CN214879267U - Tinned copper strip winding shaft for solar cell - Google Patents

Abstract

The utility model belongs to the technical field of tinned copper strip processing, in particular to a tinned copper strip winding shaft for a solar cell, and the scheme is provided at present, which comprises a first rotating shaft, wherein one end of the outer side of the first rotating shaft is sleeved with a second rotating shaft, auxiliary components are arranged on the first rotating shaft and the second rotating shaft, and the outer ends of the first rotating shaft and the second rotating shaft are provided with blanking components; the auxiliary assembly comprises an electric telescopic rod fixed inside a first rotating shaft and a second rotating shaft, a first connecting rod is fixed at one end of the outer side of the electric telescopic rod, a second connecting rod is rotatably connected to the outer side of the first connecting rod, and a third connecting rod is rotatably connected to one end, far away from the first connecting rod, of the second connecting rod. The utility model discloses in fix the copper strips tip through the fixed block that sets up, the winding of being convenient for goes on, after the winding is accomplished, backup pad and copper book inner wall separation, then the pivot is rolled up from the copper and is inside to take out from, going on of the unloading of being convenient for.

Description

Tinned copper strip winding shaft for solar cell

Technical Field

The utility model relates to a tinned copper strips processing technology field especially relates to a tinned copper strips winding shaft for solar cell.

Background

Solar radiation energy is an important energy source, and is an inexhaustible novel energy source without pollution and low in price, along with the progress of solar cell manufacturing technology, the human protection to the environment and the huge demand for regenerating clean energy, solar cells are a feasible method for utilizing solar radiation energy, wide prospects can be opened up for future large-scale utilization of solar energy, at present, tin-plated copper strips are mostly adopted for connection between solar cells, the tin-plated copper strips need to be wound on the outer side of a reel to form a roll after production is completed, the transportation of the copper strips is convenient, but when the existing tin-plated copper rolls are wound, workers are required to fix the end parts of the copper strips on the outer side of the reel, the copper strips are loosened after the reel is wound for one circle, the fixing mode is relatively troublesome, the danger coefficient is relatively high, and a tin-plated copper strip winding shaft for the solar cells is needed.

SUMMERY OF THE UTILITY MODEL

The utility model provides a pair of tinned copper strip winding shaft for solar cell has solved the problem that exists among the prior art.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a tinned copper strip winding shaft for a solar cell comprises a first rotating shaft, wherein a second rotating shaft is sleeved at one end of the outer side of the first rotating shaft, auxiliary assemblies are mounted on the first rotating shaft and the second rotating shaft, and blanking assemblies are arranged at the outer side ends of the first rotating shaft and the second rotating shaft;

the auxiliary component comprises electric telescopic rods respectively fixed in the first rotating shaft and the second rotating shaft, the first rotating shaft and the second rotating shaft are internally provided with storage batteries used in cooperation with the electric telescopic rod, a first connecting rod is fixed at one end of the outer side of the electric telescopic rod, a second connecting rod is rotatably connected at the outer side of the first connecting rod, a third connecting rod is rotatably connected to one end of the second connecting rod, which is far away from the first connecting rod, a fixed block is fixed to one end of the third connecting rod, which is far away from the second connecting rod, a fourth connecting rod is fixed at one end of the first connecting rod, which is far away from the electric telescopic rod, the two ends of the fourth connecting rod are rotatably connected with a fifth connecting rod, the fifth connecting rod is far away from fourth connecting rod one end and rotates and be connected with the arc pole, the arc pole is far away from fifth connecting rod one end and rotates and be connected with the sixth connecting rod, fifth connecting rod one end is kept away from to the sixth connecting rod is provided with the backup pad.

Preferably, the unloading subassembly is including fixing the base in first pivot and second pivot below, the fixed first driving motor in base top one side, first driving motor output is connected with the screw rod, the outside one end of screw rod has cup jointed first slider through the screw thread, the outside other end of screw rod has cup jointed the second slider through the screw thread, first slider top is fixed with first support column, first support column top is fixed with second driving motor, second driving motor output end is fixed with first baffle, just first baffle and first pivot fixed connection, second slider top are fixed with the second support column, second support column top one side is rotated and is connected with the second baffle, just second baffle and second pivot fixed connection.

Preferably, a hydraulic cylinder is fixed at a position between the first baffle and the second baffle at the top end of the base, an arc-shaped plate is fixed at the top end of the hydraulic cylinder, and the arc-shaped plate is arc-shaped.

Preferably, first pivot and the inside logical groove of all having seted up of second pivot, first pivot and the inside position department of being located between two adjacent logical grooves of second pivot have seted up the mounting groove, electric telescopic handle, head rod, second connecting rod, third connecting rod, fixed block, fourth connecting rod and fifth connecting rod all set up inside the mounting groove, the fixed block outside is fixed with the rubber pad.

