CN116345994B - Solar mobile power station - Google Patents

Abstract

The invention provides a solar mobile power station, comprising: the solar energy device and the power supply device are arranged on the power station body, a storage battery is arranged in the power station body, and the power supply device is electrically connected with the storage battery. The solar device comprises a support and a plurality of solar panels, wherein the support is arranged on the upper surface of the power station body, the solar panels are slidably arranged on the support, and the solar panels are electrically connected with the storage battery. The power supply device comprises an output interface and a power taking control component, and the output interface is arranged on the outer side face of the power station body. The power taking control part includes: the device comprises a fixed base, a turntable, a rotating shaft, an electric receiving piece, an electric taking key and a one-way limiting assembly. The solar mobile power station can meet the requirements of convenient carrying, and can supplement electric energy by utilizing sunlight outdoors, so that the cruising ability of the mobile power station is improved.

Description

Solar mobile power station

Technical Field

The invention relates to the technical field of power equipment, in particular to a solar mobile power station.

Background

The mobile power station is equipment for providing service for outdoor power supply, has the characteristics of convenience in carrying, large capacity, stable output and the like, and is touted by outdoor camping users. The traditional mobile power station has single function, can only continuously consume reserved electric energy when being used outdoors, and can not supplement the electric energy.

Chinese patent publication No. CN102891633B, entitled "solar mobile power station", discloses a solar mobile power station comprising: the system comprises a lighting system, a vehicle-mounted mobile system and a control system; the lighting system comprises a lighting plate, and a solar cell panel is arranged on the sunny front surface of the lighting plate, so that electric energy is supplemented for the mobile power station by utilizing solar energy. However, the efficiency of converting solar energy into electric energy is directly proportional to the area of the solar panel, so that the solar mobile power station in the prior art has a larger size in order to better utilize the solar energy.

Therefore, how to design a solar mobile power station, so that the solar mobile power station can meet the requirements of convenience in carrying, and can supplement electric energy by utilizing sunlight outdoors, thereby improving the endurance of the mobile power station, and the solar mobile power station is a technical problem which needs to be solved by technicians in the field.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide a solar mobile power station, so that the solar mobile power station can meet the requirements of convenience in carrying and can supplement electric energy by utilizing sunlight outdoors, thereby improving the cruising ability of the mobile power station.

The aim of the invention is realized by the following technical scheme:

a solar mobile power station, comprising: the solar energy power station comprises a power station body, a solar energy device and a power supply device, wherein the solar energy device and the power supply device are arranged on the power station body, a storage battery is arranged in the power station body, and the power supply device is electrically connected with the storage battery;

the solar device comprises a support and a plurality of solar panels, wherein the support is arranged on the upper surface of the power station body, the solar panels are slidably arranged on the support, and the solar panels are electrically connected with the storage battery.

In one embodiment, the support is provided with a plurality of parallel sliding grooves, a plurality of sliding grooves are stacked and arranged, and a plurality of solar panels are respectively and slidably accommodated in the sliding grooves.

In one embodiment, the power supply device comprises an output interface and a power taking control component, and the output interface is arranged on the outer side surface of the power station body;

the power taking control part includes: the power station comprises a fixed base, a rotating disc, a rotating shaft, power receiving parts, power taking keys and unidirectional limiting components, wherein the fixed base is arranged in a power station body, the rotating disc is rotationally arranged in a containing groove of the fixed base through the rotating shaft, conductive sheets are arranged on the rotating disc, extend and protrude out of two sides of the rotating disc, the power receiving parts are arranged on the fixed base and are positioned on two sides of the rotating disc, and the conductive sheets are contacted with or separated from the power receiving parts on two sides;

the unidirectional limiting assembly comprises a gear and a rotation limiting clamping nail, the gear is arranged on the rotating shaft, the rotation limiting clamping nail is arranged on the fixed base through a reset elastic piece, the rotation limiting clamping nail is used for limiting unidirectional rotation of the gear, and a torsion spring is arranged on the rotating shaft;

the rotary table is provided with a bolt through groove and a missing position groove, the rotation limiting clamping nail extends into the bolt through groove, the power taking key is inserted into the bolt through groove, and the missing position groove is communicated with the bolt through groove.

