CN220925662U - Photovoltaic support production stacking equipment - Google Patents

Abstract

The utility model discloses a photovoltaic bracket production stacking device which comprises a supporting frame and a longitudinal moving mechanism, wherein the top end of the supporting frame is provided with the longitudinal moving mechanism, the top end of the longitudinal moving mechanism is slidably provided with the transverse moving mechanism, the top end of the transverse moving mechanism is slidably provided with a sliding frame, the outer wall of the sliding frame is provided with a supporting arm, the bottom end of the supporting arm is provided with a connecting box, the bottom end of the connecting box is movably provided with a clamping frame, the outer wall of the clamping frame is symmetrically provided with clamping claws, and one ends of the clamping claws close to the clamping frame are provided with movable shafts. The utility model improves the stacking efficiency of the photovoltaic brackets, facilitates automatic and rapid clamping and fixing of the photovoltaic brackets, facilitates the stacking device for producing the photovoltaic brackets to stack the photovoltaic brackets up and down in turn, increases the grabbing and placing range of the photovoltaic brackets, and improves the convenience of operation control of the stacking device.

Description

Photovoltaic support production stacking equipment

Technical Field

The utility model relates to the technical field of stacking equipment, in particular to stacking equipment for producing a photovoltaic bracket.

Background

The stacking refers to the stacking of objects or the regular stacking of objects to form a stack, the stacking is one basic activity of the object flow and the storage in the internal logistics, has become a basic component of the modern manufacturing process and warehouse management, the stacking comprises the assembly of objects on a surface or inside, the purpose is to create a single working unit, the processing, the transportation and the storage can be carried out with minimum effort in one operation, the stacking can well utilize the storage space, the object storage is convenient, the object storage control is convenient, the stacking device is a special device of a three-dimensional warehouse, the carrying speed and the object storage speed are higher, the object storage and the object storage operation can be completed in a short time,

The high-speed lower sheet paper laying and stacking equipment for the solar photovoltaic glass disclosed by the authorization bulletin number CN104310068B comprises a front section conveying frame, an acceleration roller conveying frame, a connecting roller support before overturning, an overturning machine, a connecting roller support after overturning, a shipment roller and a manipulator which are sequentially arranged, wherein two paper laying machines are respectively arranged on two sides of the manipulator, and a bridge frame is arranged above the front section conveying frame;

The invention has the advantages that the period of sheet discharging and paper laying is less than or equal to 6S, the film plating surface of the solar photovoltaic glass faces downwards, the stacking precision is within 2mm, the paper laying precision is within 3mm, paper is not wrinkled, paper cutting is not notched or torn, and meanwhile, the equipment cost is saved, but the problem that the conventional production stacking equipment is unfavorable for convenient multi-position moving clamping and circumferential rotation during use is not solved, the convenient conveying and stacking of the photovoltaic brackets are convenient, the stacking efficiency of the photovoltaic brackets is influenced, the automatic and quick clamping and fixing of the photovoltaic brackets and the stacking and stacking of the photovoltaic brackets up and down in sequence are not favorable, the grabbing and placing range of the photovoltaic brackets is influenced, and the convenience of the operation control of the stacking equipment is influenced.

Disclosure of utility model

The utility model aims to provide a photovoltaic bracket production stacking device, which solves the problems that in the background technology, the production stacking device is inconvenient to move and clamp at multiple positions and rotate circumferentially, the photovoltaic bracket is convenient to convey and stack, the efficiency of stacking the photovoltaic bracket is affected, the automatic and rapid clamping and fixing of the photovoltaic bracket and the stacking and stacking of the photovoltaic bracket up and down in sequence are not facilitated, the grabbing and placing range of the photovoltaic bracket is affected, and the convenience of operation control of the stacking device is affected.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a photovoltaic support production stacking equipment, includes braced frame and longitudinal movement mechanism, longitudinal movement mechanism is installed on braced frame's top, longitudinal movement mechanism's top slidable mounting has lateral movement mechanism, lateral movement mechanism's top slidable mounting has the carriage, be provided with the support arm on the outer wall of carriage, the link box is installed to the bottom of support arm, the bottom movable mounting of link box has the carriage, the centre gripping is grabbed to the symmetrical mounting on the outer wall of carriage, the centre gripping is grabbed and is all installed the loose axle near the one end of carriage, and the centre gripping is grabbed through loose axle and carriage swing joint, install the connecting axle on the outer wall that the centre gripping was grabbed, centre gripping is grabbed one side's carriage bottom symmetry and is installed the centre gripping cylinder, the movable rod is all installed to the output of centre gripping cylinder, the one end that the centre gripping cylinder was kept away from to the movable rod is all connected with the connecting axle.

