Window covering

Abstract

A window covering includes a headrail and a covering material positioned under the headrail. The covering material includes a slat assembly. The headrail includes a traverse board and a pressure-dispersion structure, wherein the pressure-dispersion structure is positioned at the traverse board, and protrudes from a bottom surface of the traverse board. On a side of the pressure-dispersion structure facing the slat assembly, a pressure-dispersion area is formed corresponding to a topmost slat of the slat assembly which is closest to the headrail. When the covering material is raised and eventually contacts the headrail, the topmost slat can be controlled to contact at least part of the pressure-dispersion area, whereby to disperse a pressure applied to the slats.

Claims

1. A window covering, comprising: a headrail, which comprises a front board, a rear board, a traverse board, a light-blocking bar, and a pressure-dispersion structure, wherein the front board and the rear board are respectively connected to two opposite longitudinal sides of the traverse board; the light-blocking bar protrudes from a bottom surface of the traverse board, and extends in a longitudinal direction of the traverse board; the pressure-dispersion structure is positioned at the traverse board, and protrudes from the bottom surface of the traverse board; and a covering material, which is positioned under the headrail, and comprises a slat assembly and a ladder tape, wherein the ladder tape comprises two vertical cords and a plurality of traverse cords; one end of each of the traverse cords is connected to one of the vertical cords, and another end thereof is connected to the other one of the vertical cords; one end of each of the vertical cords is connected to a tilting member in the headrail; the slat assembly is positioned between the vertical cords, and has a plurality of slats, wherein each of the traverse cords respectively correspondingly holds one of the slats of the slat assembly; the plurality of slats comprises a topmost slat which is closest to the headrail; wherein a pressure-dispersion area is formed on a side of the pressure-dispersion structure facing the slat assembly, corresponding to the topmost slat; when the covering material is lowered, the slats of the slat assembly are adapted to be tilted by the tilting member through the ladder tape; when the slats are tilted to a closed position, the light-blocking bar covers a part of a surface of the topmost slat; said part of the surface of the topmost slat covered by the light-blocking bar is defined as an abutting area; when the covering material is raised and contacts the headrail, the topmost slat operably contacts the pressure-dispersion area in a manner that the topmost slat and the pressure-dispersion area have no gap left therebetween; wherein the pressure-dispersion area and the topmost slat are both flat; wherein the pressure-dispersion area is larger than the abutting area of the topmost slat to disperse a pressure applied to the topmost slat.

2. The window covering of claim 1, wherein a central axis of the pressure-dispersion structure in the longitudinal direction and a central axis of the traverse board in the longitudinal direction are coplanar neither in a vertical direction nor in a horizontal direction; in the horizontal direction, the central axis of the pressure-dispersion structure in the longitudinal direction is closer to the front board than the central axis of the traverse board in the longitudinal direction.

3. The window covering of claim 1, wherein an area of the pressure-dispersion area is 20% to 90% of an area of the topmost slat.

4. The window covering of claim 1, wherein the pressure-dispersion area is a continuous plane, and is adapted to completely contact the topmost slat.

5. The window covering of claim 1, wherein the pressure-dispersion structure comprises a first rib and a second rib, wherein the first rib and the second rib respectively extend in the longitudinal direction of the traverse board; a tip of the first rib and a tip of the second rib are coplanar, whereby to define the pressure-dispersion area.

6. The window covering of claim 5, wherein the tip of the first rib, the tip of the second rib, and a tip of the light-blocking bar are coplanar.

7. The window covering of claim 5, wherein the pressure-dispersion structure further comprises a third rib positioned between the first rib and the second rib, and a tip of the third rib and the tips of the first rib and the second rib are coplanar.

8. The window covering of claim 7, wherein the third rib extends in the longitudinal direction of the traverse board.

9. The window covering of claim 7, wherein one end of the third rib is connected to the first rib, while another end thereof is connected to the second rib.

10. The window covering of claim 1, wherein the headrail further comprises an opening going through the traverse board and the pressure-dispersion structure, and the end of each of the vertical cords of the ladder tape is connected to the tilting member in the headrail after passing through the opening.

11. The window covering of claim 10, wherein the covering material further comprises a lifting cord; one end of the lifting cord is adapted to drive the slat assembly to move, and another end thereof goes into the headrail through the opening.

