KR20200078263A - Solar module tilting means - Google Patents

Abstract

The present invention relates to a device capable of adjusting an inclination of a solar cell module by converting the inclination of the solar cell module. That is, the present invention relates to an inclination angle adjusting device of a solar cell plate configured to adjust an inclination angle of the solar cell module in accordance with the meridian altitude of the sun. The solar cell plate is installed to face the front of the sun in a direction of absorbing the most sunlight at an installation location, thereby increasing solar power generation efficiency. Moreover, optimal power generation efficiency can be obtained by changing the direction of the solar cell plate in accordance with a movement of the sun.

Description

Solar cell module tilting angle adjustment device {SOLAR MODULE TILTING MEANS}

The present invention relates to a device that can be adjusted by converting the slope of the solar cell module.

The solar panel is a core element of photovoltaic power that converts sunlight into photovoltaic power, and a certain standard is attached to form a module, which is attached to a panel that is a support, and the panel is installed on the ground or a structure by a prop. Have

The solar panel can increase the efficiency of photovoltaic power generation by installing the solar panel so that the solar panel absorbs the sun the most from the installation position, that is, the solar panel faces the sun. Optimal power generation efficiency can be obtained by adjusting and converting the direction of the solar panel according to the movement of the sun.

In the technique that is the background of the present invention, Utility Model No. 8105 and the like are provided. And the solar panel angle converter has the advantage of obtaining the optimal power generation efficiency by changing the direction of the solar panel according to the movement of the sun, but it requires power to operate the actuator, etc. This is reduced, and the manufacturing cost is high because the number of components required for constructing the equipment is high, and because it is operated in poor conditions as an outdoor facility, it requires a lot of maintenance effort and has low durability.

The tilt angle-adjustable photovoltaic power generation device combines a solar panel to a support by a fixed coupling hole formed in a pillar parallel to the rotation center line of the solar panel and a rotation coupling hole formed in a solar panel parallel to the rotation center line of the solar panel. It is provided to adjust the inclination angle. However, there is a problem that the coupling portion is weak and easily damaged, and additional manpower must hold the solar panel so that the solar panel is not rotated by its own weight during the angle adjustment process of the solar panel, and the light receiving efficiency of the solar panel cannot be improved. There is this.

The present invention is to provide a tilting angle adjustment device for a simple and durable solar panel, while enabling precise and inclined conversion of a solar panel according to the middle and high altitude of the sun, and easily converting a large solar panel without difficulty.

The panel 10 supporting the solar panel 11 is coupled to the strut 20 by the soccer tank 30 so as to be rotatable on the strut 20, and the lower strut 20 and the lower panel 10 are inclined supports Connected by 40, the inclined support 40 is connected to each other by a turnbuckle 43 in a separate state to the upper support 41 and the lower support 42, the upper support 41 is a panel (10 ) Is coupled by the first hinge part 50, the lower support 42 is made of a structure coupled by the second hinge part 60 with respect to the support 20, by the rotation of the turnbuckle 43 It is configured to adjust the inclination of the solar panel 11,

The fixing nut is coupled to the male screw 431 of the turnbuckle 43 to adjust the inclination angle of the panel 10 with the turnbuckle 43, and then the adjustment state is maintained by closely tightening the fixing nut to the female screw 433 side of the upper and lower supports. In one of the solar cell module tilt angle adjustment device,

The inclined support 40 is provided with a shaft support portion (g41, g42) that is configured on the side of the inclined support 40 along the length, the shaft support portion (g41, g42) is the upper support side shaft support portion (g41) and the lower support side Includes the bearing part (g42),

The upper support side bearing portion (g41), the body of the upper support (41) parallel to the length of the support hole (h1) becomes a perforation, one side of the outside is attached to the side of the upper support (41),

The lower support side shaft support portion (g42), the body of the lower support 42 parallel to the length of the support hole (h2) becomes a perforation, one side of the outer side is attached to the side of the lower support (42),

The upper support side bearing hole (h1) and the lower support side bearing hole (h2) are arranged spaced apart from each other,

The turnbuckle 43 includes a turnbuckle side gear g43,

The turnbuckle-side gear (g43) is a fixing hole (h4) corresponding to the outer periphery of the hem end 432 in the center of the body, the fixing hole (h4) is fitted to the hem end is coupled to rotate together without turning,

On both sides of the turnbuckle-side gear (g43), guide plates (c) in the form of disks are formed, which are formed larger than the diameter of the turnbuckle-side gear (g43), respectively.

