Christmas tree cover

Abstract

The present disclosure provides a Christmas tree cover, which comprising a conical cover surface formed by enclosing fan-shaped fabric and stitching the fan-shaped fabric with a zipper; the bottom of the cover surface is sewn with a cover bottom, which is provided with a hole and an opening, and the zipper extends to the edge of the hole; a support rod is arranged on the side of the zipper; a blocking component is also provided at the bottom of the support rod to prevent the support rod from slipping out. This solution enhances the operability of the Christmas tree cover through the arrangement of the support rod, thereby facilitating single-person operation.

Claims

1. A Christmas tree cover, comprising a conical cover surface formed by enclosing one or more pieces of fan-shaped fabrics and stitching two straight edges of adjoining fan-shaped fabrics with one or more zippers, wherein a bottom of the cover surface is sewn with a cover bottom, the cover bottom is provided with a hole for accommodating a Christmas tree trunk and an opening for the Christmas tree trunk to pass through, and the zipper is simultaneously sewn to both sides of the opening and extends to an edge of the hole; a first webbing strap is sewn along each of the two straight edges of the fan-shaped fabric, and both long edges and a top short edge of the first webbing strap are sewn to the fan-shaped fabric, so that the first webbing strap and the cover surface enclose to form a cavity, and a support rod is installed inside the cavity; and a blocking component is also arranged at an outlet of the cavity to prevent the support rod from slipping out of the cavity.

2. The Christmas tree cover according to claim 1, wherein the cover surface is made by stitching the straight edges of two pieces of fan-shaped fabrics with two zippers.

3. The Christmas tree cover according to claim 1, wherein the blocking component is a second webbing strap sewn at the outlet of the cavity, with a hook side of Velcro arranged on the second webbing strap and a loop side of Velcro arranged on the first webbing strap adjacent to the outlet of the cavity, and after the loop side and the hook side of Velcro are adhered, the cavity is closed to block the support rod from slipping out of the cavity.

4. The Christmas tree cover according to claim 1, wherein the blocking component is a stopper arranged at the outlet of the cavity, and the stopper is provided with an insertion hole that is interference-fitted with the support rod.

5. The Christmas tree cover according to claim 1, wherein the support rod is of a fold-and fit structure, and the support rod is extended by fitting during use and is pulled out to be folded during storage.

6. The Christmas tree cover according to claim 1, wherein a drawstring is provided on a slider of the zipper.

7. The Christmas tree cover according to claim 1, wherein more than one set of buckles is provided on both sides of the zipper, and the buckles are connected to prevent the zipper from separating due to an external pulling force.

8. The Christmas tree cover according to claim 1, wherein the fan-shaped fabric is made of opaque oxford cloth.

9. The Christmas tree cover according to claim 8, wherein a gathering structure is provided at the edge of the hole, enabling the cover bottom to tightly fit around the trunk of the Christmas tree.

10. A Christmas tree cover, comprising a cover surface, the cover surface being frustoconical in shape and comprising a side cover surface and a top cover surface that covers and is stitched to a top of the side cover surface, wherein the side cover surface is formed by enclosing one or more pieces of fan-shaped fabrics and stitching two straight edges of adjoining fan-shaped fabrics with one or more zippers; a cover bottom is stitched at a bottom of the cover surface, with a hole for accommodating a trunk of the Christmas tree and an opening for the trunk to pass through, the zipper being stitched to both sides of the opening and extending to an edge of the hole; a first webbing strap is sewn along each of the two straight edges of the fan-shaped fabric, and both long edges and a top short edge of the first webbing strap are sewn to the fan-shaped fabric, so that the first webbing strap and the cover surface enclose to form a cavity, and a support rod is installed inside the cavity; and a blocking component is also provided at the outlet of the cavity to prevent the support rod from slipping out of the cavity.

11. The Christmas tree cover according to claim 10, wherein the side cover surface is made by stitching two pieces of fan-shaped fabrics together along the straight edges thereof using two zippers.

12. The Christmas tree cover according to claim 10, wherein the blocking component is a second webbing strap stitched at the outlet of the cavity, with a hook side of Velcro arranged on the second webbing strap and a loop side of Velcro arranged on the first webbing strap adjacent to the outlet of the cavity, and after the loop side and the hook side of Velcro are adhered, the cavity is closed to block the support rod from slipping out of the cavity.

13. The Christmas tree cover according to claim 10, wherein the blocking component is a stopper provided at the outlet of the cavity, and the stopper is provided with an insertion hole that is interference-fitted with the support rod.

14. The Christmas tree cover according to claim 10, wherein the support rod has a fold-and fit structure, and the support rod is extended by fitting during use and is pulled out to be folded during storage.

15. The Christmas tree cover according to claim 10, wherein a drawstring is provided on a slider of the zipper.

16. The Christmas tree cover according to claim 10, wherein more than one set of buckles are provided on both sides of the zipper, and the buckles are connected to prevent the zipper from separating due to an external pulling force.

