CN220964785U - Portable light stores up charging station - Google Patents

Abstract

The utility model provides a mobile light storage station, which comprises a power station body, wherein a plurality of groups of rollers are arranged at the bottom end of the power station body, a vertically extending storage cavity is formed in the power station body, the top end of the storage cavity is an open end, and a photovoltaic power generation device is arranged in the storage cavity; the photovoltaic power generation device comprises a photovoltaic folding mechanism and a lifting and gathering mechanism connected with the photovoltaic folding mechanism; the photovoltaic folding mechanism comprises a mounting ring, a plurality of support rods which are distributed in a divergent mode are hinged to the mounting ring, and flexible photovoltaic panel assemblies are arranged on the support rods; the lifting and folding mechanism can drive the photovoltaic folding mechanism to move to the upper part of the storage cavity or to be stored in the storage cavity, and can drive the photovoltaic panel assembly to be unfolded into a sheet shape or folded into a beam shape. The photovoltaic panel can be folded and stored.

Description

Portable light stores up charging station

Technical Field

The utility model relates to the technical field of power stations, in particular to a mobile optical storage station.

Background

The photovoltaic board on the power station can be utilized to the photo-electricity storage station electricity generation to provide the electric energy for other equipment, and store unnecessary electric energy in the battery, in order to use in night or the overcast and rainy day that the illumination condition is relatively poor. If the electric energy generated by the photovoltaic panel is remained after the storage battery is fully charged, the remained electric energy is sold to the national power grid, so that 'one-electricity-multiple-use' is realized.

Most of the existing light storage charging stations are placed outdoors, and in order to ensure the power generation efficiency of the light storage charging stations, the photovoltaic panel of the light storage charging stations needs to be designed to be larger, so that the wind-receiving area of the photovoltaic panel is also larger. However, the photovoltaic panels of existing photovoltaic storage charging stations generally employ an integrated mounting structure and lack an effective wind-proof design, and photovoltaic panels placed outdoors are subject to attack by strong wind, and thus loosening, damage, etc. of structural members occur. In addition, larger photovoltaic panels also do not facilitate the movement of the light storage station by the user.

Disclosure of utility model

In order to overcome the defects in the prior art, the utility model provides a mobile light storage station which can be used for folding and storing a photovoltaic panel.

The utility model adopts the following technical scheme.

The movable type light storage charging station comprises a power station body, wherein a plurality of groups of rollers are arranged at the bottom end of the power station body, a vertically extending storage cavity is formed in the power station body, the top end of the storage cavity is an open end, and a photovoltaic power generation device is arranged in the storage cavity;

The photovoltaic power generation device comprises a photovoltaic folding mechanism and a lifting and gathering mechanism connected with the photovoltaic folding mechanism;

The photovoltaic folding mechanism comprises a mounting ring, a plurality of support rods which are distributed in a divergent mode are hinged to the mounting ring, and flexible photovoltaic panel assemblies are arranged on the support rods;

the lifting and folding mechanism can drive the photovoltaic folding mechanism to move to the upper part of the storage cavity or to be stored in the storage cavity, and can drive the photovoltaic panel assembly to be unfolded into a sheet shape or folded into a beam shape.

Further, the photovoltaic panel assembly comprises flexible base cloth, a plurality of first pairs of folding lines and second pairs of folding lines which are distributed in a divergent mode are formed on the base cloth, the first pairs of folding lines and the second pairs of folding lines are alternately arranged, triangular photovoltaic panels are arranged between the adjacent first pairs of folding lines and the second pairs of folding lines, the photovoltaic panels are bonded with the base cloth, and the supporting rods are overlapped with the first pairs of folding lines and are connected into a whole.

Further, the lifting opening mechanism comprises a fixed rod body and a movable rod body which vertically extend, the fixed rod body is connected with the power station body into a whole, the movable rod body is slidably sleeved in the fixed rod body, the movable rod body is connected with a power assembly, and the mounting ring is arranged at the top of the movable rod body.

Further, the power component is including the drive rod that can slide ground cover and locate in the movable rod body to and vertical extension and with drive rod threaded connection lead screw, and the motor of being connected with the lead screw transmission, the bottom of drive rod is formed with the transmission shoulder that expands outward, be connected with first elastic component between transmission shoulder and the movable rod body, first elastic component makes the transmission shoulder keep the trend of the direction motion of the opposite movable rod body, the top of drive rod is formed with the drive portion that extends to the movable rod body outside, the hole of dodging that supplies the drive portion to pass is offered to the lateral wall of movable rod body, dodging the hole and be rectangular and vertical extension, drive portion and bracing piece butt.