Driving rod 44 is provided and the driving rod 44,

It has a length greater than the total sum of the length of the turnbuckle 43, the length of the lower support 42, the length of the second hinge portion 60 and the diameter of the strut 20, and the rear end is more rear than the strut 20. It is located in, has a diameter less than the diameter of each of the bearing holes (h1, h2), the lower support side side bearing portion (g42) and the upper support side side of the bearing portion (g41) is temporarily sewn, one side of the upper support side Sliding in the longitudinal direction to the shaft receiving portion (g41) becomes a rotatable bearing, and the other end is sliding in the longitudinal direction to the lower supporting side side receiving portion (g42) to become a rotatable bearing, and the driving force (m0) at the rear end A driving handle 442 for generating is provided,

The driving rod side gear (g44) is provided, but the driving rod side gear (g44) has a fixing hole (h3) corresponding to the diameter of the driving rod (44) in the center of the body, so that the fixing hole (h3) is a driving rod ( 44) is fitted to be rotated together without slipping, the diameter is determined so that the turnbuckle side gear (g43) and teeth (ga),

The driving rod side gear (g44) is configured to be a gap (ga) in the state in which both the guide plates (c) of the turnbuckle side gear (g43) are inserted, and the left and right side surfaces of the driving rod side gear (g44) are turnbuckle sides. In a state in which the gear (g43) is in contact with the inner surface of the guide plate (c) and cannot be separated, the turnbuckle side gear (g43) receives the rotational driving force (m0) from the driving rod side gear (g44), and the male screw (431) When the turnbuckle 43 moves in the longitudinal direction by rotation of (m1, m2), the driving rod side gear g44 also moves together, and is configured to maintain a state in which the gap is always ga.

According to the invention,

It provides a simple operation to rotate or reverse the turnbuckle, and the effect of freely adjusting the inclination angle of the panel without auxiliary manpower.

In addition, since the inclination is precisely adjusted by the pitch of the screw, it can be adjusted to the optimum inclination angle according to the middle-high altitude according to the season, thereby improving power generation efficiency.

In addition, the structure of the strut and the inclined support and the panel is simple, economically configurable, robust, and the structure of the turnbuckle coupling part and the hinge coupling part is simple and durable, so maintenance is easy and cost can be reduced.

1 is a configuration diagram of a tilting angle adjustment device for a solar cell module
Figure 2 is a separate configuration of the inclined support of the solar cell module
Figure 3 is a cross-sectional view of the coupling state of the tilting angle adjustment module solar cell module
Figure 4 is a perspective view showing the entire assembly of the solar cell module tilting angle adjustment device according to the present invention and a perspective view viewed from another direction.
5 is an exploded perspective view
6 is a state diagram showing the upper and lower figures are compared to each other by illustrating the operation. Enlarged view of any part.

The panel 10 supporting the solar panel 11 is coupled to the support 20 by the soccer tank 30 so as to be rotatable on the support 20, and the lower support and the lower part of the bottom of the panel are attached to the inclined support 40. It is applied to the photovoltaic device of the structure connected by. Reference will be made to FIGS. 1 to 3.

The inclined support 40 is interconnected by a turnbuckle 43 in a state where they are separated into an upper support 41 and a lower support 42, and the upper support 41 is a first hinge part with respect to the panel 10 ( 50), the lower support 42 is made of a structure that is coupled to the second hinge portion 60 with respect to the support (20).

The panel 10 is for firmly supporting the solar panel and is made of a structure in which the solar panel 11 is coupled to the grid-shaped frame 12, and the soccer group 30 is rotatable with respect to the support 20 It is combined by.

The soccer group 30 for the combination of the panel and the prop may be implemented in various forms.

In the example of the drawings, a separate reinforcing plate 31 is attached to the strut engaging portion of the bottom surface of the panel 10, the'C' shaped bracket 32 is coupled to the reinforcing plate 31, and the bracket 32 ) To form a shaft hole (321) on both plates, the upper shaft (20) to form a shaft hole (21) to fit the upper end between the two plates of the bracket, and then put the shaft bolt (33) to combine, the shaft bolt It shows the structure of fastening the end of the nut 34.

Post 20 is made of a circular or square pipe, the shaft hole 21 for coupling the shaft bolt 33 is formed at the top, the plate 22 is formed at the bottom, the anchor block 100 built in the ground It is fixed to support the top panel.

The inclined support 40 is composed of an upper support 41 and a lower support 42 and a turnbuckle 43 that combines the upper and lower supports.

The upper support 41 and the lower support 42 are composed of hollow round or square pipes, and the first and second hinge portions 50 and second hinge portions of the panel and the post are respectively at the upper and lower supports. A hinge hole 44 is formed to be coupled by 60), and a female screw 433 corresponding to the male screw 431 of the turnbuckle 43 is formed at a portion where the turnbuckle 43 is coupled.

The turnbuckle 43 is for adjusting the inclination of the panel by stretching and extending the inclined support 40, and a hem end 432 capable of turning a spanner or a wrench in the central body is formed, and the directions of the screws are respectively provided on both sides thereof. The opposite male screw 431 is formed to have a structure in which each screw portion is coupled to the female screw 433 of the upper and lower supports.

