The present invention relates to a curtain, particularly, a built-in sun-shading device of hollow glass.
Owing to excellent insulating and sun-shading effects, the pleated blinds of hollow glass become increasingly important in the modern construction in terms of energy efficiency; the blinds or pleated blinds of hollow glass have gradually been put into various applications, since blinds or pleated blinds of hollow glass are easy to clean, durable, fire-resistance and have special decorative effects. However, the blinds or pleated blinds of hollow glass currently in the market are all reduced to some drawbacks. Take the insulated glass blind assembly disclosed in U.S. Pat. No. 6,601,633B2 as an example. There, the blind cord is pulled downward under the magnetic force to raise the slats; once the cord is let go upward, the slats go downward under the gravity effect. In such a design, the several strands of cords can easily become tangled, making the blinds completely inoperable or making the lower frame of the blinds slid. In the U.S. Pat. No. 5,908,062, the lifting track of curtain makes use of two or more cord-winding shafts having a tapered cylindrical body; when the cord-winding shafts are operated to turn, two or more cords are wound orderly from the larger diametrical end to the smaller diametrical end, the curtain is lifted; when the cord-winding shafts are operated to turn in opposite direction, the curtain is lowered. However, in reality, such a device may face the problem that the curtain becomes slid as a result of cords being stuck between the cord-winding shaft and the end cap of the cord-winding shaft, or cords going up at varied speeds arising from difference between the exterior diameters of the cord-winding shafts. In the U.S. Pat. No. 6,817,401B2, the window blind assembly comprises a rotatable rod capable of simultaneously winding a plurality of cords; for the purpose of orderly winding, the rotatable rod needs to move back and forth, which nevertheless increases mechanical complexity and results lower efficacy in manufacturing and assembling.
Additionally, the width of the slats of the blinds is smaller than the spacing distance inside the hollow glass, such that the blinds can go up and down freely. However, when lifted up, the stack of slats of the blinds may be out of synch so as to result in collision with glass on two sides. In this case, friction would increase when the slats moves upward and downward, then the blind cannot be operated easily; meanwhile, the friction between the slats and the glass may cause scratches on the coating on the surface of the glass. In case of a large blind, the magnetic attract would be inadequate to raise or lower the blinds smoothly, or even the blinds can be raised up to the header position, the blind would be unable to retain at a desired position, because it may probably automatically drop down for a certain height under its weight.
The present invention is intended to provide a built-in sun-shading device of hollow glass capable of enabling balanced rolling-up and rolling-down, making a neat stack and preventing the sun-shading mechanism from dropping by itself.
In order to achieve aforesaid objective, the built-in sun-shading device of hollow glass provided by the present invention comprises a cord-winding mechanism, a transmission mechanism controlling the rotation of the cord-winding mechanism, and a sun-shading mechanism connected onto the cord-winding mechanism; the cord-winding mechanism comprises a cord-winding shaft having formed therein a plurality of shaft-wise grooves, a cord-winding propeller assembly arranged to engage with an end of the cord-winding shaft, wherein the cord-winding propeller assembly comprises a plurality of connection-guiding blocks designed to engage individually with each of the plurality of shaft-wise grooves on the cord-winding shaft and wherein the transmission mechanism is connected with the cord-winding shaft, and the sun-shading mechanism is fastened onto the cord-winding propeller assembly.
A group of shaft-wise grooves are arranged circumferentially around the cord-winding shaft, the cord-winding shaft being substantially circular in shape; and where the cord-winding propeller assembly further comprises a plurality of hoops arranged around the cord-winding shaft, wherein a ladder-cord fastening slot and a hoop fastening slot are arranged on at least one of the plurality of hoops; and a group of connection-guiding blocks are integrated into the hoops and match the grooves.
The connection-guiding blocks are tapered; the height of the end connecting with the hoop is greater than the depth of the groove, while the height of the other end is equal to or less than the depth of the groove.
The transmission mechanism comprises an upper pulley, a lower pulley, a belt, an inner handle and an outer handle; the upper pulley and the lower pulley are positioned by an upper pulley supporting stand and a lower pulley supporting stand; the two ends of the belt are discretely connected with the two ends of the inner handle so as to form a closed loop; the outer handle comprises a shell in which a group of roller mounting grooves are arranged; rollers are arranged inside the roller mounting grooves and are loosely connected to the shell; a group of magnets are arranged inside the shell.
The inner handle and the outer handle together form linkage under magnetic attraction.
The roller comprises a rolling body and rolling shafts positioned on two sides of the rolling body; rolling-shaft holes matching the rolling shafts are arranged on the shell, and the rolling-shaft holes are in a kidney shape.
The sun-shading mechanism comprises a group of slats or pleated slats; wherein the ladder-cords serially hold each slat and are connected with the cord-winding propeller assembly, pulling-cords are arranged at two ends of the slat, and the pulling cords are vertically intertwined onto the ladder-cords and one end of the pulling cords is fixed on the cord-winding shaft.
The ladder-cords comprise two sections of side cords that form a closed loop through connection, and a group of horizontal bars connecting these two sections of the pulling cords; the pulling cords and the horizontal bars are intertwined upward and are positioned restrictedly within the ladder-cords by the side cords.
The sun-shading mechanism further comprises blinds, pleated blinds or honeycomb blinds.
Owing to application of aforementioned technical solution, the present invention exhibits following advantages as compared to the prior art: the single cord-winding shaft used in the present invention is capable of winding a plurality of pulling cords, and this enables the sun-shading mechanism to have a balanced lifting and lowering; the single cord-winding shaft does not need to move back and forth, so the structure is simple and assembly thereof becomes more efficient. Meanwhile, the present invention makes use of the pulling cords which restricts the slats from moving back and forth such that the slats can stack up neatly, which therefore reduces contact with the hollow glass so as to protect the coating on the surface of the hollow glass and to reduce friction. Additionally, the present invention makes use of a single direction handle with frictional damping, which overcomes the defect of automatic fall happening to large-size sun-shading mechanism because of its large self-weight.
The present invention provides a built-in sun-shading device of hollow glass comprising a cord-winding mechanism, a transmission mechanism controlling the rotation of cord-winding mechanism, and a sun-shading mechanism connected onto the cord-winding mechanism.
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The above embodiment is set out for the purpose of not limiting the scope of the present invention but merely illustrating the inventive idea and characteristics of the present invention with the objective of assisting those skilled people in the art to further their understanding and application of the present invention. Various alternations and modifications may be made without departing from the spirit and broader aspects of the present invention as set forth in the appended claims.
Number | Date | Country | Kind |
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2012 1 0246022 | Jul 2012 | CN | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CN2012/000992 | 7/24/2012 | WO | 00 | 6/15/2015 |
Publishing Document | Publishing Date | Country | Kind |
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WO2014/012193 | 1/23/2014 | WO | A |
Number | Name | Date | Kind |
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6179035 | Anderson | Jan 2001 | B1 |
8616260 | Zhang | Dec 2013 | B2 |
20040211528 | Jin | Oct 2004 | A1 |
Number | Date | Country | |
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20150300081 A1 | Oct 2015 | US |