CN219773763U - Outdoor canopy of convertible illumination - Google Patents

Abstract

The utility model discloses a turnover type illumination outdoor shed which comprises a shed roof, a linkage assembly, an illumination assembly and a solar panel set, wherein the shed roof is provided with cross beams and longitudinal beams, a plurality of tiles which are sequentially arranged along the transverse direction are arranged between two adjacent cross beams, the longitudinal two ends of each tile are respectively connected to the two cross beams through rotating shafts in a rotating mode, the linkage assembly is connected to one rotating shaft at one longitudinal end of each tile to drive the tiles to simultaneously perform turnover opening and closing actions, the illumination assembly comprises an illumination lamp arranged on each tile and a battery electrically connected with the illumination lamp, and the solar panel set is arranged on the shed roof and is respectively electrically connected with the linkage assembly and the battery. The utility model realizes the integral turnover of the tiles and can realize power supply through solar energy.

Description

Outdoor canopy of convertible illumination

Technical Field

The utility model relates to the technical field of building facilities, in particular to a turnover type illumination outdoor shed.

Background

The rain-proof and sun-shading shed arranged at the upper part of the building entrance and exit is called as an outdoor shed. The outdoor canopy of building entrance and top layer balcony upper portion can shelter from the rainwater and protect outer door to avoid the rainwater erosion, in addition, when open-air tourism vacation, can temporarily build outdoor canopy, can also be applied to the keep out the wind of vehicle and hide rain and snow protection, hail and sun-proof, leaf prevention fall on the vehicle.

The traditional outdoor shed is generally assembled by a bracket and shed cloth, and then canvas, glass fiber reinforced plastic tiles, stainless steel encaustic tiles and the like are fixed on the bracket. The awning has low production cost, single function, only plays a role of shielding rain, can not meet the common use requirement of people in life, is provided with an illuminating lamp, can be used throughout the day, but the current open type awning roof is of a fixed structure, cannot adjust the quantity of sunlight entering, can only fully shield the sunlight, and is inconvenient for outdoor environment because the automatic structure and illumination used when the tiles are turned over are required by adopting turnover tiles although part of awning roofs are on the market.

Disclosure of Invention

The utility model aims to solve the defects of the technology, and provides a turnover type illumination outdoor shed.

The utility model designs a turnover type illumination outdoor shed which comprises a shed roof, a linkage assembly, an illumination assembly and a solar panel set, wherein the shed roof is provided with cross beams and longitudinal beams, a plurality of tiles which are sequentially arranged along the transverse direction are arranged between two adjacent cross beams, the longitudinal two ends of each tile are respectively connected to the two cross beams through rotating shafts in a rotating mode, the linkage assembly is connected to one rotating shaft at one longitudinal end of each tile to drive the tiles to simultaneously perform turnover opening and closing actions, the illumination assembly comprises an illumination lamp arranged on each tile and a battery electrically connected with the illumination lamp, and the solar panel set is arranged on the shed roof and is respectively electrically connected with the linkage assembly and the battery.

The utility model has the technical effects that the tiles can be automatically turned over through the linkage assembly to realize integral opening and closing; the tile is provided with an illumination assembly for realizing illumination in the shed; the roof is provided with a solar panel group which is respectively electrically connected with a driving piece and a lighting assembly for driving the linkage assembly to move, so that the tile overturning and lighting power supply are realized, and the solar energy greenhouse is convenient for outdoor use, energy-saving and environment-friendly.

Further optimizing, the linkage subassembly includes connecting rod, connecting piece, crank, flexible motor, the connecting rod is along transversely extending, connecting piece fixed connection is in the pivot, connecting piece one end fixed connection tile, the other end rotate connect in the connecting rod formation linkage, flexible motor's flexible end passes through the crank and connects one of them pivot, flexible motor is connected with solar panel group electricity, drives the removal of connecting rod through flexible motor, drives each tile upset through the removal of connecting rod and opens or close to realized the adjustment to the clearance between two tiles, satisfied different operation requirement.

Preferably, the tile is fixedly connected to the bottom of the connecting piece, the connecting piece is connected with the rotating shaft to form a connecting point, the connecting piece and the connecting rod are connected in a rotating mode to form a rotating point, the rotating point is obliquely arranged relative to the rotating point, the connecting rod is convenient to drive the rotating piece to rotate towards one side, and the tile can be turned over greatly only by rotating a small angle through the connecting piece.

