KR20160120822A - Portable Trailer mounted solar generator with photovoltaic assembly that rotates around the one-axis. - Google Patents

Abstract

The present invention relates to a portable photovoltaic trailer with a solar cell assembly rotating on one axis, and more specifically, to a portable photovoltaic trailer with a solar cell assembly rotating on one axis, to provide free moving, so as to enable a user to simply change an installation place. Moreover, an installation angle of the solar cell assembly is simply changed, thereby enhancing photovoltaic efficiency and use efficiency. According to the present invention, the portable photovoltaic trailer with a solar cell assembly rotating on one axis comprises: a trailer main unit having wheels for rolling movement; the solar cell assembly using sunlight to generate electricity; and a rotary assembly installed in the trailer main unit and combined with the solar cell assembly. According to the present invention, since a photovoltaic apparatus is mounted in the trailer main unit capable of performing rolling movement, moving is free. The installation angle of the solar cell assembly is simply changed to meet an incident angle of sunlight varied by season and time, so photovoltaic efficiency using sunlight and use convenience are improved. A power output unit is installed to directly use electricity from the outside, so the portable photovoltaic trailer can be used for various purposes, such as use of communication or electronic devices, etc., in the outside or a disaster scene difficult to supply electricity.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a portable solar power generator trailer having a photovoltaic panel assembly rotating around a single axis, and a photovoltaic assembly rotates around the one-axis.

The present invention relates to a mobile photovoltaic power generation trailer having a photovoltaic panel assembly that rotates around a single axis, and more particularly, to a mobile photovoltaic power generation trailer having a movable solar power trailer capable of moving, The solar battery module can easily change the installation angle of the solar cell panel assembly to improve the electric energy generation efficiency using the sunlight, improve the usability, and provide a power output unit for connection from the outside. To a mobile photovoltaic trailer having a photovoltaic panel assembly.

Power supply is required to use communication or electronic equipment in outdoor construction sites, event sites or disaster areas. Although the power is secured in the surrounding area, it is generally difficult to secure the power in the actual field. Therefore, it is an old and standardized method to use a generator based on fossil fuel for securing power itself. Recently, a method of using a portable generator using electric energy stored in a battery has been limitedly applied. However, in the case of fossil fuel generators, it is difficult to use in a closed indoor space due to soot and noise, and there is an economical problem that an additional cost for fuel cost increase and maintenance must be spent for continuous use. The portable generator is quiet and can be used in an indoor space because there is no smoke generation. However, when the electric energy stored in the battery discharges, it is inconvenient to continuously replace the battery with the charged battery.

There are various kinds of trailers using mobile solar generators that have been developed and used overseas, ranging from low capacity generators using one solar panel to large capacity generators using multiple solar panels to increase generation capacity. Generally, Are small and medium-sized generators using 3 to 6 solar panels. By arranging each solar cell panel in a row and aligning it with the angle of the sunlight, it is possible to maximize the electric energy generation efficiency using solar light, thereby achieving the required power generation performance. However, it is possible to fix the installation of the solar cell panel in only one direction to the left or right, or to arrange it in both the left and right directions. However, since the installation angle is fixed, Therefore, it is inconvenient to constantly change the installation position of the trailer using the mobile photovoltaic generator, and even if the position of the trailer is changed, the installation angle of the solar battery panel is fixed, There is no disadvantage.

The present invention has been made in view of the above-described subject matter, and it is an object of the present invention to provide a solar cell module capable of being moved, free of installation position, capable of easily adjusting the installation angle of a solar cell panel, And it is an object of the present invention to provide a mobile photovoltaic power generation trailer having a photovoltaic panel assembly that rotates about a single axis.

In order to achieve the above object, according to the present invention, there is provided a portable solar power generation trailer having a solar cell panel assembly rotating around a single axis, comprising: a trailer body having wheels for rolling; A solar cell panel assembly for generating electrical energy using solar light; And a rotating assembly mounted on the trailer body and to which the solar cell panel assembly is coupled.

The trailer body includes: a base frame; A mounting part for supporting the rotating assembly and fixed to the base frame; And a pull connector connected to the base frame.

