CN219304756U - Rotary reversing support platform mechanism - Google Patents

Abstract

The utility model discloses a rotary reversing support platform mechanism which comprises a support bottom plate and a plurality of groups of support modules arranged on the support bottom plate at intervals, wherein each support module comprises a sliding block seat fixed on the support bottom plate, a sliding rail arranged on the sliding block seat in a radial sliding manner, a bearing mounting plate fixed on the sliding rail, a supporting bar group fixed on the bearing mounting plate and a locking piece for locking the position of the sliding rail on the sliding block seat. The utility model can flexibly adjust the size of the supporting plane and meet the rotary reversing supporting requirements of photovoltaic modules with different external dimensions.

Description

Rotary reversing support platform mechanism

[ field of technology ]

The utility model belongs to the technical field of conveying devices, and particularly relates to a rotary reversing support platform mechanism.

[ background Art ]

Along with the gradual popularization of the degree of automation, the production of the photovoltaic module gradually tends to automatic assembly, and in the assembly production line of the photovoltaic module, the cell plates are required to be converted by 90 degrees in the conveying process and then conveyed to the next working section due to the restriction of the site or equipment layout, so that the jacking reversing conveying device is indispensable.

The reversing conveying device in the prior art is a lifting and rotating device for conveying a photovoltaic module battery plate, as disclosed in patent publication No. CN215206903U, a rotary lifting frame is embedded on a conveying line, a photovoltaic module is lifted upwards through the rotary lifting frame, then the rotary lifting frame rotates by 90 degrees and is put back on the conveying line, so that reversing conveying is realized, but the supporting plane size of the rotary lifting frame in the device cannot be adjusted, and the contact area cannot be maximally compatible in the face of the diversified external dimensions of the current photovoltaic module; when the rotation stops, the photovoltaic module on the rotary lifting frame is easy to slip and misplace.

Therefore, it is necessary to provide a new rotary reversing support platform mechanism and an assembling method for solving the above technical problems.

[ utility model ]

The utility model mainly aims to provide a rotary reversing support platform mechanism which can flexibly adjust the size of a support plane and meet the rotary reversing support requirements of various photovoltaic modules with different external dimensions.

The utility model realizes the aim through the following technical scheme: the utility model provides a rotatory switching-over supporting platform mechanism, its includes supporting baseplate, interval set up a plurality of groups supporting module on the supporting baseplate, the supporting module is including fixing the sliding block seat on the supporting baseplate, radial slip setting are in slide rail on the sliding block seat, fix bear the weight of the mounting panel on the slide rail, fix bear the support bar group on the mounting panel and lock the slide rail is in the retaining member of the position on the sliding block seat.

Further, one end of the sliding rail is arranged on the sliding block seat in a sliding manner and locked and fixed through the locking piece, and the other end of the sliding rail extends out of the sliding block seat and simultaneously extends out of the supporting bottom plate.

Further, the support bar sets in the support modules together form a support plane.

Furthermore, the surface of the support bar group is fully distributed with saw tooth structures.

Further, in the same supporting module, the supporting bar group comprises a pair of first supporting bars arranged in parallel with the sliding rail and a second supporting bar arranged perpendicular to the first supporting bars.

Further, the saw teeth on the surfaces of the first supporting bar and the second supporting bar face to be perpendicular to each other.

Further, the second supporting bar is vertically arranged at the tail end of the first supporting bar.

Further, the supporting bottom plate is of a cross-shaped structure.

Further, a plurality of support cushion blocks are arranged in the middle of the support bottom plate.

Further, the locking piece comprises a screw rod mounting seat, an adjusting screw rod arranged on the screw rod mounting seat in a threaded fit manner, an adjusting handle fixed on the adjusting screw rod, and a compression block arranged at the movable end of the adjusting screw rod and propping against the side face of the sliding rail.