In one embodiment, the rotation limiting clamping nail is provided with a gate slot, an open area and a unidirectional area are formed in the gate slot, a baffle plate and a blocking pin are arranged in the unidirectional area of the gate slot, and the baffle plate is matched with the gear.

In one embodiment, the cross section of the rotating shaft is of a special-shaped structure, the rotating disc and the gear are provided with special-shaped holes matched with the rotating shaft, the fixed base is provided with a circular through hole, the rotating shaft penetrates through the circular through hole, and one end of the torsion spring is connected with the fixed base.

In one embodiment, the fixed base is provided with a waist-shaped avoidance through groove, and the conductive sheet moves in the waist-shaped avoidance through groove; the fixed base is provided with a key hole matched with the power taking key.

In one embodiment, the electric receiving members are of reed structures, the number of the electric receiving members is two, and the tail ends of the two electric receiving members are located at one end of the waist-shaped avoidance through groove.

In one embodiment, the end of the rotating shaft is provided with a grab handle, and the grab handle is positioned on the outer side surface of the power station body.

In one embodiment, a heat dissipation grid mesh is arranged on the outer side wall of the power station body.

In one embodiment, the power station body is provided with a handle, and the bottom of the power station body is provided with a universal roller.

In conclusion, the solar mobile power station provided by the invention can meet the requirements of convenience in carrying, and can supplement electric energy by utilizing sunlight outdoors, so that the cruising ability of the mobile power station is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a solar mobile power station in a folded state;

FIG. 2 is a schematic view of the solar mobile power station shown in FIG. 1 in an unfolded state;

FIG. 3 is an exploded schematic view of the solar mobile power station shown in FIG. 1;

FIG. 4 is a partial schematic view of the solar mobile power station shown in FIG. 3;

FIG. 5 is a schematic diagram of the structure of the power take-off control component;

FIG. 6 is an exploded schematic view of the power take-off control component shown in FIG. 5;

FIG. 7 is a schematic structural diagram (I) of the fixed base and the rotating shaft shown in FIG. 6;

FIG. 8 is a schematic structural view of the fixed base and the rotating shaft shown in FIG. 6 (II);

FIG. 9 is a plan cross-sectional view of the power take-off control component shown in FIG. 5;

FIG. 10 is a partial cross-sectional view of the power take-off control component in an initial state;

FIG. 11 is a partial cross-sectional view of the power take-off control member in a power take-off state;

FIG. 12 is a schematic view of a structure of a rotary latch;

FIG. 13 is a schematic diagram illustrating the engagement of the rotatable locking pin with the gear.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. The drawings illustrate preferred embodiments of the invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only and are not meant to be the only embodiment.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The present invention provides a solar mobile power station 10, as shown in fig. 1 and 2, comprising: the power station main body 100, the solar device 200 and the power supply device 300 are provided on the power station main body 100, a battery (not shown) is provided in the power station main body 100, and the power supply device 300 is electrically connected to the battery. As shown in fig. 3, the solar device 200 includes a bracket 210 and a plurality of solar panels 220, the bracket 210 is disposed on the upper surface of the power station body 100, the plurality of solar panels 220 are slidably disposed on the bracket 210, and the solar panels 220 are electrically connected with the storage battery.

In the present embodiment, as shown in fig. 3 and 4, a plurality of parallel sliding grooves 211 are formed on the bracket 210, the plurality of sliding grooves 211 are stacked and arranged, and a plurality of solar panels 220 are slidably received in the sliding grooves 211, respectively.