Here, the loading unit includes: a storage battery for storing electric energy; A power output unit for connecting an external power source to the power output unit; A controller for controlling electric energy generated in the solar cell panel assembly to be charged or used; And a support bar rail for guiding the rotation wheel of the support bar, which hinges at one end of the solar cell panel assembly and pivots at the other end, in a guide space provided therein.

On the other hand, the solar cell panel assembly includes a solar cell panel for generating electric energy using solar light; A side panel panel frame supporting the photovoltaic panel and having a hinge member at one side thereof; A central panel plate frame supporting the solar cell panel and having hinge members on both sides thereof; And an electrode plate frame fixture capable of fixing the side surface and the center electrode plate frame in a parallel state.

Here, the central panel frame frame may include an upper rotating member installed to be rotatable by the rotating assembly.

On the other hand, the rotating assembly includes: a support shaft for supporting the upper electrically conductive member; A lower rotating member for transmitting rotational motion to the upper rotating member; A rotary shaft for supporting the main gear and the lower rotary member; A main gear for transmitting rotational force to the lower rotating member; A support body for supporting the rotation shaft; And a driving and rotating part for applying a rotational force to the main gear and restricting the rotational direction.

Here, the driving and rotating portion includes an auxiliary gear for rotating the main gear; A driving rotary shaft connected to the auxiliary gear and having an input portion to which a rotary handle is connected; And a rotation direction assembly for determining the rotation direction of the drive rotation shaft.

Here, the rotational direction assembly includes a pair of ratchet gears; A pair of detents for restricting the reverse rotation of the ratchet gear; A detent support shaft for supporting the detent; A guide member for rotating the detent support shaft; And a direction selection lever for operating the guide member.

The supporting bar may be hinged at one end of the side panel panel frame and the other end may be provided with a pivoting wheel for pivotal movement in a guide space provided in the supporting bar rail.

In accordance with the present invention, a solar photovoltaic power generation trailer having a photovoltaic panel assembly rotatable around a single axis can move freely and change seasonally and hourly since a solar power generator is applied to a trailer body capable of rolling movement It is possible to easily change the installation angle of the solar cell panel assembly to the angle of the sunlight to improve the electric energy generation efficiency using solar light and to improve the usability and to have a power output unit for direct use from the outside, There is an effect that it can be used for various purposes such as communication or use of electronic equipment in an outdoor or disaster site where power supply is not smooth.

FIG. 1 is a perspective view showing the overall appearance of a mobile photovoltaic power generation trailer having a photovoltaic panel assembly rotated around one axis according to an embodiment of the present invention. Referring to FIG.
FIGS. 2A and 2B are views for explaining a solar cell panel assembly of a mobile solar power trailer having a solar cell panel assembly rotating around one axis according to an embodiment of the present invention. FIG. 2B is a perspective view showing a state in which the side panel panel frame is opened or folded around the center panel panel frame.
FIG. 3A is a perspective view schematically showing the configuration, FIG. 3B is a perspective view showing a water fixing member, FIG. 3C is a perspective view showing the structure of the arm fixing member, and FIG. FIG. 3 (a) is a perspective view for explaining the operation of the solar panel frame fixture for fixing the side panels and the central panel frame in a parallel state, FIG. 3 And is a perspective view for explaining the operation of the frame fixture.
FIGS. 4A through 4C are views for explaining a combination of a solar cell panel assembly and a rotary assembly of a mobile solar power trailer having a solar cell panel assembly rotated about one axis according to an embodiment of the present invention. 4a is a perspective view showing a coupling relation between the central panel frame and the rotary assembly, FIG. 4b is a cutaway view schematically showing a coupling portion between the central panel frame and the rotary assembly, and FIG.
5a to 5c are views for explaining a rotating assembly of a mobile solar power trailer having a solar cell panel assembly rotating around one axis according to an embodiment of the present invention, FIG. 5B is an exploded perspective view of the rotation direction assembly, and FIG. 5C is a perspective view illustrating the operation of the rotation direction assembly.
6A and 6B are views for explaining a support bar and a support bar rail for supporting a solar cell panel assembly of a mobile solar power trailer having a solar cell panel assembly rotating around one axis according to an embodiment of the present invention Fig. 6A is a perspective view schematically showing the configuration of the support bar and the support bar rail, and Fig. 6B is an enlarged perspective view of the main part.
FIGS. 7A to 7D illustrate a use state of a mobile photovoltaic power generation trailer having a photovoltaic panel assembly rotating around one axis according to an embodiment of the present invention. FIG. 7A is a cross- 7B is a view showing a state where the expanded surface of the solar cell panel assembly is positioned to be tilted to the left with respect to the trailer body, and FIG. 7C is a view showing a state where the solar cell panel assembly 7D is a view showing a state in which the expanded surface of the solar cell panel assembly is positioned to be inclined at an arbitrary angle to the left with respect to the trailer body as viewed from the trailer body .
8 is a block diagram schematically showing a solar cell panel assembly, a battery, a control unit, and a power output unit of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing an overall appearance of a mobile solar power generating trailer having a solar cell panel assembly rotating around a single axis according to an embodiment of the present invention.

