CN211045402U - Photovoltaic diffusion online automation equipment - Google Patents

Abstract

The utility model discloses an online automation equipment of photovoltaic diffusion, including first work module and second work module, first work module includes first frame, butt joint conveyer and quartz boat transport mechanism, and second work module includes second frame, quartz boat turnover mechanism, embraces piece mechanism, rewinding mechanism, divides and closes piece mechanism and dress discharge mechanism. The utility model has the advantages of stability is good, the piece rate is low, degree of automation is high, has stronger market competition advantage.

Description

Photovoltaic diffusion online automation equipment

Technical Field

The utility model belongs to photovoltaic production facility field, specifically speaking relates to a photovoltaic diffusion automation equipment.

Background

The development of human beings cannot be supported by energy sources, the current ore energy sources have the problems of limited reserves, non-regeneration and environmental pollution, and solar energy is used as the cleanest energy source, has large reserves and is increasingly applied. The utilization of solar energy can not leave photovoltaic cell pieces, and with the vigorous development of the photovoltaic industry in China, in order to enable the energy conversion rate of solar energy to be higher and the requirement on the production of the photovoltaic cell pieces to be higher and higher, at present, the production automation degree of the photovoltaic cell pieces is not high, the fragment rate of the photovoltaic cell pieces in the production process is high, the competition among production enterprises is larger and larger, and the production enterprises are forced to further improve production equipment so as to improve efficiency and reduce cost.

SUMMERY OF THE UTILITY MODEL

The defect that degree of automation is not high, photovoltaic cell piece rate is high, production efficiency is not high for solving prior art existence, the utility model provides an degree of automation is high, and photovoltaic cell piece rate is low, the equipment that production efficiency is high.

In order to achieve the above object, the utility model provides a photovoltaic diffusion on-line automation device, which comprises a first work module and a second work module, wherein the first work module comprises a first frame, a butt joint conveyor and a quartz boat carrying mechanism, the butt joint conveyor is 2 and symmetrically arranged at two sides of the first frame, the quartz boat carrying mechanism is arranged in the middle of the two butt joint conveyors, the second work module comprises a second frame, a quartz boat turnover mechanism, a piece holding mechanism, a piece reversing mechanism, a piece separating mechanism and a material loading and unloading mechanism, the quartz boat turnover mechanism is arranged between the first work module and the second work module, the piece holding mechanism is in a reversed U shape, the piece holding mechanism is arranged above the quartz boat turnover mechanism, the piece reversing mechanism is 2 and symmetrically arranged at two sides of the quartz boat turnover mechanism, the piece separating mechanism is in a reversed U shape, the quartz boat turnover mechanism, the wafer holding mechanism, the wafer reversing mechanism, the wafer separating and combining mechanism and the loading and unloading mechanism are all arranged on a second frame;

further, the butt-joint conveyor comprises a conveyor lifting assembly, a first conveyor, a second conveyor and a conveyor transverse moving assembly, wherein the conveyor lifting assembly and the conveyor transverse moving assembly are arranged on the first frame, the first conveyor is arranged on the conveyor lifting assembly, and the second conveyor is arranged on the conveyor transverse moving assembly;

further, the quartz boat carrying mechanism comprises a robot and a carrying clamping jaw, wherein the robot is arranged on the first frame, and the carrying clamping jaw is arranged on the robot;

the quartz boat turnover mechanism comprises a turnover mechanism top tooth lifting assembly, a turnover mechanism positioning platform, a turnover mechanism regulating assembly and a quartz boat moving assembly, wherein the turnover mechanism top tooth lifting assembly is arranged on the second frame;

further, the sheet holding mechanism comprises a sheet holding mechanism support, a left and right moving slide rail of the sheet holding mechanism, a sheet holding mechanism lifting assembly, a left and right moving gear rack of the sheet holding mechanism, a left and right moving motor of the sheet holding mechanism and holding teeth, the sheet holding mechanism support is arranged on the second frame, the sheet holding mechanism support is connected with the left and right moving slide rail of the sheet holding mechanism, the sheet holding mechanism lifting assembly is connected with the left and right moving slide rail of the sheet holding mechanism through the left and right moving gear rack of the sheet holding mechanism, the left and right moving motor of the sheet holding mechanism is arranged on the sheet holding mechanism lifting assembly, the left and right moving motor of the sheet holding mechanism is connected with the left and right moving gear rack of the sheet holding mechanism, and the holding;

