CN110685579B

CN110685579B - Electric shutter

Info

Publication number: CN110685579B
Application number: CN201911008795.XA
Authority: CN
Inventors: 不公告发明人
Original assignee: Jiangyin Maige Energy Saving Building Materials Co ltd
Current assignee: Jiangyin Maige Energy Saving Building Materials Co ltd
Priority date: 2019-10-23
Filing date: 2019-10-23
Publication date: 2020-10-23
Anticipated expiration: 2039-10-23
Also published as: CN110685579A

Abstract

The invention relates to an electric shutter, which comprises an outer frame, hollow glass and a shutter assembly, wherein the shutter assembly comprises a shutter plate and a bottom plate, the bottom plate is connected with the shutter plate through a connecting rope, a first guide pulley is rotatably installed on the upper side of the shutter assembly, a first traction rope is fixedly connected to the bottom plate, and the other end of the first traction rope penetrates through the shutter plate and bypasses the first guide pulley; install the electric control subassembly between cavity glass, the electric control subassembly includes the sliding block and promotes the electronic jar that pushes away of sliding block removal, and the electronic jar that pushes away is vertical to be set up, and the other end and the sliding block of first haulage rope are connected, and fixed mounting has the linkage limit on the tripe piece, has seted up the linkage groove on the linkage edge and has articulated to have the gangbar. The bottom piece can be pulled to the bottom of frame by fine, and light can be sheltered from by fine, and it shines indoor to be difficult for having the space between the bottom of follow tripe subassembly and frame.

Description

Electric shutter

Technical Field

The invention relates to the technical field of shutters, in particular to an electric shutter.

Background

The louver window is a window provided with louvers, is generally used for indoor and outdoor ventilation, and is very attractive. With the development of science and technology and the improvement of the standard of living of people, the related technology of the blind is also developed. At present, under noisy or cold environments, the design of single-layer glass of doors and windows has limited effect of resisting cold and noise. In order to overcome the adverse factors, the structure of the double-layer glass window is usually set, the blind window is installed between two layers of glass of the double-layer glass window, the lifting of the blind window is completed through the control part, the double-layer glass can effectively resist cold and noise, the structure of the whole hollow blind window is attractive and practical, and meanwhile, the operation is convenient, and the hollow blind window is popular.

But the shutter that sets up in cavity glass often can go wrong after using one end time, and when the shutter hung to the bottommost, the bottom of shutter can not be fine with the bottom laminating of double glazing window, has the space between the bottom of double glazing window and the shutter this moment, even closed the shutter, still has a large amount of light shines indoor. And because the shutter is arranged between the two layers of glass, people are also inconvenient to adjust and maintain.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide an electric blind window, which can ensure that the bottom end of the blind window is well attached to the bottom end of a double-layer glass window when the blind window is vertically placed at the bottommost part, so that light can be well shielded, and a gap between the bottom end of the double-layer glass window and the blind window is not easy to irradiate into a room.

The above object of the present invention is achieved by the following technical solutions:

an electric blind window comprises an outer frame, two pieces of hollow glass arranged between the outer frame and a blind assembly arranged between the two pieces of hollow glass, wherein the blind assembly comprises at least two blind blades, the blind blades are parallel to each other, a bottom blade is arranged on the lower side of the blind blade at the lowest side, the bottom blade is connected with the blind blades through a connecting rope, a first guide pulley is rotatably arranged on the upper side of the blind assembly, a first traction rope is fixedly connected onto the bottom blade, and the other end of the first traction rope penetrates through the blind blades and bypasses the first guide pulley; an electric control assembly is arranged between the hollow glass and comprises a sliding block and an electric pushing cylinder for pushing the sliding block to move, the electric pushing cylinder is vertically arranged, the other end of a first traction rope is connected with the sliding block, the side edge of the end of the louver blade is an end edge, a linkage edge with the length equal to the length of the end edge is fixedly arranged on the end edge, the two ends of the linkage edge are respectively a first end and a second end, a sliding part is fixedly connected between the first end and the second end, a vertical sliding track is fixedly arranged on the side edge of the outer frame adjacent to the linkage edge, the sliding part slides along the sliding track, a linkage groove and a linkage rod are arranged on the linkage edge and hinged with the linkage groove, the linkage groove and the linkage rod are both positioned on one side of the sliding part, the linkage rod is positioned on one side of the linkage groove away from the sliding part, and the rotation axis of the linkage rod, one end of the linkage rod, which is far away from the linkage edge, is fixedly provided with a linkage piece, and one end of the linkage rod, which is provided with the linkage piece, on one louver blade is penetrated in the linkage groove on the upper side of the louver blade and moves along the linkage groove; fixedly connected with second haulage rope on the bottom piece, the downside of bottom piece is rotated and is installed the second guide pulley, and the second haulage rope is walked around the other end and the sliding block of second guide pulley and second haulage rope and is connected.