12. The window covering of claim 1, wherein the light-blocking bar is adjacent to the pressure-dispersion structure.

13. The window covering of claim 1, wherein the light-blocking bar and the pressure-dispersion structure are formed integrally.

14. The window covering of claim 1, wherein the part of the surface of the topmost slat contacts a side surface of the light-blocking bar.

Description

BRIEF DESCRIPTION OF THE SEVERAL VIEWS OF THE DRAWINGS

(1) The present invention will be best understood by referring to the following detailed description of some illustrative embodiments in conjunction with the accompanying drawings, in which:

(2) FIG. 1 is a side view of a conventional blind, wherein a covering material of the blind is extended, and slats thereof are tilted to block light;

(3) FIG. 2 is another side view of the conventional blind, wherein the covering material of the blind is pulled up;

(4) FIG. 3 is a perspective view of a blind implemented according to a first embodiment of the present invention;

(5) FIG. 4 is a perspective view of a headrail implemented according to the first embodiment of the present invention;

(6) FIG. 5 is a side view of the blind implemented according to the first embodiment of the present invention, wherein a covering material of the blind is pulled up;

(7) FIG. 6 is another side view of the blind implemented according to the first embodiment of the present invention, wherein the covering material of the blind is extended, and slats thereof are tilted to block light;

(8) FIG. 7 is a perspective view of a blind implemented according to a second embodiment of the present invention;

(9) FIG. 8 is a perspective view of a headrail implemented according to the second embodiment of the present invention;

(10) FIG. 9 is a side view of the blind implemented according to the second embodiment of the present invention, wherein a covering material of the blind is pulled up;

(11) FIG. 10 is another side view of the blind implemented according to the second embodiment of the present invention, wherein the covering material of the blind is extended, and slats thereof are tilted to block light; and

(12) FIG. 11 is a bottom view of a headrail implemented according to a third embodiment of the present invention.

DETAILED DESCRIPTION OF THE INVENTION

(13) To easily understand the concept of the present invention, several embodiments are illustrated as the following with accompanying drawings. In each of embodiments of the present invention, the headrail includes side caps; however, the profiles of the side caps of each embodiment are omitted in the drawings for clear renderings. A window covering 20 implemented according to a first embodiment of the present invention is shown in FIG. 3 to FIG. 6, which includes a headrail 22 and a covering material 24, wherein the covering material 24 is located under the headrail 22. The covering material 24 includes a lifting cord 242, a ladder tape 244, and a plurality of slats 246, wherein the lifting cord 242 has one end passing through the headrail 12 to raise the covering material 24 toward the headrail 22 or to extend the covering material 24. The ladder tape 244 includes two vertical cords and a plurality of traverse cords, wherein each of the traverse cords has one end connected to one of the vertical cords while another end thereof is connected to the other one of the vertical cords, and thereby the ladder tape 244 is ladder-like. Each of the vertical cords had one end connected to a tilting member (not shown) in the headrail 22, and each of the slats 246 is correspondingly positioned on one of the traverse cords. The slats 246 include a topmost slat 246a, which is closest to the headrail 22.

(14) In the present embodiment, the headrail 22 includes a front board 221, a light-blocking bar 222, a rear board 223, a traverse board 224, and a pressure-dispersion structure 226. The front board 221 and the rear board 223 are respectively connected to two opposite longitudinal sides of the traverse board 224. The light-blocking bar 222 protrudes from a bottom surface 2242 of the traverse board 224, and extends in the longitudinal direction of the traverse board 224. When the covering material 24 is lowered, the slats 246 could be driven to tilt by the tilting member through the ladder tape 244, and thereby a part of a surface of the topmost slat 246a could be covered by the light-blocking bar 222. The pressure-dispersion structure 226 is also positioned at the traverse board 224, and protrudes from the bottom surface 2242 of the traverse board 224. Furthermore, a pressure-dispersion area A1 is formed on one side of the pressure-dispersion structure 226 facing the slats 246, corresponding to the topmost slat 246a.