furthermore, the sheet rewinding mechanism comprises a first sheet rewinding assembly, a first sheet rewinding mechanism top tooth lifting assembly, a second sheet rewinding assembly and a second sheet rewinding mechanism top tooth lifting assembly, the first sheet rewinding mechanism top tooth lifting assembly and the second sheet rewinding mechanism top tooth lifting assembly are both arranged on the second frame, the first sheet rewinding assembly is arranged on the first sheet rewinding mechanism top tooth lifting assembly, and the second sheet rewinding assembly is arranged on the second sheet rewinding mechanism top tooth lifting assembly;

further, the wafer separating and combining mechanism comprises a wafer separating and combining mechanism support, a left and right moving slide rail of the wafer separating and combining mechanism, a wafer separating and combining mechanism lifting component, a left and right moving motor of the wafer separating and combining mechanism, a left and right moving rack and pinion of the wafer separating and combining mechanism and a wafer separating and combining clamping claw, the wafer dividing and combining mechanism support is arranged on the second frame, the wafer dividing and combining mechanism support and the left and right moving slide rail of the wafer dividing and combining mechanism are connected with the wafer dividing and combining mechanism lifting assembly and the left and right moving slide rail of the wafer dividing and combining mechanism through the left and right moving gear racks of the wafer dividing and combining mechanism, the left and right moving motor of the wafer separating and combining mechanism is arranged on the lifting component of the wafer separating and combining mechanism, the left and right moving motor of the wafer separating and combining mechanism is connected with the left and right moving rack gear of the wafer separating and combining mechanism, the film separating and combining clamping jaws are arranged on the film separating and combining mechanism lifting assembly, and the number of the film separating and combining mechanism lifting assembly, the left-right moving motor of the film separating and combining mechanism and the number of the film separating and combining clamping jaws are 2;

further, the loading and unloading mechanism comprises a loading and unloading mechanism top tooth lifting assembly, a loading and unloading mechanism positioning platform, a loading and unloading mechanism regular assembly and a flower basket moving assembly, the loading and unloading mechanism top tooth lifting assembly is arranged on the second frame, the loading and unloading mechanism positioning platform is arranged on the loading and unloading mechanism top tooth lifting assembly, the loading and unloading mechanism regular assembly is arranged on the loading and unloading mechanism positioning platform, and the flower basket moving assembly is arranged on the loading and unloading mechanism positioning platform.

The utility model has the advantages of, the utility model discloses set up the robot on quartz boat transport mechanism, the manual operation of reduction, degree of automation is high, and photovoltaic cell's piece rate is low, and the effect of rewinding mechanism carries out quantity conversion when making in the plastics basket of flowers quantity of battery piece and the quartz boat battery piece quantity mismatch, has improved efficiency.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural view of the butt-joint conveyor of the present invention;

FIG. 3 is a schematic structural view of the quartz boat handling mechanism of the present invention;

FIG. 4 is a schematic structural view of the quartz boat turnover mechanism of the present invention;

fig. 5 is a schematic structural view of a sheet holding mechanism of the present invention;

FIG. 6 is a schematic structural view of the rewinding mechanism of the present invention;

fig. 7 is a schematic structural view of the separating and combining mechanism of the present invention;

fig. 8 is a schematic structural view of the loading and unloading mechanism of the present invention;

