CN115354955B - Blind opening area setting method and interactive blind - Google Patents

Abstract

The invention belongs to the field of intelligent home furnishing, and discloses a shutter opening area setting method, which can flexibly change the distribution of a curtain light transmission area on the whole curtain according to the requirement of a user, so that input light and a curtain backlight part are mutually interweaved and combined, firstly, a preset area is set in a visual interaction terminal, and the preset area is provided with an upper area contour line and a lower area contour line which are distributed up and down; then, the predetermined area is mapped to the blind, and the window segment between the upper contour line of the area and the lower contour line of the area is twisted by a predetermined angle in the length direction of the strip-shaped window of the blind, that is, the predetermined area is set by the visual interactive terminal and mapped to the blind. The invention also discloses an interactive shutter curtain for implementing the shutter opening area setting method.

Description

Blind opening area setting method and interactive blind

Technical Field

The invention belongs to the field of intelligent home furnishing, and particularly relates to a shutter opening area setting method and an interactive shutter curtain.

Background

The curtain is an important member in furniture and is mainly used for opening and closing a window and an external light environment so as to regulate indoor lighting to the outside. Along with the continuous improvement of living standard, people are continuously improving the requirements of curtain to meet lighting and the requirements of visual experience of curtain, in order to meet the needs of the part, manufacturers on the market carry out various exquisite designs on patterns and materials of curtain so as to obtain the visual experience of the maximized improvement user.

However, no matter how exquisite design is, when the design pattern of the curtain is shaped in the hand of a user, the real personalized design cannot be thoroughly achieved, namely, the changeable visual experience of each user cannot be really met.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the shutter opening area setting method and the interactive shutter curtain, which can flexibly change the distribution of the transparent area of the curtain on the whole curtain according to the requirements of users, so that the input light and the backlight part of the curtain are mutually interweaved and combined, namely, the curtain can present changeable patterns through interweaving and combining the transparent backlight under the intervention of the users, thereby thoroughly realizing real personalized design, and really meeting the changeable visual experience of each user.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the shutter opening area setting method is realized through a visual interaction terminal and is characterized by comprising the following steps of:

step S1: setting a preset area in the visual interaction terminal, wherein the preset area is provided with an upper area contour line and a lower area contour line which are distributed up and down;

step S2: the predetermined area is mapped onto the blind and the louver portion between the area upper contour and the area lower contour is twisted by a predetermined angle in the length direction of the elongated louver of the blind.

Preferably, in step S1, the visual interactive terminal prestores a plurality of candidate areas, and the candidate areas are selectively selected by user interaction and set as the predetermined areas.

Preferably, step S1 comprises the following sub-steps:

step S1-1: two-dimensionally reconstructing a window area of the shutter at the visual interaction terminal, and forming a planning area;

step S1-2: inputting the number of strip window leaves of the shutter as leaf numbers into a visual interaction terminal, so that the planning area is divided into a plurality of planning subareas which are mutually adjacent and extend vertically along the transverse direction;

step S1-3: and sequentially inputting an upper contour line of the area and a lower contour line of the area along the vertical direction in the planning area.

An interactive blind for implementing the blind opening area setting method, comprising: the shutter is provided with a plurality of strip-shaped window leaves which are arranged along the transverse direction and extend along the vertical direction, and the strip-shaped window leaves are the strip-shaped window leaves; the plurality of torsion driving units are provided with torsion grillages and fixed brackets fixedly arranged on the torsion grillages; the driving assemblies are corresponding to the strip window leaves and are provided with two synchronous belts, and the synchronous belts are used for correspondingly driving the torsion driving units to move along the extending direction of the strip window leaves; and the control unit is provided with a processor and a plurality of pairs of control nodes, the processor correspondingly controls a plurality of synchronous belts to act through the plurality of pairs of control nodes, the torsion grillage is provided with an inserting plate and an inserting plate which are parallel to each other, the inserting plate is provided with a linear inserting slot, a central connecting line of the inserting slot and the inserting slot is arranged along the extending direction of the strip-shaped louver blades, the strip-shaped louver blades simultaneously pass through the inserting slot and the inserting slot, the width direction of the strip-shaped louver blades corresponds to the extending direction of the inserting slot and the inserting slot, the included angle of the orthographic projection of the inserting slot and the inserting slot is a preset angle, each strip-shaped louver blade simultaneously passes through two torsion grillages, the inserting slots of the two torsion grillages face to face each other, all the torsion grillages enclose a preset area in a window surface area of the louver, and the preset area is the preset area, and the control unit is used for mapping the preset area of the visual interaction terminal to the louver blade through torsion.

