CN216735122U - Shaft-mounted welding strip production, conveying, weighing, sorting and packaging system - Google Patents

Abstract

The utility model discloses a shaft-mounted solder strip production, conveying, weighing, sorting and packaging system, which comprises a plurality of photovoltaic solder strip tin-plating integrated units arranged in an M-line-by-N-line matrix manner, a weighing device, at least one sorting machine and a plurality of packaging devices; a first main conveying belt parallel to the rows of the photovoltaic solder strip tinning integrated unit is arranged between the photovoltaic solder strip tinning integrated unit and the weighing device, and a plurality of collecting branch conveying belts vertical to the first main conveying belt are arranged on two sides of the first main conveying belt; the automatic sorting machine is characterized in that a second main conveying belt is arranged between the weighing device and the sorting machine, and sorting branch conveying belts are respectively arranged between the sorting machine and the plurality of packaging devices. The utility model discloses technical scheme has following beneficial effect: 1. the production efficiency of the shaft-mounted welding strip is improved, and the labor intensity is reduced; 2. the error rate is reduced, and the product quality inspection packaging qualification rate is improved; 3. the quality inspection data feedback efficiency is improved, and the rejection rate is reduced.

Description

Shaft-mounted welding strip production, conveying, weighing, sorting and packaging system

Technical Field

The utility model relates to a photovoltaic solder strip production facility field, concretely relates to axle dress solder strip production, transport, weighing, letter sorting and packaging system.

Background

The existing shaft-mounted welding strip basically takes manual operation as the main operation during station operations such as quality inspection, weighing, sorting, bagging, vacuumizing, boxing, stacking and the like. The existing operation mode mainly has the following defects:

(1) the production efficiency is low: along with the continuous expansion of production scale, the axle dress welding strip of production every day increases in a large number, but is subject to restrictions such as personnel, place, and the axle dress welding strip can't in time operation when quality control, weighing, letter sorting, bagging-off evacuation and vanning pile up neatly, causes the welding strip to expose in the air for a long time, receives external environment influence, causes certain influence to axle dress welding strip finished product quality.

(2) The labor intensity is large: the weight of the single-reel welding strip is about 7-10 kg, under the condition that the full-automatic tinning all-in-one machine in a production workshop works, the production reel is used for loading about 1200-1500 coils of the welding strip every day, an operator needs to finish the material trolley transfer for hundreds of times every day, the handling operation exceeding the reel loading welding strip for thousands of times is finished, the labor frequency of the operator is high, and the intensity is high;

(3) the error rate is high: because whole quality control, weigh, sort, bagging-off evacuation and vanning pile up neatly operation are with the people owner, receive the human factor great, if identification label information or handling in-process make mistakes, chaotic phenomena such as different axle assembly welding strip letter sorting, vanning will appear and take place.

(4) Quality inspection data cannot be fed back in time to guide production: a large amount of shaft-mounted welding belts produced by the full-automatic tinning all-in-one machine are not transferred and subjected to quality inspection in time, so that after the large amount of shaft-mounted welding belts are easily accumulated, if relevant parameters (main technical parameters: mechanical property, appearance and size) of the quality inspection do not meet requirements, the relevant parameters cannot be fed back to operators of the full-automatic tinning all-in-one machine for adjustment in time, and the risk that the technical requirements of the quality inspection cannot be met by the large amount of shaft-mounted welding belts exists.

Therefore, how to improve the production efficiency of the shaft-mounted welding strip and reduce the defective rate is a technical problem which needs to be solved by the technical personnel in the field at present.

Disclosure of Invention

For solving above technical problem, the utility model aims at providing a production of axle dress welding strip, transport, weigh, letter sorting and packaging system to solve the technical problem that axle dress welding strip production efficiency is low, work intensity of labour is big, the error rate is high among the school friend's technique.

In order to achieve the purpose, the utility model adopts the following technical scheme to solve the problem.

A shaft-mounted solder strip production, conveying, weighing, sorting and packaging system comprises a plurality of photovoltaic solder strip tin-plating integrated units arranged in an M-row-by-N-row matrix manner, a weighing device, at least one sorting machine and a plurality of packaging devices; a first main conveying belt parallel to the rows of the photovoltaic solder strip tinning integrated unit is arranged between the photovoltaic solder strip tinning integrated unit and the weighing device, and a plurality of collecting branch conveying belts vertical to the first main conveying belt are arranged on two sides of the first main conveying belt; the automatic sorting machine is characterized in that a second main conveying belt is arranged between the weighing device and the sorting machine, and sorting branch conveying belts are respectively arranged between the sorting machine and the plurality of packaging devices.

