CN113258871A

CN113258871A - Solar energy equipment applied to bus

Info

Publication number: CN113258871A
Application number: CN202110468975.7A
Authority: CN
Inventors: 林伟群
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-28
Filing date: 2021-04-28
Publication date: 2021-08-13

Abstract

The invention discloses solar energy equipment applied to a bus, which is structurally provided with a supporting seat, a buckle opening and a solar panel, wherein the buckle opening and the supporting seat are integrated and are arranged in a through manner, the solar panel is movably connected above the supporting seat and swings and rotates under the pressure of a swinging block through the swinging block, a pressing frame is convenient to drive the deformation block to overturn for a certain angle and extrude the deformation block, the deformation block is made to perform retraction and folding activities, magnetic blocks are closed to each other, when the repulsive magnetic force of the swinging block is increased and a spring is compressed to a certain degree, the reaction force of the swinging block is maximized, the solid block is made to extend, the extension of the solid block is convenient to enable the swinging block to integrally have reverse swinging force, the solar panel is made to perform reverse driving again, the solar panel can circularly perform angle swinging under the condition that the solar panel is connected with a connector, and dust on the end face of the solar panel is easy to fall down along with the swinging of the connector.

Description

Solar energy equipment applied to bus

Technical Field

The invention belongs to the field of solar energy, and particularly relates to solar equipment applied to a bus.

Background

With the progress and the development of science and technology, the application of new forms of energy bus increases gradually on the market, and it charges to carry out solar energy, installs solar equipment in the ceiling department in the bus usually, ensures to receive sunshine, lets the bus have operation power.

Based on the discovery of the inventor, the existing solar energy equipment applied to the bus has the following defects:

the bus is as public transport, and its operation is on outdoor road, and the personnel that bear are various, and solar energy equipment is installed in car ceiling department, can contact a large amount of dusts unavoidably to make and adhere to accumulated dirt matter on the solar panel face, and dirt matter piles up thickness and regional difference, lead to the plate body to receive sunshine inefficiency.

It is therefore desirable to provide a solar energy device for use in a bus.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide solar equipment applied to a bus so as to solve the problems in the prior art.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a be applied to solar equipment of bus, its structure is equipped with supporting seat, knot mouth, solar panel, knot mouth and supporting seat structure as an organic whole and link up the setting, solar panel swing joint is in the supporting seat top.

The supporting seat is provided with a positioning seat, an upper end block and a movable body, the upper end block is fixedly embedded above the positioning seat, and the movable body moves at one side end of the upper end block.

As a further improvement of the invention, the movable body is provided with a fixed block, a connecting column and an auxiliary plate, the lower end of the connecting column is embedded and clamped in the fixed block, the auxiliary plate is connected to the side end of the fixed block, the auxiliary plate is located beside the connecting column and is movably matched with the connecting column, the connecting column can be lifted and lowered and is hinged with the plate body, and the plate body can be swung and folded conveniently to change angles.

As a further improvement of the invention, the connecting column is provided with a circuit board, a connector, a swinging block, two lifting rods and a clamping groove, the circuit board is positioned below the clamping groove, the connector is installed at the top end of the lifting rod, the connector is matched with the circuit board, one side end of the swinging block is connected with the lifting rod and moves at the side end position of the swinging block, the lower end of the lifting rod is embedded in the clamping groove, the connector is controlled by the circuit board to perform screwing and loosening movement, the lifting rods have telescopic properties, and the two swinging blocks are respectively arranged at the outer ends of two sides of the lifting rod.

As a further improvement of the invention, the swing block is provided with a contact block, a deformation block and a pressing frame, the contact block and the swing block are of an integrated structure and are positioned at the top end of the swing block, the deformation block is positioned at the side end of the pressing frame and is movably matched with the side end of the pressing frame, the upper end of the pressing frame is connected with the bottom end of the contact block, the contact block is an end face made of silica gel, has certain toughness and good contact and holding effects, the two deformation blocks are symmetrically distributed relative to the pressing frame, the pressing frame is in an inverted V shape, and an included angle between the two deformation blocks is fixed.