Through adopting above-mentioned technical scheme, when using at ordinary times, drive the slider through electronic push cylinder and remove, the slider removes and drives first leading wheel and the removal of second leading wheel. When the sliding block descends, the first traction rope is tightened by the first guide wheel, and at the moment, the bottom sheet ascends and supports the upper louver blades, so that all the louver blades are driven to ascend; when the sliding block rises, the second traction rope is tightened by the second guide wheel, and the bottom piece falls downwards. When the bottom piece descends, the bottom piece is connected with the connecting rope, so that the louver blade at the lowest side is driven to descend. Because the two adjacent louver blades are connected through the linkage rod and the linkage groove which are hinged on the linkage edge, and the linkage piece of the linkage rod, which is far away from one end of the linkage edge, slides along the linkage groove in the upper adjacent louver blade, so that the whole louver blades form a linkage mechanism which can be opened or closed together, and the louver blades can be closed conveniently under the driving of the bottom plate. When all the louver blades are closed, the bottom ends of the louver assemblies can be well attached to the bottom end of the outer frame naturally, light can be well shielded, and the louver assemblies are not prone to being irradiated into a room from gaps between the bottom ends of the louver assemblies and the bottom end of the outer frame.

The invention is further configured to: the electric push cylinder comprises a cylinder body and a piston rod, one end of the piston rod, which is far away from the cylinder body, is positioned at the lower side of the cylinder body, the sliding block is positioned at the lower end of the piston rod, a first extension plate is fixedly arranged on the side surface of one side of the sliding block parallel to the hollow glass, a second extension plate is fixedly arranged on the side surface opposite to the sliding block, the upper ends of the first extension plate and the second extension plate are higher than the lower end of the piston rod, sliding rollers are rotatably arranged on the sides of the first extension plate and the second extension plate far away from each other, the side edge of the outer frame adjacent to the piston rod is fixedly provided with a first anchoring block and a second anchoring block, when the piston rod is retracted into the cylinder body, first anchor piece is located the upside of sliding block, and second anchor piece is located the downside of sliding block, and first haulage rope is walked around and fixed connection on first anchor piece from the slip gyro wheel downside on the first extension board, and the second haulage rope is walked around and fixed connection on the second anchor piece from the slip gyro wheel upside on the second extension board.

By adopting the technical scheme, under the action of the rolling pulley, when the piston rod needs to descend or ascend the louver assembly, the distance needed to pass is half of the moving distance of the bottom plate in the louver assembly, so that the length of the electric pushing cylinder can be reduced, and the structure is as the same as the movable pulley when the louver assembly is moved, and is more labor-saving. And the extension plate can make the electronic jar that pushes away when the installation, and the position can be placed in the position of the center department of the vertical side of frame, and whole electronic shutter's structure is compacter, and the installation is also easier.

The invention is further configured to: the distance between the sliding piece and the first end is smaller than the distance between the sliding piece and the second end, the linkage groove and the linkage rod are both located between the first end and the sliding piece, and the side edge, adjacent to the end edge and connected with the second end, of the louver blade is fixedly provided with the weighting strip.

Through adopting above-mentioned technical scheme, make the shutter plate under the effect that aggravates the strip, can be under the traction of bottom piece, easier upset, whole tripe subassembly is more compact when the closure, is difficult for appearing the uneven phenomenon of shutter plate.

The invention is further configured to: the linkage groove is a through groove, one end, far away from the linkage edge, of the linkage rod penetrates through the through groove, the linkage piece is a linkage block, and the linkage block is installed at one end, far away from the linkage edge, of the linkage rod.

Through adopting above-mentioned technical scheme, when equipment tripe subassembly, it is easier and convenient, the workman of being convenient for installs.