The solar panels 220 and the brackets 210 are matched with each other to realize unfolding or folding, and the folded solar panels 220 are stacked together (as shown in fig. 1), so that the size is reduced, and the solar mobile power station 10 can meet the requirement of convenient carrying; when the solar mobile power station 10 is used outdoors, a user can unfold a plurality of solar panels 220 (as shown in fig. 2), and the unfolded solar panels 220 can cover a larger area, so that better charging performance is provided for the solar mobile power station 10. For example, in the present embodiment, the number of solar panels 220 is three, the first solar panel 220 is fixed on the bracket 210, the second and third solar panels 220 are located below the first solar panel, when in use, the second solar panel 220 slides and expands leftwards, and the third solar panel 220 slides and expands rightwards, so that the coverage area of the solar panels 220 can be multiplied, and the charging requirement can be better satisfied.

In this embodiment, as shown in fig. 3, a handle 101 is provided on the power station body 100, and a universal roller 102 is provided at the bottom of the power station body 100. The handle 101 can facilitate the user to lift the solar mobile power station 10, so that the solar mobile power station is convenient to carry; the universal roller 102 can facilitate the movement of the power station body 100, and improve the portability of the solar mobile power station 10.

Further, in the actual use process, the conventional mobile power station is not provided with an effective electricity safety structure, the cable can be directly powered on by plugging, the power taking mode is unsafe, especially children cannot be prevented from touching by mistake, and certain potential safety hazards exist. In order to overcome this technical problem, the solar mobile power station 10 of the present invention is also specifically designed for the power supply device 300.

Specifically, as shown in fig. 4, the power supply device 300 includes an output interface 310 and a power taking control unit 400, where the output interface 310 is disposed on an outer side surface of the power station body 100;

as shown in fig. 5 and 6, the power taking control unit 400 includes: the electric power station comprises a fixed base 410, a rotary table 420, a rotary shaft 430, electric connecting pieces 440, an electric power taking key 450 and one-way limiting assemblies 460, wherein the fixed base 410 is arranged inside the power station body 100, the rotary table 420 is rotationally arranged in a containing groove 411 of the fixed base 410 through the rotary shaft 430, the rotary table 420 is provided with conducting plates 421, the conducting plates 421 extend and protrude out of two sides of the rotary table 420, the electric connecting pieces 440 are arranged on the fixed base 410 and are located on two sides of the rotary table 420, and the conducting plates 421 are contacted with or separated from the electric connecting pieces 440 on two sides.

As shown in fig. 6, the unidirectional limiting assembly 460 includes a gear 461 and a rotation limiting holding nail 462, the gear 461 is mounted on the rotating shaft 430, the rotation limiting holding nail 462 is disposed on the fixed base 410 through the reset elastic member 401, the rotation limiting holding nail 462 is used for limiting unidirectional rotation of the gear 461, and the rotating shaft 430 is provided with a torsion spring 431. The rotary plate 420 is provided with a latch through slot 422 and a notch 423 (as shown in fig. 10), the rotation limiting clamp 462 extends into the latch through slot 422, the power taking key 450 is inserted into the latch through slot 422, and the notch 423 is communicated with the latch through slot 422.

When in use, a user needs to complete two steps in sequence to realize power taking, firstly, a power taking key 450 needs to be inserted into a bolt through groove 422 of the rotary table 420; secondly, the user needs to rotate the rotating shaft 430, so that the conductive sheet 421 moves to contact with the electrical connector 440, thereby realizing circuit communication and completing the electricity taking operation. After the circuit is completed, the conductive sheet 421 will always remain in contact with the power connector 440 without the user pulling the power key 450. The specific working principle will be explained below.

In this embodiment, the feature that the conductive plate 421 remains in contact with the power connector 440 is achieved by the engagement of the rotation limiting catch 462 with the gear 461. As shown in fig. 12 and 13, the rotation limiting clamp 462 is provided with a gate slot 463, an open area 463a and a unidirectional area 463b are formed in the gate slot 463, a baffle 4631 and a blocking pin 4632 are arranged in the unidirectional area 463b of the gate slot 463, and the baffle 4631 is matched with the gear 461.