As a further improvement of the invention, the deformation block is provided with a solid block, a movable groove, a magnetic block and a spring, the movable groove is embedded and installed inside the solid block, the magnetic block is embedded and movable in the movable groove, the spring is connected between the magnetic blocks and movably matched with the magnetic blocks, the solid block is made of rubber and has better flexibility and deformation force, and the magnetic blocks are blocks with magnetism and have the same polarity, so that repulsive magnetic field force is generated.

As a further improvement of the invention, the auxiliary plate is provided with a solid plate, an arc frame and a magnetic strip block, the magnetic strip block and the solid plate are of an integrated structure and are positioned at one side end of the solid plate, the arc frame is fixedly connected at one side end of the solid plate and is movably matched with the solid plate, the solid plate can swing in a supporting point mode, the arc frame is of an arc structure, and the magnetic strip block has magnetic force.

As a further improvement of the present invention, the arc frame is provided with a frame plate, a displacement rod, a top striking rod and a through rod, wherein the displacement rod is movably arranged at the inner side of the frame plate, the through rod is embedded at the positions of the two side ends of the frame plate, the displacement rod is communicated and movably matched with the through rod, the top striking rod is connected to the displacement rod in a penetrating manner and movably matched with the displacement rod, the displacement rod is arc-shaped, a spring is wound outside the through rod, and the top striking rod is in a spherical ball structure.

As a further improvement of the invention, the top hitting ball is provided with a through ring, a connecting spring and a weight bias ball, the through ring is positioned at the inner side, the connecting spring is connected at the outer peripheral end of the through ring, the weight bias ball is connected with the connecting spring and movably matched with the connecting spring, the weight bias ball moves at the inner side end, the connecting spring and the weight bias ball are in a group and are matched with each other, three groups are arranged and are uniformly distributed in a ring shape, and the weight bias ball is a ball with certain weight pressure.

Compared with the prior art, the invention has the following beneficial effects:

1. through the swing piece by swing piece pressure and pendulum change, also produce the extrusion to it when being convenient for press frame to drive the certain angle of deformation piece upset, make the deformation piece do the contraction and roll over activity, draw close each other by the magnetic path, when its increase of magnetic force of repelling each other and compression spring to the certain degree, its reaction force maximize, and make the real piece extend, it extends and is convenient for swing the piece wholly to have reverse pendulum power, make it with solar panel reverse drive once more, do benefit to solar panel can circulate under the condition that slack and connector are connected and do the angle and change the pendulum, be convenient for the dust on its terminal surface along with incite and move and drop easily.

2. Under the fixed connection through arc frame and solar panel, the solid board moves along with solar panel pendulum motion, the frame plate position of being convenient for changes, make the top batting can cross the displacement pole and roll, the displacement pole is under the elastic fit who runs through the pole, constantly do the up-and-down displacement motion, further the auxiliary drive top batting has bigger motility, by the heavy pressure nature of bias ball, it makes constantly to receive the impact under the elastic fit who connects the spring, it produces the striking to it in the frame inboard of being convenient for, do benefit to the arc frame and conduct solar panel with the shaking force, make the dust matter on the solar panel receive the vibrations and fall with higher speed and leave.

Drawings

Fig. 1 is a schematic structural diagram of a solar device applied to a bus according to the present invention.

FIG. 2 is a schematic view of an internal side view of a supporting base according to the present invention.

Fig. 3 is a schematic view of the inner side view of a movable body according to the present invention.

FIG. 4 is a schematic view of an internal side view of a connecting column according to the present invention.

FIG. 5 is a schematic diagram of the internal side view of a swing block of the present invention.

FIG. 6 is a schematic diagram of an internal side view of a shape-changing block according to the present invention.

FIG. 7 is a schematic diagram of an auxiliary board according to the present invention.

FIG. 8 is a schematic diagram of an internal side view of an arc frame according to the present invention.

Fig. 9 is a schematic view of an internal side view of a top hit ball of the present invention.