Preferably, the fixing bracket is provided with a fixing part, and the fixing part is detachably arranged on the synchronous belt.

Further, the invention also comprises a mounting base frame which is provided with a curtain accommodating space and a control accommodating space, wherein the curtain accommodating space is used for accommodating the shutter, and the control accommodating space is used for accommodating the control unit.

Still further, the drive assembly includes two hold-in range mechanisms, and hold-in range mechanism includes driving motor, the hold-in range of setting at driving motor's output and the take-up pulley to hold-in range tensioning, and driving motor sets up in curtain accommodation space's upper end and lower extreme alternatively.

Further, the curtain accommodating space is provided with a light shielding plate, which is disposed between the timing belt and the long strip window vane, and ambient light enters through a side portion of the installation base frame.

Still further, the mounting base frame further includes a guide rail provided along an extending direction of the elongated window vane, the torsion driving unit further includes a guide shoe provided on an end surface of the fixing bracket away from the torsion bracket, and the guide shoe is engaged with the guide rail.

Compared with the prior art, the invention has the beneficial effects that:

1. because the blind opening area setting method of the invention, first, presume the predetermined area in the visual interactive terminal, and the predetermined area has upper outline and lower outline of area distributed up and down; then, the preset area is mapped to the shutter, and the window piece part between the upper contour line of the area and the lower contour line of the area is twisted by a preset angle in the length direction of the strip window leaf of the shutter, namely, the preset area is set by the visual interaction terminal and mapped to the shutter.

2. Because in the first step of the invention, the visual interaction terminal pre-stores a plurality of alternative areas, and the alternative areas are selected alternatively through user interaction and set as the preset areas, the invention can select the preset areas in the plurality of alternative areas, so that a user can select patterns presented by the transparent backlight interweaving combination in a preset number of patterns, thereby meeting the visual experience of the user.

3. Because in the first step of the invention, firstly, the window surface area of the shutter is reconstructed in two dimensions at the visual interaction terminal, and a planning area is formed; secondly, inputting the number of strip-shaped window leaves of the shutter as leaf numbers into a visual interaction terminal, so that the planning area is divided into a plurality of mutually adjacent leaf numbers which extend vertically; finally, the upper contour line and the lower contour line of the area are sequentially input in the planning area along the vertical direction, so that the invention can allow a user to freely plan and select the preset area in an interactive mode, thereby freely selecting patterns presented by the interweaving combination, and further meeting the visual experience of the user.

4. Because the interactive shutter curtain comprises a shutter, a plurality of torsion driving units, a plurality of driving components and a control unit, the shutter is provided with a plurality of strip-shaped window leaves, and the torsion driving units are provided with torsion grillage and fixed brackets; the driving assembly is provided with two synchronous belts, and the synchronous belts are used for correspondingly driving the torsion driving unit to move along the extending direction of the strip window leaf; the control unit is provided with a processor and a plurality of pairs of control nodes, the processor correspondingly controls a plurality of synchronous belts to act through the plurality of pairs of control nodes, the torsion grillage is provided with an insertion slot hole and an insertion slot hole, the strip-shaped window leaves simultaneously pass through the insertion slot hole and the insertion slot hole, the orthographic projection angle of the insertion slot hole and the insertion slot hole is a preset angle, each strip-shaped window leaf simultaneously passes through two torsion grillages, all the torsion grillages enclose a preset area in the window surface area of the shutter, the preset area is the preset area, the control unit is used for mapping the preset area of the visual interaction terminal onto the shutter through the torsion grillages, and the visual interaction terminal is the visual interaction terminal.