Preferably, the internally mounted of link box has the second servo motor, little conical tooth disc is installed to the output of second servo motor, the link box internally mounted of little conical tooth disc one side has big conical tooth disc, and little conical tooth disc and big conical tooth disc intermeshing, the inside cover of big conical tooth disc has the axis of rotation, and the axis of rotation extends to the inside of holder, the symmetrical movable mounting of link box bottom of holder top has T type wheel, the top symmetry of holder is provided with the spout, and T type wheel all with spout sliding connection.

Preferably, a sliding block is installed on the outer wall of the sliding frame on one side of the supporting arm, a sliding rail is installed on the outer wall of the supporting arm on one side of the sliding block, and the sliding block is in sliding connection with the sliding rail.

Preferably, the internally mounted of carriage has first servo motor, the output of first servo motor extends to the outside of carriage, the outside first servo motor output of carriage installs the gear, install the rack on the support arm outer wall of gear one side, and gear and rack intermeshing.

Preferably, the bottom of the supporting frame is provided with a conveying mechanism, the bottom of the supporting frame on one side of the conveying mechanism is provided with a storage box, the top of the conveying mechanism is symmetrically provided with guard plates, and one ends, close to the supporting frame, of the two groups of guard plates are provided with baffle plates.

Preferably, a control panel is installed on the outer wall of the conveying mechanism, and the output end of the control panel is electrically connected with the input ends of the longitudinal moving mechanism, the transverse moving mechanism, the clamping cylinder, the first servo motor, the conveying mechanism and the second servo motor.

Compared with the prior art, the utility model has the beneficial effects that: the stacking equipment not only realizes convenient multi-position moving clamping and circumferential rotation, facilitates convenient stacking and stacking conveying of the photovoltaic brackets, improves stacking and stacking efficiency of the photovoltaic brackets, but also facilitates automatic and rapid clamping and fixing of the photovoltaic brackets, facilitates stacking and stacking of the photovoltaic brackets in turn up and down by the photovoltaic bracket production stacking equipment, increases grabbing and placing range of the photovoltaic brackets, and improves operation control convenience of the stacking equipment;

(1) The photovoltaic support produced in a workshop is conveyed to the surface of the conveying mechanism, the conveying mechanism is conveyed to the inside of the supporting frame, the photovoltaic support is protected by the guard plate, the photovoltaic support is prevented from falling, when the photovoltaic support is conveyed to the position of the guard plate, the longitudinal moving mechanism drives the sliding frame, the supporting arm, the connecting box and the clamping frame to move longitudinally through the transverse moving mechanism, the transverse moving mechanism drives the supporting arm, the connecting box and the clamping frame to move transversely through the sliding frame, the clamping frame is enabled to move to the upper side of the conveying mechanism, the photovoltaic support is clamped by the clamping gripper, the photovoltaic support is conveyed to the inside of the storage box under the control of the longitudinal moving mechanism and the transverse moving mechanism, stacking and stacking of the photovoltaic support in the storage box are facilitated through the method, convenient multi-position moving and clamping of stacking equipment is achieved, convenient conveying and stacking of the photovoltaic support are facilitated, and stacking efficiency of the photovoltaic support is improved.