The rotary reversing support platform mechanism has the beneficial effects that: a plurality of groups of support modules are annularly distributed on the rotating bottom plate at equal angles, and support bar groups with adjustable extension lengths are arranged in the support modules for supporting the photovoltaic modules, so that the flexible and adjustable size of a support plane is realized, and the support area can be adjusted according to different external dimensions of the photovoltaic modules; the surface of the support bar group is provided with the sawtooth structure, each support module comprises two groups of sawtooth line modules which are vertically distributed, the friction force of the support plane is further enhanced, when the photovoltaic module rotates, the reversing and the stopping are carried out, the photovoltaic module cannot slip and misplacement, and the positioning precision of the photovoltaic module when moving to the next station is improved.

[ description of the drawings ]

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a schematic view of a support module according to an embodiment of the present utility model;

FIG. 3 is a schematic view of a locking member according to an embodiment of the present utility model;

FIG. 4 is a schematic structural view of a reversing and conveying mechanism according to an embodiment of the present utility model;

the figures represent the numbers:

100-rotating a reversing support platform mechanism;

1-a supporting base plate; the device comprises a 2-supporting module, a 21-sliding block seat, a 22-sliding rail, a 23-bearing mounting plate, a 24-supporting bar set, a 241-sawtooth structure, a 242-first supporting bar, a 243-second supporting bar, a 25-locking piece, a 251-screw mounting seat, a 252-adjusting screw, a 253-adjusting handle and a 254-compacting block; 3-supporting cushion blocks; 200-reversing conveying mechanism, 201-conveying line.

[ detailed description ] of the utility model

Embodiment one:

referring to fig. 1-3, the present embodiment is a rotary reversing support platform mechanism 100, which includes a support base 1, four groups of support modules 2 disposed on the support base 1 at 90 ° intervals, wherein the support modules 2 include a slide block seat 21 fixed on the support base 1, a slide rail 22 slidably disposed on the slide block seat 21, a bearing mounting plate 23 fixed on the slide rail 22, a support bar group 24 fixed on the bearing mounting plate 23, and a locking member 25 for locking the position of the slide rail 22 on the slide block seat 21.

One end of the sliding rail 22 is arranged on the sliding block seat 21 in a sliding manner and locked and fixed through the locking piece 25, and the other end of the sliding rail extends out of the sliding block seat 21 and simultaneously extends out of the supporting bottom plate 1.

The mechanism is particularly suitable for a reversing conveying device, is used as a lifting rotary supporting platform, is arranged at the movable tail end of a lifting rotary driving device, and realizes reversing conveying by jacking up a plate-shaped workpiece upwards, then rotating by 90 degrees and then returning to the reversing conveying device.

The mechanism can adjust the length of the overhanging section of the sliding rail 22 by adjusting the position of the sliding rail 22 on the sliding block seat 21, so as to adjust the size of a supporting plane formed by the four supporting modules 2, realize flexible adjustment of the size of the supporting plane, and be suitable for supporting plate-shaped workpieces with various sizes.

In order to prevent the plate-shaped workpiece on the supporting plane from displacement in the rotating process, the stability and the position reliability of the plate-shaped workpiece on the supporting plane are ensured, and the surface of the supporting bar set 24 is fully distributed with saw tooth structures 241 so as to increase the friction force with the surface of the plate-shaped workpiece.

Further, in the same supporting module 2, the supporting bar set 24 includes a pair of first supporting bars 242 disposed parallel to the sliding rail 22, and a second supporting bar 243 disposed perpendicular to the first supporting bars 242. The saw teeth on the surfaces of the first support bar 242 and the second support bar 243 are oriented perpendicular to each other. The second support bar 243 is vertically disposed at the end of the first support bar 242. By the vertical distribution of the first supporting bar 242 and the second supporting bar 243, the saw tooth structure 241 of the combined surface has larger friction force in any direction during the rotation process, thereby further improving the position stability of the plate-shaped workpiece on the supporting plane.

In order to save the occupation of the plane area and better match the layout of the conveying mechanism, the supporting bottom plate 1 in the mechanism is in a cross-shaped structure.

