CN215625286U - Intelligent quick ultra-thin photovoltaic glass piles board device - Google Patents

Abstract

The utility model discloses an intelligent and rapid ultrathin photovoltaic glass stacking device which comprises a first roller conveying belt, a second roller conveying belt, a first positive and negative motor and a second positive and negative motor, wherein the first roller conveying belt and the second roller conveying belt are parallel to each other, the first roller conveying belt and the second roller conveying belt are connected into a whole through a metal support in a welding mode, the top surface of a rack of the first roller conveying belt is connected with a limiting plate in a welding mode, the first positive and negative motor is fixed to a side wall of the rack of the first roller conveying belt through bolts, a stacking box is arranged between the racks of the first roller conveying belt, the second positive and negative motor is fixed to a top end wall body of the stacking box through bolts, and rotating shafts are connected to the front side wall body and the back side wall body of the stacking box in a welding mode. This quick ultra-thin photovoltaic glass of intellectuality piles board device is provided with piles case and baffle, can realize piling the board operation to polylith photovoltaic glass, and whole operation can not appear the phenomenon that glass dropped moreover, and the security is high.

Description

Intelligent quick ultra-thin photovoltaic glass piles board device

Technical Field

The utility model relates to the technical field of photovoltaic glass production, in particular to an intelligent and rapid ultrathin photovoltaic glass stacking device.

Background

Photovoltaic glass is before the packing, need carry out the stack, in order to carry out outward appearance detection, present stack mode all goes on through the vacuum chuck manipulator, but vacuum chuck is when adsorbing glass, still need remove, easily appear dropping like this, there is certain potential safety hazard, whole stack equipment complexity is high simultaneously, the cost is high, be unfavorable for using widely, the practicality is not strong, can not satisfy people's user demand, in view of the defect that exists among the above prior art, it is necessary to improve it further, make it more possess the practicality, just can accord with the in-service use condition.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an intelligent and rapid ultrathin photovoltaic glass stacking device, and aims to solve the problems that the ultrathin photovoltaic glass stacking device in the background technology is easy to fall off and has certain potential safety hazard, and meanwhile, the whole stacking device is high in complexity, high in manufacturing cost, not beneficial to popularization and use and not high in practicability.

In order to achieve the purpose, the utility model provides the following technical scheme: an intelligent and rapid ultrathin photovoltaic glass stacking device comprises a first roller conveying belt, a second roller conveying belt, a first positive and negative motor and a second positive and negative motor, wherein the first roller conveying belt and the second roller conveying belt are parallel to each other, the first roller conveying belt and the second roller conveying belt are connected into a whole through metal support welding, the top surface of a rack of the first roller conveying belt is welded with a limiting plate, a first positive and negative motor is fixed on a rack side wall bolt of the first roller conveying belt, a stacking box is arranged between racks of the first roller conveying belt, the top end wall body of the stacking box is fixed with the second positive and negative motor through a bolt, rotating shafts are welded on the front surface and the back surface wall body of the stacking box, the rotating shafts penetrate through the racks on the first roller conveying belt and are movably connected with bearings between the racks on the first roller conveying belt, and the outer wall of the stacking box, which faces one side of the limiting plate, is welded with a guide plate, and pile up the case and offer the open slot that is used for photovoltaic glass to penetrate with the baffle junction, the output shaft and the rotation axis key-type connection of first positive and negative motor, the cover has the dead lever on the stacking case, and piles up the case and openly extend outward with the back wall body level and be formed with the lug, the dead lever passes from the lug, and dead lever top welded connection has the fixed plate, the output shaft welded connection of second positive and negative motor has the threaded rod, and the threaded rod passes and fixed plate threaded connection from the fixed plate.

Further, the stacking box is of a hollow square structure, the bottom surface of the stacking box is in an open shape, the inner wall of the stacking box is fixedly bonded with a rubber pad, the side wall of the stacking box is provided with a through groove, the supporting plate is arranged in the through groove, two ends of the supporting plate are connected with torsion spring rotating shafts in a welding mode, and the torsion spring rotating shafts are movably connected with the through groove wall.