(2) The first servo motor drives the gear to rotate, the gear drives the rack to move, the rack drives the supporting arm to move downwards, the supporting arm drives the connecting box and the clamping frame to move downwards, when the clamping frame moves to the top end of the photovoltaic support, the clamping cylinder drives the movable rod to move, so that the photovoltaic support is conveniently clamped by the clamping gripper, the convenient up-and-down movable conveying of the photovoltaic support by the stacking device is realized, the automatic and rapid clamping and fixing of the photovoltaic support are facilitated, the stacking and stacking of the photovoltaic support in turn from top to bottom by the stacking device are facilitated, and the convenience in operation control of the stacking device is improved;

(3) Through the rotation of the little conical fluted disc of second servo motor drive, the rotation of the big conical fluted disc is driven by little conical fluted disc, the rotation of the axis of rotation is driven by big conical fluted disc, the rotation of clamping frame is driven by the axis of rotation, the rotation is grabbed in the clamping frame drive centre gripping, the rotation of driving photovoltaic support is grabbed by the centre gripping, the position of conveniently adjusting the photovoltaic support, the convenient circumferential rotation of stacking equipment has been realized, the flexible rotation of stacking equipment has been made things convenient for snatchs the photovoltaic support, the snatch range of putting of photovoltaic support has been increased.

Drawings

FIG. 1 is a schematic three-dimensional perspective view of the present utility model;

FIG. 2 is a schematic view of a three-dimensional structure of a longitudinal moving mechanism according to the present utility model;

FIG. 3 is a schematic elevational view of the present utility model;

FIG. 4 is a schematic view of a three-dimensional enlarged structure of a grip of the present utility model;

fig. 5 is an enlarged sectional view of the rotary case of the present utility model.

In the figure: 1. a support frame; 2. a longitudinal movement mechanism; 3. a lateral movement mechanism; 4. a carriage; 5. a support arm; 6. a connection box; 7. a clamping frame; 8. a movable shaft; 9. a clamping cylinder; 10. a movable rod; 11. a connecting shaft; 12. clamping and grabbing; 13. a control panel; 14. a slide rail; 15. a slide block; 16. a gear; 17. a rack; 18. a first servo motor; 19. a conveying mechanism; 20. a guard board; 21. a baffle; 22. a second servo motor; 23. a small conical fluted disc; 24. a large conical fluted disc; 25. a rotating shaft; 26. a T-wheel; 27. a chute; 28. a storage box.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, an embodiment of the present utility model is provided: the utility model provides a photovoltaic support production stacking equipment, including braced frame 1 and vertical mobile mechanism 2, vertical mobile mechanism 2 is installed on the top of braced frame 1, horizontal mobile mechanism 3 is installed on the top slidable of vertical mobile mechanism 2, the top slidable mounting of horizontal mobile mechanism 3 has carriage 4, be provided with support arm 5 on the outer wall of carriage 4, connecting box 6 is installed to the bottom of support arm 5, clamping frame 7 is installed to the bottom movable mounting of connecting box 6, clamping grab 12 is installed on the outer wall of clamping frame 7 symmetry, clamping grab 12 is close to clamping frame 7's one end all installs loose axle 8, loose axle 8 plays the effect of movable support, and clamping grab 12 is through loose axle 8 and clamping frame 7 swing joint;

The outer wall of the clamping gripper 12 is provided with a connecting shaft 11, the bottom end of the clamping frame 7 on one side of the clamping gripper 12 is symmetrically provided with clamping cylinders 9, the output ends of the clamping cylinders 9 are provided with movable rods 10, one ends of the movable rods 10, which are far away from the clamping cylinders 9, are connected with the connecting shaft 11, the bottom end of the supporting frame 1 is provided with a conveying mechanism 19, the bottom end of the supporting frame 1 on one side of the conveying mechanism 19 is provided with a storage box 28, the top ends of the conveying mechanism 19 are symmetrically provided with guard plates 20, and one ends, close to the supporting frame 1, of the two groups of guard plates 20 are provided with baffle plates 21;