(15) In the present embodiment, the pressure-dispersion structure 226 is a platform-like structure protruding toward the slats 246, and the pressure-dispersion area A1 is a continuous plane which could completely contact the slat 246a. When the covering material 24 is pulled up, the topmost slat 246a could be operated to contact the pressure-dispersion area A1, whereby the pressure applied to the topmost slat 246a could be dispersed. In accordance with the embodiment of the present invention, the area of the pressure-dispersion area A1 is 20% to 90% of the area of the topmost slat 246a. Besides, in the present embodiment, the light-blocking bar 222 and the pressure-dispersion structure 226 are formed integrally, and the pressure-dispersion structure 226 integrally protrudes from the traverse board 224, but these structures are not limitations of the present invention. In other embodiments, the pressure-dispersion structure 226 could be an independent component protruding under the traverse board 224 adjacent to the light-blocking bar 222.

(16) It is worth mentioning that, a central axis L1 of the pressure-dispersion structure 226 in the longitudinal direction and a central axis L2 of the traverse board 224 in the longitudinal direction are coplanar neither in the vertical direction nor in the horizontal direction. Furthermore, in horizontal direction, the central axis L1 of the pressure-dispersion structure 226 is closer to the front board 221 than the central axis L2 of the traverse board 224 is. Whereby, when the slats 246 are tilted in a position where the front side of the slat is down and the rear side thereof is up, there would be a space sufficient to allow the topmost slat 246a to tilt, for the pressure-dispersion structure 222 is closer to the front board 221, so that the slats 246 could be tilted to a substantially vertical position, and therefore could be vertically arranged to be tightly closed by each other. In this way, a preferred light-blocking effect could be provided. Furthermore, in the present embodiment, a part of the surface of the topmost slat 246a could further contact the side surface of the light-blocking bar 222, whereby the slats 246 could be tilted to the substantially vertical position, so as to prevent light leakage.

(17) In the current embodiment of the present invention, the lifting cord 242 of the covering material 24 is not limited to have to pass through holes on the slats, or have to pass through side edges of the slats 246 as shown in the drawings. To work with the related arrangements of the lifting cord 242, the ladder tape 244, and the slats 246 in the covering material 24, the headrail 22 in the current embodiment further includes several openings 228 going through the traverse board 224 and the pressure-dispersion structure 226, whereby one end of each of the vertical cords of the ladder tape 224 is connected to a tilting member in the headrail 22 after passing through one of the openings 228. Accordingly, one end of the lifting cord 242 could drive the slats 246 to move, and another end thereof could go into the headrail 22 through one of the openings 228.

(18) A window covering 30 implemented according to a second embodiment of the present invention is shown in FIG. 7 to FIG. 10, which includes a headrail 32 and the covering material 24 positioned under the headrail 32. The window covering 30 in the second embodiment is similar to the window covering 20 in the first embodiment, except that the design of the headrail 32 is different from that of the headrail 22.

(19) In the present embodiment, the headrail 32 includes a front board 321, a light-blocking bar 322, a rear board 324, and a pressure-dispersion structure 326. The front board 321 and the rear board 323 are respectively connected to two opposite longitudinal sides of the traverse board 324. The light-blocking bar 322 protrudes from a bottom surface 3242 of the traverse board 324, and extends in the longitudinal direction of the traverse board 324. When the covering material 24 is lowered, the slats 246 could be driven to tilt by the tilting member through the ladder tape 244, and thereby the part of the surface of the topmost slat 246a could be blocked by the light-blocking bar 322. The pressure-dispersion structure 326 is also positioned at the traverse board 324, and protrudes from the bottom surface 3242 of the traverse board 324. Furthermore, a pressure-dispersion area A2 is formed on one side of the pressure-dispersion structure 326 facing the slats 246, corresponding to the topmost slat 246a of the slats 246.