The invention is further configured to: the side edge of the outer frame adjacent to the linkage edge is fixedly provided with a pull-down component, and the pull-down component is positioned at the lower side of the side edge; the pull-down component comprises a limiting track and a limiting rod moving along the limiting track, one end of the limiting rod is provided with a limiting clamping jaw for clamping the bottom sheet, the limiting track is parallel to the sliding track, a direct current servo motor and a limit gear driven by the direct current servo motor are fixedly arranged on the limit rod, a limiting rack which is arranged along the limiting track and is meshed with the limiting gear is fixedly arranged in the limiting track, the limiting clamping jaw comprises a lower limiting jaw and an upper limiting jaw which is rotatably connected to the limiting rod, the rotating axis of the upper limiting jaw is horizontal and vertical to the side edge of the louver blade adjacent to the end edge, the rotating axis of the upper limiting jaw is not overlapped with the projection of the bottom plate on the bottom surface of the outer frame, the lower limiting jaw is rotatably arranged on the limiting rod, the rotating axis of the lower limiting claw is superposed with the rotating axis of the upper limiting claw, and the projection of the lower limiting claw and the projection of the upper limiting claw on the bottom surface of the outer frame are superposed with the projection of the bottom sheet on the bottom surface of the outer frame; the upper limiting claw and the lower limiting claw are mutually staggered, a lower limiting block is arranged beside the lower limiting claw, an upper limiting torsion spring is arranged between the upper limiting claw and the lower limiting block, an upper limiting block is arranged beside the upper limiting claw, and a lower limiting torsion spring is arranged between the lower limiting claw and the upper limiting block; when the upper control switch responds, the direct current servo motor rotates and drives the limiting rod to descend, and the descending distance is equal to the length of the limiting track; proximity switch under spacing orbital lower extreme fixed mounting, be located spacing orbital lower extreme when spacing clamping jaw, and go up spacing claw and when spacing claw is not by bottom piece butt down, proximity switch is located the downside that the one end of spacing claw is far away from the bottom piece down, and go up one of spacing claw is far away from the bottom piece and serve fixed mounting have the lower control piece that is used for triggering proximity switch down, when lower control switch responds, direct current servo motor rotates and drives the gag lever post and rise, and the distance that rises equals spacing orbital length.

Through adopting above-mentioned technical scheme, through being provided with spacing clamping jaw, when electronic pushing away the jar drive bottom piece descend to the position with spacing clamping jaw upper surface butt, because last spacing claw is rotatable, the one end that last spacing claw kept away from the axis of rotation and the distance of axis of rotation between in the horizontal plane can be more and more short, when the bottom piece is overcome and is gone up spacing torsional spring, when making the bottom piece slide to supreme spacing claw and lower spacing claw in, the bottom piece continues to move down and collide lower spacing claw. When the lower limiting claw is abutted by the bottom piece, the lower limiting claw can rotate around the rotating axis, the other end of the lower limiting claw rises, the upper control block at the other end of the lower limiting claw triggers the upper proximity switch, and when the upper proximity switch responds, the direct-current servo motor rotates and drives the limiting rod to descend by the length of a limiting track, so that the whole limiting clamping jaw descends, the upper limiting claw is abutted to the bottom piece and drives the bottom piece to descend, and the bottom piece can be well pulled to the bottom of the outer frame through the limiting clamping jaw. When the bottom piece needs to be lifted, the bottom piece is still located in the limiting clamping jaw, the bottom piece is lifted and abutted to the upper limiting jaw, the upper limiting jaw rotates around the rotating axis, one end, far away from the bottom piece, of the upper limiting jaw is lowered at the moment, the lower control block on the other end of the upper limiting jaw triggers the lower approach switch, and when the lower approach switch responds, the direct-current servo motor rotates and drives the limiting rod to ascend by the length of a limiting track, so that the whole limiting clamping jaw ascends, and the bottom piece is lifted. When the bottom piece rises to the upper end of the limiting track, the bottom piece is separated from the upper limiting claw and the lower limiting claw when the upper limiting torsion spring between the upper limiting claw and the lower limiting block is finally overcome under the traction of the first traction rope.

The invention is further configured to: the parts of the upper limiting claw and the lower limiting claw, which are positioned on the rotating axis and close to the bottom sheet, are both arranged into circular arcs, the circle center of the circle where the upper limiting claw is positioned on the lower side of the upper limiting claw, and the circle center of the circle where the lower limiting claw is positioned on the upper side of the lower limiting claw.

Through adopting above-mentioned technical scheme, go up spacing claw and lower spacing claw and be used for the one end of centre gripping bottom piece to set to arc, on the one hand make the bottom piece can be fine overcome go up spacing claw imbed between spacing claw and the lower spacing claw, on the other hand can be when spacing claw or lower spacing claw are closed in the laminating of bottom piece, be difficult for light deviate from between last spacing claw and the lower spacing claw, the centre gripping is more firm.

The invention is further configured to: the parts of the upper limiting claw and the lower limiting claw, which are positioned on the rotating axis and far away from the bottom sheet, are arranged into straight rods.

Through adopting above-mentioned technical scheme, when last spacing claw and lower spacing claw rotate, can be better with last control block and lower control block promote to can trigger proximity switch and the position of proximity switch down.

The invention is further configured to: the first traction rope and the second traction rope are both arranged to be steel wire ropes, annular guide grooves are formed in the first guide wheel and the second guide wheel, the steel wire ropes are embedded in the annular guide grooves, and two or three rings are wound.

Through adopting above-mentioned technical scheme, wire rope sound construction, durable to through the wire rope of twining two circles or three circles, make wire rope can tighten naturally, fine tractive bottom piece rises and descends.

In conclusion, the beneficial technical effects of the invention are as follows:

1. the bottom piece can be pulled to the bottom of frame by fine, and light can be sheltered from by fine, and it shines indoor to be difficult for having the space between the bottom of follow tripe subassembly and frame.