Further preferably, the number of the illuminating lamps is two or more, and the illuminating lamps are uniformly distributed on the tiles along the transverse direction.

Preferably, the solar panel group comprises a first solar panel and a second solar panel, the first solar panel is electrically connected with the telescopic motor and is arranged on the cross beam, and the second solar panel is electrically connected with the battery and is arranged on the tile in one-to-one correspondence with the illuminating lamps, so that the tile is turned over and the illumination is respectively and independently powered, and all the components can be stably operated normally without interference.

Preferably, each second solar panel is longitudinally distributed on a respective tile, so that the area of the second solar panel is maximized, the charging efficiency is improved, and the space utilization rate is improved.

Preferably, the batteries and the illuminating lamps are arranged in one-to-one correspondence, so that power is supplied to the illuminating lamps independently, the illuminating lamps are prevented from being disabled together, and the illumination brightness is adjusted by the number of the illuminating lamps to adapt to different environment requirements.

Preferably, the electric power supply device further comprises an electric power inserting assembly electrically connected with the telescopic motor and the illuminating lamp, and the electric power inserting assembly supplies power to the telescopic motor and the illuminating lamp through connecting an external common power supply, so that the electric power can be supplied through solar energy, and meanwhile, the electric power can be supplied through a traditional mains supply power supply mode, so that different environment requirements can be met.

Further optimizing, the tile forms the inside flat tube structure that has the cavity after bending through the template, lighting assembly is located the cavity to protection lighting assembly not only guarantees the intensity of tile, can alleviate the weight of tile moreover.

Drawings

FIG. 1 is an overall block diagram of the present utility model in a tile closed position;

FIG. 2 is a partial view of the present utility model in a tile closed state;

FIG. 3 is a block diagram of a connector according to the present utility model;

FIG. 4 is a block diagram of a lighting assembly and solar panel of the present utility model;

FIG. 5 is an overall block diagram of the tile of the present utility model in an open position;

FIG. 6 is a partial view of the present utility model in a tile open position.

In the figure: 100. a shed roof; 101. a cross beam; 102. a longitudinal beam; 103. a tile; 104. a rotating shaft; 105. a lighting lamp; 106. a battery; 107. a first solar panel; 108. a second solar panel; 109. a connecting rod; 110. a connecting piece; 111. a crank arm; 112. a telescopic motor; 113. a connection point; 114. rotation point.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which are derived by a person skilled in the art based on the embodiments of the utility model, fall within the scope of protection of the utility model.

In this embodiment, as shown in fig. 1, the solar energy greenhouse comprises a greenhouse top 100, a linkage assembly, a lighting assembly and a solar energy electric plate group, wherein the greenhouse top 100 is formed by fixedly connecting two cross beams 101 and two longitudinal beams 102 into a whole, the greenhouse top 100 is rectangular or square, support columns are arranged around the greenhouse top 100, a plurality of tiles 103 which are sequentially arranged along the transverse direction are arranged between the two cross beams 101, and the longitudinal two ends of the tiles 103 are respectively hinged on the two cross beams 101 through rotating shafts 104.

As shown in fig. 2, the linkage assembly includes a connecting rod 109, connecting pieces 110, a crank arm 111, and a telescopic motor 112, where the connecting rod 109 extends in a straight line in a transverse direction, the connecting pieces 110 are in one-to-one correspondence with the tiles 103, each connecting piece 110 is sleeved on a rotating shaft 104 of a corresponding tile 103 through a central opening, the connecting pieces 110 form a fixed connection with the rotating shaft 104, the connecting pieces 110 rotate with the rotating shafts 104, the bottom ends of the connecting pieces 110 are fixedly connected with the tiles 103, the top ends of the connecting pieces are hinged to the connecting rods 109, so that the connecting rods 109 form linkage with the connecting pieces 110, the telescopic motor 112 is mounted on the cross beam 101 and is located at one end of the connecting rod 109, the telescopic end of the telescopic motor 112 is connected to a rotating shaft 104 near the rotating shaft 104 through the crank arm 111, that is, one end of the crank arm 111 is fixedly connected to the rotating shaft 104, the other end is hinged to the telescopic end of the telescopic motor 112 in a lateral direction, the telescopic end reciprocates to drive the crank arm 111 to rotate, the corresponding rotating shaft 104 is driven by the crank arm 111 to rotate, the corresponding connecting pieces 110 are driven by the rotating shaft 104, the connecting pieces 109 are driven by the connecting pieces 109 to translate, and the connecting pieces 110 are driven by the connecting pieces 109.