When the photovoltaic support is used, an external power supply is connected, firstly, the photovoltaic support produced in a workshop is conveyed to the surface of the conveying mechanism 19, the conveying mechanism 19 is conveyed to the inside of the supporting frame 1, the protection plate 20 is used for protecting the photovoltaic support from dropping, when the photovoltaic support is conveyed to the position of the baffle 21, the baffle 21 is used for limiting the photovoltaic support, when the clamping grab 12 is used for clamping, the rest photovoltaic support drops, the longitudinal moving mechanism 2 is opened through the operation control panel 13, the longitudinal moving mechanism 2 drives the transverse moving mechanism 3 to longitudinally move, the longitudinal moving mechanism 2 drives the sliding frame 4, the supporting arm 5, the connecting box 6 and the clamping frame 7 through the transverse moving mechanism 3, meanwhile, the control panel 13 is operated to open the transverse moving mechanism 3, the transverse moving mechanism 3 drives the sliding frame 4 to transversely move, the transverse moving mechanism 3 drives the supporting arm 5, the connecting box 6 and the clamping frame 7 to transversely move through the sliding frame 4, the clamping frame 7 moves to the upper part of the conveying mechanism 19, the clamping gripper 12 clamps the photovoltaic brackets to facilitate conveying the photovoltaic brackets, the photovoltaic brackets are conveyed to the storage box 28 under the control of the longitudinal moving mechanism 2 and the transverse moving mechanism 3, the photovoltaic brackets in the storage box 28 are conveniently stacked and stacked by the method, the convenient multi-position moving clamping of stacking equipment is realized, the convenient conveying and stacking of the photovoltaic brackets are facilitated, and the stacking and stacking efficiency of the photovoltaic brackets is improved;

A sliding block 15 is arranged on the outer wall of the sliding frame 4 at one side of the supporting arm 5, a sliding rail 14 is arranged on the outer wall of the supporting arm 5 at one side of the sliding block 15, the sliding block 15 and the sliding rail 14 play a role in sliding support, the sliding block 15 is in sliding connection with the sliding rail 14, a first servo motor 18 is arranged in the sliding frame 4, the first servo motor 18 plays a role in power output, the output end of the first servo motor 18 extends to the outside of the sliding frame 4, a gear 16 is arranged at the output end of the first servo motor 18 at the outside of the sliding frame 4, a rack 17 is arranged on the outer wall of the supporting arm 5 at one side of the gear 16, and the gear 16 is meshed with the rack 17;

When the photovoltaic stacking device is used, the first servo motor 18 is opened through the operation control panel 13, the gear 16 is driven to rotate by the first servo motor 18, the gear 16 drives the rack 17 to move under the meshing action of the gear 16 and the rack 17, the rack 17 drives the support arm 5 to move downwards under the sliding support of the slide rail 14 and the slide block 15, the support arm 5 drives the connection box 6 and the clamping frame 7 to move downwards, when the clamping frame 7 moves to the top end of the photovoltaic bracket, the operation control panel 13 opens the clamping cylinder 9, the movable rod 10 is driven to move by the clamping cylinder 9 under the support of the clamping frame 7, the movable rod 10 drives the clamping jaw 12 to move through the connecting shaft 11, the clamping jaw 12 rotates by taking the movable shaft 8 as the shaft, so that the photovoltaic bracket is conveniently clamped by the clamping jaw 12, after the clamping jaw 12 is completed, the first servo motor 18 is operated to reversely rotate, the support arm 5, the connection box 6 and the clamping frame 7 are driven to move upwards, the clamping jaw 12 and the photovoltaic bracket are driven to move upwards by the clamping frame 7, the photovoltaic bracket is conveniently and vertically moved, the photovoltaic bracket is conveniently and automatically clamped by the photovoltaic bracket, the photovoltaic bracket is conveniently and quickly moved up and down, the photovoltaic bracket is conveniently and the photovoltaic stacking device is conveniently and controlled to be orderly stacked by the photovoltaic bracket;