the reference signs are: 1-a first working module, 11-a first frame, 2-a second working module, 21-a second frame, 3-a butt-joint conveyor, 31-a conveyor lifting component, 32-a first conveyor, 33-a second conveyor, 34-a conveyor transverse moving component, 4-a quartz boat carrying mechanism, 41-a robot, 42-a carrying clamping jaw, 5-a quartz boat turnover mechanism, 51-a turnover mechanism top tooth lifting component, 52-a turnover mechanism positioning platform, 53-a turnover mechanism regular component, 54-a quartz boat moving component, 6-a wafer holding mechanism, 61-a wafer holding mechanism support, 62-a wafer holding mechanism left and right moving slide rail, 63-a wafer holding mechanism lifting component, 64-a wafer holding mechanism left and right moving gear rack, 65-a wafer holding mechanism left and right moving motor, 66-embracing teeth, 7-rewinding mechanisms, 71-first rewinding assemblies, 72-first rewinding mechanism top tooth lifting assemblies, 73-second rewinding assemblies, 74-second rewinding mechanism top tooth lifting assemblies, 8-splitting mechanism, 81-splitting mechanism supports, 82-splitting mechanism left and right moving slide rails, 83-splitting mechanism lifting assemblies, 84-splitting mechanism left and right moving gear racks, 85-splitting mechanism left and right moving motors, 86-splitting clamping jaws, 9-loading and unloading mechanisms, 91-loading and unloading mechanism top tooth lifting assemblies, 92-loading and unloading mechanism positioning platforms, 93-loading and unloading mechanism assemblies and 94-basket movement regulating assemblies.

Detailed Description

The invention is described in further detail below with reference to the drawings and the detailed description.

As shown in fig. 1, the utility model comprises a first work module 1 and a second work module 2, wherein the first work module 1 comprises a first frame 11, a butt-joint conveyor 3 and a quartz boat carrying mechanism 4, the butt-joint conveyors 3 are 2 in number and are symmetrically arranged at two sides of the first frame 11, the quartz boat carrying mechanism 4 is arranged between the two butt-joint conveyors 3, the second work module 2 comprises a second frame 21, a quartz boat transferring mechanism 5, a wafer holding mechanism 6, a wafer reversing mechanism 7, a wafer dividing and combining mechanism 8 and a loading and unloading mechanism 9, the quartz boat transferring mechanism 5 is arranged between the first work module 1 and the second work module 2, the wafer holding mechanism 6 is in an inverted U shape, the wafer holding mechanism 6 is arranged above the quartz boat transferring mechanism 5, the wafer reversing mechanism 7 is 2 in number and is symmetrically arranged at two sides of the quartz boat transferring mechanism 5, the split-combination mechanism 8 is of an inverted U shape, the split-combination mechanism 8 is arranged above the rewinding mechanism 7, the loading and unloading mechanisms 9 are 2 in number and symmetrically arranged on two sides of the rewinding mechanism 7, the butt-joint conveyor 3 and the quartz boat carrying mechanism 4 are arranged on a first frame 11, and the quartz boat turnover mechanism 5, the wafer holding mechanism 6, the rewinding mechanism 7, the split-combination mechanism 8 and the loading and unloading mechanism 9 are arranged on a second frame 21.

As shown in fig. 2, which is a docking conveyor 3 in the present invention, the docking conveyor 3 includes a conveyor lifting assembly 31, a first conveyor 32, a second conveyor 33 and a conveyor traversing assembly 34, the conveyor lifting assembly 31 and the conveyor traversing assembly 34 are both connected to the first frame 11 through fastening screws, the first conveyor 32 is connected to the conveyor lifting assembly 31 through fastening screws, and the second conveyor 33 is connected to the conveyor traversing assembly 34 through fastening screws.

As shown in fig. 3, the quartz boat carrying mechanism 4 of the present invention, the quartz boat carrying mechanism 4 includes a robot 41 and a carrying clamping jaw 42, the robot 41 is connected to the first frame 11 through a fastening screw, and the carrying clamping jaw 42 is connected to the robot 41 through a fastening screw.

As shown in fig. 4, for quartz boat turnover mechanism 5 in the utility model, quartz boat turnover mechanism 5 includes turnover mechanism top tooth lifting unit 51, turnover mechanism positioning platform 52, the regular subassembly 53 of turnover mechanism and quartz boat removal subassembly 54, turnover mechanism top tooth lifting unit 51 passes through fastening screw to be connected on second frame 21, turnover mechanism positioning platform 52 passes through fastening screw to be connected on turnover mechanism top tooth lifting unit 51, the regular subassembly 53 of turnover mechanism passes through fastening screw to be connected on turnover mechanism positioning platform 52, quartz boat removal subassembly 54 passes through fastening screw to be connected on turnover mechanism positioning platform 52.