It should be noted that, as shown in fig. 3, two sides of the bottom of the connecting piece 110 are fixedly connected to the bottom of the tile 103, the bottom surface of the connecting piece 110 is concave, and a convex plane is correspondingly disposed on the surface of the tile 103 connected with the bottom surface of the connecting piece, so that a concave-convex jogged structure is formed on the connecting surface of the connecting piece 110 and the tile 103, so as to ensure the connection stability of the connecting piece 110 and the tile 103, and prevent the relative movement between the connecting piece 110 and the tile 103, as shown in fig. 5 and 6, wherein the connecting piece 110 is connected with the rotating shaft 104 to form a connecting point 113, the connecting piece 110 and the connecting rod 109 are connected in a rotating way to form a rotating point 114, that is, the rotating point 114 is inclined relative to the connecting point 113 to form a fool-proof structure, so that the connecting rod 109 drives the rotating piece to rotate towards one side, and the tile 103 can be turned over greatly only by rotating a small angle through the connecting piece 110.

It should be noted that, in the connection relationship between the two ends of the rotating shaft 104 and the tile 103, the tile 103 is located at one end of the linkage assembly and is connected with the rotating shaft 104 through the connecting piece 110, that is, the center of the connecting piece 110 is provided with a hole, and one end of the rotating shaft 104 is inserted into the hole; the other end of the tile 103 is also connected with the rotating shaft 104 through another connecting piece 110, the connecting piece 110 only keeps the bottom part of the connecting piece, the bottom surface of the bottom part is fixedly connected with the tile 103, the center of the bottom part is provided with a hole, and one end of the rotating shaft 104 is inserted into the hole so as to realize the connection between the rotating shaft 104 and the tile 103 and realize the turnover of the tile 103.

The lighting assembly comprises lighting lamps 105 and batteries 106, wherein the lighting lamps 105 can be led lamp sources, the lighting lamps are mounted on the tiles 103, the batteries 106 are electrically connected with the lighting lamps 105 to supply power to the lighting lamps 105, the number of the lighting lamps 105 is two or more, the lighting lamps 105 are uniformly distributed on the tiles 103 along the transverse direction, in the embodiment, the number of the lighting lamps 105 is five, the lighting lamps 105 are respectively mounted on the corresponding tiles 103 along the transverse direction at equal intervals, namely, one lighting lamp 105 is correspondingly mounted on one tile 103, so that the lighting lamps 105 can be uniformly distributed in the area where the tiles 103 of the shed roof 100 are located.

The solar panel group comprises a first solar panel 107 and a second solar panel 108, the first solar panel 107 is electrically connected with the telescopic motor 112 and is used for supplying power to the telescopic motor 112 so as to drive the tile 103 to turn over, the first solar panel 107 is arranged on the cross beam 101, the second solar panel 108 is electrically connected with the battery 106 and is used for charging the battery 106 and then supplying power to the illuminating lamps 105 through the battery 106, in the embodiment, the number of the second solar panels 108 is in one-to-one correspondence with the illuminating lamps 105 and are all arranged on the tile 103 where the illuminating lamps 105 are arranged, so that independent control of each illuminating lamp 105 is realized, and continuous power supply is realized through the solar battery 106, so that energy conservation and environmental protection are realized.

It should be noted that, in order to realize the power supply of the solar panel set and other required components required by illumination, such as an operation panel, a control motherboard and the like, are all conventional technologies, and are not described herein.

As shown in fig. 4, each second solar panel 108 is longitudinally distributed on the respective tile 103, so that the area of the solar panel can be maximized, not only to increase the charging speed, but also to use a high power solar panel.