Referring to FIG. 1, a mobile solar power trailer having a photovoltaic panel assembly rotating around one axis according to one embodiment of the present invention includes a trailer body 1, a solar cell panel assembly 2, and a rotating assembly 3, and is characterized in that the solar cell panel assembly 2 is configured to be rotatable about a single axis.

The trailer main body 1 includes a base frame 11, a loading section 12, a tow coupling body 13, a supporting device 14, a wheel 15, and the like.

The base frame 11 is formed in a substantially square frame shape by a plurality of shaped steel materials such as a plate material, an H-beam, a square bar, and a flat iron.

The loading part 12 is formed in a frame form by a plurality of members such as a plate material, an H-beam, a square bar, a synthetic resin, etc., and includes a drive rotation shaft connection part 122, which can connect the rotation handle 37 to the drive rotation shaft 362, And a rotation direction selection unit 123 for selecting a rotation direction, and has a loading space 121 inside. The storage space 121 is provided with a storage battery 61, a power output unit 62, a control unit 63 and a rotating assembly 3, and a support bar rail 52 is provided outside.

The tow connector 13 is a component connected to a vehicle or the like that moves the trailer main body 1 including the solar cell panel assembly 2 and is formed in a tripod shape connected to the base frame 11, (Not shown).

The support device 14 is a component to be installed in the base frame 11 to mount and fix the trailer main body 1 on the installation surface and is provided at one or more corners of the base frame 11.

FIGS. 2A and 2B are views for explaining a solar cell panel assembly 2 of a mobile solar power trailer having a solar cell panel assembly rotating around one axis according to an embodiment of the present invention. 2B is a perspective view showing a state in which the side panel panel frame 22 is unfolded or folded around the central panel panel frame 23. As shown in FIG.

2A and 2B, the solar cell panel assembly 2 includes a solar cell panel 21, a side panel assembly 22, a central panel assembly frame 23, (24), and an electric panel frame fixing body (25).

The side surface solar cell panel frame 22 supports the solar cell panel 21 and has one or more supporting bar hinge members 221 for hinge connection of one end of the supporting bar 51. The central panel panel frame 22, One or more arm hinge members 222 are provided on one side so as to be rotatable with hinges, and a water holding member 251 of the panel plate frame fixing body 25 is supported.

The central panel frame 23 supports the photovoltaic panel 21 and has one or more hinge members 231 on one side thereof for hinge connection with the arm hinge member 222 of the side panel panel 22, An upper rotatable member 232 is provided at the lower portion so as to be rotatable in association with the rotary assembly 3 and an arm fixing member 252 of the panel plate frame fixture 25 is supported on the other side.

The hinge shaft 24 hingeably connects the arm hinge member 222 of the side panel 22 and the hinge member 231 of the central panel frame.

3A to 3E are perspective views schematically showing the configuration of the battery panel frame fixture 25, FIG. 3B is a perspective view showing the water fixing member 251, FIG. 3C is a perspective view of the arm fixing member 25, FIG. 3E is a perspective view illustrating an operation of the solar panel frame fixture for fixing the side and central solar panel frames in a parallel state, FIG. FIG. 4 is a perspective view illustrating an operation process of the battery plate frame fixture in the process of FIG.

