CN220229028U - Solar lamp convenient to transport - Google Patents

Abstract

The utility model discloses a solar lamp convenient to transport, which comprises a connecting assembly and a plurality of solar modules, wherein two adjacent solar modules are connected through the connecting assembly; the connecting assembly comprises a sliding block and a connecting rod, the sliding block is slidably arranged on one solar module, and two ends of the connecting rod are respectively hinged to the sliding block and the other solar module; the sliding block and the solar module are respectively provided with a convex limiting part, and the limiting parts are used for limiting the relative angle between the connecting rod and the solar module. When the solar lamp convenient to transport is required to be transported, the connecting rod is utilized to enable one solar module to rotate upwards relative to the other solar module, then the solar module is enabled to slide to the position above the other solar module through the sliding block, and therefore the two solar panels can be stacked up and down, occupied area is reduced, and transportation is convenient; when the solar lamp is used, the relative angle between the connecting rod and the solar module is limited by the limiting part, so that the solar lamp convenient to transport can be kept in an unfolded use state.

Description

Solar lamp convenient to transport

Technical Field

The utility model relates to the technical field of lighting equipment, in particular to a solar lamp convenient to transport.

Background

Solar energy is used as a clean, efficient and never-failing new energy source, which is helpful for solving the world problems of energy crisis, greenhouse effect, atmospheric pollution and the like. At present, solar energy is widely applied and rapidly developed in the global scope, the demand of high-power solar street lamps is more and more, but the high-power solar street lamps have the problems of too large solar panel area and high transportation cost.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the solar lamp is convenient to transport.

In order to solve the technical problems, the utility model adopts the following technical scheme: the solar lamp convenient to transport comprises a connecting assembly and a plurality of solar modules, wherein two adjacent solar modules are connected through the connecting assembly; the connecting assembly comprises a sliding block and a connecting rod, wherein the sliding block is slidably arranged on one solar module, and two ends of the connecting rod are respectively hinged to the sliding block and the other solar module; the sliding block and the solar module are respectively provided with a convex limiting part, and the limiting parts are used for limiting the relative angle between the connecting rod and the solar module.

Further, the limiting portion includes a first protrusion, and the first protrusion abuts against the connecting rod so that the length direction of the connecting rod is kept horizontal.

Further, the limiting portion comprises a second protruding block, and the second protruding block is abutted to the connecting rod so that the length direction of the connecting rod is kept vertical.

Further, the connecting assembly further comprises a locking piece, a through hole is formed in the connecting rod, a positioning hole is formed in the sliding block or the solar module, and the locking piece penetrates through the through hole and is detachably connected with the positioning hole.

Further, the positioning hole is a threaded hole, and the locking piece is provided with an external thread part matched with the positioning hole.

Further, the number of the positioning holes is multiple.

Further, the solar module comprises a rectangular frame body and a solar panel arranged on the inner side of the frame body, the frame body comprises two long sides which are oppositely arranged and two short sides which are oppositely arranged, and the sliding block is buckled on the long sides or the short sides.

Further, a limiting boss for abutting against the sliding block is arranged on the solar module.

Further, the solar energy module further comprises a light source module, wherein the light source module is rotatably installed below the solar energy module.

Further, the solar module comprises a recliner, and one solar module is mounted on the recliner.

The utility model has the beneficial effects that: when the solar lamp convenient to transport is required to be transported, the connecting rod is utilized to enable one solar module to rotate upwards relative to the other solar module, then the solar module is enabled to slide to the position above the other solar module through the sliding block, and the two adjacent solar panels can be stacked up and down, so that the occupied area is reduced, and the solar lamp is convenient to transport or take and place; when the solar lamp is used, the two solar modules are located on the same plane through the cooperation of the connecting assemblies, and the relative angle between the connecting rod and the solar modules is limited by the limiting part, so that the solar lamp convenient to transport can be kept in an unfolded use state.

Drawings

Fig. 1 is a schematic structural diagram of a solar lamp (in an unfolded state) convenient for transportation according to a first embodiment of the present utility model;

FIG. 2 is an enlarged detail view of portion A of FIG. 1;

fig. 3 is a schematic structural diagram of a solar lamp convenient for transportation according to the first embodiment of the present utility model;

FIG. 4 is an enlarged detail view of portion B of FIG. 3;

fig. 5 is a schematic structural diagram III (in a folded state) of a solar lamp convenient for transportation according to the first embodiment of the present utility model;

fig. 6 is an enlarged detail view of section C of fig. 5.

Description of the reference numerals:

1. a solar module; 11. a frame; 111. a limit boss; 12. a solar panel;

2. a slide block; 21. positioning holes;

3. a connecting rod; 31. a spindle screw;

4. a locking member;

5. a limit part; 51. a first bump; 52. a second bump;

6. a light source module;

7. an angle adjuster;

8. an electrical box.