5. Because the driving assembly comprises two synchronous belt mechanisms, the synchronous belt mechanisms comprise a driving motor, a synchronous belt arranged at the output end of the driving motor and a tensioning wheel for tensioning the synchronous belt, and the driving motor is alternatively arranged at the upper end and the lower end of the curtain accommodating space, the invention can accurately control the moving distance of the torsion driving unit on the strip window leaf through the synchronous belt mechanisms, thereby accurately enclosing a preset area according to the control unit and the visual interaction terminal.

6. Because the curtain accommodating space is provided with the light shielding plate, the light shielding plate is arranged between the synchronous belt and the strip window leaves, and ambient light enters through the side part of the mounting base frame, the curtain accommodating space can be used as large-scale indoor interactive decoration, and the synchronous belt is completely shielded.

Drawings

FIG. 1 is a schematic diagram showing steps of a blind opening area setting method according to an embodiment of the present invention;

FIG. 2 is a schematic view of an interactive blind according to an embodiment of the present invention;

FIG. 3 is a schematic view of an interactive blind according to an embodiment of the present invention;

FIG. 4 is a partial schematic view of the upper end of FIG. 3;

FIG. 5 is a partial schematic view of the lower end of FIG. 3;

FIG. 6 is a schematic diagram of the cooperation of a drive motor and a timing belt according to an embodiment of the present invention;

fig. 7 is a structural view of a torsion driving unit according to an embodiment of the present invention;

FIG. 8 is an exploded view of a stationary gantry and timing belt according to an embodiment of the present invention;

fig. 9 is a schematic diagram illustrating the cooperation between the fixing bracket and the driving assembly according to an embodiment of the invention.

In the figure: s100, a shutter opening area setting method, 100, an interactive shutter, 10, an installation base frame, 11, a curtain accommodating space, 12, a control accommodating space, 20, a shutter, 21, a long-strip window vane, 30, a torsion driving unit, 31, a fixed support, 311, a fixed part, 32, a torsion plate frame, 321, an insertion plate, 3211, an insertion slot hole, 322, an insertion plate, 3221, an insertion slot hole, 40, a driving assembly, 41, a driving motor, 42, a synchronous belt, 43, a tensioning wheel, 50 and a control unit.

Detailed Description

In order to make the technical means, creation features, achievement of the purposes and effects of the present invention easy to understand, the following embodiments specifically describe a blind opening area setting method and an interactive blind according to the present invention with reference to the accompanying drawings, and it should be noted that the descriptions of the embodiments are for aiding understanding of the present invention, but do not limit the present invention.

Example 1

As shown in fig. 1, the shutter opening area setting method S100 in the present embodiment is implemented by a visual interactive terminal, and includes the following steps:

step S1: and setting a preset area in the visual interaction terminal, wherein the preset area is provided with an upper area contour line and a lower area contour line which are distributed up and down.

Specifically, the visual interactive terminal prestores a plurality of candidate areas, and the candidate areas are selectively selected by user interaction and set as predetermined areas.

In this embodiment, the candidate area is usually a specific closed graph, the visual interaction terminal has a touch display screen, and the visual interaction terminal has a selection interface of the candidate area, all candidate areas for selection are displayed in the selection interface, the user selects the candidate area with a tendency of selection as a predetermined area by touching the candidate area, for example, the interface has candidate areas of "Σ", "Δj, and the user selects" Δjas the predetermined area, and the visual interaction terminal can update the candidate area by downloading an update program.

Step S2: the predetermined area is mapped onto the blind and the louver portion between the area upper contour and the area lower contour is twisted by a predetermined angle in the length direction of the elongated louver of the blind.

Specifically, through setting up two torsion driving units that distribute along height from top to bottom at every rectangular window leaf, torsion driving unit corresponds the control through hold-in range mechanism and can follow the length direction of rectangular window leaf and remove, and torsion driving unit cover is established on rectangular window leaf, can make the rectangular window leaf of process take place to twist reverse, and two upper and lower torsion driving units make rectangular window leaf take place to twist reverse the rectangular window leaf part that can make between two torsion driving units simultaneously to make and take place the printing opacity state of rectangular window leaf that twists not different, and then different printing opacity states make the mapping go out the pattern the same with the predetermined region on the shutter.

As shown in fig. 2 and 3, the interactive blind 100 in the present embodiment is used to implement the blind opening area setting method S100 described above.

