CN213326061U

CN213326061U - Rewinding machine for photovoltaic solder strip

Info

Publication number: CN213326061U
Application number: CN202022244378.XU
Authority: CN
Inventors: 王勋伟
Original assignee: Jiangsu Lanhui Intelligent Equipment Technology Co ltd
Current assignee: Jiangsu Lanhui Intelligent Equipment Technology Co ltd
Priority date: 2020-10-11
Filing date: 2020-10-11
Publication date: 2021-06-01
Anticipated expiration: 2030-10-11

Abstract

The utility model relates to a rewinding machine of photovoltaic solder strip, the intelligent cabinet temperature adjusting device comprises a cabinet body, the cabinet body is provided with two winding assemblies which are arranged up and down, each winding assembly comprises a guide assembly and a winding assembly arranged on the right side of the guide assembly, each guide assembly comprises a back plate, a first guide wheel, a box body, a first motor, a partition plate, a lead screw, an internal thread sleeve, a traction block and a guide pillar, the back plate is arranged on the front side of the cabinet body, the box body is fixed on the inner wall of the front side of the cabinet body, the partition plate is vertically fixed in the box body, the lead screw is transversely and rotatably inserted between the partition plate and the front end of the box body, the first motor is embedded at the rear end of the box body, the rotating shaft of the first motor is transversely and forwardly fixed; the utility model discloses simple structure to the operation has been simplified so that use, and once can accomplish the rewinding of two rolls of photovoltaic solder strips simultaneously, thereby improved work efficiency.

Description

Rewinding machine for photovoltaic solder strip

Technical Field

The utility model relates to a rewinding machine of photovoltaic solder strip.

Background

The photovoltaic welding strip is divided into a bus bar and an interconnector, is applied to connection among photovoltaic module battery pieces, and plays an important role in conducting and gathering electricity, the photovoltaic welding strip needs to be manufactured through processes of paying off, rolling, drawing, tin coating and the like in sequence, if the output speed of the manufactured photovoltaic welding strip is greater than the winding speed of a take-up device, the output photovoltaic welding strip needs to be temporarily wound on a temporary wire coil, and then the photovoltaic welding strip wound on the temporary wire coil is rewound through a rewinder so as to ensure that the photovoltaic welding strip is wound on the take-up coil in order and uniformly; the existing rewinding machine is complex in structure, complex in operation and inconvenient to use, can only complete rewinding of one roll of photovoltaic welding strip at a time, is low in working efficiency and needs to be further improved.

SUMMERY OF THE UTILITY MODEL

To the current situation of above-mentioned prior art, the utility model aims to solve the technical problem that a simple structure is provided to operation so that use has been simplified, and once can accomplish the rewinding of two rolls of photovoltaic solder strips simultaneously with the rewinding machine of improving work efficiency's photovoltaic solder strip.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: the utility model provides a rewinding machine of photovoltaic solder strip, includes the cabinet body, its characterized in that: the cabinet body is provided with two winding assemblies which are vertically arranged, each winding assembly comprises a guide assembly and a winding assembly arranged on the right side of the guide assembly, each guide assembly comprises a back plate, a first guide wheel, a box body, a first motor, a partition plate, a lead screw, an internal thread sleeve, a traction block and guide pillars, the back plate is arranged on the front side of the cabinet body, the box body is fixed on the inner wall of the front side of the cabinet body, the partition plate is vertically fixed in the box body, the lead screw is transversely and rotatably inserted between the partition plate and the front end of the box body, the first motor is embedded at the rear end of the box body, the rotating shaft of the first motor is transversely and forwardly fixed at the rear end of the lead screw, the internal thread sleeve is screwed outside the lead screw and embedded and fixed in the traction block, the traction block is also internally and fixedly inserted with two guide pillars which are symmetrically distributed in parallel, and the two ends of each guide, the front ends of the two guide pillars penetrate through the front side of the cabinet body and are fixed on the rear side of the back plate, the first guide wheel is rotatably arranged on the front side of the back plate, and a traction assembly is arranged between the traction block and the back plate; the traction assembly comprises a first shaft rod, a first bracket, a second motor, a shaft sleeve, a wire bow and a bow string; the shaft sleeve is transversely embedded and fixed in the back plate and arranged on the right side of the first guide wheel, and the first shaft rod is transversely and rotatably inserted in the shaft sleeve; the wire bow is arranged on the front side of the shaft sleeve, the lower end of the wire bow is fixed at the front end of the first shaft lever, and two detachable bowstrings which are arranged in parallel are fixed between the upper end and the lower end of the wire bow; the second motor is fixed on the rear side of the traction block through the first support, and a rotating shaft of the second motor transversely forwards penetrates through the traction block and is fixed at the rear end of the first shaft lever.