2. The structure is stable and firm, and the installation is convenient.

Drawings

FIG. 1 is a schematic structural view of the present embodiment;

FIG. 2 is a schematic structural view of the blind window of the present embodiment after hiding the outer frame and the hollow glass and moving the sliding rail toward the side away from the louver blade;

FIG. 3 is a partial schematic view of portion A of FIG. 2;

FIG. 4 is a partial schematic view of portion B of FIG. 2;

FIG. 5 is a partial schematic view of section C of FIG. 2;

FIG. 6 is a partial schematic view of portion D of FIG. 2;

FIG. 7 is a schematic diagram of a pull-down assembly.

In the figure, 1, an outer frame; 11. hollow glass; 2. a shutter assembly; 21. louver blades; 22. connecting ropes; 23. a bottom sheet; 24. a first guide wheel; 25. a first pull cord; 26. a second guide wheel; 27. a second pull cord; 28. an annular guide groove; 3. an electric pushing cylinder; 31. a cylinder body; 32. a piston rod; 33. a slider; 34. a first extension plate; 35. a second extension plate; 36. a sliding roller; 37. a first anchor block; 38. a second anchor block; 4. linkage edges; 41. a sliding track; 42. a slider; 43. adding a weight strip; 44. a linkage groove; 45. a linkage rod; 46. a linkage block; 5. a limiting track; 51. a limiting rod; 511. a moving block; 52. a limit rack; 53. a limit gear; 54. a DC servo motor; 6. a limiting clamping jaw; 61. an upper limiting claw; 611. an upper control block; 62. a lower limiting claw; 621. a lower control block; 63. an upper limit block; 64. a lower limiting block; 65. an upper proximity switch; 66. the lower proximity switch.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, the electric blind disclosed by the present invention comprises an outer frame 1 and two parallel hollow glasses 11 mounted on the outer frame 1, wherein the hollow glasses 11 are respectively located at two opposite sides of the outer frame 1, and form a hollow cavity with the outer frame 1. A louver assembly 2 is installed between the two pieces of hollow glass 11.

Referring to fig. 2 and 3, the louver module 2 includes at least two rectangular louvers 21, the louvers 21 are horizontally installed in the housing 1 (shown in fig. 1) from top to bottom in parallel, a connecting cord 22 is connected to a bottom surface of the lowermost louver 21, and a bottom plate 23 is connected to the other end of the connecting cord 22. The upper side of the louver component 2 is rotatably provided with a first guide wheel 24, the rotating axis of the first guide wheel 24 is perpendicular to the hollow glass 11, the bottom sheet 23 is fixedly connected with a first traction rope 25 made of a steel wire rope, the first traction rope 25 penetrates through the louver component 2 and bypasses the first guide wheel 24, the first guide wheel 24 is provided with an annular guide groove 28, and the first traction rope 25 is embedded in the annular guide groove 28 on the first guide wheel 24 and is wound by two circles. A second guide wheel 26 is rotatably mounted on the lower side of the bottom sheet 23, the rotation axis of the second guide wheel 26 is parallel to that of the first guide wheel 24, a second traction rope 27 supported by a steel wire rope is fixedly connected to the bottom surface of the bottom sheet 23, the second traction rope 27 bypasses the second guide wheel 26, an annular guide groove 28 is also formed in the second guide wheel 26, and the second traction rope 27 is embedded in the annular guide groove 28 on the second guide wheel 26 and is wound by two circles.

Referring to fig. 2 and 4, one end of the second traction rope 27 connected to the bottom plate 23 (shown in fig. 3) is located at one side of the second guide pulley 26, and the electric push cylinder 3 is fixedly mounted on the side of the outer frame 1 (shown in fig. 1) at the other side of the second guide pulley 26. The electric pushing cylinder 3 is perpendicular to the bottom surface of the outer frame 1, the electric pushing cylinder 3 comprises a cylinder 31 and a piston rod 32, and one end of the piston rod 32 far away from the cylinder 31 is positioned at the lower side of the cylinder 31. A sliding block 33 is fixedly mounted on the lower end steel of the piston rod 32, a first extension plate 34 is fixedly mounted on one side face of the sliding block 33 close to the hollow glass 11, a second extension plate 35 is fixedly mounted on the side face of the sliding block 33 opposite to the side face of the first extension plate 34, the upper ends of the first extension plate 34 and the second extension plate 35 are higher than the lower end of the piston rod 32, and a sliding roller 36 is rotatably mounted on one side of the first extension plate 34 and the second extension plate 35 away from each other. A first anchoring block 37 and a second anchoring block 38 are fixedly mounted on the side surface of the outer frame 1 close to the electric push cylinder 3, and when the electric push cylinder 3 is completely contracted, the first anchoring block 37 is positioned on the upper side of the slide block 33, and the second anchoring block 38 is positioned on the lower side of the slide block 33. The end of the first hauling cable 25 far away from the bottom plate 23 is wound from the lower side of the sliding roller 36 on the first extension plate 34 and is fixedly connected to the first anchoring block 37; the end of the second pull cord 27 remote from the bottom plate 23 is routed over the slide roller 36 on the second extension plate 35 and is fixedly attached to the second anchor block 38.