The inside of the connecting box 6 is provided with a second servo motor 22, the second servo motor 22 plays a role of power output, the output end of the second servo motor 22 is provided with a small conical fluted disc 23, the inside of the connecting box 6 at one side of the small conical fluted disc 23 is provided with a large conical fluted disc 24, the small conical fluted disc 23 is meshed with the large conical fluted disc 24, the inside of the large conical fluted disc 24 is sleeved with a rotating shaft 25, the rotating shaft 25 extends to the inside of the clamping frame 7, the bottom end of the connecting box 6 above the clamping frame 7 is symmetrically and movably provided with a T-shaped wheel 26, the top end of the clamping frame 7 is symmetrically provided with a sliding groove 27, the T-shaped wheels 26 are in sliding connection with the sliding groove 27, the outer wall of the conveying mechanism 19 is provided with a control panel 13, and the output end of the control panel 13 is electrically connected with the input ends of the longitudinal moving mechanism 2, the transverse moving mechanism 3, the clamping cylinder 9, the first servo motor 18, the conveying mechanism 19 and the second servo motor 22;

When the photovoltaic support stacking device is used, the second servo motor 22 is opened through the operation control panel 13, the small conical fluted disc 23 is driven to rotate by the second servo motor 22, the large conical fluted disc 24 is driven to rotate by the small conical fluted disc 23 under the meshing action of the large conical fluted disc 24, the rotating shaft 25 is driven to rotate by the large conical fluted disc 24, the clamping frame 7 is driven to rotate by the rotating shaft 25 under the movable support of the T-shaped wheel 26, the clamping frame 7 drives the clamping grab 12 to rotate, the photovoltaic support is driven to rotate by the clamping grab 12, the position of the photovoltaic support is conveniently adjusted, the photovoltaic supports at different positions of stacking are conveniently and circumferentially rotated conveniently, the photovoltaic support is conveniently and flexibly rotationally grabbed by the stacking device, and the grabbing and placing range of the photovoltaic support is increased.

Working principle: when the photovoltaic rack is used, an external power supply is connected, firstly, the photovoltaic rack produced in a workshop is conveyed to the surface of the conveying mechanism 19, the conveying mechanism 19 is conveyed to the inside of the supporting frame 1, the photovoltaic rack is protected by the guard plate 20, the photovoltaic rack is prevented from falling, when the photovoltaic rack is conveyed to the position of the baffle plate 21, the baffle plate 21 limits the photovoltaic rack, when the clamping grab 12 clamps the photovoltaic rack, the rest photovoltaic rack falls, the longitudinal moving mechanism 2 is opened through the operation control panel 13, the longitudinal moving mechanism 2 drives the transverse moving mechanism 3 to longitudinally move, the longitudinal moving mechanism 2 drives the sliding frame 4, the supporting arm 5, the connecting box 6 and the clamping rack 7 through the transverse moving mechanism 3, meanwhile, the transverse moving mechanism 3 drives the supporting arm 5, the connecting box 6 and the clamping rack 7 to transversely move through the sliding frame 4, the clamping frame 7 is convenient to move to the upper side of the conveying mechanism 19, the clamping grab 12 is clamped by the photovoltaic rack, the photovoltaic rack is convenient to convey, the photovoltaic rack 2 and the transverse moving mechanism 3 is driven by the transverse moving mechanism 3 to longitudinally move, the transverse moving mechanism is driven by the transverse moving mechanism 3 to the transverse moving mechanism 4, the photovoltaic rack 16 is driven by the supporting frame 16 to the supporting frame 17, the rack 17 is driven by the sliding frame 17 to the inside of the supporting frame 17 through the sliding frame 16, the sliding frame 17 is driven by the sliding frame 17 to be driven by the sliding frame 17 to move the sliding frame 17, and the rack 17 is driven to be conveniently moved by the sliding frame 17, when the clamping frame 7 moves to the top end of the photovoltaic bracket, the clamping cylinder 9 is opened by the operation control panel 13, the movable rod 10 is driven to move by the clamping cylinder 9 under the support of the clamping frame 7, the movable rod 10 drives the clamping jaw 12 to move by the connecting shaft 11, the clamping jaw 12 rotates by taking the movable shaft 8 as the shaft to facilitate the clamping jaw 12 to clamp the photovoltaic bracket, after the clamping jaw 12 is clamped, the first servo motor 18 is operated to rotate reversely, thereby driving the supporting arm 5, the connecting box 6 and the clamping frame 7 to move upwards, the clamping jaw 12 and the photovoltaic bracket are driven to move upwards by the clamping frame 7, the second servo motor 22 is opened by the operation control panel 13, the small conical fluted disc 23 is driven to rotate by the second servo motor 22, the large conical fluted disc 24 is driven to rotate by the small conical fluted disc 23 under the meshing action of the large conical fluted disc 24, the rotating shaft 25 is driven to rotate by the large conical fluted disc 24, the clamping frame 7 is driven to rotate by the clamping jaw 7 under the movable support of the T-shaped wheel 26, the photovoltaic bracket is driven to rotate by the clamping jaw 12, the photovoltaic bracket is driven to adjust the photovoltaic bracket to rotate, and the photovoltaic bracket positions are conveniently adjusted, and the photovoltaic brackets are used to finish the stacking device.

