KR101100813B1 - Angle adjustment apparatus for vertical blinder - Google Patents

Abstract

The present invention relates to an angle adjusting device for a vertical blinder to be able to easily adjust the angle of the plurality of blinders connected thereto through one rotating bar that rotates, the object of the present invention, each fixed block for supporting the vertical blinder It is to provide an angle adjusting device for a vertical blinder to be moved in a state supported by this one moving bar, to facilitate the angle adjustment of the vertical blinder by a rotary bar rotated by automatic or manual. To this end, the present invention, the housing forming the appearance; Both ends are supported on the inside of the housing to rotate freely rotating bar; A movement bar freely rotating with both ends supported in parallel with the rotation bar inside the housing; A plurality of fixed blocks supported by the rotating bar and the moving bar, respectively, to which vertical blinds are connected; And a converting unit for converting the rotational force of the movable bar into the left and right movement of the fixed block so that the fixed block is moved left and right along the moving bar, wherein the fixed block is rotated by the rotation bar. Rotating the blinder.

Vertical blinds, driven gears, fixed blocks

Description

Angular ADJUSTMENT APPARATUS FOR VERTICAL BLINDER}

The present invention relates to an angle adjusting device for a vertical blinder to be able to easily adjust the angle of the plurality of blinders connected thereto through one rotating bar that rotates.

In general, vertical blinders are installed inside a chassis frame having glass windows installed on balconies of balconies or verandas, which are predetermined spaces separated from indoors in public buildings or apartment houses, to block sunlight from the windows, control and ventilate the windows. Will perform.

As described above, the vertical blinder has a problem in that the construction cost of the balcony or the veranda is increased due to a separate construction inside the chassis frame having the glass windows installed on the balustrade of the balcony or the veranda.

In addition, the vertical blind of the balcony or verander thus constructed can protect privacy by performing a function of securing a view and shading, ventilating, and blocking a perspective of the room from the outside.

In connection with such a technique, the operation structure of the electric vertical is disclosed in Utility Model Registration No. 427337. The configuration of the carrier assembly 12, which transfers the vertical blade 6 from side to side, as shown in FIG. The carrier transport timing belt 11 is directly rotated by the carrier transport geared motor 9 and the carrier transport timing belt fleece 10 embedded in the drive unit body assembly 1 assembled vertically with the rail 3 to transport the carrier transport timing. The carrier carrier assembly 8 and the carrier assembly 12 fixed to the belt 11 are configured to transfer left and right.

However, the vertical blinder has a problem that the motor 9 and the pulley 10 are located in the vertical direction and require a separate space for installing the vertical blinder, and the configuration for adjusting the angle of the vertical wing 6 is complicated. It is.

An object of the present invention for improving the conventional problems as described above, each fixed block for supporting the vertical blinder is moved in the state supported by one moving bar, vertical blind by a rotary bar rotated by automatic or manual It is to provide an angle adjusting device for a vertical blind, so that the angle can be easily adjusted.

The present invention for achieving the above object, a housing forming an appearance; Both ends are supported on the inside of the housing to rotate freely rotating bar; A movement bar freely rotating with both ends supported in parallel with the rotation bar inside the housing; A plurality of fixed blocks supported by the rotating bar and the moving bar, respectively, to which vertical blinds are connected; And a converting unit for converting the rotational force of the movable bar into the left and right movement of the fixed block so that the fixed block is moved left and right along the moving bar, wherein the fixed block is rotated by the rotation bar. Rotating the blinder.

As described above, according to the present invention, each fixed block for supporting the vertical blinder is supported by one moving bar so as to be operated to minimize the components and easily adjust the angle of the blinder when rotating the rotating bar by automatic or manual operation. It is made, the assembly and disassembly of each component is easy to repair is made quickly, by storing the motor in the rotating bar or the moving bar, thereby providing the effect of maintaining the overall structure compact.

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

2 is a perspective view illustrating a state in which a vertical blinder is mounted in the angle adjusting device for the vertical blinder according to the first embodiment of the present invention, and illustrates the principle in which the vertical blinder is moved from side to side according to the present invention.