Preferably, the first rotating shaft and the second rotating shaft are both fixed with first limiting blocks matched with the third connecting rod for use, the first limiting blocks are sleeved outside the third connecting rod in a sliding mode, the first rotating shaft and the second rotating shaft are fixed with second limiting blocks matched with the arc-shaped rod for use, and the second limiting blocks are sleeved outside the arc-shaped rod in a sliding mode.

Preferably, a groove is formed in one end of the first rotating shaft, a protruding block matched with the groove for use is fixed at one end of the outer side of the second rotating shaft, and the protruding block is cuboid.

The utility model discloses in drive the fixed block motion through the electric telescopic handle that sets up, roll up the end fixing with the copper between the fixed block, the winding of being convenient for goes on, the copper book winding is in the backup pad outside simultaneously, after the winding is accomplished, backup pad and copper book inner wall separation, then the pivot is rolled up from the copper and is inside taking out from, going on of the unloading of being convenient for.

Drawings

Fig. 1 is a front sectional view of an overall structure of a tinned copper strip winding shaft for a solar cell according to the present invention;

fig. 2 is a side sectional view of a first rotating shaft of a tinned copper strip winding shaft for a solar cell according to the present invention;

fig. 3 is the utility model provides a fixed block mounting structure sketch map of tinned copper strip winding shaft for solar cell.

In the figure: 1. a first rotating shaft; 2. a second rotating shaft; 3. an auxiliary component; 31. an electric telescopic rod; 32. a first connecting rod; 33. a second connecting rod; 34. a third connecting rod; 35. a fixed block; 36. a fourth connecting rod; 37. a fifth connecting rod; 38. an arcuate bar; 39. a sixth connecting rod; 310. a support plate; 4. a blanking assembly; 41. a base; 42. a first drive motor; 43. a screw; 44. a first slider; 45. a second slider; 46. a first support column; 47. a second drive motor; 48. a first baffle plate; 49. a second support column; 410. a second baffle; 5. a hydraulic cylinder; 6. an arc-shaped plate; 7. a through groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-3, a tinned copper strip winding shaft for a solar cell comprises a first rotating shaft 1, a second rotating shaft 2 is sleeved at one end of the outer side of the first rotating shaft 1, auxiliary components 3 are mounted on the first rotating shaft 1 and the second rotating shaft 2, and a blanking component 4 is arranged at the outer side end of the first rotating shaft 1 and the second rotating shaft 2;

the auxiliary assembly 3 comprises electric telescopic rods 31 respectively fixed in the first rotating shaft 1 and the second rotating shaft 2, batteries matched with the electric telescopic rods 31 for use are respectively installed in the first rotating shaft 1 and the second rotating shaft 2, a first connecting rod 32 is fixed at one end of the outer side of each electric telescopic rod 31, a second connecting rod 33 is rotatably connected at the outer side of each first connecting rod 32, a third connecting rod 34 is rotatably connected at one end of each second connecting rod 33, which is far away from the first connecting rod 32, a fixing block 35 is fixed at one end of each third connecting rod 34, which is far away from the second connecting rod 33, when the electric telescopic rods 31 extend, the first connecting rods 32 drive the fixing blocks 35 to move through the second connecting rods 33 and the third connecting rods 34, the end parts of the copper strips are fixed between the two fixing blocks 35, so that winding can be conveniently carried out, a fourth connecting rod 36 is fixed at one end of each first connecting rod 32, which is far away from the electric telescopic rods 31, and fifth connecting rods 37 are rotatably connected at two ends of the fourth connecting rods 36, fifth connecting rod 37 is kept away from fourth connecting rod 36 one end and is rotated and be connected with arc pole 38, arc pole 38 is kept away from fifth connecting rod 37 one end and is rotated and be connected with sixth connecting rod 39, sixth connecting rod 39 is kept away from fifth connecting rod 37 one end and is provided with backup pad 310, electric telescopic handle 31 is elongated, through first connecting rod 32, fourth connecting rod 36, fifth connecting rod 37, arc pole 38 and sixth connecting rod 39 drive backup pad 310 to keeping away from first pivot 1 and the 2 direction motions of second pivot, make the copper strips winding in the backup pad 310 outside, after the winding is accomplished, electric telescopic handle 31 shortens, backup pad 310 case is close to pivot direction motion, backup pad 310 rolls up the inner wall separation with the copper strips, be convenient for the copper strips roll up with first pivot 1 and the separation of second pivot 2.

