CN214113994U - Photovoltaic frame material loading correcting unit - Google Patents

Abstract

The utility model relates to a photovoltaic frame feeding correction device, which comprises a plurality of first mounting plates, a correction conveyor belt assembly, a first motor, a second mounting plate, a conveyor belt assembly and a second motor; the correction conveyor belt assemblies are multiple and are respectively arranged on the first mounting plates; the first mounting plate is provided with a plurality of first motors which are arranged on the first mounting plate and drive the plurality of correction conveyor belt components to rotate respectively; the number of the second mounting plates is multiple; the conveyor belt assemblies correspond to the correction conveyor belt assemblies one by one and are respectively arranged on the second mounting plates, the conveying direction of the conveyor belt assemblies is consistent with that of the correction conveyor belt assemblies, and one end of each conveyor belt assembly is superposed with one end of each correction conveyor belt assembly; the second motor sets up and drives the conveyer belt subassembly and rotate on the second mounting panel. Through the technical scheme, the problem of unreasonable transmission of material loading transmission overlapping, adhesion and the like is solved.

Description

Photovoltaic frame material loading correcting unit

Technical Field

The utility model relates to a photovoltaic frame manufacture equipment indicates a photovoltaic frame material loading correcting unit especially.

Background

On present photovoltaic frame production line, the material loading form of photovoltaic frame aluminium alloy often is through artifical material loading, unipolar belt transmission material loading or artifical semi-automatic material loading that adds the transmission form etc.. These feeding forms all have the following drawbacks: the operation is not stable due to single-shaft transmission. Secondly, in the existing process of feeding the photovoltaic frame aluminum alloy, the aluminum alloy materials are easy to adhere to each other, while the overturning mechanical arm grabs one material, the other material adhered together is also taken along with the other material, and falls onto the feeding table in an irregular way due to free falling under the action of gravity, so that overlapping occurs, automatic shutdown is caused, and the production efficiency is low. An effective solution to the problems in the related art has not been proposed yet.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main objective lies in providing a photovoltaic frame material loading correcting unit to solve the unreasonable problem of transmission such as material loading transmission overlap joint, adhesion.

For solving the technical problem, the utility model discloses the technical scheme who takes lies in:

the utility model provides a photovoltaic frame material loading correcting unit, includes:

a plurality of first mounting plates;

a plurality of correction conveyor belt assemblies respectively arranged on the plurality of first mounting plates;

the first mounting plate is provided with a plurality of first motors, and the plurality of first motors are arranged on the first mounting plate and drive the plurality of correction conveyor belt assemblies to rotate respectively;

a plurality of second mounting plates;

the conveyor belt assemblies correspond to the correction conveyor belt assemblies one by one and are respectively arranged on the second mounting plates, one end of each conveyor belt assembly is overlapped with one end of each correction conveyor belt assembly, and the conveying direction of each conveyor belt assembly is consistent with that of each correction conveyor belt assembly;

and the second motor is arranged on the second mounting plate and drives the conveying belt assembly to rotate.

As a further technical solution, the conveyor belt assembly comprises:

the first driving wheel is arranged on the second mounting plate, and the second motor drives the first driving wheel to rotate;

the first supporting wheel is rotatably arranged on the second mounting plate;

the second supporting wheel is rotatably arranged on the second mounting plate, a connecting line among the first driving wheel, the first supporting wheel and the second supporting wheel forms a triangle, and the first supporting wheel and the first driving wheel or the second supporting wheel are positioned on the same horizontal plane;

the first conveyor belt is sleeved on the first driving wheel, the first supporting wheel and the second supporting wheel and rotates along with the first driving wheel.

As a further technical solution, the correction conveyor belt assembly includes:

the third supporting wheel is rotatably arranged on the second mounting plate and is coaxial with the first supporting wheel;

one end of the supporting rod is arranged on the first mounting plate;

the fourth supporting wheel is rotatably arranged at the other end of the supporting rod;

the second driving wheel is arranged on the first mounting plate, and the first motor drives the second driving wheel to rotate;

and the second conveyor belt is sleeved on the second driving wheel, the third supporting wheel and the fourth supporting wheel and rotates along with the second driving wheel.

As a further technical solution, the correction conveyor belt assembly further includes:

the first guide wheel is rotatably arranged on the first mounting plate;

the second guide wheel is rotatably arranged on the first mounting plate, the first guide wheel and the second guide wheel are respectively positioned on two sides of the second driving wheel, and the second conveying belt penetrates through the first guide wheel and the second guide wheel.

