The present invention relates to a window covering and, more particularly, to a cordless magnetically attractive shade assembly.
A conventional roman shade comprises a headrail, a shading member mounted on and extended from the headrail, a plurality of transverse rods mounted on the shading member, and a lift cord extended through the shading member and secured to the bottom of the shading member to move the shading member upward and downward. When the lift cord is pulled, the transverse rods are driven and moved to roll or expand the shading member. Thus, the bottom of the shading member is lifted and folded by the lift cord to allow passage of the solar rays and is lowered and expanded by the lift cord to provide a shading effect. However, the lift cord depends from a side of the roman shade so that the lift cord is easily tangled with a child's neck during playing, thereby causing danger to the child. In addition, when the shading member is fully expanded, the solar rays cannot penetrate the shading member so that the indoor light is too weak, and when the shading member is fully folded, the solar rays directly irradiate the indoor room so that the indoor light is too strong.
In accordance with the present invention, there is provided a shade assembly comprising a first shading unit, a plurality of second shading units detachably connected with the first shading unit, and a third shading unit detachably connected with the first shading unit. The first shading unit includes a light permeation cloth having a top provided with a tubular portion which has a first mounting sleeve and a second mounting sleeve, a magnet structure mounted in the second mounting sleeve, a first connecting member mounted on a bottom of the light permeation cloth, and a second connecting member mounted on a rear face of the light permeation cloth and corresponding to the second mounting sleeve of the tubular portion. Each of the second shading units includes a shade cloth having a bottom provided with a tubular portion, a matching member mounted on a top of the shade cloth and detachably connected with the first connecting member of the first shading unit, a plurality of mounting sleeves mounted on the shade cloth and arranged under the matching member, a plurality of magnet structures mounted in the mounting sleeves respectively, a weight pole mounted in the tubular portion of the shade cloth, and a metal element mounted in one of the mounting sleeves and arranged between the magnet structures and the weight pole. The metal element is magnetically attracted by the magnet structures. The third shading unit includes a shade cloth having a top provided with a first tubular portion and a bottom provided with a second tubular portion, a magnet structure mounted in the first tubular portion of the shade cloth and magnetically attracted with the magnet structure of the first shading unit, a weight pole mounted in the second tubular portion of the shade cloth, at least one connecting member mounted on the top of the shade cloth, and at least one matching member mounted on the bottom of the shade cloth and detachably connected with the at least one connecting member.
According to the primary advantage of the present invention, the shade cloth of each of the second shading units and the shade cloth of the third shading unit are expanded and folded to regulate the shading effect and the indoor brightness.
Further benefits and advantages of the present invention will become apparent after a careful reading of the detailed description with appropriate reference to the accompanying drawings.
Referring to the drawings and initially to
The first shading unit 1 includes a light permeation cloth 11 having a top provided with a tubular portion 111 which has a first mounting sleeve 1111 and a second mounting sleeve 1112, a magnet structure 12 mounted in the second mounting sleeve 1112, a first connecting member 13 mounted on a bottom of the light permeation cloth 11, and a second connecting member 14 mounted on a rear face of the light permeation cloth 11 and corresponding to the second mounting sleeve 1112 of the tubular portion 111. The top of the light permeation cloth 11 is encircled and sewn to form the tubular portion 111. The tubular portion 111 is sewn to form the first mounting sleeve 1111 and the second mounting sleeve 1112.
Each of the second shading units 2 includes a shade cloth 21 having a bottom provided with a tubular portion 211, a matching member 22 mounted on a top of the shade cloth 21 and detachably connected with the first connecting member 13 of the first shading unit 1, a plurality of mounting sleeves 23 mounted on the shade cloth 21 and arranged under the matching member 22, a plurality of magnet structures 24 mounted in the mounting sleeves 23 respectively, a weight pole 25 mounted in the tubular portion 211 of the shade cloth 21, and a metal element 26 mounted in one of the mounting sleeves 23 and arranged between the magnet structures 24 and the weight pole 25. The bottom of the shade cloth 21 is encircled and sewn to form the tubular portion 211. Each of the mounting sleeves 23 is made of cloth material and is sewn on the shade cloth 21. The weight pole 25 is made of plastic material. The metal element 26 is an elongate pole. The metal element 26 is magnetically attracted by the magnet structures 24.
The third shading unit 3 includes a shade cloth 31 having a top provided with a first tubular portion 311 and a bottom provided with a second tubular portion 312, a magnet structure 32 mounted in the first tubular portion 311 of the shade cloth 31 and magnetically attracted with the magnet structure 12 of the first shading unit 1, a weight pole 33 mounted in the second tubular portion 312 of the shade cloth 31, at least one connecting member 34 mounted on the top of the shade cloth 31, and at least one matching member 35 mounted on the bottom of the shade cloth 31 and detachably connected with the at least one connecting member 34 in a sticking member. The top of the shade cloth 31 is encircled and sewn to form the first tubular portion 311, and the bottom of the shade cloth 31 is encircled and sewn to form the second tubular portion 312. The weight pole 33 is made of plastic material.