3A, the panel plate frame fixture 25 is composed of a water retaining member 251, an arm fixing member 252, and a fixing pin 253.

3A and 3B, the water immobilizing member 251 is composed of a water immobilizing body 2511 and a push bar 2513 supported on the side of the water immobilizing body 2511, And is supported on one side.

A slanting guide surface 2512 is formed at one side of the water fixing body 2511.

3A and 3C, the arm fixing member 252 includes a body base 2521, a body cover 2522, an arm fixing body 2523, an elevating and lowering lever 2524, a rotating bar 2525, A fixed lever member 2527, a torsion spring 2530 and a spring 65 and is supported on both sides of the central panel frame 23.

The body base 2521 includes an arm fixing body 2523, an ascending and descending lever 2524, a rotation bar 2525, a rotation plate 2526, a fixed lever member 2527, a torsion spring 2530, And a moving space 2531 through which the ascending and descending lever 2524 and the fixed lever member 2527 can move in one direction is formed. The rotating space 2532, in which the rotating plate 2526 can rotate, And a fixing pin insertion hole 2534 through which the insertion hole 253 can be inserted. A center shaft 2535 capable of rotating and sliding the inner surface of the long hole formed in the rotary bar 2525 and a support protrusion 2536 capable of supporting one side of the torsion spring 2530 are formed.

The body cover 2522 is coupled at one side of the body base 2521 to form an operation space 2537 therein.

The arm fixing body 2523 is formed with a guide surface 2512 inclined so as to abut the guide surface 2512 of the water fixing body 2511 and includes a fixed lever insertion hole 2533 into which one side of the fixed lever pin 2528 is inserted, A fixing pin insertion hole 2534 into which the fixing pin is inserted is provided, and linear motion is performed in the working space 2537.

The elevating lever 2524 is formed with a protrusion for guiding the inner surface of the long hole formed in the rotary bar 2525 and performs linear motion in the moving space 2531.

The rotation bar 2525 has an insertion hole formed at one side thereof so as to be hinged to a protrusion formed on the rotation plate 2526. A center shaft 2535 formed in the body base 2521 and a protrusion Is formed.

The rotary plate 2526 is provided in the rotary space 2532 formed in the body base 2521 and has a projection formed on one side of the rotary bar 2525 and hinged to the rotary bar 2525 and a projection supported on one side of the torsion spring 2530, A protrusion for guiding the inner surface of the long hole formed in the bar 2529 is formed.

The fixed lever member 2527 is inserted into the fixed lever insertion hole 2533 formed at one side of the arm fixing body 2523 and is provided with a fixed lever pin 2528 which linearly moves in the moving space 2531, And a lever guide bar 2529 having an elongated hole to be guided by the protrusion. The lever guide bar 2529 is supported by a fixed lever pin 2528.

The torsion spring 2530 is supported on the rotary plate 2526 by a projection formed on the rotary plate 2526 at one side and by a support projection 2536 formed at the body base 2521 at the other side.

The spring 65 supports one side of the arm fixing body 2523 in the working space 2537.

Referring to FIG. 3D, when the side panel frame 22 supporting the water immobilizing member 251 is hinged around the hinge shaft 24 coupled to the arm hinge member 222, the water fixing body 2511 And the upward and downward lever 2524 is moved in the direction of movement formed on the body base 2521. As a result, the pushing bar 2513 supported on the side of the body base 2521 contacts the face of the upward / downward lever 2524 of the arm fixing member 252, And moves in the space 2531 in the direction in which the operating force is operated. The rotation bar 2525 slides and rotates on the inner surface of the elongated hole formed on the protrusion formed on the ascending and descending lever 2524 and the center axis 2534 of the body base 2521, The rotation plate 2526 connected to the insertion hole and the hinge is rotated about the center of the rotation space 2532. When the rotation plate 2526 starts to rotate, the inner surface of the long hole formed in the lever guide bar 2529 of the fixed lever member 2527 slides around the projection provided on the rotation plate 2526, The fixed lever pin 2528 supported by the lever guide bar 2529 moves in the direction of operating force in the moving space 2531 formed in the body base 2521. [ At this time, the restraining force of the fixed lever pin 2528 which is inserted into the fixed lever insertion hole 2533 of the arm fixing body 2523 and restrains the movement of the arm fixing body 2523 is released, And is linearly moved in the operating space 2537 by the elasticity of the elastic member 65. When the water fixing body 2511 and the guide surface 2512 formed on the arm fixing body 2523 come into contact with each other, the movement of the arm fixing body 2537 is stopped and the fixation body 2523 fixed to the body base 2521 The pin insertion holes 2534 coincide with each other. When the fixing pin 253 is inserted into the matching fixing pin insertion hole 2534, the fixing state is stably maintained.