Further, the blanking assembly 4 comprises a base 41 fixed below the first rotating shaft 1 and the second rotating shaft 2, a first driving motor 42 is fixed on one side of the top end of the base 41, the output end of the first driving motor 42 is connected with a screw 43, a first sliding block 44 is sleeved on one end of the outer part of the screw 43 through threads, a second sliding block 45 is sleeved on the other end of the outer part of the screw 43 through threads, a first supporting column 46 is fixed on the top end of the first sliding block 44, a second driving motor 47 is fixed on the top end of the first supporting column 46, a first baffle 48 is fixed on the output end of the second driving motor 47, the first baffle 48 is fixedly connected with the first rotating shaft 1, a second supporting column 49 is fixed on the top end of the second sliding block 45, one side of the top end of the second supporting column 49 is rotatably connected with a second baffle 410, the second baffle 410 is fixedly connected with the second rotating shaft 2, the first driving motor 42 drives the first sliding block 44 and the second sliding block 45 to horizontally move the first sliding block 44 and the second sliding block 45 outside the screw 43 through the screw 43 And moving to drive the first rotating shaft 1 and the second rotating shaft 2 to be drawn away from the copper strip coil from the two ends.

Especially, the hydraulic cylinder 5 is fixed at the position between the first baffle 48 and the second baffle 410 at the top end of the base 41, the arc-shaped plate 6 is fixed at the top end of the hydraulic cylinder 5, the arc-shaped plate 6 is arc-shaped, and when blanking is performed, the copper strip coil is supported by the arc-shaped plate 66, so that the blanking is performed conveniently.

It is worth explaining that logical groove 7 has all been seted up to first pivot 1 and the inside second pivot 2, first pivot 1 and the inside position department that is located between two adjacent logical grooves 7 of second pivot have seted up the mounting groove, electric telescopic handle 31, head rod 32, second connecting rod 33, third connecting rod 34, fixed block 35, fourth connecting rod 36 and fifth connecting rod 37 all set up inside the mounting groove, the fixed block 35 outside is fixed with the rubber pad, be convenient for the fixed of copper strips tip, during the unloading simultaneously, the copper strips tip is from leading to the inslot 7 separation.

In addition, first stopper that cooperation third connecting rod 34 used is all fixed with inside first pivot 1 and the second pivot 2, and first stopper slides and cup joints in third connecting rod 34 outside, and the third connecting rod 34 of being convenient for drives the fixed block 35 motion, is fixed with the second stopper that cooperation arc pole 38 used in the first pivot 1 and the 2 outsides of second pivot, and the second stopper slides and cup joints in arc pole 38 outsidely, and the arc pole 38 of being convenient for drives backup pad 310 motion.

In addition, a groove is formed in one end of the first rotating shaft 1, a protruding block matched with the groove for use is fixed at one end of the outer side of the second rotating shaft 2, and the protruding block is in a cuboid shape, so that when the second driving motor 47 drives the first rotating shaft 1 to rotate, the first rotating shaft 1 can drive the second rotating shaft 2 to rotate through buckling between the protruding block and the groove.

The working principle is as follows: when the copper strip winding machine is used, firstly, the end part of a copper strip is placed in one of the through grooves 7, then the electric telescopic rod 31 is started, the electric telescopic rod 31 drives the first connecting rod 32 to move towards the outer part of the rotating shaft, the first connecting rod 32 drives the third connecting rod 34 to slide in the first limiting block through the second connecting rod 33, so that the fixing block 35 moves towards the middle part of the through groove 7, finally, the end part of the copper strip is fixed between the fixing blocks 35, the first connecting rod 32 drives the fixing block 35 to move and simultaneously drives the fourth connecting rod 36 to move towards the outer part of the rotating shaft, the fourth connecting rod 36 drives the supporting plate 310 to move towards the direction far away from the rotating shaft through the fifth connecting rod 37, the arc-shaped rod 38 and the sixth connecting rod 39, then the second driving motor 47 drives the first rotating shaft 1 to rotate, the first rotating shaft 1 drives the second rotating shaft 2 to rotate together through buckling between the convex block and the groove, and winds the copper strip around the first rotating shaft 1 and the second rotating shaft 2, after winding, the hydraulic cylinder 5 is extended, the arc-shaped plate 6 is used for supporting the copper coil, the electric telescopic rod 31 is shortened, the fixed block 35 is separated from the end part of the copper strip, the supporting plate 310 moves towards the direction close to the rotating shaft, the supporting plate 310 is separated from the inner wall of the copper coil, then the first driving motor 42 drives the first slider 44 and the second slider 45 to move outside the screw 43, the first baffle 48 and the second baffle 410 drive the first rotating shaft 1 and the second rotating shaft 2 to move outside the copper coil respectively, finally the copper coil is separated from the rotating shafts, the copper coil is left at the top end of the arc-shaped plate 6, the blanking process of the copper coil is completed, the device drives the fixing blocks 35 to move through the electric telescopic rod 31, fixes the end parts of the copper coils between the fixing blocks 35, is convenient for winding, meanwhile, the copper coil is wound on the outer side of the supporting plate 310, after winding is completed, the supporting plate 310 is separated from the inner wall of the copper coil, and then the rotating shaft is pulled away from the inside of the copper coil, so that discharging is facilitated.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. A tinned copper strip winding shaft for a solar cell comprises a first rotating shaft (1) and is characterized in that one end of the outer side of the first rotating shaft (1) is sleeved with a second rotating shaft (2), auxiliary assemblies (3) are mounted on the first rotating shaft (1) and the second rotating shaft (2), and blanking assemblies (4) are arranged at the outer side ends of the first rotating shaft (1) and the second rotating shaft (2);