As shown in FIG. 2, the first embodiment of the present invention includes a housing 100 forming an appearance, a rotating bar 200 having both ends supported inside the housing and freely rotating, and having an uneven portion in a circumferential direction. Both ends are supported in parallel with the rotation bar inside the moving bar 300, which is used as a moving path of the fixed block while freely rotating, and the fixed block 400 is supported by the rotation bar and the moving bar and the vertical blinder 900 is connected thereto. It comprises a conversion unit 500 for converting the rotational force of the moving bar to the left and right movement of the fixed block.

The housing 100 is for supporting the rotating bar and the moving bar. As described above, the rotating bar and the moving bar are fixed to and supported on the left and right sides of the housing, respectively, in a parallel state. In addition, a guide rail 110 is formed on the inner surface of the housing 100 adjacent to the rotation bar to support the guide roller 410 of the fixed block 400.

The rotation bar 200 supports the fixed block and moves the fixed block to the left and right of the housing. That is, when the moving bar is rotated, the rotational force of the moving bar is transmitted to the converting unit, and the fixed block moves along the moving bar by pushing or pulling the fixed block to the left and right of the housing. At this time, the moving bar is automatically rotated by the first drive motor is fixedly installed in the moving bar. That is, the first driving motor is installed in the moving bar to be fixed to minimize the mounting space.

The conversion unit 500 is for moving the fixed block to the left and right of the housing by using the rotational force of the moving bar, the tension force adjusting means 530 formed on the first side of the housing, the opposite of the first side of the housing Extends from one end of the winding on the first outer circumferential surface of the movable bar on the second side to pass through the fixed block and re-penetrates the fixed block through the tension force adjusting means to rewind the second outer circumferential surface of the movable bar on the second side of the housing After passing through the wire 510, the first roller 520 supporting the wire so that the wire extending from the first outer circumferential surface is directed to the fixed block, the first roller and the fixed block and the tension force adjusting means are passed through the fixed block, and then the moving bar. It comprises a second roller 540 for supporting the wire toward the first outer peripheral surface of the. Here, the first roller and the second roller are collectively referred to as a roller unit. That is, the roller unit is separated from the moving bar 300, the first roller 520 which is installed to determine the winding position when both ends of the wire in the opposite direction, respectively, and the second spaced apart on one side thereof The rollers 540 are respectively installed to be rotatable inside the housing. In addition, the tension force adjusting means 530 is installed in a position opposite to the roller unit is installed to support the wire, the third roller supporting the wire is made of a configuration connected to the housing via the spring. The wire 510 for moving the fixed block 400 from side to side is wound on both ends of the wire bar 510 which is rotated as the first driving motor, and the moving bar is rotated by the rotation of the first driving motor. When rotating in the direction of arrow A in FIG. 2, the wire passing through the first roller is wound around the first outer circumferential surface of the moving bar, and the wire passing through the second roller is installed to be released on the second outer circumferential surface of the moving bar. . At this time, any one of the two wires passing through the fixing bar is fixed to the fixing block by the fixing unit 420 on at least one of both sides of the fixing block, the other wire simply passes through the fixing block. Therefore, when the moving bar rotates in the A direction, the wire moves in the direction of the arrow in Fig. 2, and thus the fixed block moves in the left direction of the housing. Further, when the movable bar rotates in the opposite direction of the arrow, the wire is unwound on the first outer circumferential surface of the movable bar and the wire is wound on the second outer circumferential surface, so that the fixing block connected to the wire by the fixing part is connected to the right side of the housing. Will be moved in the direction. At this time, the other side of the wire is tension is constantly adjusted through the tension force adjusting means 530 consisting of a connecting structure of the rotating roller and the spring to adjust the tension force.