3C and 3E, when the fixing pin 253 is removed from the fixing pin insertion hole 2534 and the side panel panel 22 is rotated in the opposite direction, the water fixing member 251 ) Also rotates together. The restraining force acting on the ascending and descending lever 2524 is restrained by the pushing bar 2513 and the rotating bar 2525 connected to the rotating plate 2526 by the elastic force of the torsion spring 2530, The fixed lever member 2527 tries to unwind in its initial state. However, the movement of the fixed lever member 2527 is restrained by the elasticity of the spring 65 which is supported at one side of the arm fixing body 2523. The guide surface 2512 formed on the water fixing body 2511 slides on the guide surface 2512 of the arm fixing body 2523 while the water fixing body 2511 supported on the side panel panel frame 22 rotates, The arm fixing body 2523 is pushed in the operating space 2537 in the direction in which the sliding movement is canceled. When the center of the fixed lever insertion hole 2533 of the arm fixing body 2523 and the center of the fixed lever pin 2528 coincide with each other, the binding force of the fixed lever member 2527 is released and one side of the fixed lever pin 2528 is fixed to the arm fixing body 2523. [ And inserted into the fixed lever insertion hole 2533 formed in the base 2523 to return to the initial state of operation.

4A to 4C are views for explaining the combination of the solar cell panel assembly 2 and the rotary assembly 3 of the present invention. FIG. 4A is a view for explaining the combination of the central assembly plate frame 23 and the rotary assembly 3 FIG. 4B is a cutaway view schematically showing a coupling portion between the central panel frame 23 and the rotary assembly 3, and FIG. 4C is an enlarged perspective view for explaining rotational movement.

4A and 4B, the combination of the solar cell panel assembly 2 and the rotary assembly 3 includes an upper rotary member 232 provided on the central panel frame 23, (31), a lower rotating member (32) for rotating the upper rotating member by a cam motion, and a supporting body (33).

The upper rotating member 232 is provided at a lower portion of the central panel frame 23 and is formed at the center and rotates with respect to the insertion hole in which the supporting shaft 31 is fastened, An upper rotation guide surface 2321 is formed.

The support shaft 31 is coupled to the insertion hole formed in the upper rotatable member 232 and the insertion hole formed in the support body 33 to engage the upper rotatable member 232 and the rotary assembly 3.

The lower rotating member 32 is connected to the upper rotating guide surface 2321 of the upper rotating member 232 to transmit a rotating force by the cam movement and has a lower rotating guide surface 321 for restricting the rotating angle, Is inserted and fastened.

The support body 33 is formed with an insertion hole having a bearing 66 so that the support shaft 31 and the rotary shaft 35 can be inserted and rotated and one end of the support shaft 33 is supported by the loading unit 12.

4C, the rotation of the rotary shaft 35 rotates the lower rotary member 32 about the rotary shaft 35 and rotates the upper rotary member 232 in contact with the lower rotary guide surface 321, The guide surface 2321 is caused to move in a camming motion so that the central panel frame 23 is rotated about the support shaft 31 coupled to the insertion hole formed in the upper rotating member 232. The upper rotation guide surface 2321 of the upper rotation member 232 and the lower rotation guide surface 321 of the lower rotation member 32 become parallel to each other and the cam movement does not proceed, No rotational motion exceeding the angle occurs.