In the figure: the solar energy collecting device comprises a supporting seat-1, a buckle-2, a solar panel-3, a positioning seat-11, an upper end block-12, a movable body-13, a fixed block-131, a connecting column-132, an auxiliary plate-133, a circuit board-a 1, a connector-a 2, a swinging block-a 3, a lifting rod-a 4, a clamping groove-a 5, a contact block-a 31, a deformation block-a 32, a pressing frame-a 33, a solid block-q 1, a movable groove-q 2, a magnetic block-q 3, a spring-q 4, a solid plate-b 1, an arc frame-b 2, a magnetic strip block-b 3, a frame plate-e 1, a displacement rod-e 2, a top hitting ball-e 3, a penetrating rod-e 4, a penetrating ring-e 31, an impact ring-w-32, a connecting spring-e 33 and a bias weight ball-e 34.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 6:

the invention provides solar equipment applied to a bus, which is structurally provided with a supporting seat 1, a buckle opening 2 and a solar panel 3, wherein the buckle opening 2 and the supporting seat 1 are of an integrated structure and are arranged in a penetrating way, and the solar panel 3 is movably connected above the supporting seat 1.

The supporting seat 1 is provided with a positioning seat 11, an upper end block 12 and a movable body 13, the upper end block 12 is fixedly embedded above the positioning seat 11, and the movable body 13 moves at one side end of the upper end block 12.

The movable body 13 is provided with a fixed block 131, a connecting column 132 and an auxiliary plate 133, the lower end of the connecting column 132 is embedded and clamped inside the fixed block 131, the auxiliary plate 133 is connected to the side end of the fixed block 131, the auxiliary plate 133 is located beside the connecting column 132 and is movably matched with the connecting column 132, the connecting column 132 can be lifted and lowered and is hinged to the plate body, the plate body can be conveniently swung and folded to change the angle, the auxiliary plate 133 moves along with the change of the connecting column 132, and the auxiliary plate 133 and the connecting column 132 are matched with each other to control the movement force of the plate body in a swinging manner.

Wherein, the spliced pole 132 is equipped with circuit board a1, connector a2, swing piece a3, lifter a4, draw-in groove a5, circuit board a1 is located draw-in groove a5 below, connector a2 is installed on lifter a4 top, connector a2 cooperatees with circuit board a1, a swing piece a3 side is connected and moves about in its side position with lifter a4, embedded inside draw-in groove a5 of lifter a4 lower extreme, connector a2 receives circuit board a1 control and can screw up slack and relax activity, lifter a4 has flexible nature, swing piece a3 is equipped with two, and sets up respectively in lifter a4 both sides outer end, swing piece a3 produces the position change along with lifter a4, receives the pressure of top, carries out certain angle upset and can receive pressure deformation.

Wherein, swing piece a3 is equipped with contact piece a31, deformation piece a32, pressure frame a33, contact piece a31 and swing piece a3 just are located its top position for integrated structure, deformation piece a32 is located pressure frame a33 side and clearance fit, pressure frame a33 upper end is connected with contact piece a31 bottom, contact piece a31 is the silica gel material terminal surface, has certain toughness, and touches and connect, hold up effectually, deformation piece a32 is equipped with two, and is the symmetric distribution about pressure frame a33, pressure frame a33 is the eight characters form of falling, and contained angle between is fixed, contact piece a31 bears the pressure, produces the pendulum under mutually supporting with pressure frame a33 and changes, makes pressure frame a33 produce pressure to deformation piece a32, makes its deformation, then under the reaction force of deformation piece a32, can in time reset.

The deformation block a32 is provided with a solid block q1, a movable groove q2, a magnetic block q3 and a spring q4, the movable groove q2 is embedded and installed inside the solid block q1, the magnetic block q3 is embedded and movable in the movable groove q2, the spring q4 is connected between the magnetic blocks q3 and movably matched with the magnetic blocks q3, the solid block q1 is made of rubber and has good flexibility and deformation force, the magnetic block q3 is a block with magnetism and is of like magnetism to generate repulsive magnetic field force, the movable groove q2 is compressed and squeezed along with the solid block q1 to reduce the inner space, the magnetic block q3 is squeezed to be close, and under the elastic action of the repulsive force and the spring q4, the magnetic block q3 is close to a certain degree to generate reactive force to reversely expand the solid block q 1.

