CN211981813U - Multilayer sectional type photovoltaic cell panel - Google Patents

Abstract

The utility model relates to a multilayer sectional type photovoltaic cell board, photovoltaic cell board body including the vertical successive layer interval arrangement of more than one, photovoltaic cell board body hangs the rope through two and fixes hanging in midair, the below of every photovoltaic cell board body all is provided with the regulating plate, the regulating plate extends and runs through there are many regulation ropes at a photovoltaic cell board body outside side edge, hang in midair through adjusting the rope, the lower surface at the photovoltaic cell board body that corresponds is laminated to the regulating plate part, hang the rope and also pass the regulating plate simultaneously, adjust the rope through the vertical adjustment, realize changing photovoltaic cell board's inclination. The utility model discloses according to the different time photovoltaic cell plate body of every day towards sun angle and inclination, ensure each time quantum of every day, the photovoltaic cell plate body is towards the sun, and the inclination of photovoltaic cell plate body is according to the high real-time adjustment of sun, and at night, returns by oneself to the position that faces the sun in the morning, make full use of sunlight.

Description

Multilayer sectional type photovoltaic cell panel

Technical Field

The utility model relates to a multilayer sectional type photovoltaic cell board belongs to photovoltaic cell's technical field.

Background

The photovoltaic cell panel is a device for converting solar energy into electric energy and storing the electric energy, and the existing photovoltaic cell panel is fixed, cannot rotate with the sun from morning to evening according to the local sunlight direction, cannot change along with the rise and fall of the sun, and cannot optimally and fully absorb sunlight.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a multilayer sectional type photovoltaic cell board, its concrete technical scheme as follows:

a multilayer sectional type photovoltaic cell panel comprises more than one layer of photovoltaic cell panel bodies which are vertically arranged at intervals, more than one through hole is arranged on each photovoltaic cell panel body, a suspension rope penetrates through each through hole, an upper suspension rope positioning joint and a lower suspension rope positioning joint are respectively arranged above and below each through hole, the photovoltaic cell panel bodies are fixedly suspended in the air through the suspension ropes,

an adjusting plate is arranged below each photovoltaic cell plate body, the adjusting plate is partially positioned below the photovoltaic cell plate bodies, more than 2 holes are formed in the adjusting plate extending outside the photovoltaic cell plate bodies, an adjusting rope penetrates through each hole, the adjusting rope is knotted on the upper surface of each adjusting plate to form an upper adjusting rope positioning joint, the lower surface of each adjusting plate is knotted to form a lower adjusting rope positioning joint, and the adjusting plates are suspended in the air through the adjusting ropes;

and each layer of the photovoltaic cell plate body and the adjusting plate are inclined downwards from the adjusting rope to the suspension rope.

Further, the portion that the regulating plate is located photovoltaic cell plate body below sets up round hole fretwork or rectangle fretwork, perhaps is bar platelike, and the extending direction of bar plate is from the direction of adjusting rope to suspension rope.

Further, the regulating plate is rectangular plate-shaped, and the round hole has been seted up to the regulating plate that is located photovoltaic cell plate body below part, adjust the rope and pass each round hole in proper order, adjust the rope down the location festival be located photovoltaic cell plate body below, every group adjusts the rope and goes up the location festival and adjust the rope down the location festival with photovoltaic cell plate body and regulating plate clamp tightly wherein.

Furthermore, the photovoltaic cell plate body is rectangular plate-shaped, two through holes are formed in the edge, close to the length direction of the photovoltaic cell plate body, of one side, the two through holes are symmetrical along the center line of the photovoltaic cell plate body in the length direction, and the suspension ropes penetrate through the corresponding through holes.

Furthermore, the part of the adjusting plate extending to the outside of the photovoltaic cell plate body is provided with more than 3 holes.

Furthermore, the outside of the photovoltaic cell plate body is packaged with organic silicon, the photovoltaic cells in the photovoltaic cell plate body are three, the photovoltaic cells are sequentially a middle block positioned between the two through holes, a group of opposite sides of the middle block are close to the edge of the long edge of the photovoltaic cell plate body, the two sides of the middle block are symmetrically provided with edge blocks, the edge blocks are connected with the conducting wires of the middle block in series, and the conducting wires of the photovoltaic cell plate between the upper layer and the lower layer are connected in parallel.

Further, still include the support, the upper and lower both ends of suspension rope and regulation rope all are connected with the upper end and the lower extreme of support, and the connection of tightening is in the support, and the bottom of support is provided with the base, and the base is provided with the stand, the embedded bearing that is provided with in base center, the stand alternates in the bearing, and the stand is located the base top position and is provided with driven gear, driven gear meshing connection driving gear, the driving gear is with the drive shaft connection of motor.