Furthermore, the section of the guide plate is of a U-shaped structure, the width of the guide plate is consistent with the distance between the two limiting plates, ball grooves are uniformly formed in the wall body of the guide plate, balls are placed in the ball grooves, and the balls are flush with the top surface of the roller on the first roller conveying belt.

Furthermore, the fixing rod is of a U-shaped structure, and the fixing rod is contacted with the bump and is not fixed.

Furthermore, the fixed rod and the rollers on the second roller conveying belt are designed in a staggered mode.

Compared with the prior art, the utility model has the beneficial effects that: the intelligent and rapid ultrathin photovoltaic glass stacking device is provided with a stacking box and a guide plate, after photovoltaic glass to be packaged is conveyed to the guide plate through a first roller conveyor belt, the stacking box and the guide plate integrally rotate for a certain angle, so that the photovoltaic glass on the guide plate can slide into the stacking box, when the stacking box rotates and resets, the photovoltaic glass can fall onto a fixed rod at the bottom of the stacking box, the stacking box can stack a plurality of pieces of photovoltaic glass for multiple times of operation, the whole operation can not generate the phenomenon that the glass falls, and the safety is high;

when the stacked glass needs to be detected, the fixing rod can drive the photovoltaic glass to move downwards until the photovoltaic glass falls into the second roller conveyer belt, so that the stacked glass can be conveyed to the next procedure by the second roller conveyer belt, the whole process can be synchronously carried out, and the work efficiency is improved;

meanwhile, the device is simple in structure, low in cost, favorable for popularization and use and high in practicability.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic top view of the stacking box and guide plate of the present invention;

FIG. 3 is a schematic perspective view of a stacking box and guide plate of the present invention;

FIG. 4 is a schematic side sectional view of the stacking box of the present invention;

FIG. 5 is a side view schematic of the stacking box and retaining rods of the present invention;

FIG. 6 is a cross-sectional structural schematic view of a guide plate and ball of the present invention.

In the figure: 1. a first roller conveyor belt; 2. a second roller conveyor belt; 3. a limiting plate; 4. stacking boxes; 41. a through groove; 42. a support plate; 43. a torsion spring shaft; 5. a guide plate; 6. a ball bearing; 7. a ball groove; 8. an open slot; 9. a rotating shaft; 10. a first positive and negative motor; 11. a second positive and negative motor; 12. a threaded rod; 13. a fixing plate; 14. fixing the rod; 15. and (4) a bump.

Detailed Description

The drawings in the embodiments of the utility model will be combined; the technical scheme in the embodiment of the utility model is clearly and completely described; obviously; the described embodiments are only some of the embodiments of the utility model; rather than all embodiments. Based on the embodiments of the utility model; all other embodiments obtained by a person skilled in the art without making any inventive step; all fall within the scope of protection of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: an intelligent and rapid ultrathin photovoltaic glass stacking device comprises a first roller conveyer belt 1, a second roller conveyer belt 2, a first positive and negative motor 10 and a second positive and negative motor 11, wherein the first roller conveyer belt 1 and the second roller conveyer belt 2 are parallel to each other, the first roller conveyer belt 1 and the second roller conveyer belt 2 are connected into a whole through a metal support in a welding way, the top surface of a rack of the first roller conveyer belt 1 is connected with a limiting plate 3 in a welding way, a rack side wall bolt of the first roller conveyer belt 1 is fixedly provided with the first positive and negative motor 10, a stacking box 4 is arranged between racks of the first roller conveyer belt 1, a top wall bolt of the stacking box 4 is fixedly provided with the second positive and negative motor 11, the front and back wall bodies of the stacking box 4 are connected with a rotating shaft 9 in a welding way, and the rotating shaft 9 passes through a rack on the first roller conveyer belt 1 and is movably connected with a bearing between racks on the first roller conveyer belt 1, stack case 4 and have baffle 5 towards 3 one side outer wall welded connections of limiting plate, and it offers the open slot 8 that is used for photovoltaic glass to penetrate with 5 junctions of baffle to pile up case 4, the output shaft and the 9 key-types of rotation axes of first positive and negative motors 10 connect, it has dead lever 14 to pile up the cover on the case 4, and it is formed with lug 15 to pile up the outside extension of case 4 front and back wall body level, dead lever 14 passes from lug 15, and 14 top welded connections of dead lever have fixed plate 13, the output shaft welded connection of the positive and negative motors 11 of second has threaded rod 12, and threaded rod 12 passes and 13 threaded connection with fixed plate from fixed plate 13.