Further, the inside wall of the fixed rod body is provided with a limiting part, the outside wall of the movable rod body is provided with a limiting groove which extends vertically and is connected with the limiting part in a sliding mode, and the bottom end of the limiting groove is in a closed shape.

Further, a second elastic piece is connected between the support rod and the movable rod body, and the second elastic piece enables the support rod to keep a trend of overturning towards a direction close to the side wall of the movable rod body.

Further, the top of moving the body of rod is connected with the lid that can shutoff accomodate the chamber top, the wash port has been seted up to the bottom of accomodating the chamber.

Further, the side part of the power station body is connected with a vertically extending locking rod in a sliding manner.

The beneficial effects of the utility model are as follows:

The photovoltaic power generation device comprises a photovoltaic folding mechanism and a lifting and folding mechanism, wherein the lifting and folding mechanism can drive the photovoltaic folding mechanism to move to the upper part of a storage cavity or to be stored in the storage cavity, and can drive a photovoltaic panel assembly of the photovoltaic folding mechanism to be unfolded into a sheet shape or folded into a beam shape. Under the condition of normal power generation, the lifting and folding mechanism drives the photovoltaic folding mechanism to move to the upper part of the storage cavity, and the photovoltaic panel assembly is unfolded into a sheet shape, so that the photovoltaic panel assembly can receive sunlight to the greatest extent, and power generation is performed. And when the photovoltaic panel assembly is in strong wind weather or needs to be moved, the lifting and folding mechanism drives the photovoltaic panel assembly to fold into a beam, and the photovoltaic folding mechanism is stored in the storage cavity, so that the photovoltaic panel assembly is not only prevented from being affected by strong wind, but also a user can conveniently move the photovoltaic panel assembly.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described, and it will be obvious to those skilled in the art that other drawings can be obtained according to these drawings without inventive effort.

Fig. 1 is one of schematic sectional structural views of the present embodiment (photovoltaic panel assembly in a housed state);

FIG. 2 is a second schematic cross-sectional view of the present embodiment (the photovoltaic panel assembly is located above the receiving cavity and in a folded state);

fig. 3 is an enlarged view of a portion a of fig. 2;

FIG. 4 is a second schematic cross-sectional view of the present embodiment (the photovoltaic panel assembly is located above the receiving cavity and in an unfolded state);

Fig. 5 is an enlarged view of a portion B of fig. 4;

Fig. 6 is a schematic top view of the photovoltaic panel assembly according to the present embodiment in an unfolded state.

Reference numerals illustrate:

a power station body 1, a receiving cavity 1a, a drain hole 1b,

The roller wheel 2 is provided with a plurality of rollers,

The mounting ring 31, the support bar 32,

The base fabric 33, the first pair of fold lines 33a, the second pair of fold lines 33b,

The photovoltaic panel 34 is provided with a plurality of light emitting elements,

The second elastic member 35 is provided with a first elastic member,

The fixed rod body 41, the limiting part 411,

The movable rod body 42, the avoidance hole 42a, the limit groove 42b,

The driving rod 43, the driving shoulder 431, the driving part 432,

A screw 44, a motor 45, a first elastic member 46,

A cover 5 and a locking lever 6.

Detailed Description

The drawings are for illustrative purposes only and are not to be construed as limiting the present patent; for the purpose of better illustrating the present embodiment, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the actual product dimensions.

It will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted. The technical scheme of the utility model is further described below with reference to the accompanying drawings and examples.

The movable type light storage station shown in the drawings comprises a power station body 1, wherein a plurality of groups of rollers 2 are arranged at the bottom end of the power station body 1, a vertically extending storage cavity 1a is formed in the power station body 1, the top end of the storage cavity 1a is an open end, and a photovoltaic power generation device is arranged in the storage cavity 1 a;

the photovoltaic power generation device comprises a photovoltaic folding mechanism and a lifting and gathering mechanism connected with the photovoltaic folding mechanism;

the photovoltaic folding mechanism comprises a mounting ring 31, a plurality of support rods 32 which are distributed in a divergent mode are hinged to the mounting ring 31, and flexible photovoltaic panel assemblies are arranged on the support rods 32;

The lifting and folding mechanism can drive the photovoltaic folding mechanism to move to the upper part of the storage cavity 1a or to be stored in the storage cavity 1a, and can drive the photovoltaic panel assembly to be unfolded into a sheet shape or folded into a beam shape.