When rotating, the teeth of the gear 461 pass through the gate slot 463, and slide along with the position of the rotation limiting catch 462, and the teeth of the gear 461 may be located in the open area 463a or may be located in the unidirectional area 463b. When the teeth are in the open area 463a, neither the forward rotation nor the reverse rotation of the gear 461 is affected; when the teeth are in unidirectional region 463b, gear 461 can only rotate in a specified direction (i.e., unidirectional rotation). The specific principles will be described in the following.

In this embodiment, the fixed base 410 is provided with a key hole 413 that cooperates with the power taking key 450, and when the power taking key 450 is plugged, the power taking key 450 passes through the key hole 413 and enters the accommodating slot 411 (as shown in fig. 7). The fixing base 410 is provided with a waist-shaped avoiding passage 412, and the conductive sheet 421 is movable in the waist-shaped avoiding passage 412. The waist-shaped avoiding through groove 412 is mainly arranged to avoid the conductive sheet 421 (as shown in fig. 8), because the conductive sheet 421 penetrates through the turntable 420, the fixed base 410 needs to be provided with the waist-shaped avoiding through groove 412 to avoid interference to the movement of the turntable 420, so as to ensure that the conductive sheet 421 contacts with the electrical connector 440.

Preferably, the power connectors 440 are in a reed structure (i.e. the power connectors 440 have elasticity), and the number of the power connectors 440 is two, and the ends of the two power connectors 440 are located at one end of the waist-shaped avoiding through slot 412. The two power receiving pieces 440 are connected to circuits, respectively, and when the conductive sheet 421 is in contact with the two power receiving pieces 440, the circuit to which the power receiving pieces 440 are connected is also completed.

Next, the operation principle of the power taking control unit 400 will be described with reference to the above configuration:

initially, the conductive sheet 421 does not contact the electrical connector 440, and the internal circuit is broken. The latch through slot 422 of the dial 420 is aligned with the key hole 413 (as shown in fig. 10), the rotation limiting catch 462 extends into the latch through slot 422, and the teeth of the gear 461 are in the open area 463a;

when power is taken, firstly, a user inserts the power taking key 450 into the key hole 413, and the tail end of the power taking key 450 extends to the bolt through groove 422. At this time, the power key 450 fills the gap of the through slot 422, and the rotation limiting clamp 462 is pushed and retracted, and the teeth of the gear 461 are located in the unidirectional area 463b. Then, the user rotates the rotating shaft 430 (clockwise as shown in fig. 9), the power taking key 450 is kept still, the rotary table 420 rotates relative to the power taking key 450, and the power taking key 450 enters the notch 423 of the rotary table 420; meanwhile, the conductive sheet 421 gradually approaches the electrical connector 440 along with the rotation of the turntable 420 until it is in contact with the electrical connectors 440 (as shown in fig. 11). Thus, the electric connection pieces 440 on two sides are communicated through the conductive sheet 421, so that the circuit is communicated;

during rotation of the shaft 430, the gear 461 also rotates relative to the rotation limiting catch 462, and since the teeth are in the unidirectional region 463b, the teeth will shift the shutter 4631 during rotation, as shown in fig. 13. When the gear rotates clockwise, the gear teeth can push the baffle 4631 to do avoiding action, so that the gear 461 can rotate smoothly; when the gear 461 rotates counterclockwise, the blocking pin 4632 prevents the shutter 4631 from making the avoiding action, so that the gear teeth cannot push the shutter 4631, and the gear 461 cannot rotate. That is, after the rotation of the rotation shaft 430, although the torsion spring 431 has a reset function, the rotation shaft 430 cannot reversely reset due to the cooperation of the gear 461 and the rotation limiting clamp 462, the rotation plate 420 cannot rotate, the conductive sheet 421 and the power receiving member 440 are kept in contact, and the power supply device 300 is kept in a power taking and supplying state;