Further, the collecting branch conveying belt is used for collecting shaft-mounted welding belts produced by the photovoltaic welding belt tinning integrated unit; collect and prop up the crossing department of transmission band and first main transmission band and be provided with 90 degrees rotary manipulator, 90 degrees rotary manipulator is used for with collect prop up the axle assembly welding area on the transmission band and shift to first main transmission band on.

Further, still include the collection controller, be provided with first detector on being close to 90 degrees rotatory manipulator's the first main conveyer belt, the end of every collection transmission band is provided with the second detector, first detector, second detector and 90 degrees rotatory manipulator all with the collection controller electricity is connected.

Furthermore, the weighing device comprises a weighing rack and a weighing transmission belt, and a weighing sensor is arranged between the weighing transmission belt and the weighing rack; the first section of the weighing conveyor belt is aligned with the tail end of the first main conveyor belt, and the tail end of the weighing conveyor belt is aligned with the head end of the second main conveyor belt.

Further, the weighing device also comprises a weighing controller; the tail end of the first main conveying belt is sequentially provided with a third detector and a first scanner along the conveying direction of the first main conveying belt; the head end of the second main conveyor belt is sequentially provided with a fourth detector and a first material pushing cylinder along the conveying direction of the second main conveyor belt, and an unqualified product inclined guide groove is formed in the position opposite to the first material pushing cylinder;

further, the sorting machine comprises a sorting rack, and a 180-degree rotating manipulator is arranged on the sorting rack; the sorting machine frame is erected on the second main conveying belt, and a sorting conveying belt is arranged on the left side and the right side of each sorting machine respectively.

Further, the device also comprises a sorting controller; the end of the second main conveying belt close to each sorting machine is provided with a second code scanner, and the second code scanner and the 180-degree rotary manipulator are electrically connected with the sorting controller.

Further, the tail end of each sorting branch conveying belt is provided with the packaging device; the packaging device comprises a bagging mechanism, a packaging conveying belt and a sealing machine.

Furthermore, the head end of the packaging conveying belt and the tail end of the sorting branch conveying belt are arranged in a staggered mode, and the butt joint distance between the head end of the packaging conveying belt and the tail end of the sorting branch conveying belt is larger than the diameter of the shaft assembling and welding belt; the packaging conveying belt is positioned on the right side of the sorting branch conveying belt, and a second material pushing cylinder is arranged on the left side of the tail end of the sorting branch conveying belt; the bagging mechanism comprises a bagging rack, a packaging bag placing table positioned on the right side of the head end of the packaging conveying belt is arranged on the bagging rack, and a plurality of single-opening packaging bags with openings facing left are stacked on the packaging bag placing table; still be provided with the wrapping bag in the bagging-off frame and take and open a mouthful manipulator, the wrapping bag is taken and is opened a mouthful manipulator and can put the wrapping bag and put the thing bench single open-ended wrapping bag, remove to packing transmission band head end and open the opening of single open-ended wrapping bag, the second pushes away the material cylinder and is used for pushing away the axle dress welding strip from the end of a letter sorting transmission band to in the single open-ended wrapping bag.

Further, the capper is evacuation blanching formula capper, the material of single-opening wrapping bag is PE or PP.

The utility model discloses technical scheme has following beneficial effect for prior art:

(1) the production efficiency of the axle dress welding area has been improved: the production, conveying, weighing, sorting and packaging system of the shaft-mounted welding strip only needs an operator of the full-automatic tinning all-in-one machine to place the shaft-mounted welding strip on the automatic conveying device, and except manual quality inspection, the rest is automatically completed by the automatic conveying device, the weighing device, the sorting machine and the packaging device. The conveying and packaging operation of the shaft-mounted welding strip can be completed according to the production rhythm of 2-4 coils/minute.

(2) The labor intensity is reduced: except that quality control is accomplished by operating personnel, all the other full-automatic modes of adoption all can so reducible operating personnel transport the operation repeatedly, greatly reduced operating personnel intensity of labour.