Furthermore, the guide assembly further comprises a second shaft lever, a swing rod, a balancing weight, a second guide wheel, a second bracket, a first gear, a second gear and a third motor; the second shaft rod is transversely and rotatably inserted into the back plate and arranged on the left side of the first guide wheel, the swing rod is inserted and fixed at the front end of the second shaft rod, the second guide wheel is rotatably arranged at the left end of the swing rod, the balancing weight is fixed at the right end of the swing rod, the third motor is fixed at the rear side of the back plate through the second support, the rotating shaft of the third motor transversely forwards penetrates through the second support and extends out of the rear side of the back plate, and the first gear and the second gear are respectively sleeved and fixed at the rotating shaft of the third motor and the rear end of the second shaft rod and are meshed with each other.

Further, the winding assembly comprises a seat block, a main shaft, a first internal thread sleeve, a third gear, a fourth motor, a take-up reel and a chassis; the utility model discloses a cabinet, including base piece, main shaft, fourth motor, chassis cover, take-up reel cover, base piece, main shaft, third gear and fourth gear, the base piece is fixed on the front side outer wall of the cabinet body, the horizontal and rotatable interlude of main shaft sets up in the base piece, the fourth motor is fixed at the rear side of base piece and is located the cabinet internal, the axis of rotation of fourth motor sets up transversely backward, third gear and fourth gear overlap respectively and establish and fix on the rear end of main shaft and the axis of rotation of fourth motor and intermeshing, the chassis cover is established and is fixed on the main shaft and locate the front side of the cabinet body, the take-up reel cover is established outside the main shaft and is located the front side on chassis, the spiro union is established at the front end of main shaft and is compressed tightly.

Further, the left side of the cabinet body still is equipped with the chassis, the upper end of chassis still is fixed with the stand, still be equipped with two unwrapping wire subassemblies of arranging from top to bottom on the stand, two the unwrapping wire subassembly is mutually supported with two wire winding subassemblies respectively.

Further, the pay-off assembly comprises a wheel shaft, a rack, a fifth motor, a pay-off reel and a second internal thread sleeve; the wheel shaft is transversely and rotatably inserted in the stand, the fifth motor is fixed to the rear side of the stand through the rack, the rotating shaft of the fifth motor transversely forwards penetrates through the rack and is fixed to the rear end of the wheel shaft, the pay-off reel is sleeved outside the wheel shaft and cannot rotate relative to the wheel shaft and is arranged on the front side of the stand, and the second internal thread sleeve is sleeved on the front end of the wheel shaft and is arranged at the front end of the pay-off reel.

Compared with the prior art, the utility model has the advantages of: the utility model discloses simple structure to the operation has been simplified so that use, and once can accomplish the rewinding of two rolls of photovoltaic solder strips simultaneously, thereby improved work efficiency.

Drawings

FIG. 1 is a left front side structural view of the present invention;

fig. 2 is a left front side structural view of the winding assembly of the present invention;

fig. 3 is a right front side structural view of the wire winding assembly of the present invention;

FIG. 4 is a right rear side view of the winding assembly of the present invention;

fig. 5 is a left rear side structural view of the guide assembly of the present invention;

fig. 6 is a left front side structure view of the wire releasing assembly of the present invention.