As shown in fig. 5, the sheet holding mechanism 6 of the present invention comprises a sheet holding mechanism support 61, a left and right slide rail 62 of the sheet holding mechanism, a sheet holding mechanism lifting component 63, a left and right rack gear 64 of the sheet holding mechanism, a left and right moving motor 65 of the sheet holding mechanism, and holding teeth 66, the sheet holding mechanism bracket 61 is connected to the second frame 21 through a fastening screw, the left and right sheet holding mechanism slide rail 62 is connected to the sheet holding mechanism bracket 61 through a fastening screw, the piece holding mechanism lifting component 63 is connected on the piece holding mechanism left-right moving slide rail 62 through the piece holding mechanism left-right moving gear rack 64, the left-right moving motor 65 of the plate holding mechanism is connected to the plate holding mechanism lifting assembly 63 through fastening screws, the left-right moving motor 65 of the plate holding mechanism is connected with the left-right moving gear rack 64 of the plate holding mechanism, and the plate holding teeth 66 are connected to the plate holding mechanism lifting assembly 63 through fastening screws.

As shown in fig. 6, for the rewinding mechanism 7 in the present invention, the rewinding mechanism 7 includes a first rewinding assembly 71, a first rewinding mechanism top tooth lifting assembly 72, a second rewinding assembly 73 and a second rewinding mechanism top tooth lifting assembly 74, the first rewinding mechanism top tooth lifting assembly 72 and the second rewinding mechanism top tooth lifting assembly 74 are both connected to the second frame 21 through fastening screws, the first rewinding assembly 71 is connected to the first rewinding mechanism top tooth lifting assembly 72 through fastening screws, and the second rewinding assembly 73 is connected to the second rewinding mechanism top tooth lifting assembly 74 through fastening screws.

As shown in fig. 7, the mechanism 8 of the present invention comprises a support 81 of the mechanism, a left and right slide rail 82 of the mechanism, a lifting component 83 of the mechanism, a left and right moving motor 85 of the mechanism, a left and right rack gear 84 of the mechanism and a clamping jaw 86 of the mechanism, the support 81 of the mechanism is connected to the second frame 21 through a fastening screw, the left and right slide rail 82 of the mechanism is connected to the support 81 of the mechanism through a fastening screw, the lifting component 83 of the mechanism is connected to the left and right slide rail 82 of the mechanism through the left and right rack gear 84 of the mechanism, the left and right moving motor 85 of the mechanism is connected to the lifting component 83 of the mechanism through a fastening screw, the motor 85 of the mechanism is connected to the rack gear 84 of the mechanism, the lamination separating and combining clamping jaws 86 are connected to the lamination separating and combining mechanism lifting assembly 83 through fastening screws, and the number of the lamination separating and combining mechanism lifting assembly 83, the left-right movement motor 85 of the lamination separating and combining mechanism and the number of the lamination separating and combining clamping jaws 86 are 2.

As shown in fig. 8, for the material loading and unloading mechanism 9 of the present invention, the material loading and unloading mechanism 9 includes a material loading and unloading mechanism top tooth lifting assembly 91 and a material loading and unloading mechanism positioning platform 92. The loading and unloading mechanism regular assembly 93 and the flower basket moving assembly 94 are connected to the second frame 21 through fastening screws, the loading and unloading mechanism top tooth lifting assembly 91 is connected to the second frame 21 through fastening screws, the loading and unloading mechanism positioning platform 92 is connected to the loading and unloading mechanism top tooth lifting assembly 91 through fastening screws, the loading and unloading mechanism regular assembly 93 is connected to the loading and unloading mechanism positioning platform 92 through fastening screws, and the flower basket moving assembly 94 is connected to the loading and unloading mechanism positioning platform 92 through fastening screws.