(3) The error rate is reduced, and the product quality inspection packaging qualification rate is improved: conveying, weighing, sorting, bagging and vacuumizing of the shaft-mounted welding strip and boxing operation are all automated, so that human factors are greatly reduced, error rate is reduced, and packaging qualification rate is improved.

(4) The quality inspection data feedback efficiency is improved, and the rejection rate is reduced: the quality inspection and packaging of the single shaft solder strip from the production machine of the full-automatic tin-plating all-in-one machine only need 15-20 minutes, and quality inspection personnel can timely detect related data of the photovoltaic solder strip, and if the quality inspection data is abnormal, the related data can be timely fed back to the production machine of the full-automatic tin-plating all-in-one machine to adjust production parameters (main technical parameters: mechanical property, appearance and size).

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

FIG. 1 is a general schematic view of a shaft-mounted welding belt production, conveying, weighing, sorting and packaging system of the present invention;

FIG. 2 is an enlarged schematic view of FIG. 1 at A, where the collecting sub-conveyor intersects the first main conveyor;

FIG. 3 is an enlarged schematic view of FIG. 1 at B, the weighing apparatus;

FIG. 4 is an enlarged view of the sorter and sorting branch conveyor shown at C in FIG. 1;

FIG. 5 is an enlarged schematic view of the packaging device at D in FIG. 1;

fig. 6 is an enlarged schematic view of the bagging mechanism of fig. 5.

In the above figures:

1, a photovoltaic solder strip tinning integrated unit;

2, a weighing device; 201 a weighing frame; 202 a weighing conveyer belt;

3, a sorting machine; 301 a sorting rack; 302180 degree rotary manipulator;

4, a packaging device;

a 401 bagging mechanism; 4011 bagging machine frame; 4012 packaging bag placement table; 4013 single-opening pouch; 4014 an upper suction plate; 4015 lower suction plate;

402 a packaging conveyor belt; 403 sealing machine; 404 a second pusher cylinder;

5 a first main conveyor belt; 6 collecting and conveying belts; 7 a second main conveyor belt; 8 sorting branch conveying belts; a 990-degree rotary manipulator; 10 shafts of welding strips are mounted; 11 a first detector; 12 a second detector; 13 a third detector; 14 a first scanner; 15 a fourth detector; 16 a first pusher cylinder; 17, an unqualified product inclined guide groove; 18 second scanner.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, specific details are set forth in order to provide a thorough understanding of the present invention. The invention can be implemented in a number of other ways than those described herein, and those skilled in the art will be able to make similar generalizations without departing from the spirit of the invention. The invention is therefore not limited to the specific embodiments disclosed below.

Referring to fig. 1, a system for producing, conveying, weighing, sorting and packaging shaft-mounted solder strips 10 comprises a plurality of photovoltaic solder strip tin-plating integrated units 1 arranged in an M-row x N-column matrix form, a weighing device 2, at least one sorting machine 3 and a plurality of packaging devices 4; a first main conveying belt 5 parallel to the rows of the photovoltaic solder strip tinning integrated unit 1 is arranged between the photovoltaic solder strip tinning integrated unit 1 and the weighing device 2, and a plurality of collecting branch conveying belts 6 perpendicular to the first main conveying belt 5 are arranged on two sides of the first main conveying belt 5; be provided with second main transmission band 7 between weighing device 2 and the sorting machine 3, be provided with a letter sorting transmission band 8 between sorting machine 3 and a plurality of packing plant 4 respectively.

In the above embodiment, the plurality of photovoltaic solder strip tin-plating integrated units 1 arranged in an M-row × N-column matrix manner can produce the shaft solder strips 10 of the same specification or different specifications, each shaft solder strip 10 is pasted with the two-dimensional code at least containing the rated weight of the current shaft solder strip 10, then the shaft solder strips 10 are conveyed to the main conveyor belt through the collecting support conveyor belt 6, the weighing device 2 is used for carrying out weight detection, the shaft solder strips 10 with unqualified weight are removed, the shaft solder strips 10 with qualified weight are continuously conveyed to the sorting machine 3, the sorting machine 3 sorts the shaft solder strips 10 to different sorting support conveyor belts 8 according to weight, the tail end of each sorting support conveyor belt 8 is provided with the packaging device 4, and the shaft solder strips 10 are packaged. The production, conveying, weighing, sorting and packaging system of the shaft-mounted welding strip 10 integrates the production, conveying, weight inspection, sorting and packaging processes, and has high production efficiency.