when the power key 450 is required to be closed, the user only needs to withdraw the power key 450, the rotation limiting clamp 462 is not supported by the power key 450 any more, and the power key is reset under the action of the reset elastic member 401, so that the teeth of the gear 461 are located in the open area 463a again. At this time, the gear 461 is not limited by unidirectional rotation, the gear 461, the turntable 420 and the rotating shaft 430 are all reversely reset under the action of the torsion spring 431, the conductive plate 421 is far away from the power receiving element 440, the internal circuit is disconnected again, and the power supply device 300 is not supplied with power.

It should be noted that, when the power key 450 is not plugged, the rotation limiting clamp 462 extends to the latch through slot 422, and at this time, the rotation limiting clamp 462 contacts the latch through slot 422 to prevent the rotation of the rotation plate 420 whether the rotation plate 420 rotates forward or backward.

Note that the power taking control unit 400 of the present invention may have the following functions:

1. limiting the user to have to operate in the prescribed steps and sequence. The user must plug in the power-taking key 450 first, so that the rotation-limiting clamping nail 462 can only rotate the rotary disk 420; if the user rotates the turntable 420 preferentially, the turntable 420 is blocked by the rotation limiting clamp 462 and cannot rotate;

2. by changing the position of the rotation limiting catch 462, its mating relationship with the gear 461 can be changed. Initially, the teeth of the gear 461 are at the open area 463a, and the gear 461 is free to rotate; in the power taking process, the rotation limiting clamping nail 462 is propped to move, and the gear 461 can only rotate unidirectionally when the gear teeth of the gear 461 are positioned in the unidirectional area 463 b;

3. when the power key 450 is pulled out, the power control unit 400 is reset. When the power-taking key 450 is pulled out, the rotation limiting clamping nail 462 is reset first, the gear 461 has a reverse rotation condition, and under the action of the torsion spring 431, the rotating shaft 430, the gear 461 and the turntable 420 on the rotating shaft 430 are reversely reset, so that an internal circuit is disconnected, and safety is ensured;

4. the torsion spring 431 provides the turntable 420 with an automatic centering capability. During transportation without the plug-in power key 450, the rotating shaft 430 may be jolted and deflected, and the elastic force of the torsion spring 431 may help the rotating shaft 430 to correct the position, so that the plug through slot 422 is always aligned with the key hole 413 in the initial state;

the above functions are realized based on the structure of the power taking control part 400, and the parts are mutually matched, not simply combined.

In addition, the electrical connector 440 adopts a reed structure, which has elasticity, and when the conductive sheet 421 contacts the electrical connector 440, the electrical connector 440 is pressed and slightly deformed, so that the conductive sheet 421 can be more closely contacted with the electrical connector 440; moreover, the elastic deformation of the electrical connector 440 allows for compatibility with larger tolerances, thereby reducing the machining accuracy requirements.

In this embodiment, as shown in fig. 6 and 7, the cross section of the rotating shaft 430 is in a special-shaped structure, the rotating disc 420 and the gear 461 are provided with special-shaped holes 402 matching with the rotating shaft 430, the fixed base 410 is provided with a circular through hole 403, the rotating shaft 430 is arranged through the circular through hole 403, and one end of the torsion spring 431 is connected with the fixed base 410. Thus, by matching with the shaped hole 402, the rotating shaft 430 can rotate together with the turntable 420 and the gear 461 when rotating, and the rotating shaft 430 does not rotate to drive the fixed base 410 through the circular through hole 403.

In this embodiment, as shown in fig. 6 and 8, a grip 432 is provided at the end of the rotating shaft 430, and the grip 432 is located on the outer side surface of the power station body 100. When the user operates, the handle 432 drives the rotating shaft 430 to rotate, so as to drive the turntable 420 and the gear 461 to rotate.