(20) The pressure-dispersion structure 326 at least includes a first rib 326a and a second rib 326b, wherein the first rib 326a and the light-blocking bar 322 are co-constructed, whereby in the current embodiment, the light-blocking bar 322 and the first rib 326a are formed integrally. The first rib 326a and the second rib 326b respectively extend in a longitudinal direction of the traverse board 324, and a tip of the first rib 326a and a tip of the second rib 326b are coplanar to form a pressure-dispersion area A2. When the slats 246 are moved upward, the pressure applied to the topmost slat 246a, which is provided by the single light-blocking bar 322, could be dispersed by the pressure-dispersion area A2. According to the current embodiment of the present invention, the area of the pressure-dispersion area A2 is 20% to 90% of the area of the slat 246a. In the current embodiment, the light-blocking bar 322 is adjacent to the pressure-dispersion structure 326. In another embodiment, the light-blocking bar 322 and the first rib 326a of the pressure-dispersion structure 326 are formed integrally, and have the same tip to contact the slat 246a, which could be co-constructed with the tip of the second rib 326b to form the pressure-dispersion area A2. In the current embodiment, the pressure-dispersion structure 326 further includes at least one third rib 326c positioned between the first rib 326a and the second rib 326b, and the pressure-dispersion area A2 includes coplanar tips of the first rib 326a, the second rib 326b, and the third rib 326c. In the current embodiment, the third rib 326c extends in the longitudinal direction of the traverse board 324.

(21) It is worth mentioning that, a central axis L3 of the pressure-dispersion structure 326 in the longitudinal direction and a central axis L4 of the traverse board 324 in the longitudinal direction are coplanar neither in the vertical direction nor in the horizontal direction. Furthermore, in the horizontal direction, the central axis L3 of the pressure-dispersion structure 326 is closer to the front board 321 than the central axis L4 of the traverse board 324. Whereby, when the slats 246 are tilted in a position where the front side of the slat is down and the rear side thereof is up, there would be a space sufficient to allow the topmost slat 246a to tilt, for the pressure-dispersion structure 322 is closer to the front board 321, so that the slats 246 could be tilted to a substantially vertical position, and could be vertically arranged to be tightly closed by each other, whereby a preferred light-blocking efficient could be provided.

(22) In the current embodiment of the present invention, the lifting cord 242 of the covering material 24 is not limited to have to pass through holes on the slats, or have to pass through side edges of the slats 246 as shown in drawings. To work with the related arrangements of the lifting cord 242, the ladder tape 244, and the slats 246 in the covering material 24, the headrail 32 in the current embodiment further includes several openings 328 going through the traverse board 324 and the pressure-dispersion structure 326, whereby one end of each of the vertical cords of the ladder tape 224 is connected to a tilting member in the headrail 32 after passing through one of the openings 328. Accordingly, one end of the lifting cord 242 could drive the slats 246 to move, and another end thereof could go into the headrail 32 through one of the openings 328.

(23) As shown in FIG. 11, the headrail 42 in the third embodiment is similar to the headrail 32 in the second embodiment; however, the difference between the headrail 42 in the third embodiment and the headrail 32 in the second embodiment is that, the third rib 426c in the headrail 42 is different from the third rib 326c of the headrail 32. In the current embodiment, the third rib 426c has one end connected to the first rib 426a, and another end connected to the second rib 426b; the tips of the first rib 426a, the second rib 426b, and the third rib 426c are coplanar. The headrail 42 further includes several openings 428 going through the traverse board 424 and the pressure-dispersion structure 426, whereby to allow a lifting cord and/or a ladder tape to go into the headrail 42 therethrough.

(24) The headrail 42 includes a light-blocking bar 422 protruding from a bottom surface of the traverse board 424, and the light-blocking bar 422 extends in the longitudinal direction of the traverse board 424. In the current embodiment, the light-blocking bar 422 is adjacent to the pressure-dispersion structure 426.

(25) When the covering material of the window covering is pulled up, the pressure-dispersion structure of the headrail in the embodiments of the present invention includes the pressure-dispersion area, of which the area is greater than the tip of the light-blocking bar. Besides, the pressure-dispersion area and the tip of the light-blocking bar could be coplanar, whereby to reduce the pressure applied to the topmost slat As a result, the topmost slat could be prevented from being damaged or broken while the covering material is being raised completely. On the other hand, the pressure-dispersion bar could be connected to the light-blocking bar to completely block light, whereby to prevent light from passing through the gap between the headrail and the topmost slat. Furthermore, there would be sufficient space for tilting the slats, so that the slats could be tilted to a substantially vertical position, and could be vertically arranged to be tightly closed by each other. Therefore, a preferred light-blocking effect could be provided.

(26) It must be pointed out that the embodiments described above are only some preferred embodiments of the present invention. All equivalent structures which employ the concepts disclosed in this specification and the appended claims should fall within the scope of the present invention.