The specific use mode and function of the embodiment are as follows: personnel can control the connection tightness degree of the connector a2 and the solar panel 3 by placing the buckle port 2 at a proper position of the top of the bus, so as to adjust the solar panel 3 to a state of receiving the maximum area of sunlight, the fixed block 131 is controlled, under the power-on condition, the connection tightness degree of the connector a2 and the solar panel 3 can be controlled, the area of the solar panel 3 receiving the sunlight can be conveniently changed, under the loosening state, the movable body 13 generates power to the fixed block, so that the fixed block can drop dust on the end surface of the fixed block in the swinging process, the movable body drives the solar panel 3 at a proper position above the supporting seat 1 through the telescopic property of the lifting rod a4, after the connector a2 is controlled to loose the connection degree of the solar panel 3, the solar panel 3 is wrapped by the swinging block a3 to swing, the contact block a31 has good toughness and friction force to be attached to the solar panel 3, so that the lifting rod a3 is hinged to rotate by the pressure of the swinging block a4, the pressing frame a33 is convenient to drive the deformation block a32 to overturn for a certain angle and simultaneously extrude the deformation block a32, the deformation block a32 is convenient to perform contraction and folding activities, the solid block q1 is compressed and folded to reduce the space of the movable groove q2 and facilitate the magnetic blocks q3 to approach each other, when the repulsive magnetic force of the magnetic blocks q1 is increased and the spring q4 is compressed to a certain degree, the reaction force is maximized, the magnetic blocks q3 can be reversely pushed, the solid block q1 is extended, the swinging block a3 can be conveniently extended to integrally have reverse swinging force, so that the solar panel 3 is reversely driven again, the solar panel 3 can be circularly rotated for an angle under the condition that the solar panel is loosely connected with the connector a2, the dust on the end face of the solar panel is conveniently swung, the dust on the end face of the solar panel easily drops, and the dust accumulation on the solar panel 3 is not easily caused.

Example 2:

as shown in fig. 7 to 9:

the auxiliary plate 133 is provided with a solid plate b1, an arc frame b2 and a magnetic strip b3, the magnetic strip b3 and the solid plate b1 are of an integrated structure and are located at one side end of the solid plate b1, the arc frame b2 is fixedly connected to one side end of the solid plate b1 and is movably matched with the solid plate b1, the solid plate b1 can swing in a supporting point mode, the arc frame b2 is of an arc structure, the magnetic strip b3 has magnetic force, the solid plate b1 assists in controlling the swinging angle of the plate body under the magnetic force of the magnetic strip b3, and the arc frame b2 is moved along with the solid plate b1 and then acts on the plate body to generate acting force.

The arc frame b2 is provided with a frame plate e1, a displacement rod e2, a top hitting ball e3 and a through rod e4, the displacement rod e2 is movably arranged on the inner side of the frame plate e1, the through rod e4 is embedded in the positions of two side ends in the frame plate e1, the displacement rod e2 is communicated with the through rod e4 and movably matched with the through rod e1, the top hitting ball e3 is connected to the displacement rod e2 in a penetrating mode and movably matched with the displacement rod e2, the displacement rod e2 is arc-shaped, a spring is wound outside the through rod e4, the top hitting ball e3 is of a spherical structure, and the top hitting ball e3 penetrates through the displacement rod e2 to roll and press the top hitting ball e3 to penetrate through the through rod e4 to perform vertical displacement movement, so that the top hitting ball e3 is further driven to generate a larger moving force.

The top hitting ball e3 is provided with a through ring e31, an e32, a connecting spring e33 and a heavy ball e34, the through ring e31 is located on the inner side of e32, the connecting spring e33 is connected to the outer peripheral end of the through ring e31, the heavy balls e34 are connected with the connecting spring e33 and movably matched with the connecting spring e33, the heavy ball e34 moves on the inner side of the e32, the connecting spring e33 and the heavy ball e34 are combined to move in a group, three groups of balls are arranged and uniformly distributed in a ring shape, the heavy ball e34 is a ball with certain weight, and the e32 displaces on the outer side of the through ring e31 under the top hitting of the heavy ball e34, so that the top hitting ball e3 is increased in overall flexibility and is convenient for generating a larger pushing action on the outside during the movement.