Referring to fig. 2 and 5, the side edge of the end of the louver blade 21 is an end edge, and the linkage edge 4 is fixedly installed on the end edge of the end of the louver blade 21 far away from the electric push cylinder 3. A sliding rail 41 is fixedly installed on the side edge of the outer frame 1 (shown in fig. 1) close to the linkage edge 4, the sliding rail 41 is a vertically arranged first straight rod, a first groove is formed in the side surface of the first straight rod close to the linkage edge 4, and the length of the first groove is equal to that of the straight rod. One end of the linkage edge 4 is a first end, the other end is a second end, a cylindrical block as a sliding part 42 is integrally formed on the linkage edge 4, and the sliding part 42 is embedded in the first groove and moves up and down along the first groove. The distance between the sliding member 42 and the first end is less than the distance between the sliding member 42 and the second end, and a weighting strip 43 is integrally formed in the slat 21 on the side adjacent to the end edge and connected to the second end. A linkage groove 44 is arranged on the linkage edge 4 between the first end and the sliding part 42, and a linkage rod 45 is hinged on the first end; the linkage groove 44 is a through groove, and the rotation axis of the linkage rod 45 is perpendicular to the linkage edge 4 and parallel to the louver blade 21. One end of the linkage rod 45, which is far away from the linkage edge 4, is fixedly provided with a linkage block 46 serving as a linkage part, the linkage rod 45 on the lower louver blade 21 penetrates through the linkage groove 44 of the upper adjacent louver blade 21, and the position is limited by the linkage block 46, so that the linkage rod 45 cannot freely fall out of the linkage groove 44.

Referring to fig. 6 and 7, a pull-down assembly is fixedly installed at one side of the outer frame 1 (shown in fig. 1) where the sliding rail 41 is installed, and the pull-down assembly includes a limiting rail 5 and a limiting rod 51. The limiting rail 5 is located at the lower side of the side edge of the outer frame 1, and the limiting rail 5 is arranged along the sliding rail 41. The limiting rail 5 is a second straight rod, a second groove is formed in one side, away from the sliding rail 41, of the second straight rod, the second groove is an inverted T-shaped groove, and the length of the second groove is equal to that of the second straight rod. A limiting rack 52 is fixedly arranged on one side surface of the second groove adjacent to the bottom surface of the second groove, a limiting gear 53 is fixedly arranged in the second groove, the limiting gear 53 is meshed with the limiting rack 52, and the limiting gear 53 is driven by a direct current servo motor 54 to rotate. The limiting rod 51 is horizontally arranged and is parallel to the hollow glass 11, the limiting rod 51 is integrally formed with a moving block 511, the cross section of the moving block 511 is equal to the cross section of the second groove in size, is embedded in the second groove and is located on the lower side of the limiting gear 53, and the direct current servo motor 54 is fixedly installed on the limiting rod 51.

Referring to fig. 6 and 7, a limiting clamping jaw 6 is hinged to one side of the limiting rod 51 close to the bottom plate 23, the limiting clamping jaw 6 comprises an upper limiting jaw 61 and a lower limiting jaw 62, and the rotating axis of the upper limiting jaw 61 is horizontal and vertical to the side edge of the louver blade 21 adjacent to the end plate; the projection of the rotation axis on the bottom surface of the outer frame 1 (shown in fig. 1) is not coincident with the projection of the bottom sheet 23 on the bottom surface of the outer frame 1, and the projection of the lower limit claw 62 and the upper limit claw 61 on the bottom surface of the outer frame 1 is coincident with the projection of the bottom sheet 23 on the bottom surface of the outer frame 1; the rotation axes of the lower and upper restricting

pawls

62, 61 coincide. The rotation axes of the upper limiting claw 61 and the lower limiting claw 62 penetrate through the middle parts of the limiting claws and the lower limiting claw 62, the upper limiting claw 61 and the lower limiting claw 62 are mutually staggered, and one end, close to the bottom sheet 23, of the upper limiting claw 61 is higher than one end, close to the bottom sheet 23, of the lower limiting claw 62. A lower limiting block 64 is arranged beside the lower limiting claw 62, an upper limiting torsion spring is arranged between the upper limiting claw 61 and the lower limiting block 64, an upper limiting block 63 is arranged beside the upper limiting claw 61, and a lower limiting torsion spring is arranged between the lower limiting claw 62 and the upper limiting block 63. The projection of the upper and lower limiting