Furthermore, the stacking box 4 is a hollow square structure, the bottom surface of the stacking box 4 is open, a rubber pad is fixedly bonded on the inner wall of the stacking box 4, a through groove 41 is formed in the side wall of the stacking box 4, a supporting plate 42 is arranged in the through groove 41, two ends of the supporting plate 42 are connected with torsion spring rotating shafts 43 in a welding manner, and the torsion spring rotating shafts 43 are movably connected with the groove walls of the through groove 41, so that when the stacking box 4 rotates in an inclined manner, the photovoltaic glass on the guide plate 5 slides into the stacking box 4, the supporting plate 42 can support the photovoltaic glass, the photovoltaic glass can be kept stable all the time in the moving process, the photovoltaic glass can be ensured to move into the stacking box 4 smoothly, and meanwhile, after the stacking box 4 rotates to be horizontal, the supporting plate 42 can be screwed into the through torsion spring rotating shafts 43 into the through groove 41 under the action of the gravity of the photovoltaic glass, so that the photovoltaic glass can fall into the fixing rod 14 at the bottom of the stacking box 4, torsional spring pivot 43 has the effect of restoring to the throne, and layer board 42 can rotate once more after with the separation of photovoltaic glass and be the level form, and the rubber pad can play the buffering guard action, avoids photovoltaic glass and the wall body of piling up case 4 to produce violent collision, makes photovoltaic glass when piling up 4 inner walls of case gliding down simultaneously, can receive the frictional force of rubber pad and hinder for photovoltaic glass can slowly fall in piling up case 4, avoids photovoltaic glass to damage.

Further, the section of baffle 5 is "U" column structure, and the width of baffle 5 is unanimous with two spacing boards 3's interval, has evenly seted up ball groove 7 on the 5 wall bodies of baffle, and has placed ball 6 in the ball groove 7, and ball 6 flushes with the cylinder top surface on the first cylinder conveyer belt 1, and ball 6 can roll at ball groove 7, and photovoltaic glass passes through like this for rolling friction between ball and the baffle 5, and baffle 5 is rotating the back, and photovoltaic glass can slide down on baffle 5 fast.

Furthermore, dead lever 14 is "U" column structure, and dead lever 14 contacts with lug 15 and is not fixed, dead lever 14 and the cylinder on the second cylinder conveyer belt 2 are the alternating expression design, dead lever 14 and the cylinder distribution design on the second cylinder conveyer belt 2, make dead lever 14 down, can not touch with the cylinder on the second cylinder conveyer belt 2, but can insert in the cylinder clearance on the second cylinder conveyer belt 2, photovoltaic glass can fall into on the second cylinder conveyer belt 2 and separate with dead lever 14 like this, thereby realize the photovoltaic glass after the board is piled and carry the operation.

The working principle is as follows: during operation, the first roller conveyor belt 1 starts to convey produced photovoltaic glass, the photovoltaic glass can move into the guide plate 5 under the limitation of the limiting plate 3, the first positive and negative motor 10 is connected with a power supply and operates at the moment, the first positive and negative motor 10 drives the stacking box 4 to rotate through the rotating shaft 9, the stacking box 4 drives the guide plate 5 to synchronously rotate, and the photovoltaic glass on the guide plate 5 starts to slide downwards and slides into the stacking box 4 through the open slot 8;

then, the first positive and negative motor 10 drives the stacking box 4 to reset through the rotating shaft 9, at the moment, the photovoltaic glass descends in the stacking box 4 and finally falls onto the fixing rod 14, and therefore multiple operations are carried out, and multiple pieces of photovoltaic glass can be stacked on the fixing rod 14;