As a further technical scheme, the number of the correction conveyor belt assemblies and the number of the conveyor belt assemblies are four;

the number of the first motors is two, one first motor drives two adjacent second driving wheels to rotate, every two second driving wheels are connected through two first transmission shafts, and the two first transmission shafts are connected through a first coupler;

the second motor is one, and the setting is in the one that is located the outside on the second mounting panel, four connect through a plurality of second transmission shafts between the first action wheel, it is a plurality of connect through the second shaft joint between the second transmission shaft.

As a further technical solution, it is proposed that,

the fourth supporting wheel is rotatably arranged on the supporting rod through the fixing plate, one end of the fixing plate is arranged on the supporting rod, a strip-shaped hole is formed in the other end of the fixing plate along the conveying direction of the photovoltaic frame, and the rotating shaft of the fourth supporting wheel is arranged in the strip-shaped hole in a penetrating mode and locked through a bolt.

As a further technical solution, the correction conveyor assembly apparatus further comprises:

and one end of the connecting plate is arranged on the supporting rod, and the other end of the connecting plate is arranged on the rack.

The utility model has the advantages that:

the utility model discloses simple structure, through second conveyer belt and first conveyer belt control material and material between the transmission of interval each other, the transmission is reasonable orderly, operate steadily, can accomplish the transport task of aluminium alloy material in proper order, has improved production efficiency, has reduced manufacturing cost, has eliminated aluminium alloy material adhesion phenomenon.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic side view of the present invention;

fig. 3 is a schematic structural view of the second driving wheel of the present invention.

Description of the reference numerals

1. First mounting panel, 2, correction conveyer belt subassembly, 21, third supporting wheel, 22, bracing piece, 23, fourth supporting wheel, 24, second action wheel, 25, second conveyer belt, 26, first guide pulley, 27, second guide pulley, 3, first motor, 4, second mounting panel, 5, conveyer belt subassembly, 51, first action wheel, 52, first supporting wheel, 53, second supporting wheel, 54, first conveyer belt, 6, second motor, 7, first transmission shaft, 8, first shaft coupling, 9, second transmission shaft, 10, second shaft coupling, 11, fixed plate, 12, bar hole, 13, connecting plate.

Detailed Description

The technical solution in the embodiment of the present invention is clearly and completely described below with reference to the drawings in the embodiment of the present invention. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be implemented in other ways different from the specific details set forth herein, and one skilled in the art may similarly generalize the present invention without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

As shown in fig. 1-3, the utility model provides a photovoltaic frame material loading correcting unit mainly includes first mounting panel 1, rectifies conveyer belt subassembly 2, first motor 3, second mounting panel 4, conveyer belt subassembly 5, second motor 6, fixed plate 11 and connecting plate 13.

The number of the first mounting plates 1 is multiple, preferably four, each first mounting plate 1 is provided with a correction conveyor belt assembly 2, each correction conveyor belt assembly 2 comprises a third supporting wheel 21, a supporting rod 22, a fourth supporting wheel 23, a second driving wheel 24, a second conveyor belt 25, a first guide wheel 26 and a second guide wheel 27, the third supporting wheel 21 is rotatably arranged on the second mounting plate 4, one end of the supporting rod 22 is arranged on the first mounting plate 1, the fourth supporting wheel 23 is rotatably arranged at the other end of the supporting rod 22 through two parallel fixing plates 11, one end of each fixing plate 11 is arranged on the supporting rod 22, the other end of each fixing plate is provided with a strip-shaped hole 12 along the conveying direction of the photovoltaic frame, the rotating shaft of the fourth supporting wheel 23 is arranged in the strip-shaped hole 12 in a penetrating mode and locked through a bolt, the second driving wheel 24 is arranged on the first mounting plate 1, the second conveyor belt 25 is sleeved on the second driving wheel 24, The third supporting wheel 21 and the fourth supporting wheel 23 rotate along with a second driving wheel 24, a first guide wheel 26 is rotatably arranged on the first mounting plate 1, second guide wheels 27 are rotatably arranged on the first mounting plate 1, the first guide wheel 26 and the second guide wheel 27 are respectively positioned at two sides of the second driving wheel 24, a second conveyor belt 25 passes through the first guide wheel 26 and the second guide wheel 27, preferably two first motors 3 are respectively arranged on the first mounting plate 1, one first motor 3 drives two adjacent second driving wheels 24 to rotate, every two second driving wheels 24 are connected through two first transmission shafts 7, the two first transmission shafts 7 are connected through a first coupler 8, and a second tensioning sleeve is arranged between the second driving wheel 24 and the first transmission shafts 7; a connecting plate 13 is arranged on the supporting rod 22, one end of the connecting plate 13 is connected with the supporting rod 22, the other end of the connecting plate 13 is arranged on the rack, a first detection switch is arranged at the tail end of the second conveyor belt 25, and the tail end of the second conveyor belt 25 is the end close to the first conveyor belt 54;