Specifically, under the condition of normal power generation, the lifting and folding mechanism drives the photovoltaic folding mechanism to move to the upper part of the storage cavity 1a, and the photovoltaic panel assembly is unfolded into a sheet shape, so that the photovoltaic panel assembly can receive sunlight to the greatest extent, and power generation is performed. When strong wind weather or needs to move, the lifting and opening mechanism drives the photovoltaic panel assembly to be folded into a beam, and then the photovoltaic panel assembly is stored in the storage cavity 1a, so that the photovoltaic panel assembly is prevented from being affected by strong wind, and a user can conveniently transfer the light storage station.

Preferably, the photovoltaic panel assembly includes a flexible base cloth 33, a plurality of first pairs of folding lines 33a and a plurality of second pairs of folding lines 33b are formed on the base cloth 33, the first pairs of folding lines 33a and the second pairs of folding lines 33b are alternately arranged, a triangular photovoltaic panel 34 is arranged between the adjacent first pairs of folding lines 33a and second pairs of folding lines 33b, the photovoltaic panel 34 is adhered to the base cloth 33, and the supporting rods 32 are overlapped with the first pairs of folding lines 33a and connected into a whole. Specifically, when the end of the support bar 32 facing away from the mounting ring 31 is turned in a direction to be close to the axis of the mounting ring 31, the base cloth 33 is folded along the first and second pairs of folding lines 33a and 33b thereof, so that the base cloth 33 and the photovoltaic panel 34 are folded into a bundle.

Preferably, the lifting opening mechanism comprises a fixed rod 41 and a movable rod 42 which extend vertically, the fixed rod 41 is connected with the power station body 1 into a whole, the movable rod 42 is slidably sleeved in the fixed rod 41, the movable rod 42 is connected with a power assembly, and the mounting ring 31 is arranged at the top of the movable rod 42. Specifically, the movable rod 42 can slide along the fixed rod 41 under the driving of the power assembly, so that the mounting ring 31 located at the top of the movable rod 42 can perform lifting movement.

Preferably, the power assembly comprises a driving rod 43 slidably sleeved in the moving rod body 42, a screw rod 44 vertically extending and in threaded connection with the driving rod 43, and a motor 45 in transmission connection with the screw rod 44, wherein an outward-expanding driving shoulder 431 is formed at the bottom end of the driving rod 43, a first elastic piece 46 is connected between the driving shoulder 431 and the moving rod body 42, the first elastic piece 46 enables the driving shoulder 431 to keep a trend of moving in a direction opposite to the moving rod body 42, a driving part 432 extending to the outer side of the moving rod body 42 is formed at the top end of the driving rod 43, a avoiding hole 42a for the driving part 432 to penetrate is formed in the side wall of the moving rod body 42, the avoiding hole 42a is long-shaped and vertically extends, and the driving part 432 is abutted to the supporting rod 32.

Preferably, the inner side wall of the fixed rod 41 is formed with a limiting part 411, the outer side wall of the movable rod 42 is formed with a limiting groove 42b extending vertically and connected with the limiting part 411 in a sliding manner, and the bottom end of the limiting groove 42b is closed.

Preferably, a second elastic member 35 is connected between the support rod 32 and the movable rod 42, and the second elastic member 35 keeps the support rod 32 in a tendency to turn over in a direction of being close to the side wall of the movable rod 42.

Specifically, the operation principle of the lifting and opening mechanism is as follows:

In the storage state, the movable rod body 42 and the transmission rod 43 are at the lowest point of their own travel, and under the action of the second elastic member 35, the support rod 32 is located at the position where its own travel is closest to the side wall of the movable rod body 42, so that the photovoltaic panel assembly is folded into a bundle.

If the photovoltaic panel assembly is required to be converted from the storage state to the unfolding state, the motor 45 is started, and the motor 45 drives the screw rod 44 to rotate, so that the transmission rod 43 in threaded connection with the screw rod 44 moves upwards. In the first half of the upward movement of the transmission rod 43, the bottom end of the limiting groove 42b does not contact the limiting portion 411, so that the transmission shoulder 431 of the transmission rod 43 drives the moving rod body 42 to move upward through the first elastic member 46, thereby moving the photovoltaic folding mechanism to the position above the storage cavity 1a, and no relative displacement occurs between the transmission rod 43 and the moving rod body 42. In the latter half of the upward movement of the transmission rod 43, the bottom end of the limiting groove 42b abuts against the limiting portion 411, and the moving rod body 42 cannot continue to move upward at this time, so that the transmission rod 43 and the moving rod body 42 undergo relative displacement, so that the transmission portion 432 on the transmission rod 43 drives the support rod 32 to turn over in a direction opposite to the side wall of the moving rod body 42, and the photovoltaic panel assembly is unfolded into a sheet shape.