after a certain number of the photovoltaic glass is stacked, the second positive and negative motor 11 is connected with a power supply and runs, and the fixing rod 14 can only slide on the lug 15, so that the fixing plate 13 can be limited, the second positive and negative motor 11 can only drive the fixing plate 13 to vertically move through the threaded rod 12, and the fixing plate 13 can drive the fixing rod 14 to downwards move when going downwards until the fixing rod 14 is inserted into the roller gap on the second roller conveyer belt 2, so that the photovoltaic glass on the fixing rod 14 can fall onto the second roller conveyer belt 2 and is conveyed to the next process by the second roller conveyer belt 2;

then the second motor 11 resets the fixed plate 13 and the fixed plate 14 for subsequent operations.

While embodiments of the utility model have been shown and described; to one of ordinary skill in the art; it will be appreciated that various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the utility model; the scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a board device is piled to intelligent quick ultra-thin photovoltaic glass, includes first cylinder conveyer belt (1), second cylinder conveyer belt (2), positive and negative motor (10) of first and second and positive and negative motor (11), its characterized in that: the first roller conveyer belt (1) and the second roller conveyer belt (2) are parallel to each other, the first roller conveyer belt (1) and the second roller conveyer belt (2) are connected into a whole through metal support welding, a limiting plate (3) is connected to the top surface of the frame of the first roller conveyer belt (1), a first positive and negative motor (10) is fixed to the side wall of the frame of the first roller conveyer belt (1) through bolts, a stacking box (4) is arranged between the frames of the first roller conveyer belt (1), a second positive and negative motor (11) is fixed to the top wall of the stacking box (4) through bolts, a rotating shaft (9) is connected to the front surface and the back surface of the stacking box (4) through the frame of the first roller conveyer belt (1) and movably connected with the frame of the first roller conveyer belt (1) through a bearing, a guide plate (5) is connected to the outer wall of the stacking box (4) on one side facing the limiting plate (3), and pile up case (4) and baffle (5) junction and offer open slot (8) that are used for photovoltaic glass to penetrate, the output shaft and rotation axis (9) key-type connection of first positive and negative motor (10), the cover has dead lever (14) on pile case (4), and pile case (4) openly and the outside extension of back wall body level is formed with lug (15), dead lever (14) pass from lug (15), and dead lever (14) top welded connection has fixed plate (13), the output shaft welded connection of the positive and negative motor of second (11) has threaded rod (12), and threaded rod (12) pass and with fixed plate (13) threaded connection from fixed plate (13).

2. The intelligent and rapid ultra-thin photovoltaic glass stacking device according to claim 1, wherein: stacking box (4) are hollow square body structure, and the bottom surface of stacking box (4) is the opening form to the inner wall of stacking box (4) is fixed to bond has the rubber pad, logical groove (41) have been seted up to stacking box (4) lateral wall, and are provided with layer board (42) in logical groove (41), layer board (42) both ends welded connection has torsional spring pivot (43), and swing joint between torsional spring pivot (43) and logical groove (41) cell wall.

3. The intelligent and rapid ultra-thin photovoltaic glass stacking device according to claim 1, wherein: the cross section of the guide plate (5) is of a U-shaped structure, the width of the guide plate (5) is consistent with the distance between the two limiting plates (3), ball grooves (7) are uniformly formed in the wall body of the guide plate (5), balls (6) are placed in the ball grooves (7), and the balls (6) are flush with the top surface of the roller on the first roller conveying belt (1).

4. The intelligent and rapid ultra-thin photovoltaic glass stacking device according to claim 1, wherein: the said fixing rod (14) is U-shaped structure, and the fixing rod (14) contacts with the projection (15) and is not fixed.

5. The intelligent and rapid ultra-thin photovoltaic glass stacking device according to claim 1, wherein: the fixed rod (14) and the rollers on the second roller conveyer belt (2) are designed in a staggered mode.

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