Detailed Description

In order to describe the technical contents, the achieved objects and effects of the present utility model in detail, the following description will be made with reference to the embodiments in conjunction with the accompanying drawings.

Referring to fig. 1 to 6, a solar lamp convenient for transportation includes a connection assembly and a plurality of solar modules 1, wherein two adjacent solar modules 1 are connected by the connection assembly; the connecting assembly comprises a sliding block 2 and a connecting rod 3, wherein the sliding block 2 is slidably arranged on one solar module 1, and two ends of the connecting rod 3 are respectively hinged on the sliding block 2 and the other solar module 1; the sliding block 2 and the solar module 1 are respectively provided with a protruding limiting part 5, and the limiting parts 5 are used for limiting the relative angle between the connecting rod 3 and the solar module 1.

From the above description, the beneficial effects of the utility model are as follows: when the solar lamp convenient to transport needs to be transported, the connecting rod 3 is utilized to enable one solar module 1 to rotate upwards relative to the other solar module 1, then the solar module 1 is enabled to slide to the upper side of the other solar module 1 through the sliding block 2, and the two adjacent solar panels 12 can be stacked up and down, so that occupied area is reduced, and transportation or taking and placing are convenient. When the solar lamp is used, the two solar modules 1 are positioned on the same plane through the cooperation of the connecting components, and the relative angle between the connecting rod 3 and the solar modules 1 is limited by the limiting part 5, so that the solar lamp convenient to transport can be kept in an unfolded use state.

Further, the limiting portion 5 includes a first protrusion 51, and the first protrusion 51 abuts against the connecting rod 3 so that the length direction of the connecting rod 3 is parallel to the solar module 1.

Further, the limiting portion 5 includes a second protrusion 52, and the second protrusion 52 abuts against the connecting rod 3 so that the length direction of the connecting rod 3 is perpendicular to the solar module 1.

As can be seen from the above description, the limiting portion 5 abuts against the connecting rod 3 to limit the connecting rod 3 to maintain different relative angles with the solar module 1.

Further, the connecting assembly further comprises a locking piece 4, a through hole is formed in the connecting rod 3, a positioning hole 21 is formed in the sliding block 2 or the solar module 1, and the locking piece 4 penetrates through the through hole and is detachably connected with the positioning hole 21.

As can be seen from the above description, the locking member 4 can accurately lock the link 3 and the solar module 1 to maintain a predetermined relative angle.

Further, the positioning hole 21 is a threaded hole, and the locking member 4 is provided with an external threaded portion that mates with the positioning hole 21.

As can be seen from the above description, the locking member 4 is connected with the positioning hole 21 in a simple manner, is easy to disassemble and assemble, and is not easy to fall off.

Further, the number of the positioning holes 21 is plural.

As is apparent from the above description, the plurality of positioning holes 21 can maintain the link 3 at different preset angles with the solar module 1.

Further, the solar module 1 includes a rectangular frame 11 and a solar panel 12 mounted on the inner side of the frame 11, the frame 11 includes two long sides and two short sides disposed opposite to each other, and the slider 2 is fastened to the long sides or the short sides.

As can be seen from the above description, the solar module 1 has a simple structure and is convenient to manufacture; compared with the sliding groove formed in the frame 11, the sliding block 2 is buckled on the frame 11, so that the thickness of the frame 11 can be effectively reduced, and the external dimension of the solar module 1 is further reduced.

Further, a limit boss 111 for abutting against the slider 2 is provided on the solar module 1.

As can be seen from the above description, the limiting boss 111 can limit the sliding travel of the slider 2, preventing the slider 2 from being separated from the solar module 1.

Further, a light source module 6 is further included, and the light source module 6 is rotatably installed under the solar module 1.

As can be seen from the above description, the light source module 6 is used for illumination, the light source module 6 is rotatable relative to the solar module 1, and a user can adjust the illumination angle of the light source module 6 according to the actual use requirement.

Further, a recliner 7 is further included, and one of the solar modules 1 is mounted on the recliner 7.

As can be seen from the above description, the solar module 1 can be rotated by the angle adjuster 7, and a user can adjust the angle of the solar panel 12 on the solar module 1 according to the geographic position, season and time, so that the solar panel 12 is kept as perpendicular as possible to the irradiation direction of the sunlight, thereby enlarging the light receiving area and improving the power generation efficiency.