Furthermore, an upper middle rod is arranged on one side, facing the top of the upright column, an upper horizontal rod is vertically fixed on the upper middle rod, upper side rods are arranged at two ends of the upper horizontal rod, the top of the adjusting rope is connected with the corresponding upper middle rod or the corresponding upper side rod, and the top of the suspension rope is respectively fixed at the tail ends of the corresponding upper side rods;

the position, close to the base, of the upright post is provided with a lower middle rod, a lower horizontal rod is vertically fixed on the lower middle rod, lower side rods are arranged at two ends of the lower horizontal rod, the bottom of the adjusting rope is connected with the corresponding lower middle rod or the corresponding lower side rod, and the bottoms of the suspension ropes are respectively fixed at the tail ends of the corresponding lower side rods;

the upper middle rod is positioned vertically above the lower middle rod, the upper side rod is positioned vertically above the lower side rod, and the upper horizontal rod is positioned vertically above the lower horizontal rod.

Furthermore, an upper winch is arranged at the joint of the adjusting rope and the corresponding upper middle rod and upper side rod, the upper end of the adjusting rope is wound on the upper winch, the upper winch comprises a middle winding shaft, baffle plates are arranged on two sides of the winding shaft, and two ends of the winding shaft penetrate through hanging rods fixedly hung below the corresponding upper middle rod and upper side rod;

the lower end of the adjusting rope is wound on the lower winch, the lower winch comprises a middle winding shaft, baffle plates are arranged on two sides of the winding shaft, and two ends of the winding shaft penetrate through supporting rods fixedly hung above the corresponding lower middle rod and the corresponding lower side rod.

The utility model discloses a theory of operation is:

go up the hoist, hoist and motor down and be provided with control system respectively, according to multilayer sectional type photovoltaic cell panel's sunshine time and angle, calculate and obtain the angle and the inclination of different time photovoltaic cell plate body orientation sun, set up driving condition for control system well, ensure each time quantum every day, photovoltaic cell plate body orientation sun, the inclination of photovoltaic cell plate body is according to the high real-time adjustment of sun, and at night, returns by oneself to the position of meeting the sun in the morning.

The utility model has the advantages that:

the utility model discloses a set up the multilayer, increase the area of the photovoltaic cell plate body that sets up on the unit area, interval and inclination between the photovoltaic cell plate body of upper and lower floor make, on the photovoltaic cell plate body below can fully shine, fully provide unit area's utilization ratio.

The utility model discloses can follow the sunlight rotation, let the photovoltaic cell plate body follow the sunlight rotatory, the photovoltaic cell plate body is all the time just towards the sun, fully absorbs the sunlight.

The utility model discloses the inclination of well photovoltaic cell plate body can be adjusted, and each layer photovoltaic cell plate body is fixed at suitable height through the location festival that corresponds.

Drawings

Figure 1 is a position view of the photovoltaic cell panel body and the regulating plate of the present invention,

figure 2 is a side view of figure 1,

figure 3 is a front view of the photovoltaic panel body of the present invention,

figure 4 is a perspective view of the bracket of the present invention,

FIG. 5 is a side view of the photovoltaic cell panel and the adjusting plate mounted on the bracket of the present invention,

figure 6 is an enlarged view of the upper winch of the present invention,

figure 7 is a schematic structural diagram of the bottom of the upright post in the invention,

in the figure: 1-adjusting plate, 2-photovoltaic cell plate, 2-1-middle plate, 2-side plate, 3-perforation, 4-hole, 5-suspension rope, 6-adjusting rope, 7-adjusting rope upper positioning node, 8-adjusting rope lower positioning node, 9-suspending rope lower positioning node, 10-suspending rope upper positioning node, 11-upright post, 12-upper middle rod, 13-upper horizontal rod, 14-upper side rod, 15-lower middle rod, 16-lower horizontal rod, 17-lower side rod, 18-base, 19-hanging ring, 20-upper winch, 21-baffle, 22-winding shaft, 23-hanging rod, 24-bearing, 25-driven gear, 26-driving chu theory, 27-motor.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

With reference to fig. 5, the multi-layer sectional photovoltaic cell panel of the present invention comprises a support and a photovoltaic cell panel body 2 disposed in parallel with each other in the support.