5a to 5c are views for explaining a rotary assembly 3 of a mobile solar power generating trailer having a solar cell panel assembly rotating around one axis according to an embodiment of the present invention, Fig. 5B is an exploded perspective view of the rotation direction assembly 363, and Fig. 5C is a perspective view for explaining the operation of the rotation direction assembly 363. Fig.

5A, the rotary assembly 3 includes a support shaft 31, a lower rotary member 32, a support body 33, a main gear 34, a rotary shaft 35, and a drive rotary member 36 .

The main gear 34 transmits the rotational motion of the drive rotation part 36 to the lower rotational member 32 supported by the associated rotary shaft 35.

The rotary shaft 35 supports the main gear 34 and the lower rotary member 32 and is coupled to the insertion hole provided in the support body 33.

The driving and rotating portion 36 includes an auxiliary gear 361 connected to the main gear 34 for transmitting rotational motion, a drive shaft 361 having an input portion for supporting the auxiliary gear 361 and connected to the rotation handle 37, A rotation direction assembly 363 for restricting the rotation direction of the drive rotation shaft 362 and a bearing 66 for supporting the drive rotation shaft 362 and having one end supported by the loading part 12 .

When the rotation handle 37 is connected to the input portion of the drive rotation shaft 362 and rotated, the auxiliary gear 361 supported by the drive rotation shaft 362 rotates, and the rotation of the auxiliary gear 361 is connected The main gear 34 is rotated to finally rotate the center electrode plate frame 23 about the support shaft 31. [

5B, the rotation direction assembly 363 includes a ratchet gear 3631 having teeth formed therein so as to rotate in one direction, a detent 3632 for preventing the reverse rotation of the ratchet gear 3631, A pawl support shaft 3633 for supporting the detent 3632, a guide member 3636 for rotating the detent support shaft 3633, a hinge pin 3635, a direction for operating the guide member 3636 A selection lever 3637, a direction selection rotary shaft 3638, a spring 65, and a bearing 66. [

The ratchet gears 3631 are provided in pairs and are supported on the drive rotation shaft 362 so that the directions of the formed teeth are opposite to each other.

The detent 3632 is provided in the same pair as the pair of ratchet gears 3631 and is rotatable around the detent support shaft 3633 so that one end of the detent 3632 is engaged with the respective ratchet gear 3631 And are disposed so as to be opposite to each other.

The detent support shaft 3633 supports the detent 3632 and is provided with a detent support shaft rotation member 3634 having a hinge connection at one end and supported by the detent support shaft 3633. [

The guide member 3636 is hinge-connected at one end to the detent support shaft rotation member 3634 and at the other end with a clearance space, and the other end is provided with a hinge member hinged to the direction selection lever 3637.

The direction selecting lever 3637 rotates around the direction selecting rotary shaft 3638 and is hinged to one end of the guide member 3634 and the other end is connected to the handle 3639 so as to select the direction outside the loading unit 12. [ Respectively.

5B and 5C, the handle 3639 of the direction selection lever 3637 is connected to the rotation direction selection unit (not shown) formed in the loading unit 12 to change the mounting direction of the solar panel assembly 2 123, the direction selection lever 3637 rotates about the direction selection rotary shaft 3638 and the guide member 3636 hinged to one end of the direction selection lever 3637 moves. When the detent supporting shaft rotating member 3634 to which the other end is hinged with the guide member 3636 rotates the detent supporting shaft 3633, the detent 3632 supported in the rotating direction of the detent supporting shaft 3633, And the detent 3632 in the opposite direction is moved toward the ratchet gear 3631 which rotates the photovoltaic panel assembly 2 in the selected direction and the detent 3632 in the opposite direction rotates counterclockwise about the detent support shaft 3633, (3631). The ratchet gear 3631 is brought close to the ratchet gear 3631 due to the clearance formed in the detent support shaft rotational member 3634 and the guide member 3636 when the rotation handle 37 is connected to the input portion of the drive rotational shaft 362 and rotated in the changed direction The detent 3632 maintains the set position without being disturbed by the rotation along the rotational surface of the ratchet gear 3631. [ However, when the operation of the drive rotation shaft 362 is completed or the rotation of the drive rotation shaft 362 in the reverse direction is completed, the one end of the detent 3632 is engaged with the ratchet gear 3631 Thereby preventing the reverse rotation of the driving rotary shaft 362 by contacting the vertical surface.

