CN114573222A - Solar photovoltaic board glass production cutting equipment - Google Patents

Abstract

The invention relates to the field of photovoltaic panel production, and particularly discloses solar photovoltaic panel glass production cutting equipment which comprises a processing platform, wherein the processing platform is fixedly suspended through a support, a conveying mechanism and a fixing mechanism are arranged on the processing platform and used for conveying and cutting photovoltaic panel glass, four corners of the top surface of the processing platform are connected with a cross translation mechanism through lifting cylinders, and a cutting assembly is arranged on the cross translation mechanism; according to the invention, the photovoltaic panel glass is continuously conveyed by the conveying mechanism, the photovoltaic panel glass is fixed by the fixing mechanism, and the cutting assembly is driven to move by the cross translation mechanism, so that the photovoltaic panel glass is cut at different positions by the single cutting assembly, the cutting efficiency is improved, the operation is convenient, and the operation by workers is convenient.

Description

Solar photovoltaic board glass production cutting equipment

Technical Field

The invention relates to the field of photovoltaic panel production, in particular to solar photovoltaic panel glass production and cutting equipment.

Background

The solar photovoltaic glass consists of low-iron glass, a solar cell piece, a film, back glass, a special metal wire and the like, wherein the solar cell piece is sealed between the low-iron glass and the back glass through the film, and the solar photovoltaic glass is the most novel high-tech glass product for buildings. The patent No. CN202121299161.7 discloses a cutting device for photovoltaic panel production, which comprises a base, wherein the left end of the base is provided with a plurality of conveying rollers, two ends of each conveying roller are connected with a lifting mechanism, the right end of each conveying roller is provided with a positioning baffle, the upper surface of the base is provided with a plurality of first guide rails, the base is provided with through holes, the through holes are arranged at two sides of the first guide rails, the first guide rails are internally provided with matched first slide blocks, the first slide blocks are connected with a positioning driving mechanism, the slide blocks are provided with supporting plates, the supporting plates are provided with a plurality of supporting columns, the supporting columns are provided with suckers, a cross beam is arranged above the base, the front end and the rear end of the cross beam are provided with vertical driving mechanisms, the vertical driving mechanisms are arranged on the base, the bottom surface of the cross beam is provided with a second guide rail and a third guide rail, the second guide rail is provided with a first cutting knife, and the third guide rail is provided with a second cutting knife. The photovoltaic panel is fixed and moved through the backup pad that has the sucking disc on the first guide rail, utilizes the cutting knife in two positions to cut, needs to utilize first guide rail reciprocating motion backup pad among this technical scheme, and is lower to photovoltaic panel glass's removal installation effectiveness, does not utilize pipelined cutting process to utilize two sets of cutting knives to realize two directions cutting, cause cutting assembly too much, do not utilize cutting operation, and this structural operation is more loaded down with trivial details, does not utilize workman's operation.

Disclosure of Invention

Aiming at the existing problems, the invention provides solar photovoltaic panel glass production cutting equipment, which is characterized in that photovoltaic panel glass is conveyed continuously through a conveying mechanism, a fixing mechanism is adopted to fix the photovoltaic panel glass, and a cross translation mechanism drives a cutting assembly to move, so that the single cutting assembly is used for cutting different positions of the photovoltaic panel glass, the cutting efficiency is improved, the operation is convenient, and the operation by workers is convenient. The problems proposed in the background art can be effectively solved.

In order to solve the problems, the invention adopts the following technical scheme:

the solar photovoltaic plate glass production and cutting equipment comprises a processing platform, wherein the processing platform is fixedly suspended through a support;

the conveying mechanism is arranged on the processing platform and used for conveying the photovoltaic panel glass;

the fixing mechanism is arranged on the processing platform and positioned between the conveying mechanisms and is used for cutting and fixing the photovoltaic panel glass;

the cross translation mechanism is connected with the top surface of the processing platform through a lifting cylinder;

and the cutting assembly is arranged on the cross translation assembly and is used for cutting the photovoltaic panel glass.