the number of the second mounting plates 4 is multiple, the number of the second mounting plates is corresponding to that of the first mounting plate 1, the number of the second mounting plates is preferably four, the conveyor belt assemblies 5 correspond to the correction conveyor belt assemblies 2 one by one and are respectively arranged on the multiple second mounting plates 4, the conveying direction of the conveyor belt assemblies 5 is consistent with that of the correction conveyor belt assemblies 2, each conveyor belt assembly 5 comprises a first driving wheel 51, a first supporting wheel 52, a second supporting wheel 53 and a first conveyor belt 54, the first driving wheel 51 is arranged on the second mounting plate 4, the second motor 6 drives the first driving wheel 51 to rotate, the first supporting wheel 52 is rotatably arranged on the second mounting plate 4 and is coaxially arranged with the third supporting wheel 21, one end of each conveyor belt assembly 5 is overlapped with one end of the correction conveyor belt assembly 2, the second supporting wheel 53 is rotatably arranged on the second mounting plate 4, and connecting lines among the first driving wheel 51, the first supporting wheel 52 and the second supporting wheel 53 form a triangle, the first supporting wheel 52 and the first driving wheel 51 or the second supporting wheel 53 are located on the same horizontal plane, the first transmission belt 54 is sleeved on the first driving wheel 51, the first supporting wheel 52 and the second supporting wheel 53 and rotates along with the first driving wheel 51, the number of the second motors 6 is preferably one, the second transmission belts are arranged on one second mounting plate 4 located on the outer side, the four first driving wheels 51 are connected through a plurality of second transmission shafts 9, the plurality of second transmission shafts 9 are connected through a second coupler 10, a first tensioning sleeve is arranged between the first driving wheel 51 and the second transmission shaft 9, a second detection switch is arranged at the tail end of the first transmission belt 54, and the tail end of the first transmission belt 54 is the end far away from the second transmission belt 25.

In the using process of the embodiment, the specific operation steps are as follows: the two first motors 3 simultaneously drive the two second driving wheels 24 to rotate, the other two second driving wheels 24 are linked through the transmission of the first transmission shaft 7 and the first coupler 8, so that the second driving wheels 24, the third supporting wheel 21, the fourth supporting wheel 23, the first guide wheel 26, the second guide wheel 27 and the second conveyor belt 25 rotate together to convey the aluminum alloy section forward, and when the aluminum alloy section is conveyed to the position of the first detection switch, the first motors 3 stop rotating instantly; at the moment, the second motor 6 is started immediately to drive the first driving wheels 51 to rotate, the first driving wheels 51 are linked through the transmission of the second transmission shaft 9 and the second coupling 10, so that the first driving wheels 51, the first supporting wheels 52, the second supporting wheels 53 and the first transmission belt 54 rotate together to continue to convey the aluminum alloy section forward, and when the aluminum alloy section is conveyed to the position of the second detection switch, the second motor 6 stops rotating, so that the materials are separated in an accelerated manner to form reasonable spacing distances, the sequential conveying work task of the aluminum alloy sections is completed, the possibility that the materials are adhered to each other is eliminated, the operation is simple, and the reliability is high.

If one end of the aluminum alloy section is inclined, the aluminum alloy section firstly reaches the first motor 3 at one end of the first detection switch or the second detection switch and stops rotating, the aluminum alloy section later reaches the first motor 3 at one end of the first detection switch and continues to rotate and drive until the two ends of the aluminum alloy section reach the material level of the first detection switch, and then the aluminum alloy section is driven by the second motor 6 to drive the first conveyor belt 54 to drive so that the aluminum alloy section can stop rotating when reaching the second detection switch, thereby ensuring that the two ends of the aluminum alloy section are simultaneously clamped and grabbed by the mechanical arm and the claw. The first conveyor belt 54 is used for conveying the aluminum alloy section with a relatively small length, and is used for separating the aluminum alloy section to be grabbed from the next aluminum alloy section, and after the second conveyor belt 25 adjusts the aluminum alloy section to be inclined, the aluminum alloy section cannot be inclined again when passing through the first conveyor belt 54. The second conveyor belt 25 sequentially passes through the first guide wheel 26, the second driving wheel 24 and the second guide wheel 27 along the wave shape, the first guide wheel 26 and the second guide wheel 27 guarantee the tensioning degree of the second conveyor belt on the second driving wheel 24, and therefore the second driving wheel 24 is guaranteed to smoothly drive the second conveyor belt 25 to rotate, and the reliability is high. The fixed plate 11 and the strip-shaped holes 12 formed in the fixed plate are convenient for adjusting the position of the fourth supporting wheel 23, so that the tensioning degree of the second conveyor belt 25 is adjusted, and the second conveyor belt 25 is always tensioned. Due to the arrangement of the connecting plate 13, the whole correcting structure is convenient to mount on a rack, and the practicability is high.