FIGS. 6A and 6B illustrate a support bar 51 for supporting a solar cell panel assembly 2 of a mobile solar power trailer having a solar cell panel assembly rotating around one axis according to an embodiment of the present invention, Fig. 6A is a perspective view schematically showing the configuration of the support bar 51 and the support bar rail 52, and Fig. 6B is an enlarged perspective view of the main part.

6A and 6B, the support bar 51 includes an upper hinge portion 511, a support bar body 512, and a lower body 513, and the support bar rail 52 includes a rail body 521, And a guide space 522.

The upper hinge portion 511 provided at one end of the support bar 51 is hingedly connected to the support bar hinge member 221 provided at the side panel panel frame 22 and the lower body 513 provided at the other end is hinged, (5131) and a turning wheel shaft (5132).

The supporting bar rail 52 is provided with a guide space 522 through which the turning wheel 5131 of the supporting bar 51 can move in a gentle concave and convex shape and is supported by the loading part 12.

One end of the support bar 51 is hingedly connected to the support bar hinge member 221 of the side surface solar panel frame 22 to maintain load distribution and installation angle of the solar cell panel assembly 2, 5131 are pivoted in a guide space 522 formed inside the support bar rail 52. The rotation wheel 5131 of the support bar 51 is seated on the rotation wheel support surface 5221 of the guide space 522 so that the rotation of the solar battery panel assembly 2 The load of the assembly 2 is transmitted to the loading section 12 through the supporting bar rail 52 and the deformation or deflection of the solar cell panel assembly 2 due to external force such as unexpected strong wind is minimized.

Trailer Body 1 Base Frame 11
Enclosure 12 Loading space 121
Drive rotation shaft connection portion 122 rotation direction selection portion 123
Tow coupling 13 Tow unit 131
Supporting device 14 Wheel 15
Solar panel assembly 2 Solar panel 21 Side panel assembly 22 Support bar hinge member 221
Arm hinge member 222 central panel frame 23 water hinge member 231 upper rotating member 232
Upper rotation guide surface 2321 hinge shaft 24 electric panel frame fixing body 25 water fixing member 251
A water fixing body 2511 inner surface 2512
Push bar 2513 Arm fixing member 252
Body Base 2521 Body Cover 2522
Arm fixing body 2523 ascending / descending lever 2524
Rotating Bar 2525 Rotating Plate 2526
Fixing lever member 2527 Fixing lever pin 2528
Lever guide bar 2529 Torsion spring 2530
Moving space 2531 Rotating space 2532
Fixing lever insertion hole 2533 Fixing pin insertion hole 2534
Center shaft 2535 support projection 2536
Working space 2537 Fixing pin 253
Rotation assembly 3 Support axis 31 Lower rotation member 32 Lower rotation guide surface 321
Support body 33 Main gear 34 Rotation axis 35 Drive rotation part 36
Auxiliary gear 361 Driving rotation shaft 362
Rotation direction assembly 363 Ratchet gear 3631
Pendulum 3632 Pendulum support shaft 3633
Detent supporting shaft rotating member 3634 hinge pin 3635
Guide member 3636 direction selection lever 3637
Direction selection Rotary shaft 3638 Hand grip 3639
Rotation handle 37 support bar 51 upper hinge portion 511 support bar body 512
Lower body 513 Rotating wheel 5131
A rotating wheel shaft 5132 a support bar rail 52 a rail body 521 guide space 522
Rotating wheel support surface 5221 Shaft support 61
Power output section 62 control section 63
Spiraling 65 Bearing 66

Claims (6)