The specific use mode and function of the embodiment are as follows: the magnetic force of the magnetic strip block b3 and the electromagnetic force generated by the solar panel 3 are convenient for maintaining a certain magnetic field distance between the two, and under the fixed connection of the arc frame b2 and the solar panel 3, the solid plate b1 moves along with the swinging and folding movement of the solar panel 3, so that the position of the frame plate e1 is convenient to change, the top hitting ball e3 can penetrate through the displacement rod e2 to roll under the self spherical structure, and pressure is applied to the displacement rod e2, so that the displacement rod e2 can continuously move up and down under the elastic cooperation of the penetrating rod e4, and further assist in driving the top hitting ball e3 to have larger moving force due to the heavy pressure of the heavy ball e34, the shock absorber can circularly act on the inner side of the e32 under the elastic matching of the connecting spring e33, so that the e32 is continuously impacted, the impact on the frame plate e1 is convenient to generate on the inner side of the frame plate e1, the shock force is favorably transmitted to the solar panel 3 by the arc frame b2, and the dust on the solar panel 3 is vibrated to accelerate the falling off.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a be applied to solar equipment of bus, its structure is equipped with supporting seat (1), knot mouth (2), solar panel (3), knot mouth (2) and supporting seat (1) are the integrated structure and link up the setting, solar panel (3) swing joint is in supporting seat (1) top, its characterized in that:

the supporting seat (1) is provided with a positioning seat (11), an upper end block (12) and a movable body (13), the upper end block (12) is fixedly embedded above the positioning seat (11), and the movable body (13) is movable at one side end of the upper end block (12).

2. The solar energy device applied to the bus as claimed in claim 1, wherein: the movable body (13) is provided with a fixed block (131), a connecting column (132) and an auxiliary plate (133), the lower end of the connecting column (132) is embedded and clamped inside the fixed block (131), the auxiliary plate (133) is connected to the side end of the fixed block (131), and the auxiliary plate (133) is located on the side of the connecting column (132) and is in movable fit with the connecting column.

3. The solar energy device applied to the bus as claimed in claim 2, wherein: the spliced pole (132) are equipped with circuit board (a1), connector (a2), swing piece (a3), lifter (a4), draw-in groove (a5), circuit board (a1) are located draw-in groove (a5) below, install on lifter (a4) top connector (a2), connector (a2) cooperatees with circuit board (a1), a swing piece (a3) side is connected with lifter (a4) and moves about in its side position, lifter (a4) lower extreme is embedded inside draw-in groove (a 5).

4. The solar energy device applied to the bus as claimed in claim 3, wherein: swing piece (a3) is equipped with contact piece (a31), deformation piece (a32), presses frame (a33), contact piece (a31) and swing piece (a3) be the integrated structure and be located its top end position, deformation piece (a32) are located and press frame (a33) side and clearance fit, press frame (a33) upper end and contact piece (a31) bottom to be connected.

5. The solar energy device applied to the bus as claimed in claim 4, wherein: the deformation block (a32) is provided with a solid block (q1), a movable groove (q2), a magnetic block (q3) and a spring (q4), wherein the movable groove (q2) is embedded and installed inside the solid block (q1), the magnetic block (q3) is embedded and movable in the movable groove (q2), and the spring (q4) is connected between the magnetic blocks (q3) and is in movable fit.

6. The solar energy device applied to the bus as claimed in claim 2, wherein: the auxiliary plate (133) is provided with a solid plate (b1), an arc frame (b2) and a magnetic strip block (b3), the magnetic strip block (b3) and the solid plate (b1) are of an integrated structure and are located at one side end of the solid plate, and the arc frame (b2) is fixedly connected to one side end of the solid plate (b1) and is in movable fit with the solid plate.

7. The solar energy device applied to the bus as claimed in claim 6, wherein: arc frame (b2) is equipped with deckle board (e1), displacement pole (e2), top hit ball (e3), runs through pole (e4), displacement pole (e2) activity is inboard in deckle board (e1), it is embedded in deckle board (e1) both sides position department to run through pole (e4), displacement pole (e2) and run through pole (e4) and link up and clearance fit mutually, top hit ball (e3) and pass through on displacement pole (e2) and clearance fit.

8. The solar energy device applied to the bus as claimed in claim 7, wherein: the top hitting ball (e3) is provided with a through ring (e31), (e32), a connecting spring (e33) and a weight biasing ball (e34), the through ring (e31) is located on the inner side of the through ring (e32), the connecting spring (e33) is connected to the outer peripheral end of the through ring (e31), the weight biasing ball (e34) is connected with the connecting spring (e33) in a movable fit mode, and the weight biasing ball (e34) moves on the inner side end of the through ring (e 32).