The utility model provides a butt joint conveyer 3 is used for a transfer chain to receive the ripe piece of battery piece that the diffusion of diffusion board output has been accomplished, waits for quartz boat transport mechanism 4 to have exchanged the ripe piece quartz boat in holding in the palm its boat and the green piece quartz boat in the turnover mechanism, returns for diffusion host computer platform, two transfer chains circulation operation in turn. The quartz boat conveying mechanism 4 is used for conveying the cooked quartz boat on the butt joint conveying line to the turnover mechanism and conveying the green wafer quartz boat on the turnover mechanism into the boat support of the butt joint conveying line. Quartz boat turnover mechanism 5 is used for putting the ripe piece quartz boat that quartz boat transport mechanism 4 robot 41 carried and come to remove to embracing piece department, simultaneously, the green piece quartz boat of embracing piece department moves to the opposite side, waits for robot 41 to snatch and carry to the boat on the butt joint transfer chain and hold in the palm. The piece holding mechanism 6 is used for holding the green sheets on the piece reversing mechanism 7 into the quartz boat of the turnover mechanism, and holding the cooked pieces in the quartz boat of the turnover mechanism into the piece reversing mechanism 7. The sheet reversing mechanism 7 is used for quantity conversion when the quantity of the battery sheets in the plastic flower basket is not matched with the quantity of the battery sheets in the quartz boat. The sheet separating and combining mechanism 8 is used for exchanging the green sheets on the loading and unloading mechanism 9 with the cooked sheets on the switching mechanism. The loading and unloading mechanism 9 is used for manually unloading the cooked flake flower basket, loading the green flake flower basket at the same time, moving to the slicing and combining position, completing the exchange of the green flakes in the green flake flower basket and the cooked flake in the reversing mechanism 7 by the mechanical arm of the wafer to be sliced and combined, moving to the unloading position, and waiting for manual unloading. The utility model discloses an automatic loading and unloading material of horizontal diffusion has realized the unmatched rewinding function of battery piece quantity in the quartz boat of diffusion and the anterior segment wet-type basket of flowers, has ensured automatic loading and unloading material, the utility model has the advantages of stability is good, the piece rate is low, degree of automation is high, possesses stronger market competition advantage.

The above-mentioned embodiments further explain in detail the technical problems, technical solutions and advantages solved by the present invention, and it should be understood that the above only is a specific embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (8)

1. The photovoltaic diffusion online automation equipment comprises a first working module (1) and a second working module (2), and is characterized in that the first working module (1) comprises a first frame (11), a butt joint conveyor (3) and a quartz boat carrying mechanism (4), the number of the butt joint conveyor (3) is 2, the quartz boat carrying mechanism (4) is arranged between the two butt joint conveyors (3), the second working module (2) comprises a second frame (21), a quartz boat turnover mechanism (5), a wafer holding mechanism (6), a wafer falling mechanism (7), a wafer separating and combining mechanism (8) and a material loading and unloading mechanism (9), the quartz boat turnover mechanism (5) is arranged between the first working module (1) and the second working module (2), the wafer holding mechanism (6) is arranged above the quartz boat turnover mechanism (5), and the wafer holding mechanism (6) is of an inverted U shape, the quartz boat turnover mechanism is characterized in that the number of the wafer reversing mechanisms (7) is 2, the wafer reversing mechanisms (5) are symmetrically arranged on two sides of the quartz boat turnover mechanism (5), the wafer separating and combining mechanism (8) is of a U shape and is arranged on the wafer reversing mechanism (7), the loading and unloading mechanisms (9) are arranged on two sides of the wafer reversing mechanism (7) in a number of 2 and symmetrically, the butt joint conveyor (3) and the quartz boat carrying mechanism (4) are arranged on a first frame (11), and the quartz boat turnover mechanism (5), the wafer holding mechanism (6), the wafer reversing mechanism (7), the wafer separating and combining mechanism (8) and the loading and unloading mechanisms (9) are all arranged on a second frame (21).

2. The photovoltaic diffusion online automation device of claim 1, wherein the docking conveyor (3) comprises a conveyor lifting assembly (31), a first conveyor (32), a second conveyor (33) and a conveyor traverse assembly (34), the conveyor lifting assembly (31) and the conveyor traverse assembly (34) are both disposed on the first frame (11), the first conveyor (32) is disposed on the upper portion of the conveyor lifting assembly (31), and the second conveyor (33) is disposed on the upper portion of the conveyor traverse assembly (34).

3. The photovoltaic diffusion online automation device of claim 1, wherein the quartz boat handling mechanism (4) comprises a robot (41) and a handling jaw (42), the robot (41) is disposed on the first frame (11), and the handling jaw (42) is disposed on the upper portion of the robot (41).