A trailer body provided with wheels to be rolling;
A solar cell panel assembly for generating electrical energy using solar light;
And a rotating assembly mounted on the trailer body and coupled to the solar cell panel assembly. The mobile solar cell trailer includes a solar cell panel assembly rotatable about one axis,
The solar cell panel assembly includes:
A solar cell panel for generating electrical energy using solar light;
A side panel panel frame supporting the photovoltaic panel and having a hinge member at one side thereof;
A central panel frame frame supporting the photovoltaic panel, a hinge member on the other side, and an upper rotatable member at a lower portion;
And a solar panel frame fixture that unfolds and fixes the side surface solar panel frame parallel to the central solar panel frame frame. The mobile photovoltaic power generation trailer having the solar panel assembly rotated around one axis The method of claim 1, wherein
The panel plate frame fixture,
A water fixing member having a water fixing body formed with a slanting guide surface on one side thereof and a pressure fixing member supported on one side of the side panel assembly frame;
An arm fixing member composed of a body base, a body cover, an arm fixing body, an ascending / descending lever, a rotary bar, a rotary plate, a fixed lever member, a torsion spring, and a spring,
And a fixing pin inserted and fixed when the fixing pin insertion holes formed on the body base coincide with each other. The mobile photovoltaic power generation trailer having the solar cell panel assembly rotating around one axis, The method according to claim 2, wherein
The arm fixing member
A body base on which a moving space and a rotating space are formed, a supporting protrusion for supporting one side of the center shaft and the torsion spring is provided, and a fixing pin insertion hole is formed;
A body cover coupled to one side of the body base to form an operation space therein;
An arm fixing body formed with a guide surface to be in contact with a guide surface of the water fixing body and having a fixed lever inserting hole and a fixing pin inserting hole and performing linear motion in the working space;
A lifting lever that moves in a moving space formed in the body base by an operating force of a push bar supported by the water-holding body;
A rotation bar formed with an elongated hole for sliding and rotating with respect to a center axis of the lifting / lowering lever and the body base, and having one end hinged to the rotating plate;
A rotation plate rotatable about a rotation space formed in the body base and having a protrusion for hinging the rotation bar and a support protrusion for supporting one side of the protrusion and the torsion spring so that the inner surface of the elongated hole formed in the lever guide bar can slide;
A fixed lever pin which is inserted into a fixed lever insertion hole formed at one side of the arm fixing body and which is movable in a moving space formed in the body base and a fixed lever member ;
And a torsion spring supported on a support protrusion formed on the body base, the protrusion being formed on one side of the rotation plate, and the other side of the torsion spring being supported on the body base. The mobile photovoltaic power generation trailer The method of claim 1, wherein
The rotating assembly
A support shaft for supporting the upper rotating member;
A lower rotating member connected to the upper rotating member and transmitting rotation by a cam movement;
A rotating shaft supporting the lower rotating member and the main gear and rotating the lower rotating member;
A main gear for transmitting a rotational force to the rotary shaft;
A support body for supporting the rotation shaft and the support shaft, the support body being supported at one end of the support portion;
And a drive rotation unit for applying a rotational force to the main gear and restricting the rotation direction of the main motor. The mobile solar power trailer having the photovoltaic panel assembly rotating around one axis The method of claim 4, wherein
The drive-
An auxiliary gear connected to the main gear and transmitting rotational motion;
A driving rotary shaft having an input portion for supporting the auxiliary gear and connected to a rotary handle;
And a rotation direction assembly for restricting a rotation direction of the drive rotation shaft. The mobile solar power generation trailer having the solar cell assembly rotating around one axis The method of claim 5, wherein
The rotational direction assembly includes:
A pair of ratchet gears supported by the driving and rotating shafts and disposed such that directions of teeth formed to be rotatable in one direction are opposite to each other;
A pair of detents disposed opposite to each other about the detent support shaft so that one end thereof meshes with each ratchet gear to prevent reverse rotation of the ratchet gear;
A detent support shaft supporting the detent and having a detent support shaft rotatable member having a hinge connection at one end;
A guide member hingedly connected to the detent support shaft rotating member and having a clearance space and the other end hinged to the direction selection lever;
And a direction selection lever that is hinged to the guide member and rotates about a direction selection rotation axis, the other end of which is provided with a handle so that the rotation direction can be selected. One mobile photovoltaic trailer

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