In addition, the batteries 106 and the illumination lamps 105 are also arranged in a one-to-one correspondence, so that each illumination lamp 105 is provided with an independent power supply system, and the illumination lamps can normally illuminate even if the individual illumination lamps 105 are out of order.

The solar energy power supply system also comprises a power plug-in assembly, wherein the power plug-in assembly is electrically connected with the telescopic motor 112 and the illuminating lamp 105, and the power plug-in assembly supplies power to the telescopic motor 112 and the illuminating lamp 105 by connecting an external common power supply, namely the solar energy power supply system has two power supply modes, namely solar energy charges the battery 106 and then supplies power to the battery 106; the external power supply is used for supplying power through a traditional mode such as a plug and a socket.

In this embodiment, the tile 103 forms a flat tube structure with a cavity inside after being bent by a template, the bottom of the tile 103 is provided with a light transmission area, the lighting assembly is located in the cavity, and light emitted by the lighting assembly passes through the light transmission area to form lighting.

The present utility model is not limited to the above-mentioned preferred embodiments, and any person who can obtain other various products under the teaching of the present utility model can make any changes in shape or structure, and all the technical solutions that are the same or similar to the present utility model fall within the scope of the present utility model.

Claims (9)

1. The utility model provides an outdoor canopy of convertible illumination, its characterized in that, it includes roof (100), linkage subassembly, lighting assembly and solar panel group, roof (100) have crossbeam (101) and longeron (102), are provided with a plurality of tiles (103) of arranging in proper order along transversely between two adjacent crossbeams (101), tile (103) vertical both ends are rotated through pivot (104) respectively and are connected on two crossbeams (101), linkage subassembly connects in tile (103) vertical wherein one end pivot (104) in order to drive tile (103) and does the upset action of opening and shutting simultaneously, lighting assembly is including installing light (105) on tile (103) and battery (106) that are connected with light (105), solar panel group installs in roof (100) and is connected with linkage subassembly and battery (106) electricity respectively.

2. The outdoor shed for overturning illumination according to claim 1, wherein the linkage assembly comprises a connecting rod (109), a connecting piece (110), a crank arm (111) and a telescopic motor (112), the connecting rod (109) transversely extends, the connecting piece (110) is fixedly connected to the rotating shaft (104), one end of the connecting piece (110) is fixedly connected with the tile (103), the other end of the connecting piece is rotatably connected to the connecting rod (109) to form linkage, the telescopic end of the telescopic motor (112) is connected with one rotating shaft (104) through the crank arm (111), and the telescopic motor (112) is electrically connected with the solar panel set.

3. A turnover type lighting outdoor booth according to claim 2, characterized in that the bottom of the connecting member (110) is fixedly connected with the tile (103), the connecting member (110) is connected with the rotating shaft (104) to form a connecting point (113), the connecting member (110) and the connecting rod (109) are rotatably connected to form a rotating point (114), and the rotating point (114) is obliquely arranged relative to the rotating point (114).

4. A flip-type illuminated outdoor shelter as claimed in claim 1, wherein the number of lights (105) is two or more, evenly distributed along the transverse direction on the tiles (103).

5. The outdoor shed for turnover lighting as claimed in claim 2, wherein the solar panel group comprises a first solar panel (107) and a second solar panel (108), the first solar panel (107) is electrically connected with the telescopic motor (112) and is disposed on the cross beam (101), and the second solar panel (108) is electrically connected with the battery (106) and is disposed on the tile (103) in one-to-one correspondence with the lighting lamp (105).

6. A flip-type illuminated outdoor shed according to claim 5, wherein each second solar panel (108) is longitudinally distributed on a respective tile (103).

7. The outdoor shed for turnover lighting as claimed in claim 5, wherein said batteries (106) are provided in one-to-one correspondence with said lighting lamps (105).

8. The outdoor shed for tumble-type illumination according to claim 2, further comprising a power plug assembly electrically connected to the telescopic motor (112) and the illumination lamp (105), wherein the power plug assembly supplies power to the telescopic motor (112) and the illumination lamp (105) by connecting an external normal power source.

9. A convertible illuminating outdoor shelter as claimed in claim 1, characterized in that the tiles (103) are folded by means of a template to form a flat tube structure with a cavity inside, the illuminating assembly being located in the cavity.