The fixed block 400, one end is moved to the left and right along the moving bar in a state connected to the moving bar 300, the other end is supported by the rotating bar 200, the case is supported by the moving bar and the rotating bar (450), the guide roller 410 is formed on the side of the case to move along the guide rail of the housing when the fixed block moves along the housing, connected to the case and rotated by the rotary gear 210 formed on the rotating bar It is connected to the driven gear 430 and the driven gear is rotated and comprises a blind fixture (440) for supporting the vertical blinder. On the other hand, the present invention includes a plurality of guide plates 600 for moving the respective fixed blocks while being folded or unfolded inside the housing when a plurality of fixed blocks are mounted in the housing. Here, each guide plate is connected to the fixed block, each guide plate has a locking jaw to be moved by the guide plate of the front end.

The rotating bar 200 supports the fixed block and rotates the driven gear of the fixed block to rotate the vertical blinder connected to the fixed block. That is, a plurality of fixed blocks 400 are connected to the rotating bar, and a rotating gear 210 for rotating the driven gear of the fixed block is formed on the outer circumferential surface connected to the fixed block. The rotation bar 200 is installed so that the second driving motor is fixed to one end is fixed to the housing 100 to rotate it. That is, the rotation bar 200 is installed to be automatically rotated through the second drive motor built in one side thereof.

The vertical blinder 900 is used to block sunlight, and may be formed of various materials. Meanwhile, the vertical blinder may include a solar cell array 910 as shown in FIG. 2. That is, since the vertical blinder is used for the purpose of blocking sunlight during the day, and is exposed to sunlight, the present invention arranges a solar cell array on the surface of the vertical blinder, thereby generating electricity using solar heat. It may be. The electrical energy generated in the solar cell array may be used for various purposes in the state of being stored in the storage battery. In addition, the lighting device 920 may be provided on one surface of the vertical blinder facing outward as shown in FIG. 2. That is, at night, the lighting device may be driven to emit light, so that the exterior of the building may be displayed colorfully. In this case, the power required for the lighting device may be transmitted from a separate power supply device, or may be transmitted from the storage battery. The arrangement of the solar cell array 910 and the lighting device 920 may be configured in various forms as shown in FIG. 2. In this case, although the solar cell array and the lighting apparatus are arranged in different vertical blinders in FIG. 2, they may be identically arranged in any one form shown in FIG. 2.

Hereinafter, an operation method of moving the vertical blinder by the angle adjusting device for the vertical blinder according to the first embodiment of the present invention will be described. In this case, the fixed block and the guide plate located on the leftmost side of FIG. 2 are referred to as a first fixed block 400 and a first guide plate 600, respectively. In addition, although all fixed blocks are already shown in the state moved to the left in Figure 2, in the following description, the present invention is described from the step before the state as shown in Figure 2, that is, all the fixed blocks are collected on the right side do.

That is, the first fixing block 400 disposed on the leftmost side of the fixing blocks is connected to the wire 510 by the fixing unit 420, and is moved from the right side to the left side according to the rotation direction of the moving bar 300. I can move it. At this time, as the first fixing block moves for the first time and moves to the left direction, the first guide plate 600 connected to the first fixing block also moves to the left side together with the first fixing block 400. On the other hand, when the first guide plate moves a certain distance, the second guide plate starts to move by the locking jaw formed at the end of the first guide plate, at this time, the second fixed fixed to the second guide plate The block also moves to the left. That is, the first fixed block and the second fixed block move at intervals equal to the length of the first guide plate. In addition, the other guide plates connected to the end of the second guide plate is also moved to the left direction by the same principle as described above, so that the other fixed blocks are also moved to the left direction, as shown in FIG. It is in the same state.

Meanwhile, when the rotation direction of the movement bar 300 is changed and the first fixing block starts moving in the right direction, the first guide plate also moves in the right direction. When the first fixed block moving to the right encounters the second fixed block, the first fixed block moves while pushing the second fixed block to the right. In the same way, the first fixed block moves in the right direction while pushing the fixed blocks after the second fixed block.

That is, the fixed blocks 400 are moved in a direction in which the vertical blinder is closed as shown in FIG. 2 by the movement of the first fixed block connected to the wire and the fixed part and the sequential movement of the first guide plays. In the case of the vertical blind is moved by the first fixed block that is substantially moved by the wire to move to the right to open the vertical blinder. On the other hand, the fixing part 420 is formed only in the first fixing block 400 that starts to move according to the rotation of the moving bar.