In the illustrated embodiment, an inclined support is formed of a square pipe to form a hinge hole 44 at the upper end of the upper support 41 and the lower end of the lower support 42, and a female screw 433 is formed inside the turnbuckle coupling part. The upper support 41 and the lower support 42 are constructed in a structure in which a rectangular plate-shaped corner plate 434 is forcibly inserted and then welded. In addition, the turnbuckle 43 has a structure in which a hexagonal end 432 is formed at the center of the rod, and male screws 431 made of left and right screws are formed on both sides thereof.

The first hinge portion 50 for joining the panel and the upper support, and the second hinge portion 60 for joining the support and the lower support are for adjusting the coupling inclination angle of the panel by changing the length due to expansion and contraction of the turnbuckle. It can be implemented in various forms.

In the illustrated embodiment, the first hinge portion 50 for coupling the panel and the upper support is coupled to the bracket '51' in the bottom shape of the panel bottom, and the hinge holes on both plates of the bracket 51 ( 511), the upper support is sandwiched between both plates of the bracket with the structure formed, and the hinge 52 is inserted and combined, and the hinge is formed of an axial bolt, so that rotation is smooth even in the coupled state by the nut 53. It shows the state in which the washer 54 is fitted so as to be engaged.

In addition, the hinge portion 60 for coupling the support 20 and the lower support 42 forms a'c' type bracket 61 protruding to one side of the support, hinged to both plates of the bracket 61 With the structure of the ball 611, the upper support is inserted between both plates of the bracket, and then the hinge 62 is put into the coupling, and the hinge is constituted by an axial bolt, so that the rotation is smooth even in the coupled state by the nut 63 It shows the state in which the washer 64 is fitted to make this possible.

By constructing the inclined support with a square pipe, the hinge is configured to be supported in close contact with both plates of the'c' type bracket, thereby enabling stable support against the lateral force applied to the panel, so that the inclined support is composed of a square pipe. This is preferred.

As shown in FIG. 3 by the above-described configuration, the soccer group 30 for coupling the strut 20 and the panel 10 and the lower portion of the strut and the bottom of the panel by the hinge parts 50 and 60 By the inclined support 40 and the turnbuckle 43 that imparts a stretching operation to the inclined support, the panel can easily adjust the inclination angle by expansion and contraction of the turnbuckle while maintaining a stable fixed state.

After adjusting the inclination angle of the panel with the turnbuckle by combining the fixing nut 45 to the both male screws 431 of the turnbuckle so that the inclination angle of the panel adjusted by the turnbuckle is not changed by external force, the female screw 433 of the upper and lower supports A configuration in which the adjustment state is maintained by tightly tightening to the side is also presented.

In the state in which the fixing nut 45 is tightly fixed by the above configuration, the tilting angle adjustment state of the panel remains the same because the lowering of the panel cannot be lowered by shrinking the tilting support even though the lowering of the panel can be lifted by extending the tilting support. Can be maintained.

A description of a more advanced configuration of the present invention solar cell module tilting angle adjustment device will be described with reference to the drawings illustrated in FIG. 4 and below.

It is disposed along the length of the inclined support 40 and attached to the side surface of the inclined support 40 is provided with a bearing portion (g41, g42) configured. The attachment may be made by welding, riveting, bolting, or the like. The bearing portions (g41, g42) is composed of an upper support side bearing portion (g41) and a lower support side bearing portion (g42).

The body of the upper support side side bearing part (g41) is formed with a hole (h1) provided by being drilled (perforated) in parallel to the longitudinal direction of the upper support 41, the bearing part (g41) One side is firmly attached to the side of the upper support (41).

The body of the lower supporter side support portion (g42) is formed with a support hole (h2) provided by drilling a hole parallel to the longitudinal direction of the lower supporter 42, one side of the lower supporter side support portion (g42) Is firmly attached to the side of the lower support (42).

The upper support side bearing hole (h1) and the lower support side bearing hole (h2) are spaced apart from each other in the longitudinal direction, but the same diameter and are arranged on a straight line to match the center. And each may be provided one or more.

Particularly, a plurality of lower support side bearing portions g42 may be provided and attached to one end and the other end of the lower support 42, respectively, or as similar to the length of the lower support 42, as illustrated in the drawings (significant ) It is formed to have a length, the driving rod 44 fitted (inserted, interposed) in the lower support side shaft receiving hole (h2) can be held firmly so as not to be shaken at play during rotation. That is, one end of the lower support-side bearing portion g42 is located close to one end of the lower support 42, and the other end of the lower support-side bearing portion g42 is close to the other end of the lower support 42. It is preferably formed to be located.