4. The photovoltaic diffusion online automation device of claim 1, wherein the quartz boat circulation mechanism (5) comprises a circulation mechanism top tooth lifting assembly (51), a circulation mechanism positioning platform (52), a circulation mechanism regular assembly (53) and a quartz boat moving assembly (54), the circulation mechanism top tooth lifting assembly (51) is arranged on the second frame (21), the circulation mechanism positioning platform (52) is arranged on the upper portion of the circulation mechanism top tooth lifting assembly (51), the quartz boat moving assembly (54) is arranged on the upper portion of the circulation mechanism positioning platform (52), and the circulation mechanism regular assembly (53) is arranged on the upper portion of the circulation mechanism positioning platform (52).

5. The online automatic photovoltaic diffusion equipment according to claim 1, wherein the sheet holding mechanism (6) comprises a sheet holding mechanism support (61), a sheet holding mechanism left-right moving slide rail (62), a sheet holding mechanism lifting assembly (63), a sheet holding mechanism left-right moving rack (64), a sheet holding mechanism left-right moving motor (65) and a sheet holding tooth (66), the sheet holding mechanism support (61) is arranged on the second frame (21), the sheet holding mechanism support (61) is connected with the sheet holding mechanism left-right moving slide rail (62), the sheet holding mechanism lifting assembly (63) is connected with the sheet holding mechanism left-right moving slide rail (62) through the sheet holding mechanism left-right moving rack (64), the sheet holding mechanism left-right moving motor (65) is arranged on the sheet holding mechanism lifting assembly (63), the sheet holding mechanism left-right moving motor (65) is connected with the sheet holding mechanism left-right moving rack (64), the holding teeth (66) are arranged at the lower part of the lifting component (63) of the holding mechanism.

6. The photovoltaic diffusion online automation device of claim 1, wherein the flipping mechanism (7) comprises a first flipping mechanism top tooth lifting assembly (71), a first flipping mechanism top tooth lifting assembly (72), a second flipping mechanism top tooth lifting assembly (73) and a second flipping mechanism top tooth lifting assembly (74), the first flipping mechanism top tooth lifting assembly (72) and the second flipping mechanism top tooth lifting assembly (74) are both disposed on the second frame (21), the first flipping mechanism (71) is disposed on the upper portion of the first flipping mechanism top tooth lifting assembly (72), and the second flipping mechanism (73) is disposed on the upper portion of the second flipping mechanism top tooth lifting assembly (74).

7. The photovoltaic diffusion online automatic device according to claim 1, wherein the separation and combination mechanism (8) comprises a separation and combination mechanism support (81), a separation and combination mechanism left-right moving slide rail (82), a separation and combination mechanism lifting assembly (83), a separation and combination mechanism left-right moving motor (85), a separation and combination mechanism left-right moving rack (84) and a separation and combination clamping jaw (86), the separation and combination mechanism support (81) is arranged on the second frame (21), the separation and combination mechanism support (81) and the separation and combination mechanism left-right moving slide rail (82) are connected with the separation and combination mechanism lifting assembly (83) through the separation and combination mechanism left-right moving rack (84) and the separation and combination mechanism left-right moving slide rail (82), the separation and combination mechanism left-right moving motor (85) is arranged on the separation and combination mechanism lifting assembly (83), the left-right moving motor (85) of the film separating and combining mechanism is connected with the left-right moving gear rack (84) of the film separating and combining mechanism, the film separating and combining clamping jaws (86) are arranged on the lower portion of the lifting component (83) of the film separating and combining mechanism, and the number of the lifting component (83) of the film separating and combining mechanism, the left-right moving motor (85) of the film separating and combining mechanism and the number of the film separating and combining clamping jaws (86) are 2.

8. The photovoltaic diffusion online automation device as claimed in claim 1, wherein the loading and unloading mechanism (9) comprises a loading and unloading mechanism top tooth lifting assembly (91), a loading and unloading mechanism positioning platform (92), a loading and unloading mechanism regulating assembly (93) and a basket moving assembly (94), the loading and unloading mechanism top tooth lifting assembly (91) is arranged on the second frame (21), the loading and unloading mechanism positioning platform (92) is arranged on the upper portion of the loading and unloading mechanism top tooth lifting assembly (91), the loading and unloading mechanism regulating assembly (93) is arranged on the upper portion of the loading and unloading mechanism positioning platform (92), and the basket moving assembly (94) is arranged on the upper portion of the loading and unloading mechanism positioning platform (92).

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