In detail, when both ends are supported inside the housing 100 to rotate the freely rotating moving bar 300, the fixed block 400 having one end supported by the moving bar 300 is formed at one side thereof. The inside of the housing 100 is moved through the roller 410. At this time, through the guide plate 600 connected to one side, the fixing blocks of the multi-stage inside the housing 100 are sequentially transferred.

In the above, the method of moving the fixed block to the left and right of the housing by the moving bar 300 has been described in detail. Hereinafter, the method of rotating the vertical blinder by the rotating bar 200 will be described in detail. In the following description, descriptions that overlap with those described above are omitted or simply described.

3 is an exemplary view showing in detail a fixed block of the angle adjusting device for the vertical blinder according to the first embodiment of the present invention, for explaining the principle that the vertical blinder is rotated.

As the fixed block 400, as described above, the driven gear 430 meshed with the rotary gear 210 in a direction orthogonal thereto is fixedly installed so as to rotate freely.

The rotary gear 210, the support jaw 280 corresponding to the uneven portion 220 formed on the rotating bar 200 is formed on the inner diameter side.

In addition, a blinder fixture 440 to which the vertical blinder 900 is supported while being engaged with the rotary gear 210 is connected to the driven gear 430.

That is, the blind fixture 440 is connected to the driven gear 430, the driven gear is meshed with the rotary gear of the rotary bar.

Meanwhile, the fixed block shown in FIG. 3 shows a fixed block disposed at the rightmost side of the fixed blocks shown in FIG. 2, and unlike the fixed block disposed at the leftmost side, the fixed block 420 is not provided. not.

Hereinafter, an operation method of rotating the vertical blinder by the angle adjusting device for the vertical blinder according to the first embodiment of the present invention will be described.

That is, when both ends are supported inside the housing 100 to rotate freely and rotate the rotary bar 200 using the second driving motor, corresponding to the uneven part 220 formed in the rotary bar 200. The rotating gear 210 to be freely rotated through the support jaw 280 is rotated.

At this time, through the engagement of the rotary gear 210 and the driven gear 430, the blind fixture 440 connected to the driven gear is rotated to rotate the vertical blinder (900).

That is, by controlling the rotation angle of the rotary gear 210 by controlling the rotational force of the second drive motor, it is possible to control the rotation angle of the driven gear 430, thereby adjusting the rotation angle of the vertical blinder 435 Can be.

Figure 4 is an illustration of an angle adjusting device for a vertical blind according to a second embodiment of the present invention, it shows an angle adjusting device for a vertical blind that the rotary bar 200 is manually rotated.

That is, the rotary bar 200, the bar can be manually rotated by the rotary bar manual control unit 700 is installed on one side, the rotary bar manual control unit 700 is fastened to one end of the rotary bar and the rotary bar Rotating bar manual gear 710 and the rotating bar manual gear 720 that is engaged with the rotating bar manual gear for rotating the rotating bar manual gear is configured to include.

Therefore, the rotary bar 200 can be rotated by moving the rotary bar passive cable 720 connected to one end thereof up and down without having to connect a separate second driving motor as in the first embodiment. Through this, the vertical blinder 400 may also be rotated.

5 is an exemplary view illustrating a vertical blind angle adjusting device for a vertical blind according to a third embodiment of the present invention, and shows a vertical blind angle adjusting device for manually moving the moving bar 300.

 That is, the moving bar 300, can be manually rotated by the moving bar manual operation unit 800 is installed on one side, the moving bar manual operation unit 800 is fastened to one end of the moving bar and the moving bar It comprises a moving bar manual gear 810 and a moving bar passive cable 820 meshed with the moving bar manual gear to rotate the moving bar manual gear 810.

Therefore, the movable bar 300 can be rotated by moving the manual movement of the passive bar 820 connected to one end up and down, without the need to connect a separate first drive motor as in the first embodiment, Through this, the vertical blinder 400 may also be moved left and right.

1 is a perspective view showing a conventional blinder.