blocks

63 and 64 on the bottom surface of the outer frame 1 does not coincide with the projection of the bottom sheet 23 on the bottom surface of the outer frame 1. The sections of the upper limiting claw 61 and the lower limiting claw 62, which are positioned on the rotating axis and close to the bottom sheet 23, are both arranged into circular arcs, the center of a circle where the upper limiting claw 61 is positioned on the lower side of the upper limiting claw 61, and the center of a circle where the lower limiting claw 62 is positioned on the upper side of the lower limiting claw 62. The sections of the upper and lower restricting

claws

61 and 62 located on the rotation axis away from the bottom plate 23 are provided as straight rods. An upper approach switch 65 is fixedly mounted at the upper end of the limit track 5, and a lower approach switch 66 is fixedly mounted at the lower end. An upper control block 611 used for triggering the upper proximity switch 65 is fixedly installed at one end, away from the bottom sheet 23, of the lower limiting claw 62, and a lower control block 621 used for triggering the lower proximity switch 66 is fixedly installed at one end, away from the bottom sheet 23, of the upper limiting claw 61. When the limiting clamping jaw 6 is positioned at the upper end of the limiting track 5, and the upper limiting jaw 61 and the lower limiting jaw 62 are not abutted by the bottom sheet 23, the upper proximity switch 65 is positioned at the upper side of one end of the lower limiting jaw 62 far away from the bottom sheet 23; when the restricting claw 6 is positioned at the lower end of the restricting rail 5 and the upper restricting claw 61 and the lower restricting claw 62 are not abutted by the bottom piece 23, the lower approach switch 66 is positioned on the lower side of the end of the upper restricting claw 61 away from the bottom piece 23. When the upper control switch responds, the direct current servo motor 54 rotates, so that the limiting gear 53 moves along the limiting rack 52 and drives the limiting rod 51 to descend by the distance equal to the length of the limiting track 5; when the lower control switch responds, the direct current servo motor 54 rotates, so that the limit gear 53 moves along the limit rack 52 and drives the limit rod 51 to ascend by a distance equal to the length of the limit track 5.

The implementation principle of the embodiment is as follows: when the device is used at ordinary times, the sliding block 33 is driven to move by the electric pushing cylinder 3, and the sliding block 33 moves to drive the first guide wheel 24 and the second guide wheel 26 to move. When the sliding block 33 descends, the first traction rope 25 is tightened by the first guide wheel 24, and at the moment, the bottom sheet 23 ascends to support the upper louver blades 21, so that all the louver blades 21 are driven to ascend; when the slide block 33 is raised, the second traction rope 27 is tightened by the second guide pulley 26, and the bottom piece 23 is lowered downward. When the bottom plate 23 is lowered, the bottom plate 23 is connected to the connecting cord 22, and the lowermost louver 21 is thereby lowered. Because the two adjacent louver blades 21 are connected through the linkage rod 45 and the linkage groove 44 which are hinged on the linkage edge 4, and the linkage piece at one end of the linkage rod 45 far away from the linkage edge 4 slides along the linkage groove 44 in the upper adjacent louver blade 21, the whole louver blades 21 form a linkage mechanism which can be opened or closed together, and the louver blades 21 can be closed conveniently under the drive of the bottom sheet 23. When all the louvers 21 are closed, it is natural that the bottom end of the louver assembly 2 can be well attached to the bottom end of the outer frame 1. And through being provided with spacing clamping jaw 6, when electronic push cylinder 3 drove bottom piece 23 and descend to the position with spacing clamping jaw 6 upper surface butt, because last spacing claw 61 is rotatable, go up spacing claw 61 and keep away from the distance between the axis of rotation's the one end and the axis of rotation in the horizontal plane of axis of rotation and can be shorter and shorter, when bottom piece 23 overcome last spacing torsional spring, make bottom piece 23 slide to in last spacing claw 61 and the lower spacing claw 62, bottom piece 23 continues to move down and collides lower spacing claw 62. When the lower limiting claw 62 is abutted by the bottom piece 23, the lower limiting claw 62 rotates around the rotation axis to enable the other end of the lower limiting claw 62 to ascend, and enable the upper control block 611 at the other end of the lower limiting claw 62 to trigger the upper proximity switch 65, when the upper proximity switch 65 responds, the direct current servo motor 54 rotates and drives the limiting rod 51 to descend by the length of one limiting track 5, so that the whole limiting clamping jaw 6 descends, the upper limiting claw 61 is abutted with the bottom piece 23 and drives the bottom piece 23 to descend, and the bottom piece 23 can be well pulled to the bottom of the outer frame 1 through the limiting clamping jaw 6. At the moment, light can be well shielded, and the light is not easy to irradiate into a room from a gap between the louver assembly 2 and the bottom end of the outer frame 1. When the bottom plate 23 needs to be lifted, because the bottom plate 23 is still located in the limiting clamping jaw 6, the bottom plate 23 is lifted and abutted to the upper limiting jaw 61, the upper limiting jaw 61 rotates around the rotating axis, one end of the upper limiting jaw 61, which is far away from the bottom plate 23, descends, the lower control block 621 on the other end of the upper limiting jaw 61 triggers the lower approach switch 66, and when the approach switch responds, the direct-current servo motor 54 rotates and drives the limiting rod 51 to ascend by the length of one limiting rail 5, so that the whole limiting clamping jaw 6 is lifted, and the bottom plate 23 is lifted. When the bottom piece 23 rises to the upper end of the stopper rail 5, the bottom piece 23 is pulled by the first traction rope 25 and finally overcomes the upper stopper torsion spring between the upper stopper 61 and the lower stopper 64, and then the bottom piece 23 is separated from between the upper stopper 61 and the lower stopper 62.