Referring to fig. 1 to 6, a first embodiment of the present utility model is as follows: the utility model provides a solar lamp convenient to transportation, includes coupling assembling and a plurality of solar module 1, and two adjacent solar module 1 pass through coupling assembling and link to each other; the connecting assembly comprises a sliding block 2 and a connecting rod 3, wherein the sliding block 2 is slidably arranged on one solar module 1, and two ends of the connecting rod 3 are respectively hinged on the sliding block 2 and the other solar module 1; the sliding block 2 and the solar module 1 are respectively provided with a convex limiting part 5, and the limiting parts 5 are used for limiting the relative angle between the connecting rod 3 and the solar module 1. In this embodiment, the number of the solar modules 1 is two, and the shapes and the sizes of the two solar modules 1 are the same, which is beneficial to reducing the design and the production cost and facilitating the assembly. Two adjacent solar modules 1 are connected through two connecting assemblies, and the two connecting assemblies are symmetrically arranged on two sides of the solar modules 1. Both ends of the connecting rod 3 are respectively hinged with the sliding block 2 or the solar module 1 through rotating shaft screws 31. The solar module 1 comprises a rectangular frame 11 and a solar panel 12 arranged on the inner side of the frame 11, wherein the frame 11 comprises two long sides and two short sides, the two long sides and the two short sides are oppositely arranged, and the two long sides and the two short sides are connected end to end and are detachably connected. The sliding block 2 is buckled on the outer side of the long side of one solar module 1, the sliding block 2 can slide along the length direction of the solar module 1, and the connecting rod 3 is hinged on the long side of the other solar module 1. The ends of the two short sides respectively protrude out of the top surfaces of the long sides to form a limiting boss 111, and the limiting boss 111 can be used for abutting against the sliding block 2 to limit the sliding stroke of the sliding block 2. In other embodiments, the number of solar modules 1 may be set to three, four or more; the slide block 2 is buckled on the outer side of the short side.

Preferably, the limiting portion 5 includes a first protrusion 51 and a second protrusion 52, the first protrusion 51 is abutted against the connecting rod 3 so that the length direction of the connecting rod 3 is parallel to the solar panel 12 on the solar module 1, and the second protrusion 52 is abutted against the connecting rod 3 so that the length direction of the connecting rod 3 is perpendicular to the solar panel 12 on the solar module 1. Specifically, the long side of the frame 11 of one solar module 1 far away from the sliding block 2 is provided with the limiting part 5. The first bump 51 and the second bump 52 are rectangular, and the first bump 51 and the second bump 52 are connected. The limiting part 5 arranged on the sliding block 2 is in an inverted L shape, and the limiting part 5 arranged on the frame 11 is in an L shape. In this embodiment, the solar panel 12 is placed horizontally. In other embodiments, a tilted arrangement of solar panels 12 is also possible depending on the actual use needs.

This solar lamp convenient to transportation has the folded condition of being convenient for transportation and carries out the expansion state that uses, and when this solar lamp convenient to transportation was in the expansion state (as shown in fig. 1 and 2), the length direction of connecting rod 3 was on a parallel with solar panel 12, and two solar panels 12 were in the coplanar this moment, and the bottom surface of locating the first lug 51 of spacing portion 5 on slider 2 is contradicted in connecting rod 3, and the top surface of locating the first lug 51 of spacing portion 5 on the framework 11 is contradicted in connecting rod 3. When the solar lamp convenient to transport needs to be transported, one solar module 1 connected with the sliding block 2 is made to move upwards relative to the other solar module 1 through the connecting rod 3 until the length direction of the connecting rod 3 is respectively perpendicular to the two solar panels 12, at this time, the second protruding block 52 of the limiting part 5 arranged on the sliding block 2 and the second protruding block 52 arranged on the frame 11 are respectively abutted against two opposite side surfaces of the connecting rod 3 (as shown in fig. 3 and fig. 4), and then the solar module 1 is made to slide to the upper side of the other solar module 1 through the sliding block 2, so that the two adjacent solar panels 12 can be stacked up and down, and at this time, the solar lamp convenient to transport is in a folded state (as shown in fig. 5 and fig. 6).

Preferably, the connecting assembly further comprises a locking piece 4, a through hole is formed in the connecting rod 3, a positioning hole 21 is formed in the sliding block 2 or the solar module 1, and the locking piece 4 penetrates through the through hole and is detachably connected with the positioning hole 21. It is easy to understand that the locking member 4 can accurately lock the link 3 and the solar module 1 to maintain a predetermined relative angle therebetween. In this embodiment, a through hole is formed in the connecting rod 3, two positioning holes 21 are formed in the slider 2, and when the two positioning holes 21 are aligned with the through holes in the connecting rod 3, the length direction of the connecting rod 3 is respectively vertical and horizontal. In other embodiments, the number of positioning holes 21 may be set to three or more to maintain the link 3 and the solar module 1 in more relative angular positions.