Further, the collecting and supporting conveyor belt 6 is used for collecting the shaft-mounted solder strip 10 produced by the photovoltaic solder strip tinning integrated unit 1; the intersection of the collecting and supporting conveying belt 6 and the first main conveying belt 5 is provided with a 90-degree rotating manipulator 9, and the 90-degree rotating manipulator 9 is used for transferring a shaft welding belt 10 on the collecting and supporting conveying belt 6 to the first main conveying belt 5. Still including collecting the controller, be provided with first detector 11 on being close to 90 degrees rotatory manipulator 9's the first main transmission band 5, every end of collecting a transmission band 6 is provided with second detector 12, first detector 11, second detector 12 and 90 degrees rotatory manipulator 9 all with collecting the controller electricity and being connected.

In the above embodiment, for the shaft solder tape 10 on the collecting support conveyer 6, the 90-degree rotary robot 9 is provided at the intersection of the collecting support conveyer 6 and the first main conveyer 5, the first detector 11 detects the condition of the shaft solder tape 10 on the first main conveyer 5, and the second detector 12 detects the condition of the shaft solder tape 10 on the collecting support conveyer 6. When the second detector 12 detects that the shaft solder tape 10 arrives on the collecting and conveying belt 6, it sends information to the collecting controller, and the collecting controller judges whether the shaft solder tape 10 on the collecting and conveying belt 6 can be transferred to the first main conveying belt 5 according to the information of the first detector 11.

Further, the weighing device 2 comprises a weighing rack 201 and a weighing conveyer belt 202, and a weighing sensor is arranged between the weighing conveyer belt 202 and the weighing rack 201; the leading end of the weigh belt 202 is aligned with the trailing end of the first main belt 5 and the trailing end of the weigh belt 202 is aligned with the leading end of the second main belt 7.

Further, the weighing device 2 further comprises a weighing controller; the tail end of the first main conveyor belt 5 is sequentially provided with a third detector 13 and a first scanner 14 along the conveying direction of the first main conveyor belt 5; the head end of the second main conveyor belt 7 is provided with a fourth detector 15 and a first material pushing cylinder 16 in sequence along the transmission direction of the second main conveyor belt 7, and an unqualified product inclined guide groove 17 is formed opposite to the first material pushing cylinder 16.

In the above embodiment, when the shaft solder strips 10 of multiple specifications are transported to the weighing device 2, the third detector 13 detects that the shaft solder strip 10 arrives, sends information to the weighing controller, the weighing controller sends information to the first scanner 14, the first scanner 14 scans the two-dimensional code on the shaft solder strip 10 to obtain the rated weight of the current shaft solder strip 10, when the shaft solder strip 10 is transported to the weighing conveyer 202, the weighing sensor obtains the actual weight of the current shaft solder strip 10 and sends the actual weight to the weighing controller, and the weighing controller judges whether the actual weight of the current shaft solder strip 10 is within the weight tolerance range according to the rated weight obtained by the two-dimensional code and the actual weight obtained by the weighing sensor. If the weight of the current shaft welding strip 10 is within the tolerance range, judging that the weight of the current shaft welding strip is qualified, and controlling the first material pushing cylinder 16 not to act; if the actual weight of the current shaft welding strip 10 exceeds the weight tolerance range, the current shaft welding strip 10 is judged to be unqualified in weight, and the first material pushing cylinder 16 is controlled to act to push the current shaft welding strip 10 to the unqualified product inclined guide groove 17.

Further, the sorting machine 3 comprises a sorting rack 301, and a 180-degree rotary manipulator 302 is arranged on the sorting rack 301; the sorting machine frame 301 is erected on the second main conveying belt 7, and a sorting branch conveying belt 8 is arranged on the left side and the right side of each sorting machine 3 respectively.

Further, the device also comprises a sorting controller; a second code scanner 18 is provided near the end of the second main conveyor 7 of each sorter 3, the second code scanner 18 and the 180-degree rotary robot 302 being electrically connected to the sorting controller.