As a still further scheme of the invention: the conveying mechanism comprises conveying strips which are symmetrically arranged, two ends of each conveying strip are in transmission connection with driving wheels, the driving wheels at the same ends are connected through main shaft rods, one main shaft rod is in transmission connection with a motor I, and the conveying strips drive the photovoltaic panel glass to be conveyed and moved.

As a still further scheme of the invention: conveying mechanism still includes the eccentric wheel, the eccentric wheel setting is at the both ends of conveyer belt and with the lower surface laminating of conveyer belt upper side area, the eccentric wheel of same end is through being connected from the axle lever, connect through the drive belt between the axle lever at both ends, from the one end of axostylus axostyle and two transmission connections of motor, motor two drives the eccentric wheel rotatory, the eccentric wheel makes conveyer belt rebound, thereby protrusion processing platform, contact with photovoltaic board glass, after carrying appointed position, the eccentric wheel is rotatory, the conveyer belt descends, photovoltaic board glass then descends, thereby descend to fixed establishment, realize fixed to photovoltaic board glass.

As a still further scheme of the invention: the bottom surface of processing platform is equipped with the groove district, be equipped with on the processing platform with the communicating conveyer strip groove in groove district, the conveyer strip is located the conveyer strip inslot, main shaft pole and from the shaft lever all with two inner wall swing joint in groove district, the groove district is convenient for place fixed establishment and conveyer strip groove and makes the conveyer strip can rise to the processing platform top surface, a plurality of reinforcement piece of conveyer strip inslot fixed connection improves the steadiness of conveyer strip groove both sides through the reinforcement piece.

As a still further scheme of the invention: the fixing mechanism comprises a negative pressure box, a vacuum pump is installed on the negative pressure box, the negative pressure box is fixedly connected with the bottom surface of a groove area of the processing platform, vent grooves which are communicated with the negative pressure box and distributed in a matrix mode are formed in the groove area, a negative pressure sucking disc which is fixedly connected with the top surface of the processing platform and communicated with the vent grooves extracts gas in the negative pressure box through the vacuum pump, and then the negative pressure sucking disc adsorbs the photovoltaic panel glass, so that the photovoltaic panel glass is fixed.

As a still further scheme of the invention: the cross translation mechanism comprises four shaft seats, X-axis lead screws and Y-axis lead screws, the shaft seats are distributed in a matrix mode, the bottom surfaces of the shaft seats are fixedly connected with a lifting cylinder, the X-axis lead screws are movably connected between the two shaft seats on the same side, the X-axis lead screws are connected with a motor III, the X-axis lead screws are in threaded connection with translation blocks, the Y-axis lead screws are movably connected between the translation blocks, the Y-axis lead screws are connected with a motor IV, a polished rod is fixedly connected between the translation blocks, cutting assemblies are installed on the Y-axis lead screws and the polished rod, and the X-axis direction and the Y-axis direction of the cutting assemblies are moved through rotation of the X-axis lead screws and the Y-axis lead screws, so that multidirectional cutting of the photovoltaic plate glass is achieved.

As a still further scheme of the invention: the cutting assembly comprises a translation plate, the translation plate is in threaded connection with a Y-axis screw rod and is in sliding connection with a polished rod, the bottom surface of the translation plate is fixedly connected with a rotating mechanism through a support column, a cutting motor with a cutting piece is installed on the rotating mechanism, and the rotating mechanism drives the cutting motor to rotate, so that the photovoltaic panel glass can be cut at different angles.

As a still further scheme of the invention: the rotary mechanism comprises an upper disc and a lower disc, the lower disc is connected with the upper disc through a shaft, a stepping motor is installed on the top surface of the upper disc, the stepping motor drives the lower disc to rotate, a mounting plate is fixedly connected to the bottom surface of the lower disc, a cutting motor is installed on the mounting plate, the lower disc is driven to rotate through the stepping motor, then the rotation angle of the cutting motor is adjusted, and the rotation angle can be accurately adjusted by the stepping motor.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the photovoltaic panel glass is continuously conveyed by the conveying mechanism, the photovoltaic panel glass is fixed by the fixing mechanism, and the cutting assembly is driven to move by the cross translation mechanism, so that the photovoltaic panel glass is cut at different positions by the single cutting assembly, the cutting efficiency is improved, the operation is convenient, and the operation by workers is convenient.