The interactive blind 100 includes a mounting base 10, a blind 20, a torsion drive unit 30, a drive assembly 40, and a control unit 50.

As shown in fig. 4 and 5, the installation base frame 10 is an installation base frame for installing the rest of the components of the present invention, and has a window covering accommodating space 11 and a control accommodating space 12, wherein the window covering accommodating space 11 is used for accommodating the window covering 20, the control accommodating space 12 is used for accommodating the control unit 50, specifically, the installation base frame 10 is a two-layered upright plate frame, the upper layer is the window covering accommodating space 11, the lower layer is the control accommodating space 12, and in this embodiment, the lower layer is generally embedded in a wall body.

The louver 20 has a plurality of elongated louvers 21 disposed in the lateral direction and extending in the vertical direction, and the elongated louvers 21 are the elongated louvers described above.

As shown in fig. 6 to 9, the number of the torsion driving units 30 is plural, and each of the long slats 21 has two torsion driving units 30 disposed one above the other.

The torsion driving unit 30 has a torsion bar frame 32 and a fixing bracket 31 fixed to the torsion bar frame 32.

The fixing bracket 31 has a fixing portion 311, the fixing portion 311 is detachably mounted on the fixing bracket 31, in this embodiment, the fixing bracket 31 is i-steel, the h-steel is arranged along the depth direction of the mounting base frame 10, the torsion plate frame 32 is mounted on one top plate surface of the i-steel, the fixing portion 311 is a pressing block fixed on the waist plate portion of the fixing bracket 31 by a screw, and an end surface facing the waist plate portion is a zigzag end surface structure.

The torsion bar frame 32 has an insertion plate 321 and an insertion plate 322 disposed parallel to each other in the longitudinal direction of the elongated louver 21, the insertion plate 321 has a linear insertion slot 3211, the insertion plate 322 has a linear insertion slot 3221, the center line of the insertion slot 3211 and the insertion slot 3221 is disposed along the extending direction of the elongated louver 21, the elongated louver 21 passes through the insertion slot 3211 and the insertion slot 3221 at the same time, the width direction of the elongated louver 21 corresponds to the extending direction of the insertion slot 3211 and the insertion slot 3221, and the angle of the orthographic projection of the insertion slot 3211 and the insertion slot 3221 is a predetermined angle, which is the predetermined angle involved in the above-mentioned shutter opening area setting method S100, in this embodiment, the predetermined angle is 90 °, that is, the insertion slot 3211 and the insertion slot 3221 are mutually perpendicular, and the elongated louver 21 is twisted by 90 ° in the insertion plate 321 and the insertion slot 322.

Each of the long-strip window blades 21 passes through the two torsion grillages 32 at the same time, and the insertion slots 3221 of the two torsion grillages 32 are opposite, the insertion slots 3211 are opposite, specifically, the long-strip window blades 21 are twisted at a predetermined angle on the insertion plate 321 and the insertion plate 322, when the two torsion grillages 32 on the long-strip window blades 21 are adjacent up and down, the long-strip window blades 21 outside the two torsion grillages 32 are kept in an untwisted open state; when the two torsion grilles 32 on the strip window 21 are spaced a predetermined distance up and down, the strip window 21 portion at the predetermined distance is twisted by a predetermined angle, so that the opening state of the strip window 21 portion is different from that of the other strip window 21 portions, and thus, the light-transmitting backlight is different, so that the shutter 20 presents a corresponding pattern, in this embodiment, the strip window 21 which is not twisted is completely opaque, and the twisted strip window 21 is completely transparent.

The number of the driving components 40 is plural, and the driving components 40 are in one-to-one correspondence with the long window blades 21, and each driving component 40 comprises two synchronous belt mechanisms, wherein each synchronous belt mechanism comprises a driving motor 41, a synchronous belt 42 arranged at the output end of the driving motor 41, and a tensioning wheel 43 for tensioning the synchronous belt.

The driving motor 41 is alternatively disposed at the upper and lower ends of the window curtain accommodating space 11, in this embodiment, the installation base frame 10 has window curtain fixing beams (not shown in the drawing) and driving fixing beams (not shown in the drawing) which are sequentially distributed along the depth direction of the installation base frame 10 and are parallel to each other, the window shutter 20 is installed on the window curtain fixing beams, and the driving motor 41 is installed on the driving fixing beams.

