Sun umbrella capable of emitting light in all directions

Abstract

A sun umbrella capable of emitting light in all directions comprising an umbrella rod and an umbrella disc. The umbrella rod is connected to an opening-and-closing device and is internally provided with a light strip. Circuit boards are fixedly assembled in the umbrella disc. The opening-and-closing device comprises light-transmitting tubes. Each light-transmitting tube is internally provided with a light strip, and the light strip is electrically connected to a power supply through a circuit board. The light-transmitting tubes are directly used as umbrella ribs. Copper-wire lights are arranged in the umbrella rod and the umbrella ribs and are directly connected to the circuit boards assembled in the umbrella disc, thus avoiding slotting process and achieving a simple assembly. The power supply is detachable and the power supply is stable and reliable. Through adopting the technical solution of the present disclosure, the production capacity is improved, and the cost is lowered.

Claims

1. A sun umbrella capable of emitting light in all directions, comprising: an umbrella rod, an upper umbrella disc, a lower umbrella disc, an opening-and-closing device wherein the opening-and-closing device further comprises a plurality of first light-transmitting tubes, and a plurality of second light-transmitting tubes, wherein the plurality of first light-transmitting tubes is hinged to the upper umbrella disc, wherein the plurality of second light-transmitting tubes is hinged to the lower umbrella disc, wherein each first light-transmitting tubes is hinged to one second light-transmitting tubes through a hinge member, wherein the upper umbrella disc comprises a first circuit board, wherein the lower umbrella disc comprises a second circuit board, wherein each first light-transmitting tube is internally provided with a first light strip, and the first light strip is electrically connected to a power supply through the first circuit board, wherein each second light-transmitting tube is internally provided with a second light strip, and the second light strip is electrically connected to a power supply through the second circuit board.

2. The sun umbrella capable of emitting light in all directions of claim 1, wherein the first light strip comprises a plurality of copper-wire lights, which are connected in series through an electric wire, wherein the tail end of the electric wire is connected to a connecting block for connecting the circuit board.

3. The sun umbrella capable of emitting light in all directions of claim 2, wherein the umbrella rod is internally provided with a third light strip.

4. The sun umbrella capable of emitting light in all directions of claim 3, wherein connecting blocks of the first light strip and the third light strip are electrically connected to the first circuit board, and connecting block of the second light strip is electrically connected to the second circuit board.

5. The sun umbrella capable of emitting light in all directions of claim 4, wherein the power supply is provided with a detachable storage battery and is fixed on the umbrella rod, wherein a control switch is arranged on the power supply, wherein the detachable storage battery is provided with a USB charging port, wherein the power supply is electrically connected to the first circuit board, wherein the second circuit board is electrically connected to the first circuit board.

6. The sun umbrella capable of emitting light in all directions of claim 5, wherein the second circuit board is electrically connected to the first circuit board through a wire.

7. The sun umbrella capable of emitting light in all directions of claim 1, wherein the umbrella rod and the plurality of light-transmitting tubes are made of a light-transmitting glass fiber tube material.

8. The sun umbrella capable of emitting light in all directions of claim 5, wherein the umbrella rod and the plurality of light-transmitting tubes are made of a light-transmitting glass fiber tube material.

9. The sun umbrella capable of emitting light in all directions of claim 4, wherein the umbrella rod and the plurality of light-transmitting tubes are made of a light-transmitting glass fiber tube material.

10. The sun umbrella capable of emitting light in all directions of claim 3, wherein one end of the first light-transmitting tube is hinged to the upper umbrella disc, and other end of the first light-transmitting tube is connected to umbrella cloth for supporting the umbrella cloth, wherein one end of the second light-transmitting tube is hinged to the first light-transmitting tube through the hinge member, and other end of the second light-transmitting tube is hinged to the lower umbrella disc.

11. The sun umbrella capable of emitting light in all directions of claim 10, wherein the umbrella rod and the plurality of light-transmitting tubes are made of a light-transmitting glass fiber tube material.

12. The sun umbrella capable of emitting light in all directions of claim 3, wherein the umbrella rod and the plurality of light-transmitting tubes are made of a light-transmitting glass fiber tube material.

13. The sun umbrella capable of emitting light in all directions of claim 2, wherein the umbrella rod and the plurality of light-transmitting tubes are made of a light-transmitting glass fiber tube material.

14. The sun umbrella capable of emitting light in all directions of claim 1, wherein the power supply is provided with a detachable storage battery and is fixed on the umbrella rod, wherein a control switch is arranged on the power supply, wherein the detachable storage battery is provided with a USB charging port, wherein the power supply is electrically connected to the circuit board.

15. The sun umbrella capable of emitting light in all directions of claim 14, wherein the umbrella rod and the plurality of light-transmitting tubes are made of a light-transmitting glass fiber tube material.

16. The sun umbrella capable of emitting light in all directions of claim 1, wherein the umbrella rod and the plurality of light-transmitting tubes are made of a light-transmitting glass fiber tube material.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is a conceptual diagram illustrating an example structure of the present disclosure.