The middle part of the supporting bottom plate 1 is provided with a plurality of supporting cushion blocks 3 which provide support for the middle part of the plate-shaped workpiece and prevent the middle part of the plate-shaped workpiece with large size from deforming.

The locking member 25 comprises a screw mounting seat 251, an adjusting screw 252 arranged on the screw mounting seat 251 in a threaded fit manner, an adjusting handle 253 fixed on the adjusting screw 252, and a pressing block 254 arranged at the movable end of the adjusting screw 252 and propping against the side face of the sliding rail 22. The pressing block 254 can be supported and released on the sliding rail 22 by rotating the adjusting handle 253, so that the locking and releasing actions of the sliding rail 22 before and after adjustment are realized.

In this embodiment, the support module 2 is provided with four groups, and in other embodiments, three groups, five groups, or more than five groups may be provided. If three groups are arranged, the supporting modules 2 are distributed at intervals of 120 degrees, and if five groups are arranged, the supporting modules 2 are distributed at intervals of 72 degrees; in summary, the support modules 2 are arranged on the support base 1 at equal angular annular intervals.

In this embodiment, the first supporting bar 242 and the second supporting bar 243 are made of PU soft materials, so as to increase the friction force of the supporting plane and avoid damaging the surface of the plate-shaped workpiece. The plate-shaped workpiece in this embodiment may be a photovoltaic module or other workpiece.

As shown in fig. 4, the present embodiment further provides a reversing conveying mechanism 200, which includes a conveying line 201, a lifting rotation driving module (not shown in the drawing) disposed in the middle of the conveying line 201, and a supporting platform mechanism 100 disposed at the movable end of the lifting rotation driving module.

What has been described above is merely some embodiments of the present utility model. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (10)

1. The utility model provides a rotatory switching-over supporting platform mechanism which characterized in that: the support device comprises a support bottom plate and a plurality of groups of support modules arranged on the support bottom plate at intervals, wherein each support module comprises a sliding block seat fixed on the support bottom plate, a sliding rail arranged on the sliding block seat in a radial sliding manner, a bearing mounting plate fixed on the sliding rail, a supporting bar group fixed on the bearing mounting plate and a locking piece for locking the position of the sliding rail on the sliding block seat.

2. The rotary steerable support platform mechanism of claim 1, wherein: one end of the sliding rail is arranged on the sliding block seat in a sliding manner and locked and fixed through the locking piece, and the other end of the sliding rail extends out of the sliding block seat and simultaneously extends out of the supporting bottom plate.

3. The rotary steerable support platform mechanism of claim 1, wherein: the support bar groups in the support modules together form a support plane.

4. The rotary steerable support platform mechanism of claim 1, wherein: the surface of the supporting bar group is fully distributed with saw tooth structures.

5. The rotary steerable support platform mechanism of claim 4, wherein: in the same supporting module, the supporting bar group comprises a pair of first supporting bars which are arranged in parallel with the sliding rail and a second supporting bar which is perpendicular to the first supporting bars.

6. The rotary steerable support platform mechanism of claim 5, wherein: the saw teeth on the surfaces of the first supporting bar and the second supporting bar face to be mutually perpendicular.

7. The rotary steerable support platform mechanism of claim 5, wherein: the second supporting bar is vertically arranged at the tail end of the first supporting bar.

8. The rotary steerable support platform mechanism of claim 1, wherein: the supporting bottom plate is of a cross-shaped structure.

9. The rotary steerable support platform mechanism of claim 1, wherein: and a plurality of support cushion blocks are arranged in the middle of the support bottom plate.

10. The rotary steerable support platform mechanism of claim 1, wherein: the locking piece comprises a screw rod mounting seat, an adjusting screw rod arranged on the screw rod mounting seat in a threaded fit manner, an adjusting handle fixed on the adjusting screw rod, and a compressing block arranged at the movable end of the adjusting screw rod and propping against the side face of the sliding rail.

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