The timing belts 42 are used to correspondingly drive the torsion driving unit 30 to move along the extending direction of the elongated window vane 21 (the broken appearance of the timing belts 42 in fig. 9 indicates that the portions of the timing belts extending in a straight line are omitted), specifically, the fixing portions 311 are detachably mounted on the timing belts 42, two timing belts 42 are respectively mounted on the two fixing brackets 31, and the two timing belts 42 are respectively located on opposite sides of the waist plate portion of the fixing bracket 31, in this embodiment, the timing belts 42 are purchased in rolls, and during the fixing by the fixing portions 311, the timing belts 42 are broken on both sides of the screw holes of the waist plate portion of the fixing bracket 31, the fixing portions 311 simultaneously press edges of both sections, and are screwed into compression by the screw threads, so that the timing belts 42 are fixed with the fixing bracket 31.

The control unit 50 is configured to map a predetermined area selected by the visual interactive terminal, that is, the visual interactive terminal related to the blind opening area setting method S100, onto the blind 20 through the torsion plate frame 32.

The control unit 50 has a processor and a plurality of pairs of control nodes, and the processor correspondingly controls the driving motor 41 through the plurality of pairs of control nodes, so as to drive the plurality of synchronous belts 42 to independently move, so that all the torsion grillage 32 encloses a predetermined area in the window area of the shutter 20, and the shutter 20 presents the predetermined area related to the shutter opening area setting method S100.

< example two >

In the second embodiment, the same reference numerals are given to the same structures as those in the first embodiment, and the same description is omitted.

In the second embodiment, the blind opening area setting method S100 is different from the first embodiment in that:

step S1 comprises the following sub-steps:

step S1-1: and reconstructing the window surface area of the shutter 20 in two dimensions at the visual interaction terminal, and forming a planning area.

Specifically, the visual interactive terminal has a planned area presented in pages, which is a two-dimensional reconstruction of the window area of the blind 20.

Step S1-2: the number of elongated slats 21 of the blind 20 is entered as a slat number into the visual interactive terminal such that the planning area is divided in the lateral direction into a number of mutually adjoining slats of vertically extending planning sub-areas.

Specifically, the number of the strip-shaped window leaves 21 is input as an input parameter to the visual interaction terminal, so that a planning area generates a plurality of horizontally adjacent blade subareas, and the plurality of blade subareas correspond to the plurality of strip-shaped window leaves 21.

Step S1-3: and sequentially inputting an upper contour line of the area and a lower contour line of the area along the vertical direction in the planning area.

In this embodiment, the visual interactive terminal has a visual touch display screen, and the user draws a required predetermined area, such as "o", in the planned area by means of touch, and the control unit 50 controls the plurality of synchronous belts 42 to drive the torsion plate frame 32 to move through the plurality of pairs of control nodes, so that a predetermined area is enclosed in the window area of the shutter 20.

Example III

In the third embodiment, the same reference numerals are given to the same structures as those in the first embodiment, and the same description is omitted.

In the third embodiment, the structure and application of the interactive blind 100 are different from those of the first and second embodiments in that:

the curtain accommodating space 11 is provided with a shutter (not shown in the drawings) provided between the timing belt 42 and the elongated window vane 21, and ambient light enters through the side of the mounting base frame 10, specifically, the shutter shields the timing belt 42 so that the timing belt 42 is not seen when the window blind 20 presents a pattern.

The mounting base frame 10 further includes a guide rail (not shown in the drawings) provided along the extending direction of the elongated window vane 21, and the torsion driving unit 30 further includes a guide shoe (not shown in the drawings) provided on an end surface of the fixing bracket 31 remote from the torsion bar frame 32, and the guide shoe is engaged with the guide rail, so that the torsion bar frame 32 can be moved more stably along the extending direction of the elongated window vane 21, and in particular, the guide rail is not seen when the window blind 20 presents a pattern.