(2) FIG. 2 is a conceptual diagram illustrating an effect of light emission.

(3) FIG. 3 is a conceptual diagram illustrating the wire arrangement of the copper-wire lights and the light-transmitting tube.

(4) FIG. 4 is a conceptual diagram illustrating an assembled state of FIG. 3.

(5) FIG. 5 is a conceptual diagram illustrating the assembly of the power supply.

(6) Marking Instructions of the Figures: 1—Umbrella Rod, 2—Power Supply, 21—Storage Battery, 22—USB Charging Port, 3—The Third Light Strip, 4—The Second Light Strip, 5—Wire, 6—The Second Circuit Board, 7—The First Light Strip, 8—The First Circuit Board, 9—The First Light-transmitting Tube, 10—The Second Light-transmitting Tube, 11—Copper-wire Light, 12—Electric Wire, 13—Connecting Block, 14—Hinge Member, 15—Opening-and-closing Device.

DETAILED DESCRIPTION

(7) Figures are combined hereinafter to further elaborate the technical solution of the present disclosure.

(8) As shown in FIGS. 1-5, a sun umbrella capable of emitting light in all directions comprises an umbrella rod 1 made of a light-transmitting glass fiber tube material and an umbrella disc internally provided with circuit boards. The umbrella rod 1 is connected to an opening-and-closing device 15 and is internally provided with a light strip. The opening-and-closing device 15 comprises a plurality of light-transmitting tubes also made of a light-transmitting glass fiber tube material, which are directly used as the umbrella ribs. Each light-transmitting tube is internally provided with a light strip, and the light strip is connected to a circuit board through an arranged circuit. The circuit boards are electrically connected to a power supply 2 through the arranged circuit, and the light emission of the light strips in the umbrella rod and the light-transmitting tubes is controlled through controlling the power supply.

(9) The light strip is integrally formed by directly and serially connecting a plurality of copper-wire lights 11 using an electric wire 12. The tail end of the electric wire 12 is connected to a connecting block 13 for conveniently connecting a circuit board, which achieves a plug-and-play function and an easy assembly. The umbrella rod 1 is internally provided with a third light strip 3. Generally, the umbrella disc comprises an upper umbrella disc fixed on the umbrella rod 1 and a lower umbrella disc slidably fixed on the umbrella rod 1. A first circuit board 8 and a second circuit board 6 are respectively fixedly assembled in the upper umbrella disc and the lower umbrella disc. The light-transmitting tubes comprise a first light-transmitting tube 9 and a second light-transmitting tube 10, which are hinged through a hinge member 14. The first light-transmitting tube 9 and the second light-transmitting tube 10 are respectively and internally provided with a first light strip 7 and a second light strip 4. The connecting blocks 13 of the first light strip 7 and the third light strip 3 are electrically connected to the first circuit board 8, and the connecting block 13 of the second light strip 4 is electrically connected to the second circuit board 6.

(10) The power supply 2 is provided with a detachable storage battery 21 and is fixed on the umbrella rod 1. A control switch is arranged on the power supply 2, the detachable storage battery 21 is provided with a USB charging port 22, and the power supply 2 is electrically connected to the first circuit board 8. As the second circuit board 6 slides on the umbrella rod 1 along with the lower umbrella disc, when the power supply 2 and the second circuit board 6 are connected, a wire 5 with a certain length must be reserved, resulting in an inconvenient wire arrangement. Additionally, after closing the umbrella using the lower umbrella disc for a prolonged period, the wire may be damaged. Therefore, in another preferred embodiment, the power supply 2 is directly electrically connected to the first circuit board 8, and the second circuit board 6 is electrically connected to the first circuit board 8 through the wire 5. One end of the wire 5 is connected to the first circuit board 8, and the other end of the wire 5 is connected to the second circuit board 6 after passing the first light-transmitting tube 9, the hinge member 14 and the second light-transmitting tube 10. In this way, a reasonable arrangement and a simple assembly are achieved.

(11) One end of the first light-transmitting tube 9 is hinged to the upper umbrella disc, and the other end of the first light-transmitting tube 9 is connected to the umbrella cloth for supporting the umbrella cloth. One end of the second light-transmitting tube 10 is hinged to the first light-transmitting tube 9 through the hinge member 14, and the other end of the second light-transmitting tube 10 is hinged to the lower umbrella disc. Namely, the conventional long umbrella rib and the short umbrella rib are replaced by the first light-transmitting tube 9 and the second light-transmitting tube 10, which achieves a direct light transmission, avoids the slotting process, and makes the umbrella aesthetically pleasing.

(12) The power supply 2 may be replaced by a solar panel, which may be installed on the top of the umbrella. The lighting mode may be turning on the first light-transmitting tube 9 or turning on the second light-transmitting tube 10, which may be determined according to users' needs.

(13) The above embodiments are merely used for describing the present disclosure but not limiting the scope of the present disclosure. It should be noted that, based on the specification of the present disclosure, various improvements and modifications may be made according to actual needs by those skilled in the art without paying creative labor. Therefore, these improvements and modifications shall also fall into the scope of the present disclosure.