In one embodiment, the outer side wall of the power station body 100 is provided with a heat dissipation grid 103 (as shown in fig. 3). The heat dissipation performance of the power station body 100 can be quickened by arranging the heat dissipation grid network 103, so that the inside of the power station body 100 is prevented from being overheated.

In summary, the solar mobile power station 10 of the present invention can not only meet the requirements of convenient carrying, but also supplement electric energy by using sunlight outdoors, thereby improving the endurance of the mobile power station.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (9)

1. A solar mobile power station, comprising: the solar energy power station comprises a power station body, a solar energy device and a power supply device, wherein the solar energy device and the power supply device are arranged on the power station body, a storage battery is arranged in the power station body, and the power supply device is electrically connected with the storage battery;

the solar device comprises a bracket and a plurality of solar panels, the bracket is arranged on the upper surface of the power station body, the plurality of solar panels are arranged on the bracket in a sliding manner, and the solar panels are electrically connected with the storage battery;

the power supply device comprises an output interface and a power taking control component, and the output interface is arranged on the outer side surface of the power station body;

the power taking control part includes: the power station comprises a fixed base, a rotating disc, a rotating shaft, power receiving parts, power taking keys and unidirectional limiting components, wherein the fixed base is arranged in a power station body, the rotating disc is rotationally arranged in a containing groove of the fixed base through the rotating shaft, conductive sheets are arranged on the rotating disc, extend and protrude out of two sides of the rotating disc, the power receiving parts are arranged on the fixed base and are positioned on two sides of the rotating disc, and the conductive sheets are contacted with or separated from the power receiving parts on two sides;

the unidirectional limiting assembly comprises a gear and a rotation limiting clamping nail, the gear is arranged on the rotating shaft, the rotation limiting clamping nail is arranged on the fixed base through a reset elastic piece, the rotation limiting clamping nail is used for limiting unidirectional rotation of the gear, and a torsion spring is arranged on the rotating shaft;

the rotary table is provided with a bolt through groove and a missing position groove, the rotation limiting clamping nail extends into the bolt through groove, the power taking key is inserted into the bolt through groove, and the missing position groove is communicated with the bolt through groove.

2. The solar mobile power station of claim 1, wherein the support is provided with a plurality of parallel sliding grooves, a plurality of sliding grooves are stacked and arranged, and a plurality of solar panels are respectively slidably accommodated in the sliding grooves.

3. The solar mobile power station of claim 1, wherein the rotation limiting clamping pin is provided with a gate slot, an open area and a unidirectional area are formed in the gate slot, a baffle and a blocking pin are arranged in the unidirectional area of the gate slot, and the baffle is matched with the gear.

4. The solar mobile power station according to claim 1, wherein the cross section of the rotating shaft is of a special-shaped structure, special-shaped holes matched with the rotating shaft are formed in the rotating disc and the gear, a circular through hole is formed in the fixed base, the rotating shaft penetrates through the circular through hole, and one end of the torsion spring is connected with the fixed base.

5. The solar mobile power station of claim 1, wherein the fixed base is provided with a waist-shaped avoidance through groove, and the conducting strip moves in the waist-shaped avoidance through groove; the fixed base is provided with a key hole matched with the power taking key.

6. The solar mobile power station of claim 5, wherein the power receiving pieces are of reed structures, the number of the power receiving pieces is two, and the tail ends of the two power receiving pieces are positioned at one end of the waist-shaped avoidance through groove.

7. The solar mobile power station according to claim 1, wherein a handle is arranged at the tail end of the rotating shaft, and the handle is arranged on the outer side face of the power station body.

8. The solar mobile power station of claim 1, wherein a heat dissipation grid is provided on an outer sidewall of the power station body.

9. The solar mobile power station of claim 1, wherein a handle is provided on the power station body, and a universal roller is provided at the bottom of the power station body.