The above embodiments are preferred embodiments of the present invention and are not intended to limit the scope of the present invention, and various modifications or variations which may be made by those skilled in the art without the inventive effort within the scope of the appended claims remain within the scope of this patent.

Claims (8)

1. The shutter opening area setting method is realized through a visual interaction terminal and is characterized by comprising the following steps of:

step S1: setting a preset area in the visual interaction terminal, wherein the preset area is provided with an upper area contour line and a lower area contour line which are distributed up and down;

step S1 comprises the following sub-steps:

step S1-1: two-dimensionally reconstructing a window area of the shutter at the visual interaction terminal, and forming a planning area;

step S1-2: inputting the number of strip window leaves of the shutter as leaf numbers into the visual interaction terminal, so that the planning area is divided into a plurality of planning subareas which are mutually adjacent and extend vertically along the transverse direction;

step S1-3: the upper contour line of the area and the lower contour line of the area are sequentially input in the planning area along the vertical direction,

step S2: the predetermined area is mapped onto the blind and the louver portion between the area upper contour and the area lower contour is twisted by a predetermined angle in the length direction of the elongated louver of the blind.

2. The blind opening area setting method according to claim 1, characterized in that:

in step S1, the visual interaction terminal pre-stores a plurality of candidate areas, and the candidate areas are selectively selected through user interaction and set as the predetermined areas.

3. An interactive blind for implementing the blind opening area setting method according to any one of claims 1 to 2, comprising:

a blind having a plurality of elongated louvers extending in a vertical direction and disposed in a lateral direction, the elongated louvers being the elongated louver of any one of claims 1-2;

the plurality of torsion driving units are provided with torsion grillages and fixed brackets fixedly arranged on the torsion grillages;

the driving assemblies are corresponding to the long strip window leaves and are provided with two synchronous belts, and the synchronous belts are used for correspondingly driving the torsion driving units to move along the extending direction of the long strip window leaves; and

a control unit provided with a processor and a plurality of pairs of control nodes, wherein the processor correspondingly controls a plurality of synchronous belts to act through the plurality of pairs of control nodes,

wherein the torsion plate frame is provided with an inserting plate and an inserting plate which are parallel to each other, the inserting plate is provided with a linear inserting slot, the central connecting line of the inserting slot and the inserting slot is arranged along the extending direction of the strip window blade, the strip window blade simultaneously passes through the inserting slot and the inserting slot, the width direction of the strip window blade corresponds to the extending direction of the inserting slot and the inserting slot, the included angle of the orthographic projection of the inserting slot and the inserting slot is a preset angle, and the preset angle is the preset angle according to any one of claims 1-2,

each strip window leaf passes through two torsion grillages at the same time, the inserting slot holes of the two torsion grillages are opposite, the inserting slot holes are opposite,

all the torsion grillages enclose the preset area in the window area of the shutter, the preset area is the preset area according to any one of claims 1-2, the control unit is used for mapping the preset area of the visual interaction terminal to the shutter through the torsion grillages, and the visual interaction terminal is the visual interaction terminal according to any one of claims 1-2.

4. An interactive blind according to claim 3, wherein:

the fixing support is provided with a fixing part which is detachably arranged on the synchronous belt.

5. The interactive blind of claim 4 further comprising:

the installation bed frame has curtain accommodation space and control accommodation space, the curtain accommodation space is used for holding the shutter, and control accommodation space is used for holding the control unit.

6. The interactive blind of claim 5 wherein:

the driving assembly comprises two synchronous belt mechanisms, wherein each synchronous belt mechanism comprises a driving motor, a synchronous belt arranged at the output end of each driving motor and a tensioning wheel for tensioning the synchronous belt, and the driving motor is alternatively arranged at the upper end and the lower end of the curtain accommodating space.

7. The interactive blind of claim 5 wherein:

wherein, the curtain accommodation space is provided with a light shielding plate which is disposed between the timing belt and the long strip window leaf, and ambient light enters through the side portion of the installation base frame.

8. The interactive blind of claim 7 wherein:

wherein the mounting base frame further comprises a guide rail arranged along the extending direction of the strip window vane,

the torsion driving unit further includes a guide shoe provided on an end surface of the fixing bracket remote from the torsion bracket, and the guide shoe is engaged with the guide rail.

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