In the above embodiment, when the shaft-mounted welding strip 10 is transported to the sorting machine 3, the second code scanner 18 scans and acquires the weight information of the current shaft-mounted welding strip 10 and sends the weight information to the sorting controller, the sorting controller determines which sorting branch conveyor 8 should sort the current shaft-mounted welding strip 10 and sends the information to the 180-degree rotary manipulator 302, and the 180-degree rotary manipulator 302 transfers the current shaft-mounted welding strip 10 to the corresponding sorting branch conveyor 8.

The tail end of each sorting branch conveying belt 8 is provided with the packaging device 4; the packaging device 4 comprises a bagging mechanism 401, a packaging conveyor 402 and a capper 403. The head end of the packaging conveyor belt 402 and the tail end of the sorting branch conveyor belt 8 are arranged in a staggered mode, and the butt joint distance between the head end of the packaging conveyor belt 402 and the tail end of the sorting branch conveyor belt 8 is larger than the diameter of the shaft welding belt 10; the packaging conveyor belt 402 is positioned at the right side of the sorting branch conveyor belt 8, and a second material pushing cylinder 404 is arranged at the left side of the tail end of the sorting branch conveyor belt 8; the bagging mechanism 401 comprises a bagging frame 4011, a packaging bag placing table 4012 located on the right side of the front end of the packaging conveying belt 402 is arranged on the bagging frame 4011, and a plurality of single-opening packaging bags 4013 with openings facing left are stacked on the packaging bag placing table 4012; still be provided with the wrapping bag on the bagging-off frame 4011 and take and open a mouthful manipulator, the wrapping bag is taken and is opened a mouthful manipulator and can snatch the single open-ended wrapping bag 4013 on the wrapping bag thing platform 4012, remove to packing transmission band 402 head end and open the opening of single open-ended wrapping bag 4013, the second pushes away material cylinder 404 and is used for pushing away the axle dress welding area 10 from the end of a letter sorting transmission band 8 to in the single open-ended wrapping bag 4013.

In the above embodiment, the shaft solder strips 10 distributed to each sorting branch conveyor 8 are first loaded into the single-opening package 4013 by the bag loading mechanism 401, and then sealed by the sealing machine 403. Specifically, the packaging bag taking and opening manipulator comprises a movable upper suction plate 4014 and a lower suction plate 4015 fixed between the packaging conveying belt 402 and the sorting conveying belt 8, and the upper suction plate 4014 can horizontally move and vertically move through a translation cylinder and a lifting cylinder. The lower surface of the upper suction plate 4014 is provided with a plurality of holes, each hole is connected with low-pressure air, the upper surface of the lower suction plate 4015 is provided with a plurality of holes, and each hole is connected with low-pressure air. When the upper suction plate 4014 moves to the single-opening packing bag 4013, the upper surface of the single-opening packing bag 4013 is adsorbed, the upper suction plate 4014 moves the single-opening packing bag 4013 to the lower suction plate 4015 through the translation cylinder and the lifting cylinder, the lower surface of the single-opening packing bag 4013 is adsorbed, the upper suction plate 4014 moves upwards to open the bag mouth, the second material pushing cylinder 404 pushes the shaft-mounted welding strip 10 into the single-opening packing bag 4013, and the shaft-mounted welding strip 10 loaded into the single-opening packing bag 4013 is transported to the sealing machine 403 along with the packing conveyor 402 for sealing.

Further, the sealing machine 403 is a vacuum-pumping hot-ironing sealing machine 403, and the single-opening packaging bag 4013 is made of PE or PP.

In the above embodiment, the shaft-mounted solder ribbon 10 loaded into the single-opening packaging bag 4013 is first vacuumed and then sealed by the vacuum-pumping blanching sealer 403.

So far, the production, conveying, weighing, checking, sorting and packaging processes of the shaft-mounted welding strip 10 are all completed.

The utility model discloses technical scheme has following beneficial effect for prior art:

(1) the production efficiency of the axle dress welding strip has been improved: the production, conveying, weighing, sorting and packaging system of the shaft-mounted welding strip only needs an operator of the full-automatic tinning all-in-one machine to place the shaft-mounted welding strip on the automatic conveying device, and except manual quality inspection, the rest is automatically completed by the automatic conveying device, the weighing device, the sorting machine and the packaging device. The conveying and packaging operation of the shaft-mounted welding strip can be completed according to the production rhythm of 2-4 coils/minute.