Detailed Description

As shown in fig. 1 to 6, a rewinding machine for photovoltaic solder strips comprises a cabinet 1, two winding assemblies 2 arranged up and down are arranged on the cabinet 1, each winding assembly 2 comprises a guide assembly 21 and a winding assembly 22 arranged on the right side of the guide assembly 21, each guide assembly 21 comprises a back plate 211, a first guide wheel 212, a box 2116, a first motor 2119, a partition plate 2117, a lead screw 2118, an internal thread sleeve 2120, a traction block 2121 and a guide post 2122, the back plate 211 is arranged on the front side of the cabinet 1, the box 2116 is fixed on the inner wall of the front side of the cabinet 1, the partition plate 2117 is vertically fixed in the box 2116, the lead screw 2118 is transversely and rotatably inserted between the partition plate 2117 and the front end of the box 2116, the first motor 9 is embedded at the rear end of the box 2116, the rotating shaft of the first motor 2119 is transversely and forwardly fixed at the rear end of the lead screw 2118, the internal thread sleeve 2120 is sleeved outside the lead screw 2118 and embedded and fixed in the traction block 2121, two guide posts 2122 symmetrically and parallelly arranged, two ends of each guide post 2122 are respectively inserted into the front end and the rear end of the box 2116 and can transversely slide, the front ends of the two guide posts 2122 penetrate through the front side of the cabinet 1 and are fixed on the rear side of the back plate 211, the first guide wheel 212 is rotatably arranged on the front side of the back plate 211, and a traction assembly is further arranged between the traction block 2121 and the back plate 211; the traction assembly comprises a first shaft 2113, a first bracket 2114, a second motor 2115, a shaft sleeve 2112, a wire bow 2110 and a bowstring 2111; shaft sleeve 2112 is transversely embedded and fixed in back plate 211 and arranged on the right side of first guide wheel 212, and first shaft bar 2113 is transversely and rotatably inserted and arranged in shaft sleeve 2112; the wire bow 2110 is arranged on the front side of the shaft sleeve 2112, the lower end of the wire bow 2110 is fixed at the front end of the first shaft 2113, and two detachable bowstrings 2111 which are arranged in parallel are fixed between the upper end and the lower end of the wire bow 2110; the second motor 2115 is fixed to the rear side of the traction block 2121 by a first bracket 2114, and the rotational shaft of the second motor 2115 passes laterally forward through the traction block 2121 and is fixed to the rear end of the first shaft 2113.

The guide assembly 21 further comprises a second shaft 213, a swing link 214, a weight 215, a second guide wheel 216, a second bracket 217, a first gear 218, a second gear 2123 and a third motor 219; the second shaft rod 213 is transversely and rotatably inserted in the back plate 211 and is arranged on the left side of the first guide wheel 212, the swing rod 214 is inserted and fixed at the front end of the second shaft rod 213, the second guide wheel 216 is rotatably arranged on the left end of the swing rod 214, the balancing weight 215 is fixed at the right end of the swing rod 214, the third motor 219 is fixed at the rear side of the back plate 211 through the second bracket 217, the rotating shaft of the third motor 219 transversely forwards penetrates through the second bracket 217 and extends out of the rear side of the back plate 211, and the first gear 218 and the second gear 2123 are respectively sleeved and fixed at the rotating shaft of the third motor 219 and the rear end of the second shaft rod 213 and are meshed with each other.

Winding assembly 22 comprises a seat block 221, a main shaft 222, a first internal thread sleeve 223, a third gear 224, a fourth gear 226, a fourth motor 225, a take-up reel 227 and a chassis 228; the seat block 221 is fixed on the outer wall of the front side of the cabinet body 1, the spindle 222 is transversely and rotatably inserted into the seat block 221, the fourth motor 225 is fixed on the rear side of the seat block 221 and is arranged in the cabinet body 1, the rotating shaft of the fourth motor 225 is transversely and rearwardly arranged, the third gear 224 and the fourth gear 226 are respectively sleeved and fixed on the rear end of the spindle 222 and the rotating shaft of the fourth motor 225 and are engaged with each other, the chassis 228 is sleeved and fixed on the spindle 222 and is arranged on the front side of the cabinet body 1, the take-up reel 227 is sleeved and arranged outside the spindle 222 and is arranged on the front side of the chassis 228, the first internal thread sleeve 223 is sleeved and screwed on the front end of the spindle 222 and compresses the front end of the take-up reel 227, and the rear end of the take-up reel 227.

The left side of the cabinet body 1 is also provided with a bottom frame 3, the upper end of the bottom frame 3 is also fixed with a stand column 5, the stand column 5 is also provided with two wire releasing components 4 which are arranged up and down, and the two wire releasing components 4 are respectively matched with the two wire winding components 2.

The pay-off assembly 4 comprises a wheel shaft 43, a rack 41, a fifth motor 42, a pay-off reel 44 and a second internal thread sleeve 45; the wheel shaft 43 is transversely and rotatably inserted in the upright post 5, the fifth motor 42 is fixed at the rear side of the upright post 5 through the rack 41, the rotating shaft of the fifth motor 42 transversely and forwardly penetrates through the rack 41 and is fixed at the rear end of the wheel shaft 43, the pay-off reel 44 is sleeved outside the wheel shaft 43 and cannot rotate relative to the wheel shaft 43 and is arranged at the front side of the upright post 5, and the second internal thread sleeve 45 is sleeved and screwed at the front end of the wheel shaft 43 and is arranged at the front end of the pay-off reel 44.