Drawings

FIG. 1 is a perspective view of the overall structure of the present invention;

FIG. 2 is a perspective view of another perspective of the overall structure of the present invention;

FIG. 3 is a perspective view of the fixing mechanism and the processing platform of the present invention;

FIG. 4 is a perspective view of a machining platform according to the present invention;

FIG. 5 is a perspective view of another perspective of the processing platform of the present invention;

FIG. 6 is a perspective view of the delivery mechanism of the present invention;

FIG. 7 is a perspective view of a cross translation mechanism of the present invention;

fig. 8 is a perspective view of the cutting assembly of the present invention.

In the figure: 1. a processing platform; 11. a trough region; 12. a conveyor bar slot; 13. a reinforcing block; 14. a vent channel; 2. a support; 3. a conveying mechanism; 31. a conveyor belt; 32. a driving wheel; 33. a main shaft rod; 34. a first motor; 35. an eccentric wheel; 36. a slave shaft; 37. a transmission belt; 38. a second motor; 4. a fixing mechanism; 41. a negative pressure tank; 42. a vacuum pump; 43. a negative pressure sucker; 5. a lifting cylinder; 6. a cross translation mechanism; 61. a shaft seat; 62. an X-axis lead screw; 63. a Y-axis lead screw; 64. a third motor; 65. a translation block; 66. a fourth motor; 67. a polish rod; 7. a cutting assembly; 71. a translation plate; 72. a support post; 73. a rotation mechanism; 731. hanging the plate; 732. a bottom wall; 733. a stepping motor; 734. mounting a plate; 74. cutting the slices; 75. a cutting motor.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

As shown in fig. 1-2, the embodiment provides a solar photovoltaic panel glass production cutting device, which comprises a processing platform 1, wherein the processing platform 1 is fixedly suspended through a support 2, a conveying mechanism 3 and a fixing mechanism 4 are installed on the processing platform 1 and used for conveying and cutting photovoltaic panel glass, four corners of the top surface of the processing platform 1 are connected with a cross translation mechanism 6 through a lifting air cylinder 5, and a cutting assembly 7 is installed on the cross translation mechanism 6.

As shown in fig. 6, the conveying mechanism 3 includes symmetrically disposed conveying belts 31, the conveying belts 31 are made of rubber belts, and the conveying belts 31 have elasticity and can prevent the photovoltaic panel glass from slipping, two ends of each of the conveying belts 31 are in transmission connection with transmission wheels 32, the transmission wheels 32 at the same end are connected through main shafts 33, one of the main shafts 33 is in transmission connection with a motor 34, the photovoltaic panel glass is driven to move through the conveying belts 31, the conveying mechanism 3 further includes eccentric wheels 35, the eccentric wheels 35 are disposed at two ends of the conveying belts 31 and are attached to the lower surface of the upper side belt of the conveying belts 31, the eccentric wheels 35 at the same end are connected through driven shafts 36, the driven shafts 36 at two ends are connected through transmission belts 37, one end of the driven shaft 36 is in transmission connection with a motor two 38, the motor two 38 drives the eccentric wheels 35 to rotate, the eccentric wheels 35 make the conveying belts 31 move upwards, thereby protrusion processing platform 1, with photovoltaic board glass contact, after carrying the assigned position, eccentric wheel 35 is rotatory, and conveyor belt 31 descends, and photovoltaic board glass then descends to fall on fixed establishment 4, realize the fixed to photovoltaic board glass.