In the preferred embodiment of the present invention, each of the magnet structures 12, 24 and 32 of the first shading unit 1, each of the second shading units 2 and the third shading unit 3 includes a housing 121, 241 and 321, and at least one magnet 122, 242 and 322 mounted in the housing 121, 241 and 321 as shown in
In the preferred embodiment of the present invention, each of the second shading units 2 further includes an adjusting structure 27 mounted on the shade cloth 21 and corresponding to the metal element 26 to aid a user moving and adjust the position of the metal element 26. The adjusting structure 27 includes an adjusting piece 271 arranged on a front face of the shade cloth 21, two clamping pieces 272 arranged on a rear face of the shade cloth 21, and a plurality of fastening members 273 extending through the two clamping pieces 272 and the adjusting piece 271 to combine the two clamping pieces 272 with the adjusting piece 271 as shown in
In practice, the first shading unit 1, each of the second shading units 2 and the third shading unit 3 are connected in two modes.
In the first mode, each of the first connecting member 13 and the second connecting member 14 of the first shading unit 1, and the at least one connecting member 34 of the third shading unit 3 is a loop tape or a hook tape, while each of the matching member 22 of each of the second shading units 2 and the at least one matching member 35 of the third shading unit 3 is a hook tape or a loop tape as shown in
In the second mode, each of the first connecting member 13 of the first shading unit 1 and the matching member 22 of each of the second shading units 2 is an elongate rod and is clamped in a clamping sleeve 5 as shown in
Referring to
In practice, the first shading unit 1, each of the second shading units 2, the third shading unit 3 and the fourth shading unit 4 are connected in two modes.
In the first mode, each of the first connecting member 13 and the second connecting member 14 of the first shading unit 1, and the at least one connecting member 34 of the third shading unit 3 is a loop tape or a hook tape, while each of the matching member 22 of each of the second shading units 2 and the at least one matching member 35 of the third shading unit 3 is a hook tape or a loop tape. The bottom of the light permeation cloth 11 has a rear face provided with a third connecting member 15, and the matching member 42 of the fourth shading unit 4 is connected with the third connecting member 15 of the first shading unit 1 in a sticking manner. The third connecting member 15 of the first shading unit 1 is a loop tape or a hook tape, while the matching member 42 of the fourth shading unit 4 is a hook tape or a loop tape as shown in
In the second mode, each of the first connecting member 13 of the first shading unit 1, the matching member 22 of each of the second shading units 2 and the matching member 42 of the fourth shading unit 4 is an elongate rod and is clamped in a clamping sleeve 5 as shown in
In assembly, the matching member 22 of each of the second shading units 2 is connected with the first connecting member 13 of the first shading unit 1, so that each of the second shading units 2 is arranged under the first shading unit 1. The magnet structure 32 of the third shading unit 3 is magnetically attracted with the magnet structure 12 of the first shading unit 1, so that the third shading unit 3 is located in front of the first shading unit 1 and arranged above the second shading units 2. The matching member 42 of the fourth shading unit 4 is connected with the third connecting member 15 of the first shading unit 1, so that the fourth shading unit 4 is arranged under the first shading unit 1 and juxtaposed to the second shading units 2.
In operation, referring to
When the extension 2713 of the adjusting structure 27 of each of the second shading units 2 is held and moved by a user's finger as shown in
As shown in
Accordingly, the shade cloth 21 of each of the second shading units 2 and the shade cloth 31 of the third shading unit 3 are expanded and folded to regulate the shading effect and the indoor brightness. In addition, the first shading unit 1, the second shading units 2, the third shading unit 3 and the fourth shading unit 4 can be detached from each other to facilitate the user respectively washing and cleaning the first shading unit 1, the second shading units 2, the third shading unit 3 and the fourth shading unit 4.
Although the invention has been explained in relation to its preferred embodiment(s) as mentioned above, it is to be understood that many other possible modifications and variations can be made without departing from the scope of the present invention. It is, therefore, contemplated that the appended claim or claims will cover such modifications and variations that fall within the scope of the invention.
Number | Name | Date | Kind |
---|---|---|---|
7150304 | Hsu | Dec 2006 | B2 |
20120102707 | Chen | May 2012 | A1 |
20120234502 | Chen | Sep 2012 | A1 |
20160120352 | Hsu | May 2016 | A1 |
20160376838 | Hsu | Dec 2016 | A1 |
20170138121 | Hsu | May 2017 | A1 |
20170218693 | Hsu | Aug 2017 | A1 |