the auxiliary assembly (3) comprises electric telescopic rods (31) fixed in a first rotating shaft (1) and a second rotating shaft (2) respectively, batteries matched with the electric telescopic rods (31) for use are installed in the first rotating shaft (1) and the second rotating shaft (2), a first connecting rod (32) is fixed at one end of the outer side of each electric telescopic rod (31), a second connecting rod (33) is connected to the outer side of each first connecting rod (32) in a rotating mode, one end, far away from the first connecting rod (32), of each second connecting rod (33) is connected with a third connecting rod (34) in a rotating mode, a fixing block (35) is fixed at one end, far away from the electric telescopic rods (31), of each first connecting rod (32), of each fourth connecting rod (36), of two ends of each fourth connecting rod (36) are connected with a fifth connecting rod (37) in a rotating mode, fifth connecting rod (37) are kept away from fourth connecting rod (36) one end and are rotated and be connected with arc pole (38), fifth connecting rod (37) one end is kept away from in arc pole (38) and is rotated and be connected with sixth connecting rod (39), fifth connecting rod (37) one end is kept away from in sixth connecting rod (39) and is provided with backup pad (310).

2. The winding shaft of the tinned copper strip for the solar cell according to claim 1, wherein the blanking assembly (4) comprises a base (41) fixed below the first rotating shaft (1) and the second rotating shaft (2), a first driving motor (42) is fixed on one side of the top end of the base (41), a screw (43) is connected to the output end of the first driving motor (42), a first sliding block (44) is sleeved on one end of the outer portion of the screw (43) through a thread, a second sliding block (45) is sleeved on the other end of the outer portion of the screw (43) through a thread, a first supporting column (46) is fixed on the top end of the first sliding block (44), a second driving motor (47) is fixed on the top end of the first supporting column (46), a first baffle (48) is fixed on the output end of the second driving motor (47), and the first baffle (48) is fixedly connected with the first rotating shaft (1), a second supporting column (49) is fixed at the top end of the second sliding block (45), a second baffle (410) is rotatably connected to one side of the top end of the second supporting column (49), and the second baffle (410) is fixedly connected with the second rotating shaft (2).

3. The winding shaft for the tinned copper strip for the solar cell is characterized in that a hydraulic cylinder (5) is fixed at the position, between the first baffle (48) and the second baffle (410), of the top end of the base (41), an arc-shaped plate (6) is fixed at the top end of the hydraulic cylinder (5), and the arc-shaped plate (6) is arc-shaped.

4. The winding shaft for the tinned copper strip for the solar cell according to claim 1, wherein the first rotating shaft (1) and the second rotating shaft (2) are both provided with a through groove (7), the first rotating shaft (1) and the second rotating shaft (2) are both provided with a mounting groove at a position between two adjacent through grooves (7), the electric telescopic rod (31), the first connecting rod (32), the second connecting rod (33), the third connecting rod (34), the fixing block (35), the fourth connecting rod (36) and the fifth connecting rod (37) are all arranged inside the mounting groove, and a rubber pad is fixed outside the fixing block (35).

5. The winding shaft for the tinned copper strip for the solar cell according to claim 1, wherein a first limiting block used for matching with the third connecting rod (34) is fixed inside each of the first rotating shaft (1) and the second rotating shaft (2), the first limiting block is sleeved outside the third connecting rod (34) in a sliding manner, a second limiting block used for matching with the arc-shaped rod (38) is fixed outside each of the first rotating shaft (1) and the second rotating shaft (2), and the second limiting block is sleeved outside the arc-shaped rod (38) in a sliding manner.

6. The winding shaft of tinned copper strips for solar cells according to claim 1, characterized in that a groove is formed in one end of the first rotating shaft (1), a projection matched with the groove is fixed at one end of the outer side of the second rotating shaft (2), and the projection is rectangular.

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