17. The Christmas tree cover according to claim 10, wherein the fan-shaped fabric is made of opaque oxford cloth.

18. The Christmas tree cover according to claim 17, wherein a gathering structure is provided at the edge of the hole, enabling the cover bottom to tightly fit around the trunk of the Christmas tree.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0017] FIG. 1 is a schematic diagram of the conical Christmas tree cover of the present disclosure;

[0018] FIG. 2 is a schematic diagram of the frustum-shaped Christmas tree cover of the present disclosure;

[0019] FIG. 3 is a schematic diagram of the frustum-shaped Christmas tree cover with the second webbing strap opened;

[0020] FIG. 4 is a schematic diagram of the cover bottom structure of the Christmas tree cover of the present disclosure;

[0021] FIG. 5 is a schematic diagram of the fan-shaped fabric and fan-ring fabric of the present disclosure;

[0022] FIG. 6 is a schematic diagram of the cover surface made from two pieces of fan-shaped fabric;

[0023] FIG. 7 is a schematic diagram of the cover surface made from two pieces of fan-ring fabric and the top cover surface;

[0024] FIG. 8 is an enlarged view of section A in FIG. 2; and

[0025] FIG. 9 is an enlarged view of section B in FIG. 3.

DETAILED DESCRIPTION OF THE EMBODIMENTS

[0026] The following provides a further detailed description of the present disclosure with reference to the drawings and specific embodiments.

Embodiment 1

[0027] As shown in FIG. 1, the Christmas tree cover is conical in shape, closely conforming to the outline of a Christmas tree. The Christmas tree cover is formed by connecting the cover surface 100 and the cover bottom 200 through sewing.

[0028] The cover surface 100 is made from a single piece of fan-shaped fabric 101, as illustrated in FIG. 4: the center of the fan-shaped fabric 101 serves as the apex of the conical cover surface, and the radius of the fan-shaped fabric 101 acts as the generatrix of the cone. After wrapping the fan-shaped fabric 101 into a conical structure, a zipper 302 is sewn along the two adjoining straight edges to complete the formation of the cover surface.

[0029] The cover bottom 200 is sewn to the base of the conical cover surface 100. As shown in FIG. 3, the cover bottom 200 features an opening 202, with a hole 201 reserved at the end of the opening 202. The zipper 302 used to sew the cover surface 100 extends synchronously to the cover bottom 200, stitching the edges on both sides of the opening 202 and continuing to the hole 201, forming an open-close structure that runs through the cover surface 100 and cover bottom 200. When using the Christmas tree cover, the user simply unzips the zipper 302 to unfold the cover, places it over the Christmas tree with the tree trunk positioned in the hole 201 of the cover bottom 200, and then zips the zipper 302 to complete the wrapping. In this embodiment, the hole 201 is located at the center of the cover bottom 200, making the cover bottom 200 ring-shaped.

[0030] As shown in FIG. 8, the cover surface 100 also has first webbing straps 301 sewn onto it, symmetrically distributed on both sides of the zipper 302. Specifically, the first webbing straps 301 are long backpack straps. After being sewn onto the cover surface 100, their length aligns with the direction of the zipper 302. During sewing, both long edges and the short edge adjacent to the top of the cover surface 100 are tightly stitched to the cover surface 100, leaving only the side adjacent to the bottom of the cover surface 100 open, forming a pocket-like cavity. This cavity is used to install support rods 303, which provide support for the Christmas tree cover, allowing the user to grasp the two support rods 303 with both hands to wrap the cover around the tree. Additionally, a blocking component is installed at the outlet of the cavity to effectively limit the displacement of the support rods 303 and prevent them from sliding out.

[0031] As shown in FIGS. 2 and 8, in this embodiment, the blocking component includes a second webbing strap 401 with Velcro. The second webbing strap 401 is a long backpack-style strap, with one end along its length fixed to the bottom of the cover surface 100 via stitching, while the other end is sewn with the hook side of Velcro 4011. Correspondingly, the loop side of Velcro 3011 is sewn onto the matching position of the first webbing strap 301.

[0032] When fixation is required, the second webbing strap 401 is adhered to the first webbing strap 301 by aligning the hook side of Velcro 4011 with the loop side of Velcro 3011, thereby securing the connection between the two straps. This design effectively restricts the displacement of the support rod 303, preventing it from sliding out of the cavity.

[0033] As an alternative implementation, the blocking component is designed as a stopper 402 with an insertion hole 4021. The specific structure is shown in FIG. 9: the stopper 402 is stitched adjacent to the outlet of the cavity, forming a limiting structure for the support rod 303. To fix the support rod 303, the exposed end of the support rod 303 is inserted into the insertion hole 4021 of the stopper 402, achieving a tight fit through interference between the two, thereby effectively restricting the displacement of the support rod 303 and ultimately preventing it from sliding out of the preset position.