The embodiments of the present invention are preferred embodiments of the present invention, and the scope of the present invention is not limited by these embodiments, so: all equivalent changes made according to the structure, shape and principle of the invention are covered by the protection scope of the invention.

Claims

1. An electric blind window comprises an outer frame (1), two pieces of hollow glass (11) arranged between the outer frame (1) and a blind assembly (2) arranged between the two pieces of hollow glass (11), wherein the blind assembly (2) comprises at least two blind blades (21), each blind blade (21) is parallel to each other, a bottom blade (23) is arranged on the lower side of the blind blade (21) at the lowest side, the bottom blade (23) is connected with the blind blade (21) through a connecting rope (22), a first guide pulley is rotatably arranged on the upper side of the blind assembly (2), a first traction rope (25) is fixedly connected onto the bottom blade (23), and the other end of the first traction rope (25) penetrates through the blind blade (21) and bypasses the first guide pulley; install the electric control subassembly between cavity glass (11), the electric control subassembly includes sliding block (33) and electronic push cylinder (3) that promote sliding block (33) and remove, and electronic push cylinder (3) are vertical to be set up, and the other end and the sliding block (33) of first haulage rope (25) are connected, its characterized in that: the louver blade is characterized in that the side edge of the end of the louver blade (21) is an end edge, a linkage edge (4) with the length equal to the length of the end edge is fixedly installed on the end edge, the two ends of the linkage edge (4) are respectively a first end and a second end, a sliding part (42) is fixedly connected between the first end and the second end, a vertical sliding track (41) is fixedly installed on the side edge of the outer frame (1) adjacent to the linkage edge (4), the sliding part (42) slides along the sliding track (41), a linkage groove (44) and a linkage rod (45) are arranged on the linkage edge (4) in a hinged mode, the linkage groove (44) and the linkage rod (45) are both located on one side of the sliding part (42), the linkage rod (45) is located on one side of the linkage groove (44) far away from the sliding part (42), the rotation axis of the linkage rod (45) is perpendicular to the linkage edge (4) and parallel to the louver blade (21), and a linkage part is fixedly installed on one end of the, one end of a linkage rod (45) on one louver blade (21) provided with a linkage piece is arranged in a linkage groove (44) on the upper side of the louver blade (21) in a penetrating way and moves along the linkage groove (44); a second traction rope (27) is fixedly connected to the bottom sheet (23), a second guide pulley is rotatably mounted on the lower side of the bottom sheet (23), the second traction rope (27) winds around the second guide pulley, and the other end of the second traction rope (27) is connected with the sliding block (33); the side edge of the outer frame (1) adjacent to the linkage edge (4) is fixedly provided with a pull-down component, and the pull-down component is positioned at the lower side of the side edge; the pull-down assembly comprises a limiting track (5) and a limiting rod (51) moving along the limiting track (5), a limiting clamping jaw (6) used for clamping a bottom sheet (23) is installed at one end of the limiting rod (51), the limiting track (5) is parallel to the sliding track (41), a direct-current servo motor (54) and a limiting gear (53) driven by the direct-current servo motor (54) are fixedly installed on the limiting rod (51), a limiting rack (52) which is arranged along the limiting track (5) and meshed with the limiting gear (53) is fixedly installed in the limiting track (5), the limiting clamping jaw (6) comprises a lower limiting jaw (62) and an upper limiting jaw (61) which is rotatably connected to the limiting rod (51), the rotating axis of the upper limiting jaw (61) is horizontal and perpendicular to the side edge adjacent to the end head edge in the louver blade (21), and the rotating axis of the upper limiting jaw (61) and the projection of the bottom sheet (23) on the bottom surface of the outer frame (1) are not overlapped, the lower limiting claw (62) is rotatably arranged on the limiting rod (51), the rotating axis of the lower limiting claw (62) is overlapped with the rotating axis of the upper limiting claw (61), and the projection of the lower limiting claw (62) and the upper limiting claw (61) on the bottom surface of the outer frame (1) is overlapped with the projection of the bottom sheet (23) on the bottom surface of the outer frame (1); the upper limiting claw (61) and the lower limiting claw (62) are mutually staggered, a lower limiting block (64) is arranged beside the lower limiting claw (62), an upper limiting torsion spring is arranged between the upper limiting claw (61) and the lower limiting block (64), an upper limiting block (63) is arranged beside the upper limiting claw (61), and a lower limiting torsion spring is arranged between the lower limiting claw (62) and the upper limiting block (63); an upper proximity switch (65) is fixedly mounted at the upper end of the limiting track (5), when the limiting clamping jaw (6) is located at the upper end of the limiting track (5), and the upper limiting jaw (61) and the lower limiting jaw (62) are not abutted by the bottom sheet (23), the upper proximity switch (65) is located at the upper side of one end, far away from the bottom sheet (23), of the lower limiting jaw (62), an upper control block (611) used for triggering the upper proximity switch (65) is fixedly mounted at one end, far away from the bottom sheet (23), of the lower limiting jaw (62), when the upper control switch responds, the direct-current servo motor (54) rotates and drives the limiting rod (51) to descend, and the descending distance is equal to the length of the limiting track (5); lower proximity switch (66) is fixedly mounted at the lower end of the limiting track (5), when the limiting clamping jaw (6) is located at the lower end of the limiting track (5), and the upper limiting jaw (61) and the lower limiting jaw (62) are not abutted by the bottom sheet (23), the lower proximity switch (66) is located at the lower side of one end, far away from the bottom sheet (23), of the upper limiting jaw (61), and one end, far away from the bottom sheet (23), of the upper limiting jaw (61) is fixedly mounted with a lower control block (621) used for triggering the lower proximity switch (66), when the lower control switch responds, the direct-current servo motor (54) rotates and drives the limiting rod (51) to ascend, and the ascending distance equals to the length of the limiting track (5).