2 is a perspective view showing a state in which a vertical blinder is mounted on the angle adjusting device for the vertical blinder according to the first embodiment of the present invention.

Figure 3 is an exemplary view showing in detail a fixed block of the angle adjusting device for the vertical blind according to the first embodiment of the present invention.

Figure 4 is an illustration of an angle adjusting device for a vertical blinder according to a second embodiment of the present invention.

Figure 5 is an illustration of an angle adjusting device for a vertical blinder according to a third embodiment of the present invention.

* Explanation of symbols for the main parts of the drawings *

100 housing 200 rotation bar

300: moving bar 400: fixed block

500: converter 600: guide plate

Claims (12)

A housing forming an appearance; Both ends are supported on the inside of the housing to rotate freely rotating bar; A movement bar freely rotating with both ends supported in parallel with the rotation bar inside the housing; A plurality of fixed blocks supported by the rotating bar and the moving bar, respectively, to which vertical blinds are connected; And It includes a conversion unit for converting the rotational force of the moving bar to the left and right movement of the fixed block, the fixed block is moved left and right along the moving bar, The fixed block rotates the vertical blinder according to the rotation of the rotation bar, The conversion unit, Tension force adjusting means formed on the first side of the housing; The fixed block extends from one end of the side wound around the first outer circumferential surface of the movable bar on the second side opposite to the first side of the housing, passes through the fixed block, and then passes through the tension force adjusting means. Re-wound, a wire rewound to the second outer circumferential surface of the movable bar at the second side of the housing; A first roller supporting the wire so that the wire extending from the first outer circumferential surface faces the fixed block; After passing through the first roller and the fixed block and the tension force adjusting means for the vertical blinder comprising a second roller for supporting the wire to the first outer peripheral surface of the moving bar through the fixed block again. Angle adjuster. The method of claim 1, The moving bar is, Vertical angle device for vertical blinds, characterized in that the rotation is automatically rotated by a first driving motor mounted inside the moving bar or manually by a moving bar manual control unit formed at one end of the moving bar. delete The method of claim 1, Any one of the two strands of the wire passing through the fixing block is fixed to the fixed block by the fixing portion, characterized in that the vertical blinder angle adjustment device. The method of claim 4, wherein When the moving bar is rotated so that the wire wound around the first outer circumferential surface of the moving bar is wound around the moving bar, The wire wound on the second outer circumferential surface of the moving bar is released from the moving bar, And the fixing block fixed to the wire by the fixing unit moves in the direction in which the wire is wound. The method of claim 1, The fixed block is, A case supported by the moving bar and the rotating bar; A driven gear connected to the case, the driven gear being formed on the rotating bar and rotating with the rotating gear rotated together with the rotating bar; And Rotating is connected to the driven gear, the angle adjustment device for a vertical blind including a blind fixture for supporting the vertical blind. The method of claim 1, Each of the plurality of fixed blocks is fixed to each of the plurality of guide plates, Each of the guide plate, the angle adjustment device for a vertical blind, characterized in that the locking jaw is formed to be moved by the guide plate of the front end. The method of claim 1, The plurality of fixed blocks are connected to the rotating bar, Of the outer peripheral surface of the rotary bar, the outer peripheral surface connected to the fixed block, for the vertical blind, characterized in that the rotary gear for rotating the driven gear formed on the fixed block to rotate the vertical blinder, Angle adjuster. The method of claim 1, The rotating bar is, Vertical angle device for vertical blinds, characterized in that the rotation is automatically rotated by a second driving motor mounted to the inside of the rotary bar or manually by a rotary bar manual control unit formed at one end of the rotary bar. The method of claim 6, And the driven gear rotates in a direction orthogonal to the rotation direction of the rotary gear. The method of claim 1, One side surface of the vertical blinder is an angle adjusting device for a vertical blind, characterized in that the solar cell array is mounted that can generate electricity using solar heat. The method of claim 1, One side surface of the vertical blinder is an angle adjusting device for a vertical blind, characterized in that the lighting device is mounted that can emit light.

Images