The turnbuckle side gear g43 is coupled to the turnbuckle 43.

A fixing hole (h4) formed by drilling a hole corresponding to the outer circumference of the engaging end (432) is formed in the center of the body of the turnbuckle side gear (g43), and the fixing hole (h4) is firmly attached to the engaging end (432). It is fixedly fitted to form a bond. Accordingly, the turnbuckle 43 and the turnbuckle side gear g43 become a fuselage and rotate at the same time.

In particular, referring to the bottom enlarged view of FIG. 6, guide plates (c) in the form of discs (disc) are formed on both sides of the turnbuckle side gear (g43), respectively, larger than the diameter of the turnbuckle side gear (g43). Since the driving rod side gear g44 is interposed between the two guide plates c, the driving rod side gear g44 cannot slide, escape, or escape to the side of the turnbuckle side gear g43. .

A rod-shaped driving rod 44 having a length greater than the total sum of the length of the turnbuckle 43, the length of the lower support 42, the length of the second hinge portion 60, and the diameter of the strut 20 ) Is provided.

The rear end of the driving rod 44 is made to be located more rearward than the post 20, so that a crank-shaped drive handle 442 taking a'┏' shape at the rear end is attached to other elements such as the post 20. It can be configured to rotate freely without interference. The user rotates the driving handle 442 by hand to generate driving force m0.

The diameter of the drive rod 44 is slightly less than the diameter of each of the bearing holes (h1, h2) to minimize the play while reducing the rotational friction. The driving rod 44 becomes a shaft support to be simultaneously inserted and sewn into the lower support-side shaft support portion g42 and the upper support-side shaft support portion g41. Through this, the drive rod 44 becomes a bearing on the upper support side bearing part (g41) so that one end thereof can be rotated while sliding in the longitudinal direction, and the other end can be rotated while sliding in the longitudinal direction. So that it is a bearing on the lower bearing side g42.

The driving rod 44 has a driving rod side gear (g44). A fixing hole h3 formed by drilling a hole corresponding to the diameter of the driving rod 44 is provided in the center of the body of the driving rod side gear g44. In the middle of the body of the driving rod 44, the driving rod side gear g44 is firmly inserted and fitted through the fixing hole h3 to be fixed to rotate at the same time.

At this time, the size of the diameter is taken so that the gear (g43) on the turnbuckle side is always engaged with the teeth to become a tooth (ga). If the diameter of the driving rod side gear g44 is taken less than the diameter of the turnbuckle side gear g43, a large driving force m0 may be generated with a small force of the user. Therefore, it is provided to generate a driving force suitable for a field situation by setting a necessary gear ratio by combining the diameter of the turnbuckle side gear g43 and the diameter of the drive rod side gear g44.

In particular, the gear ratio of the drive rod side gear (g44) and the turnbuckle side gear (g43), the upper support 41 and the lower support (42) of the female screw (433) of the turnbuckle (43) The gear ratio of the male screw 431 may also be influenced, so that the gear ratio selection width of the male screw 431 and the female screw can be varied in response to a need in accordance with the needs of the field situation.

On the other hand, as illustrated in Figure 6, the driving rod side gear (g44) is configured to be inserted (ga) while being inserted into both guide plates (c) of the turnbuckle side gear (g43). Therefore, the left and right side surfaces of the driving rod side gear g44 are in contact with or blocked from the left and right inner surfaces of the guide plate c of the turnbuckle side gear g43, so that they do not escape from the side at all. If, when the turnbuckle side gear (g43) receives the rotational driving force (m0) from the driving rod side gear (g44), the upper support (41) and the lower support (42) of the female screw (433) is missing The male screw 431 of the turnbuckle 43 is rotated, and accordingly, the turnbuckle 43 moves in the longitudinal direction (m1, m2) while simultaneously moving the turnbuckle side gear g43. The guide plate (c) pushes the driving rod-side gear (g44) in the direction of the movement, and eventually, the driving rod-side gear (g44) also moves, so that it is always possible to maintain a state in which a gap (ga) is achieved. will be. And the drive rod 44 is moved in the longitudinal direction along the movement of the drive rod side gear (g44), the one end side and the other end side of the drive rod and the bearing hole (h1) of the upper support (41), respectively It is to correspond to the positional displacement while sliding while being fitted into the bearing hole h2 of the lower support 41.

Male screw 431; Dentition (ga); Drive rod side gear (g44); Turnbuckle side gear (g43); Lower support (41); Upper support (41);

Claims (1)

The fixing nut is coupled to the male screw 431 of the turnbuckle 43 to adjust the inclination angle of the panel 10 with the turnbuckle 43, and then the adjustment state is maintained by closely tightening the fixing nut to the female screw 433 side of the upper and lower supports. Tilting angle adjustment device for one solar cell module.

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