2. An electric blind according to claim 1, wherein: the electric push cylinder (3) comprises a cylinder body (31) and a piston rod (32), one end, far away from the cylinder body (31), of the piston rod (32) is located on the lower side of the cylinder body (31), a sliding block (33) is located at the lower end of the piston rod (32), a first extension plate (34) is fixedly installed on one side face, parallel to the hollow glass (11), of the sliding block (33), a second extension plate (35) is fixedly installed on the opposite side face of the sliding block (33), the upper ends of the first extension plate (34) and the second extension plate (35) are higher than the lower end of the piston rod (32), sliding rollers (36) are rotatably installed on one sides, far away from each other, of the first extension plate (34) and the second extension plate (35), a first anchoring block (37) and a second anchoring block (38) are fixedly installed on the side edges, adjacent to the piston rod (32), of the outer frame (1), when the piston rod (32) is retracted into the cylinder body, the first anchoring block (37) is positioned on the upper side of the sliding block (33), the second anchoring block (38) is positioned on the lower side of the sliding block (33), the first traction rope (25) is wound around the lower side of the sliding roller (36) on the first extension plate (34) and fixedly connected to the first anchoring block (37), and the second traction rope (27) is wound around the upper side of the sliding roller (36) on the second extension plate (35) and fixedly connected to the second anchoring block (38).

3. An electric blind according to claim 2, wherein: the distance between the sliding piece (42) and the first end is smaller than the distance between the sliding piece (42) and the second end, the linkage groove (44) and the linkage rod (45) are both positioned between the first end and the sliding piece (42), and the side edge, adjacent to the end edge and connected with the second end, of the louver blade (21) is fixedly provided with the weighting strip (43).

4. An electric blind according to claim 3, wherein: the linkage groove (44) is a through groove, one end, far away from the linkage edge (4), of the linkage rod (45) penetrates through the through groove, the linkage piece is a linkage block (46), and the linkage block (46) is installed at one end, far away from the linkage edge (4), of the linkage rod (45).

5. An electric blind according to claim 1, wherein: the parts of the upper limiting claw (61) and the lower limiting claw (62) which are positioned on the rotating axis and close to the bottom sheet (23) are both arranged into circular arcs, the center of a circle where the upper limiting claw (61) is positioned on the lower side of the upper limiting claw (61), and the center of a circle where the lower limiting claw (62) is positioned on the upper side of the lower limiting claw (62).

6. An electric blind according to claim 5, wherein: the parts of the upper limiting claw (61) and the lower limiting claw (62) which are positioned on the rotating axis and far away from the bottom sheet (23) are arranged to be straight rods.

7. An electric blind according to claim 1, wherein: first haulage rope (25) and second haulage rope (27) all set up to wire rope, first leading wheel (24) and second leading wheel (26) on all seted up annular guide way (28), wire rope inlays to be established in annular guide way (28), and the winding has two rings or three rings.