Combine fig. 1, 2 and 5, specifically explain the utility model discloses well mounting means of photovoltaic cell plate body: the photovoltaic cell plate body 2 is fixed to be suspended in the air through two suspension ropes 5, the below of every photovoltaic cell plate body 2 all is provided with regulating plate 1, regulating plate 1 hangs in the air through adjusting rope 6, and the laminating is at the lower surface of the photovoltaic cell plate body 2 that corresponds, photovoltaic cell plate 2 extends out at a side edge of regulating plate 1, adjust rope 6 and pass the part that regulating plate 1 stretches out photovoltaic cell plate, adjust rope 6 through vertical adjustment, suspension rope 5 keeps motionless, photovoltaic cell plate 2's inclination and regulating plate synchronous variation, realize changing photovoltaic cell plate 2's inclination.

In order to better fix the photovoltaic cell plate body and the adjusting plate with the suspension ropes and the adjusting ropes which respectively correspond to the photovoltaic cell plate body and the adjusting plate, two through holes 3 are formed in the edge of one side, close to the photovoltaic cell plate body 2, of the photovoltaic cell plate body 2 in the length direction, the two through holes are symmetrical along the center line of the photovoltaic cell plate body in the length direction, and the suspension ropes 5 penetrate through the corresponding through holes 3. The part of the adjusting plate 1, which is located on the lower surface of the photovoltaic cell plate body 2, is provided with a round hole which is aligned and communicated with the corresponding through hole 3, the suspension rope 5 simultaneously penetrates through the corresponding through hole 3 and the round hole, the suspension rope 5 below each round hole is provided with a lower suspension rope positioning joint 9, the suspension rope 5 above each through hole 3 is provided with an upper suspension rope positioning joint 10, the adjusting plate 1 is limited on the suspension rope through the lower suspension rope positioning joint 9 and the upper suspension rope positioning joint 10, and the adjusting plate cannot move up and down relative to the suspension rope.

The portion that the regulating plate extends to the photovoltaic cell plate body outside has seted up more than 3 holes 4, all passes one in every hole 4 and adjusts rope 6, adjusts 6 a plurality of rope and is fixed with under the regulation rope spacer 8 and adjusts rope spacer 7, and regulating plate 1 is located a set of regulation rope spacer 8 and adjusts rope and goes up spacer 7 in the middle of, and the spacer 8 is greater than the hole under the regulation rope.

The shape of the adjusting plate 1 can be various, as long as the photovoltaic cell plate body can be pushed and lifted, and the upper and lower inclined rotation of the adjusting plate can be controlled, for example, the adjusting plate 1 is rectangular plate-shaped, or the part below the photovoltaic cell plate body is hollowed.

The photovoltaic cell plate body 2 is realized in a manner that organic silicon is packaged outside the photovoltaic cell plate body 2, three photovoltaic cells in the photovoltaic cell plate body are sequentially arranged, namely a middle block 2-1 positioned between two through holes, one group of opposite sides of the middle block 2-1 are close to the edges of the long edges of the photovoltaic cell plate body, edge blocks 2-2 are symmetrically arranged on two sides of the middle block 2-1, the edge blocks 2-2 are connected with the conductor wires of the middle block 2-1 in series, and the conductor wires of the photovoltaic cell plate between the upper layer and the lower layer are connected in parallel.

The structure of the support and the connection mode of the suspension rope and the adjusting rope on the support are described in detail below, a base 18 is arranged at the bottom of the support, an upright post 11 is arranged on the base 18, an upper middle rod 12 is arranged on one side of the top of the upright post 11, an upper horizontal rod 13 is vertically fixed on the upper middle rod 12, upper side rods 14 are arranged at two ends of the upper horizontal rod 13, the top of the adjusting rope 6 is connected with the corresponding upper middle rod 12 or the upper side rod 14, and the top of the suspension rope 5 is respectively fixed at the tail ends of the corresponding upper side rods 14. A suspension loop 19 may be provided at the upper side bar 14 near the end, and the top of the suspension cord 5 is fastened to the suspension loop 19.

The upright post 11 is provided with a lower middle rod 15 near the base 18, the lower middle rod 15 is vertically fixed with a lower horizontal rod 16, two ends of the lower horizontal rod 16 are provided with lower side rods 17, the bottom of the adjusting rope 6 is connected with the corresponding lower middle rod 15 or lower side rod 17, and the bottoms of the suspension ropes 5 are respectively fixed at the tail ends of the corresponding lower side rods 17. A suspension loop 19 may be provided at the lower side bar 17 near the end, and the lower portion of the suspension cord 5 is fastened to the suspension loop 19.

The middle bar 12 is located vertically above the lower middle bar 15, the upper bar 14 is located vertically above the lower bar, and the upper bar 13 is located vertically above the lower bar. I.e. vertically symmetrical.