The working principle is as follows: firstly, screwing off the second internal thread sleeves 45 in the two pay-off assemblies 4, then respectively sleeving the two pay-off discs 44 wound with the photovoltaic welding strips on the wheel shafts 43 in the two pay-off assemblies 4, and then screwing the two second internal thread sleeves 45 back to the two wheel shafts 43; one end of the photovoltaic solder strip is pulled out outwards and wound around the lower side of the second guide wheel 216 in the guide component 21 in the corresponding winding component 2, further wound upwards through the upper side of the first guide wheel 212 in the same guide component 21, and then wound on the take-up reel 227 in the winding component 22 in the same winding component 2 after passing through the two bowstrings 2111 in the same guide component 21.

The fifth motor 42 is started to rotate the rotating shaft thereof, so as to drive the pay-off reel 44 to rotate by means of the wheel shaft 43 and the second internal thread sleeve 45 to release the photovoltaic solder strip, and simultaneously, the corresponding fourth motor 225 is started to rotate the rotating shaft thereof, so as to drive the spindle 222 to rotate by means of the third gear 224 and the fourth gear 226, so as to drive the take-up reel 227 to rotate by means of the chassis 228 and the first internal thread sleeve 223 to realize rewinding of the photovoltaic solder strip.

During rewinding, the first motor 2119 is started to rotate the rotating shaft, so that the lead screw 2118 is driven to rotate between the partition 2117 and the front end of the box 2116, the internal thread sleeve 2120 is driven to move back and forth according to the principle of threaded connection, and the traction block 2121 drives the two guide posts 2122 to move back and forth so as to drive the traction assembly to move back and forth synchronously; when moving, the two bowstrings 2111 in the traction assembly can drive the photovoltaic welding strip to slowly move back and forth, so that the photovoltaic welding strip can be uniformly and neatly wound on the take-up reel 227; meanwhile, the two guide posts 2122 drive the back plate 211 to move back and forth synchronously, so as to drive the relative positions of the first guide wheel 212 and the second guide wheel 216 and the two bowstrings 2111 to remain unchanged.

After rewinding is finished, the second motor 2115 is started to enable the rotating shaft to rotate, and then the first shaft 2113 is driven to rotate in the shaft sleeve 2112, so that the wire bow 2110 is driven to swing in the direction away from the take-up reel 227, then the first internal thread sleeve 223 is screwed off, the take-up reel 227 rewound with the photovoltaic welding strip is taken out forwards and replaced by an empty take-up reel 227, then the first internal thread sleeve 223 is screwed back and screwed, finally the rotating shaft of the second motor 2115 is started to rotate in the reverse direction, and then the wire bow 2110 is driven to swing in the direction close to the take-up reel 227 according to the same principle.

If the tightness of the photovoltaic solder strip during rewinding needs to be adjusted, the third motor 219 can be started to rotate the rotating shaft thereof, so as to drive the second shaft rod 213 to rotate by means of the first gear 218 and the second gear 2123, so as to drive the swing rod 214 to rotate, and further adjust the tightness of the photovoltaic solder strip by adjusting the position of the second guide wheel 216; the provision of the weight 215 reduces the driving force required for the swing link 214 to rotate.

Similarly, the photovoltaic solder strip wound on the pay-off reel 44 in the other pay-off assembly 4 is also rewound with the other corresponding winding assembly 2 in this way.

The utility model discloses simple structure to the operation has been simplified so that use, and once can accomplish the rewinding of two rolls of photovoltaic solder strips simultaneously, thereby improved work efficiency.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes in the embodiments and modifications thereof may be made, and equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims

