging unit
600: magnetic material 700: elastic member

Claims (11)

A pair of guide parts provided at both sides of the window to form guide grooves; A light shielding part rotatably provided to each light shielding plate, and having a rotating hole for moving along the guide part at both ends or one end of each light shielding plate; A light shielding moving part provided above the guide part to move the light blocking part upward and downward along the guide part to open or close the entire side of the window; And a movement mode for moving the position of the light shielding portion of the light shielding control combined security shutter device for a window having a rotation means for rotating the respective light shielding plates of the light shielding portion positioned in the guide portion to adjust the amount of sunlight irradiated to the window. And a mode selection step of selecting any one or more of a rotation mode for selecting a rotation position of the light shield plate.
A moving mode execution step of moving the light blocking unit in the vertical direction along the guide unit by operating the light blocking moving unit by a moving control unit when the moving mode is selected in the mode selecting step; And
And a rotation mode executing step of rotating each of the light blocking plates according to the operation of the rotation means by the rotation control unit when the rotation mode is selected in the mode selection step.
According to claim 1, The moving mode execution step,
As the roll-up shaft of the light-shielding movement part is rotated by the movement control part to move the light-shielding part that closes the front side (outer side) of the window to the upper side and is wound on the roll-up shaft, the window front is opened or the light-shielding part wound on the roll-up shaft is released. A total movement step of closing the front side of the window according to the movement; And
The roll-up shaft of the light shielding movement unit is rotated by the movement control unit, and the control of the light blocking control combined security shutter device for a window including a partial movement step of controlling the bottom of the light shielding unit to be positioned at a position where the front side of the window is to be opened and closed. Way.
According to claim 1, Before the moving mode execution step,
A light shielding plate position detecting step of measuring each light shielding plate rotation position by a light shielding plate position detecting unit having a position sensor; And
When the surface of the light blocking plate which blocks light through the light blocking plate position detecting step forms an angle with the length direction of the guide part, the light blocking plate alignment step of controlling the light blocking plate is controlled by the rotation controller so that the surface of the light blocking plate is parallel to the length direction of the guide part. Control method of the shading control combined security shutter device for windows, characterized in that it is included.
The method of claim 1, wherein the light shield of the mode selection step,
Spacer maintaining means is further provided to maintain a plurality of light-shielding plate intervals, the space maintaining means,
It is rotated so as to be folded at least one time between a portion where each light blocking plate is installed and two adjacent light blocking plates, and an elastic member is further provided at a node rotation part positioned between two adjacent light blocking plates, and the light blocking unit is provided. When it is moved up and down by, by maintaining the mutual obtuse angle range relative to the rotating part to prevent the occurrence of the gap between each light blocking plate, the control method of the window shading control combined security shutter device for windows.
The method of claim 1, wherein in the mode selection step,
The rotation means,
A plurality of sockets are provided along the height direction so as to be rotatable, and a linear seating groove having a width and a depth equal to that of the guide groove is formed at one end thereof to allow the end of the light blocking plate to be seated, and the other end of each socket. It is provided with a plurality of rotating members to be rotated in the same, a plurality of connection members connected to rotate the same two rotating members in the same, and comprises a drive motor for rotating the plurality of connection members equally in the forward or reverse direction ,
In the moving mode execution step, when the light shield is moved by the light shield moving unit, the light blocking control combined security for the window, characterized in that for rotating the socket by the rotation control unit so that the seating groove is located on the same line as the guide groove. Control method of shutter device.
The method of claim 5,
During the rotation mode execution step, the light blocking unit is stopped and each light blocking plate is seated in the socket, and each light blocking plate is rotated by a predetermined angle by rotating a plurality of sockets by each connecting member transmitting the rotational force of the driving motor. Control method of anti-theft shutter for both windows and shading control.
According to claim 1, wherein the rotation mode execution step,
An annual automatic rotation step of automatically adjusting the angle of the shading plate by inputting sunshine information of one year or more according to the installation area of the shading plate;
A power saving rotation step provided with a sun sensor on the light shielding plate to operate the rotation means by the rotation control unit according to a climatic condition to prevent unnecessary operation; And
And a selective rotation step of rotating the light blocking plate according to a user's intention by operating the rotation means by the rotation control unit.
The control method of the window shading control combined security shutter device for the window, characterized in that the priority is specified in the order of the selective rotation step, the power saving rotation step, the annual automatic rotation step.
The method of claim 1,
The rear of the light shield plate is further provided with a solar cell unit,
In the rotation mode execution step,
A solar charging step is further provided, and as the rotation means is operated by the rotation control unit, the solar cell unit generates power by solar by adjusting the angle of the light shielding plate to be orthogonal to sunlight, and the generated power is charged to the charging unit. Control method of the combined shading device for a window shading control, characterized in that the window.
The method of claim 8,
Sunlight sensor and air flow sensor is further provided,
When the surface of the light blocking plate is perpendicular to sunlight by the sun sensor, and the amount of sunshine measured by the sun sensor exceeds a preset reference value, the solar charging step is performed.
When the air volume measured by the air flow sensor exceeds a predetermined reference value, the light blocking control for the window, characterized in that the rotating means is operated by the rotation control unit so that the front surface of the light shielding plate is parallel to the longitudinal direction of the guide portion. Control method of combined security shutter system.
The method of claim 9, wherein the rotation control unit,
The control method of the window shading control combined security shutter device for window, characterized in that for controlling the rotation means to give priority to the signal of the air flow sensor than the signal of the solar sensor.
The method of claim 5,
The distance between the sockets is greater than that of each light shielding plate, and a magnetic material having magnetic properties is provided on the inner surface of the seating recess of the socket so that the end of the light shielding plate is easily seated by magnetic. When the rotation mode execution step, the gap between the light blocking plate closing the front side of the window is generated, the control method of the window shading control combined security shutter device for the window, characterized in that to prevent mutual interference during rotation of each light blocking plate.

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