In order to realize the adjustment of the photovoltaic cell panel body, an upper winch 20 is arranged at the joint of the adjusting rope 6 and the corresponding upper middle rod 12 and upper side rod 14, the upper end of the adjusting rope 6 is wound on the upper winch 20, the upper winch 20 comprises a middle winding shaft 22, two sides of the winding shaft 22 are provided with baffle plates 21, and two ends of the winding shaft penetrate through hanging rods 23 fixedly hung below the corresponding upper middle rod 12 and upper side rod 14.

The lower end of the adjusting rope 6 is wound on the lower winch, the lower winch comprises a middle winding shaft 22, baffle plates 21 are arranged on two sides of the winding shaft 22, and two ends of the winding shaft 22 penetrate through supporting rods fixedly hung above the corresponding lower middle rod and the corresponding lower side rod.

The upper winch and the lower winch are vertically symmetrical, and a driving control system of the upper winch and the lower winch is arranged, so that the movement strokes of the upper winch and the lower winch are just opposite, and the adjusting rope is always in a tightening state.

In order to realize the rotation of the photovoltaic cell panel body, a bearing 24 is embedded in the center of the base 18, the upright post 11 is inserted in the bearing 24, a driven gear 25 is arranged at a position, above the base 18, of the upright post 11, the driven gear 25 is meshed with a driving gear 26, and the driving gear 26 is connected with a driving shaft of a motor 27. During the bearing frame of bearing was fixed in the base, the stand was fixed with the bearing inner circle, and driven gear is fixed with the stand, for the stable cooperation nature of being connected of reinforcing driven gear and stand, can increase key connecting structure at the connection face. During driving, the motor drives the driving gear to rotate, and the driving gear drives the driven gear and the stand column to synchronously rotate so as to drive the photovoltaic cell plate body to synchronously rotate. Can set up the drive control of motor, it is a cycle to set up 24 hours, according to sunrise sunset time and orientation of locating, set up the time from sunrise direction to sunset direction, when sunrise, the photovoltaic cell plate body is towards sunrise direction, set up suitable speed, when making sunset, the photovoltaic cell plate body is towards sunset direction, after the sunset, the time that the photovoltaic cell plate body was originally gone back to sunrise direction, the time of coming back subtracts sunrise direction for 24 hours and changes the time of sunset direction to sunset direction, the speed calculates according to this, set up the speed of going back, realize 24 hours automatic control.

The utility model discloses during the application, multilayer sectional type photovoltaic cell board's inclination, this regulation and control method are based on foretell multilayer sectional type photovoltaic cell board, including following step:

the method comprises the following steps: and (3) adjusting and controlling the inclination angle: the upper winch and the lower winch are both provided with a driving system and a control system, the angle of the photovoltaic cell plate body 2 perpendicular to sunlight is calculated according to the height of the sun in one day, and driving parameters of the driving systems are set in the control system, so that the cycle period of the driving systems is 24 hours;

step two: autorotation regulation: a control system of the motor 27 is provided to drive the column 11 to rotate around the bearing 24 so that the photovoltaic panel body 2 is always oriented towards the sunlight.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (9)

1. A multilayer sectional type photovoltaic cell board which characterized in that: comprises more than one layer of photovoltaic cell plate bodies (2) which are vertically arranged at intervals, more than one through hole (3) is arranged on each photovoltaic cell plate body (2), a suspension rope (5) is penetrated in each through hole (3), an upper suspension rope positioning section (10) and a lower suspension rope positioning section (9) are respectively arranged above and below each through hole (3), the photovoltaic cell plate bodies (2) are fixedly suspended in the air through the suspension ropes (5),

an adjusting plate (1) is arranged below each photovoltaic cell plate body (2), the portion of each adjusting plate (1) is located below the photovoltaic cell plate body (2), more than 2 holes (4) are formed in the adjusting plate (1) extending out of the photovoltaic cell plate body (2), an adjusting rope (6) penetrates through each hole (4), the adjusting rope (6) is knotted on the upper surface of each adjusting plate (1) to form an adjusting rope upper positioning joint (7), the lower surface of each adjusting plate (1) is knotted to form an adjusting rope lower positioning joint (8), and the adjusting plate (1) is suspended in the air through the adjusting rope (6);

each layer of photovoltaic cell plate body (2) and adjusting plate (1) are inclined downwards from adjusting rope (6) to suspension rope (5).