Preferably, the positioning hole 21 is a threaded hole, and the locking member 4 is provided with an external threaded portion that mates with the positioning hole 21. Specifically, one end of the locking member 4 protrudes and extends towards two sides to form a lug, and it is easy to understand that the lug can increase the rotation moment, so that a user can screw the locking member 4 conveniently.

Preferably, the solar lamp convenient for transportation further comprises a light source module 6, and the light source module 6 is rotatably installed below the solar module 1. Specifically, the light source module 6 includes the mounting bracket and locates the LED lamp plate on the mounting bracket, and the length direction of mounting bracket is perpendicular to the length direction on long limit, and the both ends of mounting bracket are rotated with two long limits respectively and are connected. In the present embodiment, the number of light source modules 6 is one. In other embodiments, the number of light source modules 6 may be set to two, three, or more.

Preferably, the solar lamp convenient for transportation further comprises a recliner 7, and one solar module 1 far away from the sliding block 2 is mounted on the recliner 7. Specifically, an electrical box 8 is disposed below one solar module 1 far away from the slider 2, and the electrical box 8 is used for accommodating a storage battery and/or a control module. The angle adjuster 7 comprises a first connecting part and a second connecting part which are connected in a rotating way, one end of the first connecting part, which is far away from the second connecting part, is fixedly connected with the electric box 8 through a screw, and one end of the second connecting part, which is far away from the first connecting part, is sleeved on the lamp post. The first connecting part and the second connecting part are respectively provided with an angle scale mark and a pointer corresponding to the angle scale mark, so that a user can keep the inclination angles of the solar panels 12 on the plurality of solar lamps consistent.

In summary, when the solar lamp convenient to transport is required to transport, only the connecting rod is used to enable one solar module to rotate upwards relative to the other solar module, and then the solar module is enabled to slide to the upper side of the other solar module through the sliding block, so that two adjacent solar panels can be stacked up and down, the occupied area is reduced, and the solar lamp convenient to transport or take and place is convenient; when the solar lamp is used, the two solar modules are located on the same plane through the cooperation of the connecting assemblies, and the relative angle between the connecting rod and the solar modules is limited by the limiting part, so that the solar lamp convenient to transport can be kept in an unfolded use state.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent changes made by the specification and drawings of the present utility model, or direct or indirect application in the relevant art, are included in the scope of the present utility model.

Claims (10)

1. The utility model provides a solar lamp convenient to transportation which characterized in that: the solar energy system comprises a connecting assembly and a plurality of solar energy modules, wherein two adjacent solar energy modules are connected through the connecting assembly; the connecting assembly comprises a sliding block and a connecting rod, wherein the sliding block is slidably arranged on one solar module, and two ends of the connecting rod are respectively hinged to the sliding block and the other solar module; the sliding block and the solar module are respectively provided with a convex limiting part, and the limiting parts are used for limiting the relative angle between the connecting rod and the solar module.

2. The solar light fixture for facilitating transportation of claim 1, wherein: the limiting part comprises a first lug which is abutted against the connecting rod so that the length direction of the connecting rod is parallel to the solar module.

3. The solar light fixture for facilitating transportation of claim 1, wherein: the limiting part comprises a second lug which is abutted against the connecting rod so that the length direction of the connecting rod is perpendicular to the solar module.

4. The solar light fixture for facilitating transportation of claim 1, wherein: the connecting assembly further comprises a locking piece, a through hole is formed in the connecting rod, a positioning hole is formed in the sliding block or the solar module, and the locking piece penetrates through the through hole and is detachably connected with the positioning hole.

5. The solar-powered light fixture of claim 4 for ease of transportation, wherein: the locating hole is the screw hole, be equipped with on the locking piece with locating hole complex external screw thread portion.

6. The solar-powered light fixture of claim 4 for ease of transportation, wherein: the number of the positioning holes is multiple.

7. The solar light fixture for facilitating transportation of claim 1, wherein: the solar module comprises a rectangular frame body and a solar panel arranged on the inner side of the frame body, the frame body comprises two long sides which are oppositely arranged and two short sides which are oppositely arranged, and the sliding block is buckled on the long sides or the short sides.

8. The solar-powered light fixture of claim 7 for ease of transportation, wherein: and the solar module is provided with a limiting boss for abutting against the sliding block.

9. The solar light fixture for facilitating transportation of claim 1, wherein: the solar energy module further comprises a light source module, wherein the light source module is rotatably installed below the solar energy module.

10. The solar light fixture for facilitating transportation of claim 1, wherein: the solar module also comprises an angle adjuster, and one solar module is arranged on the angle adjuster.