As shown in fig. 3-5, a groove 11 is provided on the bottom surface of the processing platform 1, a conveying strip groove 12 communicated with the groove 11 is provided on the processing platform 1, the conveying strip 31 is located in the conveying strip groove 12, both ends of the main shaft rod 33 and the auxiliary shaft rod 36 are movably connected with both inner walls of the groove 11, the groove 11 is convenient for placing a fixing mechanism 4 and the conveying strip groove 12 so that the conveying strip 31 can be lifted to the top surface of the processing platform 1, a plurality of reinforcing blocks 13 are fixedly connected in the conveying strip groove 12, the stability of both sides of the conveying strip groove 12 is improved by the reinforcing blocks 13, the fixing mechanism 4 comprises a negative pressure box 41, a vacuum pump 42 is installed on the negative pressure box 41, the negative pressure box 41 is fixedly connected with the bottom surface of the groove 11 of the processing platform 1, ventilation grooves 14 distributed in a matrix and communicated with the negative pressure box 41 are provided in the groove 11, a negative pressure suction cup 43 communicated with the ventilation grooves 14 is fixedly connected on the top surface of the processing platform 1, the vacuum pump 42 is used for pumping the gas in the negative pressure box 41, so that the negative pressure sucker 43 adsorbs the photovoltaic panel glass, and the photovoltaic panel glass is fixed.

As shown in fig. 7, the cross translation mechanism 6 includes four shaft seats 61, X-axis lead screws 62 and Y-axis lead screws 63, the shaft seats 61 are distributed in a matrix, the bottom surfaces of the shaft seats 61 are fixedly connected with the lifting cylinder 5, the X-axis lead screws 62 are movably connected between the two shaft seats 61 on the same side, the X-axis lead screws 62 are connected with a motor three 64, the X-axis lead screws 62 are connected with translation blocks 65 through threads, the translation blocks 65 are movably connected with the Y-axis lead screws 63, the Y-axis lead screws 63 are connected with a motor four 66, the translation blocks 65 are also fixedly connected with a polish rod 67, the cutting assemblies 7 are mounted on the Y-axis lead screws 63 and the polish rod 67, and the X-axis and Y-axis lead screws 62 and the Y-axis lead screws 63 rotate to realize the movement of the cutting assemblies 7 in the X-axis and Y-axis directions, so as to realize the multidirectional cutting of the photovoltaic glass.

As shown in fig. 8, the cutting assembly 7 includes a translation plate 71, the translation plate 71 is threaded with the Y-axis screw 63 and is slidably connected with the polish rod 67, the bottom surface of the translation plate 71 is fixedly connected with a rotating mechanism 73 through a support post 72, a cutting motor 75 with a cutting blade 74 is installed on the rotating mechanism 73, the cutting motor 75 is driven to rotate by the rotating mechanism 73, so that the photovoltaic panel glass can be cut at different angles, the rotating mechanism 73 includes an upper plate 731 and a lower plate 732, the lower plate 732 is connected to the upper plate 731 by a shaft, a stepping motor 733 is arranged on the top surface of the upper plate 731, the stepping motor 733 drives the lower plate 732 to rotate, the bottom surface of the lower plate 732 is fixedly connected with a mounting plate 734, the mounting plate 734 is provided with a cutting motor 75, and the lower disc 732 is driven to rotate by a stepping motor 733, thereby adjusting the rotation angle of the cutting motor 75 and enabling the rotation angle to be precisely adjusted using the stepping motor 733.

The working principle of the invention is as follows: the photovoltaic panel glass to be cut is placed on the processing platform 1, the eccentric wheel 35 rotates to jack up the conveying belt 31 through the PLC control starting motor II 38, the conveying belt 31 rotates through the starting motor I34, the photovoltaic panel glass is driven to move, after the conveying belt moves to a specified position, the eccentric wheel 35 is driven to rotate again through the motor II 38, the conveying belt 31 descends, the photovoltaic panel glass descends, the vacuum pump 42 is started to enable the vacuum chuck to adsorb the photovoltaic panel glass, fixing of the photovoltaic panel glass is achieved, the cross translation mechanism 6 descends to the specified position through the lifting cylinder, the cross translation mechanism 6 is started to move the cutting assembly 7, cutting of the photovoltaic panel glass is achieved, after cutting is completed, the motor II 38 is started again to drive the eccentric wheel 35 to rotate to jack up the conveying belt 31, and the photovoltaic panel glass is conveyed out.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions, and furthermore, the terms "comprise", "include", or any other variation thereof are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The solar photovoltaic plate glass production and cutting equipment comprises a processing platform, wherein the processing platform is fixedly suspended through a support; it is characterized by also comprising