Claims (6)

1. Photovoltaic support production stacking equipment, including braced frame (1) and vertical moving mechanism (2), its characterized in that: the utility model discloses a support frame, including support frame (1), movable shaft (8) are all installed on the top of support frame (1), movable shaft (8) are all installed on the top slidable mounting of movable shaft (12) near the one end of holder (7), and the centre gripping is grabbed (12) and is passed through movable shaft (8) and holder (7) swing joint, install connecting axle (11) on the outer wall of holder (12), centre gripping is grabbed (7) bottom symmetry and is installed centre gripping cylinder (9) of holding (12) one side, movable rod (10) are all installed to the output of centre gripping cylinder (9), movable rod (10) keep away from the one end of holding cylinder (9) and all are connected with connecting axle (11) through movable shaft (8) and holder (7) swing joint.

2. A photovoltaic bracket production stacking apparatus as claimed in claim 1, wherein: the internally mounted of link box (6) has second servo motor (22), little conical tooth disc (23) are installed to the output of second servo motor (22), the link box (6) internally mounted of little conical tooth disc (23) one side has big conical tooth disc (24), and little conical tooth disc (23) and big conical tooth disc (24) intermeshing, the inside cover of big conical tooth disc (24) is equipped with axis of rotation (25), and axis of rotation (25) extend to the inside of holder (7), link box (6) bottom symmetry movable mounting of holder (7) top has T type wheel (26), the top symmetry of holder (7) is provided with spout (27), and T type wheel (26) all with spout (27) sliding connection.

3. A photovoltaic bracket production stacking apparatus as claimed in claim 1, wherein: the sliding frame is characterized in that a sliding block (15) is arranged on the outer wall of the sliding frame (4) on one side of the supporting arm (5), a sliding rail (14) is arranged on the outer wall of the supporting arm (5) on one side of the sliding block (15), and the sliding block (15) is in sliding connection with the sliding rail (14).

4. A photovoltaic bracket production stacking apparatus as claimed in claim 1, wherein: the inside of carriage (4) is installed first servo motor (18), the output of first servo motor (18) extends to the outside of carriage (4), gear (16) are installed to the outside first servo motor (18) output of carriage (4), install rack (17) on support arm (5) outer wall of gear (16) one side, and gear (16) and rack (17) intermeshing.

5. A photovoltaic bracket production stacking apparatus as claimed in claim 1, wherein: the bottom of braced frame (1) is provided with transport mechanism (19), braced frame (1) bottom of transport mechanism (19) one side is provided with storage box (28), backplate (20) are installed to the top symmetry of transport mechanism (19), and baffle (21) are installed near the one end of braced frame (1) in two sets of backplate (20).

6. A photovoltaic bracket production stacking apparatus as claimed in claim 5, wherein: the outer wall of the conveying mechanism (19) is provided with a control panel (13), and the output end of the control panel (13) is electrically connected with the input ends of the longitudinal moving mechanism (2), the transverse moving mechanism (3), the clamping cylinder (9), the first servo motor (18), the conveying mechanism (19) and the second servo motor (22).