[0034] In another embodiment, the cover surface is formed by joining two fan-shaped fabrics 101, with their sides stitched together. The specific structure is shown in FIG. 6: the two fan-shaped fabrics 101 constitute the two symmetrical sides of the conical cover surface 100. During assembly, one straight edge of one fan-shaped fabric 101 is aligned with a straight edge of the other fan-shaped fabric 101, while the other straight edge of the latter is aligned with the remaining straight edge of the former. All aligned straight edges are stitched together via zippers 302. To match this cover surface 100 structure, the cover bottom 200 stitched at its base features two openings 202. The zippers 302 stitch the edges of the openings 202 while extending to positions of preset holes 201 on the cover bottom 200, forming a complete opening and closing path.

[0035] This design incorporates two zippers 302 on the Christmas tree cover, significantly increasing the opening angle of the cover surface 100. This allows the solution to be more easily unfolded from both sides and wrapped around the Christmas tree, effectively reducing the difficulty of single-person operation.

[0036] In this embodiment, the support rod 303 adopts a design of a fold-and fit structure, consisting of multiple segments connected by elastic cords. The support rod 303 is a mature existing technology, and its specific structure will not be elaborated here. When operating the Christmas tree cover, it simply needs to unfold the folded support rod 303 and complete the fitting and extension, then place it into the cavity and secure it with the blocking component for use. When not in use, the support rod 303 can be removed from the cavity and disassembled into shorter segments, followed by folding and storing the Christmas tree cover. This design significantly reduces the overall storage volume, effectively saving storage space.

[0037] The zipper 302 is equipped with a slider, and a drawstring 3021 is attached to the slider. Its purpose is to prevent difficulty in grasping the slider when the zipper 302 is located at the top of the Christmas tree cover due to its high position. It also reduces height restrictions for users, allowing shorter individuals to easily close the zipper 302, thereby enhancing product usability. The length of the drawstring 3021 ranges from 30 cm to 60 cm.

[0038] Buckles 304 are installed on both sides of the zipper 302. For larger Christmas trees, relying solely on the zipper 302 to tighten the Christmas tree cover may subject the zipper to excessive long-term pulling force, posing a risk of damage. By adding locking buckles 304, the pulling force applied to the zipper when the Christmas tree cover is opened can be effectively shared, reducing the load on the zipper 302 and extending its service life while ensuring stable tightening of the Christmas tree cover. In this embodiment, there are two sets of buckles 304 respectively arranged on the upper and lower halves of the cover surface 100, ensuring more even pulling force sharing and further improving protection.

[0039] In this embodiment, the fabric material of the cover surface 100 is made of opaque oxford cloth. Compared to ordinary fabric, oxford cloth offers higher strength, effectively resisting continuous abrasion from Christmas tree branches and reducing wear and tear on the cover. Additionally, its excellent light-blocking properties can block out external light, preventing the Christmas tree from fading due to prolonged exposure to light.

[0040] To further enhance the protective and shading effects, in some embodiments, a gathering structure 203 is designed at the hole 201 of the cover bottom 200. When the Christmas tree cover is wrapped around the Christmas tree, the gathering structure 203 can tightly fit around the trunk of the tree, reducing the gap between the hole 201 and the trunk. In some implementations, as shown in FIG. 4, the gathering structure 203 is a drawstring. When the user tightens the drawstring, the hole 201 contracts synchronously with the drawstring until it fits snugly against the trunk, achieving a secure gathering. In other implementations, the gathering structure 203 is an elastic cord. When the zipper 302 is tightened to the edge of the hole 201, the elastic cord automatically contracts due to its elasticity, completing a tight fit around the trunk without additional steps, effectively simplifying the operation.

[0041] Users can open the cover via the zipper 302 to quickly complete the initial wrapping of the Christmas tree. With the cover held open, the user can flexibly adjust its position using the support rod, precisely aligning it with the tree's contour. This significantly improves wrapping efficiency and fit, enabling a single person to complete the packing independently. Additionally, users no longer need a ladder or elevation differencesimply lifting the support rod 303 allows the cover to be smoothly draped over the tree, simplifying the process and eliminating the safety risks of working at heights.

Embodiment 2

[0042] This embodiment is largely consistent with Embodiment 1, with the difference being: as shown in FIGS. 3 and 7, the Christmas tree cover includes a cover surface, which is generally frustoconical in shape. The cover surface 10 consists of a side cover surface 103 and a top cover surface 104. The side cover surface 103 is made from a single fan-shaped fabric 102, as illustrated in FIG. 4: the fan-shaped fabric 102 is wrapped around, and its two straight edges are joined by a zipper seam 302. The top cover surface 104 is placed over the top of the side cover surface 103 and stitched to seal the gap at the top. This design helps better withstand the pushing force at the top of the Christmas tree, reducing the likelihood of the seams being torn apart.

[0043] In this design, the top of the frustoconical cover is less prone to unraveling or wear, which helps extend the service life of the Christmas tree cover.