Preferably, the top end of the movable rod body 42 is connected with a cover body 5 capable of blocking the top end of the storage cavity 1a, and in the storage state, the cover body 5 blocks the top end of the storage cavity 1a, so that external sundries can be effectively prevented from entering the storage cavity 1 a. And the bottom of the accommodating cavity 1a is provided with a drain hole 1b, and rainwater entering the accommodating cavity 1a can be drained through the drain hole 1b, so that the phenomenon of water accumulation in the accommodating cavity 1a is effectively avoided.

Preferably, the side of the station body 1 is slidingly connected with a vertically extending locking bar 6. It should be noted that, in the applicable scenario of the optical storage charging station of the present embodiment, the ground is provided with a plurality of locking holes, and after the user moves the present embodiment to a suitable position, the locking rod 6 is inserted into the locking hole at the position, so that the overturning phenomenon of the optical storage charging station of the present embodiment can be effectively prevented.

It is to be understood that the above examples of the present utility model are provided by way of illustration only and not by way of limitation of the embodiments of the present utility model. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the utility model are desired to be protected by the following claims.

Claims (8)

1. The utility model provides a portable light stores up charging station, includes the power station body, the bottom of power station body is equipped with multiunit gyro wheel, its characterized in that, be formed with the vertical chamber of accomodating that extends on the power station body, the top of accomodating the chamber is open end, accomodate the intracavity and be equipped with photovoltaic power generation device;

The photovoltaic power generation device comprises a photovoltaic folding mechanism and a lifting and gathering mechanism connected with the photovoltaic folding mechanism;

The photovoltaic folding mechanism comprises a mounting ring, a plurality of support rods which are distributed in a divergent mode are hinged to the mounting ring, and flexible photovoltaic panel assemblies are arranged on the support rods;

the lifting and folding mechanism can drive the photovoltaic folding mechanism to move to the upper part of the storage cavity or to be stored in the storage cavity, and can drive the photovoltaic panel assembly to be unfolded into a sheet shape or folded into a beam shape.

2. The mobile light-storage charging station according to claim 1, wherein the photovoltaic panel assembly comprises a flexible base cloth, a plurality of first pairs of folding lines and a plurality of second pairs of folding lines which are distributed in a divergent mode are formed on the base cloth, the first pairs of folding lines and the second pairs of folding lines are alternately arranged, triangular photovoltaic panels are arranged between the adjacent first pairs of folding lines and the second pairs of folding lines, the photovoltaic panels are adhered to the base cloth, and the supporting rods are overlapped with the first pairs of folding lines and connected into a whole.

3. The mobile charging station according to claim 1, wherein the lifting and opening mechanism comprises a fixed rod body and a movable rod body, the fixed rod body is connected with the power station body into a whole, the movable rod body is slidably sleeved in the fixed rod body, the movable rod body is connected with a power assembly, and the mounting ring is arranged at the top of the movable rod body.

4. A mobile optical storage station according to claim 3, wherein the power assembly comprises a transmission rod slidably sleeved in the movable rod body, a screw rod vertically extending and in threaded connection with the transmission rod, and a motor in transmission connection with the screw rod, an outward-expanding transmission shoulder is formed at the bottom end of the transmission rod, a first elastic member is connected between the transmission shoulder and the movable rod body, the first elastic member enables the transmission shoulder to keep a trend of moving in a direction opposite to the movable rod body, a transmission part extending to the outer side of the movable rod body is formed at the top end of the transmission rod, a avoidance hole for the transmission part to pass through is formed in the side wall of the movable rod body, the avoidance hole is long-shaped and vertically extends, and the transmission part is in butt joint with the support rod.

5. A mobile optical storage station as claimed in claim 3, wherein the inner side wall of the fixed rod body is formed with a limit part, the outer side wall of the movable rod body is formed with a limit groove extending vertically and connected with the limit part in a sliding manner, and the bottom end of the limit groove is closed.

6. A mobile optical storage station as claimed in claim 3 wherein a second resilient member is connected between the support bar and the movable bar, the second resilient member maintaining the support bar in a tendency to flip in a direction proximate the movable bar side wall.

7. A mobile optical storage station as claimed in claim 3, wherein the top end of the movable rod body is connected with a cover body capable of blocking the top end of the storage cavity, and the bottom end of the storage cavity is provided with a drain hole.

8. A mobile optical storage station as claimed in claim 1, wherein the side of the station body is slidingly connected with a vertically extending locking bar.