2. The multilayer segmented photovoltaic panel of claim 1, wherein: the adjusting plate (1) is located at the lower portion of the photovoltaic cell plate body and is provided with a circular hole hollow or a rectangular hollow or is in a strip plate shape, and the extending direction of the strip plate is from the adjusting rope (6) to the hanging rope (5).

3. The multilayer segmented photovoltaic panel of claim 1, wherein: regulating plate (1) is rectangular plate-like, has seted up the round hole in regulating plate (1) that is located photovoltaic cell plate body (2) below part, adjust rope (6) and pass each round hole in proper order, adjust down locating section (8) of restricting and be located photovoltaic cell plate body (2) below, every group adjusts on the rope locating section (7) and adjusts under the rope locating section (8) and presss from both sides photovoltaic cell plate body (2) and regulating plate (1) tightly wherein.

4. The multilayer segmented photovoltaic panel of claim 1, wherein: the photovoltaic cell plate body (2) is rectangular plate-shaped, two through holes (3) are formed in the edge of one side, close to the length direction of the photovoltaic cell plate body (2), of the through hole, the two through holes are symmetrical along the center line of the length direction of the photovoltaic cell plate body, and the suspension rope (5) penetrates through the corresponding through holes (3).

5. The multilayer segmented photovoltaic panel of claim 1, wherein: the portion that the regulating plate extends to the outside of the photovoltaic cell plate body is provided with more than 3 holes (4).

6. The multilayer segmented photovoltaic panel of claim 1, wherein: the photovoltaic cell plate is characterized in that organic silicon is packaged outside the photovoltaic cell plate body (2), three photovoltaic cells in the photovoltaic cell plate body are sequentially arranged, a middle block (2-1) is arranged between two through holes, a group of opposite sides of the middle block (2-1) are close to the edge of the long edge of the photovoltaic cell plate body, edge blocks (2-2) are symmetrically arranged on two sides of the middle block (2-1), the edge blocks (2-2) are connected with the conducting wires of the middle block (2-1) in series, and the conducting wires of the photovoltaic cell plate between the upper layer and the lower layer are connected in parallel.

7. The multilayer segmented photovoltaic panel of claim 1, wherein: the suspension rope (5) and the adjusting rope (6) are connected with the upper end and the lower end of the support, the suspension rope and the adjusting rope are tightly connected into the support, the base (18) is arranged at the bottom of the support, the stand column (11) is arranged on the base (18), a bearing (24) is embedded into the center of the base (18), the stand column (11) is inserted into the bearing (24), the stand column (11) is located above the base (18) and is provided with a driven gear (25), the driven gear (25) is meshed with a driving gear (26), and the driving gear (26) is connected with a driving shaft of a motor (27).

8. The multilayer segmented photovoltaic panel of claim 7, wherein: an upper middle rod (12) is arranged on one side, facing the top of the upright post (11), an upper horizontal rod (13) is vertically fixed on the upper middle rod (12), upper side rods (14) are arranged at two ends of the upper horizontal rod (13), the top of the adjusting rope (6) is connected with the corresponding upper middle rod (12) or the corresponding upper side rod (14), and the tops of the suspension ropes (5) are respectively fixed at the tail ends of the corresponding upper side rods (14);

a lower middle rod is arranged at the position, close to the base (18), of the upright column (11), a lower horizontal rod is vertically fixed on the lower middle rod, lower side rods are arranged at two ends of the lower horizontal rod, the bottom of the adjusting rope (6) is connected with the corresponding lower middle rod or lower side rod, and the bottoms of the suspension ropes (5) are respectively fixed at the tail ends of the corresponding lower side rods;

the upper middle rod (12) is positioned vertically above the lower middle rod, the upper side rod (14) is positioned vertically above the lower side rod, and the upper horizontal rod (13) is positioned vertically above the lower horizontal rod.

9. The multilayer segmented photovoltaic panel of claim 8, wherein: an upper winch (20) is arranged at the joint of the adjusting rope (6) and the corresponding upper middle rod (12) and upper side rod (14), the upper end of the adjusting rope (6) is wound on the upper winch (20), the upper winch (20) comprises a winding shaft in the middle, baffle plates (21) are arranged on two sides of the winding shaft, and two ends of the winding shaft penetrate through hanging rods (23) fixedly hung below the corresponding upper middle rod (12) and upper side rod (14);

the lower winch is arranged at the joint of the adjusting rope (6) and the corresponding lower middle rod and lower rod, the lower end of the adjusting rope (6) is wound on the lower winch, the lower winch comprises a middle winding shaft, baffle plates are arranged on two sides of the winding shaft, and two ends of the winding shaft penetrate through the supporting rods fixedly hung above the corresponding lower middle rod and lower rod.

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