1. The utility model provides a rewinding machine of photovoltaic solder strip, includes the cabinet body, its characterized in that: the cabinet body is provided with two winding assemblies which are vertically arranged, each winding assembly comprises a guide assembly and a winding assembly arranged on the right side of the guide assembly, each guide assembly comprises a back plate, a first guide wheel, a box body, a first motor, a partition plate, a lead screw, an internal thread sleeve, a traction block and guide pillars, the back plate is arranged on the front side of the cabinet body, the box body is fixed on the inner wall of the front side of the cabinet body, the partition plate is vertically fixed in the box body, the lead screw is transversely and rotatably inserted between the partition plate and the front end of the box body, the first motor is embedded at the rear end of the box body, the rotating shaft of the first motor is transversely and forwardly fixed at the rear end of the lead screw, the internal thread sleeve is screwed outside the lead screw and embedded and fixed in the traction block, the traction block is also internally and fixedly inserted with two guide pillars which are symmetrically distributed in parallel, and the two ends of each guide, the front ends of the two guide pillars penetrate through the front side of the cabinet body and are fixed on the rear side of the back plate, the first guide wheel is rotatably arranged on the front side of the back plate, and a traction assembly is arranged between the traction block and the back plate; the traction assembly comprises a first shaft rod, a first bracket, a second motor, a shaft sleeve, a wire bow and a bow string; the shaft sleeve is transversely embedded and fixed in the back plate and arranged on the right side of the first guide wheel, and the first shaft rod is transversely and rotatably inserted in the shaft sleeve; the wire bow is arranged on the front side of the shaft sleeve, the lower end of the wire bow is fixed at the front end of the first shaft lever, and two detachable bowstrings which are arranged in parallel are fixed between the upper end and the lower end of the wire bow; the second motor is fixed on the rear side of the traction block through the first support, and a rotating shaft of the second motor transversely forwards penetrates through the traction block and is fixed at the rear end of the first shaft lever.

2. A rewinding machine for photovoltaic solder strips as claimed in claim 1, characterized in that: the guide assembly further comprises a second shaft lever, a swing rod, a balancing weight, a second guide wheel, a second support, a first gear, a second gear and a third motor; the second shaft rod is transversely and rotatably inserted into the back plate and arranged on the left side of the first guide wheel, the swing rod is inserted and fixed at the front end of the second shaft rod, the second guide wheel is rotatably arranged at the left end of the swing rod, the balancing weight is fixed at the right end of the swing rod, the third motor is fixed at the rear side of the back plate through the second support, the rotating shaft of the third motor transversely forwards penetrates through the second support and extends out of the rear side of the back plate, and the first gear and the second gear are respectively sleeved and fixed at the rotating shaft of the third motor and the rear end of the second shaft rod and are meshed with each other.

3. A rewinding machine for photovoltaic solder strips as claimed in claim 1, characterized in that: the winding assembly comprises a seat block, a main shaft, a first internal thread sleeve, a third gear, a fourth motor, a take-up reel and a chassis; the utility model discloses a cabinet, including base piece, main shaft, fourth motor, chassis cover, take-up reel cover, base piece, main shaft, third gear and fourth gear, the base piece is fixed on the front side outer wall of the cabinet body, the horizontal and rotatable interlude of main shaft sets up in the base piece, the fourth motor is fixed at the rear side of base piece and is located the cabinet internal, the axis of rotation of fourth motor sets up transversely backward, third gear and fourth gear overlap respectively and establish and fix on the rear end of main shaft and the axis of rotation of fourth motor and intermeshing, the chassis cover is established and is fixed on the main shaft and locate the front side of the cabinet body, the take-up reel cover is established outside the main shaft and is located the front side on chassis, the spiro union is established at the front end of main shaft and is compressed tightly.

4. A rewinding machine for photovoltaic solder strips as claimed in claim 1, characterized in that: the left side of the cabinet body is further provided with a bottom frame, the upper end of the bottom frame is further fixed with a stand column, the stand column is further provided with two wire releasing assemblies which are vertically arranged, and the two wire releasing assemblies are respectively matched with the two wire winding assemblies.

5. A rewinding machine for photovoltaic solder strips according to claim 4, characterized in that: the pay-off assembly comprises a wheel shaft, a rack, a fifth motor, a pay-off reel and a second internal thread sleeve; the wheel shaft is transversely and rotatably inserted in the stand, the fifth motor is fixed to the rear side of the stand through the rack, the rotating shaft of the fifth motor transversely forwards penetrates through the rack and is fixed to the rear end of the wheel shaft, the pay-off reel is sleeved outside the wheel shaft and cannot rotate relative to the wheel shaft and is arranged on the front side of the stand, and the second internal thread sleeve is sleeved on the front end of the wheel shaft and is arranged at the front end of the pay-off reel.