The foregoing description is only of the preferred embodiments of the present invention, and it should be understood that the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Claims (7)

1. The utility model provides a photovoltaic frame material loading correcting unit which characterized in that includes:

a plurality of first mounting plates (1), wherein the number of the first mounting plates (1) is multiple;

a plurality of correction conveyor belt assemblies (2), wherein the correction conveyor belt assemblies (2) are respectively arranged on the first mounting plates (1);

the number of the first motors (3) is multiple, and the first motors (3) are arranged on the first mounting plate (1) and drive the correction conveyor belt assemblies (2) to rotate respectively;

a plurality of second mounting plates (4), wherein the number of the second mounting plates (4) is multiple;

the conveyor belt assemblies (5) correspond to the correcting conveyor belt assemblies (2) one by one and are respectively arranged on the second mounting plates (4), one end of each conveyor belt assembly (5) is overlapped with one end of each correcting conveyor belt assembly (2), and the conveying direction of each conveyor belt assembly (5) is consistent with the conveying direction of each correcting conveyor belt assembly (2);

the second motor (6), second motor (6) set up drive on second mounting panel (4) the conveyer belt subassembly (5) rotates.

2. The photovoltaic border feeding correction device according to claim 1, characterized in that said conveyor assembly (5) comprises:

the first driving wheel (51), the first driving wheel (51) is arranged on the second mounting plate (4), and the second motor (6) drives the first driving wheel (51) to rotate;

a first support wheel (52), wherein the first support wheel (52) is rotatably arranged on the second mounting plate (4);

the second supporting wheel (53) is rotatably arranged on the second mounting plate (4), a connecting line among the first driving wheel (51), the first supporting wheel (52) and the second supporting wheel (53) forms a triangle, and the first supporting wheel (52) and the first driving wheel (51) or the second supporting wheel (53) are positioned on the same horizontal plane;

the first conveying belt (54) is sleeved on the first driving wheel (51), the first supporting wheel (52) and the second supporting wheel (53) and rotates with the first driving wheel (51).

3. The photovoltaic border feeding correction device according to claim 2, characterized in that said correction conveyor belt assembly (2) comprises:

the third supporting wheel (21) is rotatably arranged on the second mounting plate (4) and is coaxially arranged with the first supporting wheel (52);

one end of the support rod (22) is arranged on the first mounting plate (1);

the fourth supporting wheel (23), the said fourth supporting wheel (23) is set up in another end of the said bearing bar (22) rotatably;

the second driving wheel (24), the second driving wheel (24) is arranged on the first mounting plate (1), and the first motor (3) drives the second driving wheel (24) to rotate;

the second conveying belt (25) is sleeved on the second driving wheel (24), the third supporting wheel (21) and the fourth supporting wheel (23) rotate along with the second driving wheel (24).

4. The photovoltaic border feeding correction device of claim 3, characterized in that the correction conveyor belt assembly (2) further comprises:

the first guide wheel (26), the first guide wheel (26) is rotatably arranged on the first mounting plate (1);

the second guide wheel (27) is rotatably arranged on the first mounting plate (1), the first guide wheel (26) and the second guide wheel (27) are respectively positioned on two sides of the second driving wheel (24), and the second conveyor belt (25) penetrates through the first guide wheel (26) and the second guide wheel (27).

5. A photovoltaic border feeding correction device as claimed in claim 3, characterized in that said correction conveyor belt assembly (2) and said conveyor belt assembly (5) are four;

the number of the first motors (3) is two, one first motor (3) drives two adjacent second driving wheels (24) to rotate, every two second driving wheels (24) are connected through two first transmission shafts (7), and the two first transmission shafts (7) are connected through a first coupler (8);

the second motor (6) is one, and is arranged on the second mounting plate (4) which is positioned on the outer side, the first driving wheel (51) is connected with the second driving wheel through a plurality of second transmission shafts (9), and the second driving wheel (51) is connected with the second driving wheel through a second coupler (10).

6. The photovoltaic border feeding correction device as claimed in claim 3,

fourth supporting wheel (23) rotate through fixed plate (11) and set up on bracing piece (22), the one end setting of fixed plate (11) is in on bracing piece (22), bar hole (12) have been seted up to the other end along the direction of transfer of photovoltaic frame, the pivot of fourth supporting wheel (23) is worn to establish in bar hole (12) to lock through the bolt.

7. A photovoltaic border feeding correction device as claimed in claim 3, characterized in that the correction conveyor assembly (2) means further comprise:

one end of the connecting plate (13) is arranged on the supporting rod (22), and the other end of the connecting plate (13) is arranged on the rack.

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