The conveying mechanism is arranged on the processing platform and used for conveying the photovoltaic panel glass;

the fixing mechanism is arranged on the processing platform and positioned between the conveying mechanisms and is used for cutting and fixing the photovoltaic panel glass;

the cross translation mechanism is connected with the top surface of the processing platform through a lifting cylinder;

and the cutting assembly is arranged on the cross translation assembly and is used for cutting the photovoltaic panel glass.

2. The solar photovoltaic panel glass production and cutting equipment as claimed in claim 1, wherein the conveying mechanism comprises symmetrically arranged conveying belts, two ends of each conveying belt are in transmission connection with driving wheels, the driving wheels at the same ends are connected through main shafts, one of the main shafts is in transmission connection with a first motor, and the conveying belts drive the photovoltaic panel glass to move.

3. The solar photovoltaic plate glass production and cutting equipment according to claim 2, wherein the conveying mechanism further comprises eccentric wheels, the eccentric wheels are arranged at two ends of the conveying belt and attached to the lower surface of the upper side belt of the conveying belt, the eccentric wheels at the same end are connected through a driven shaft rod, the driven shaft rods at the two ends are connected through a driving belt, and one end of the driven shaft rod is in transmission connection with the second motor.

4. The solar photovoltaic plate glass production and cutting equipment as claimed in claim 3, wherein a groove area is formed in the bottom surface of the processing platform, a conveying strip groove communicated with the groove area is formed in the processing platform, the conveying strip is located in the conveying strip groove, the main shaft rod and the auxiliary shaft rod are movably connected with the two inner walls of the groove area, the groove area is convenient for placing a fixing mechanism and the conveying strip groove to enable the conveying strip to ascend to the top surface of the processing platform, and a plurality of reinforcing blocks are fixedly connected in the conveying strip groove.

5. The solar photovoltaic plate glass production and cutting equipment as claimed in claim 4, wherein the fixing mechanism comprises a negative pressure box, a vacuum pump is mounted on the negative pressure box, the negative pressure box is fixedly connected with the bottom surface of the groove area of the processing platform, vent grooves which are distributed in a matrix mode and communicated with the negative pressure box are formed in the groove area, and the top surface of the processing platform is fixedly connected with a negative pressure sucker communicated with the vent grooves.

6. The solar photovoltaic glass production and cutting equipment as claimed in claim 1, wherein the cross translation mechanism comprises four shaft seats, X-axis lead screws and Y-axis lead screws, the shaft seats are distributed in a matrix, the bottom surfaces of the shaft seats are fixedly connected with the lifting cylinder, the X-axis lead screws are movably connected between the two shaft seats on the same side, the X-axis lead screws are connected with a motor III, the X-axis lead screws are in threaded connection with translation blocks, the translation blocks are movably connected with a Y-axis lead screw, the Y-axis lead screws are connected with a motor IV, the translation blocks are also fixedly connected with a polished rod, and cutting assemblies are mounted on the Y-axis lead screws and the polished rod.

7. The solar photovoltaic panel glass production cutting apparatus of claim 6, wherein the cutting assembly comprises a translation plate, the translation plate is in threaded connection with the Y-axis lead screw and is in sliding connection with the polished rod, the bottom surface of the translation plate is fixedly connected with a rotating mechanism through a support column, and a cutting motor with a cutting blade is mounted on the rotating mechanism.

8. The solar photovoltaic plate glass production cutting equipment as claimed in claim 7, wherein the rotating mechanism comprises an upper disc and a lower disc, the lower disc is connected with the upper disc through a shaft, a stepping motor is installed on the top surface of the upper disc and drives the lower disc to rotate, a mounting plate is fixedly connected to the bottom surface of the lower disc, and a cutting motor is installed on the mounting plate.

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