(2) The labor intensity is reduced: except that quality control is accomplished by operating personnel, all the other full-automatic modes of adoption all can so reducible operating personnel transport the operation repeatedly, greatly reduced operating personnel intensity of labour.

(3) The error rate is reduced, and the product quality inspection packaging qualification rate is improved: conveying, weighing, sorting, bagging and vacuumizing of the shaft-mounted welding strip and boxing operation are all automated, so that human factors are greatly reduced, error rate is reduced, and packaging qualification rate is improved.

(4) The quality inspection data feedback efficiency is improved, and the rejection rate is reduced: the quality inspection and packaging of the single shaft solder strip from the production machine of the full-automatic tin-plating all-in-one machine only need 15-20 minutes, and quality inspection personnel can timely detect related data of the photovoltaic solder strip, and if the quality inspection data is abnormal, the related data can be timely fed back to the production machine of the full-automatic tin-plating all-in-one machine to adjust production parameters (main technical parameters: mechanical property, appearance and size).

Although the invention has been described in detail in this specification with reference to specific embodiments and illustrative embodiments, it will be apparent to those skilled in the art that certain changes and modifications can be made therein without departing from the scope of the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims (10)

1. A shaft-mounted solder strip production, conveying, weighing, sorting and packaging system is characterized by comprising a plurality of photovoltaic solder strip tin-plating integrated units (1) which are arranged in an M-row X N-row matrix manner, a weighing device (2), at least one sorting machine (3) and a plurality of packaging devices (4); a first main conveying belt (5) parallel to the rows of the photovoltaic solder strip tinning integrated unit (1) is arranged between the photovoltaic solder strip tinning integrated unit (1) and the weighing device (2), and a plurality of collecting and supporting conveying belts (6) vertical to the first main conveying belt (5) are arranged on two sides of the first main conveying belt (5); be provided with second main transmission band (7) between weighing device (2) and sorting machine (3), be provided with a letter sorting transmission band (8) between sorting machine (3) and a plurality of packing plant (4) respectively.

2. The shaft solder strip production, conveying, weighing, sorting and packaging system according to claim 1, characterized in that the collection branch conveyor (6) is used for collecting the shaft solder strips (10) produced by the photovoltaic solder strip tinning integrated unit (1); collect and prop up the crossing department of transmission band (6) and first main transmission band (5) and be provided with 90 degrees rotary manipulator (9), 90 degrees rotary manipulator (9) are used for shifting to first main transmission band (5) with a dress of collecting on the transmission band (6) welds area (10).

3. The shaft solder strip production, conveying, weighing, sorting and packaging system according to claim 2, characterized by further comprising a collection controller, wherein a first detector (11) is arranged on the first main conveyor (5) near the 90-degree rotary manipulator (9), a second detector (12) is arranged at the end of each collection support conveyor (6), and the first detector (11), the second detector (12) and the 90-degree rotary manipulator (9) are electrically connected with the collection controller.

4. The shaft solder strip production, conveying, weighing, sorting and packaging system according to claim 3, characterized in that the weighing device (2) comprises a weighing frame (201) and a weighing conveyor belt (202), and a weighing sensor is arranged between the weighing conveyor belt (202) and the weighing frame (201); the leading end of the weighing conveyor (202) is aligned with the trailing end of the first main conveyor (5) and the trailing end of the weighing conveyor (202) is aligned with the leading end of the second main conveyor (7).

5. The shaft weld strip production, conveying, weighing, sorting and packaging system according to claim 4, characterized in that the weighing device (2) further comprises a weighing controller; the tail end of the first main conveying belt (5) is sequentially provided with a third detector (13) and a first scanner (14) along the conveying direction of the first main conveying belt (5); the head end of the second main conveying belt (7) is sequentially provided with a fourth detector (15) and a first material pushing cylinder (16) along the conveying direction of the second main conveying belt (7), and the opposite side of the first material pushing cylinder (16) is provided with an unqualified product inclined guide groove (17).

6. The shaft-mounted solder strip production, conveying, weighing, sorting and packaging system according to claim 5, characterized in that the sorting machine (3) comprises a sorting rack (301), and a 180-degree rotary manipulator (302) is arranged on the sorting rack (301); the sorting machine is characterized in that the sorting machine frame (301) is erected on the second main conveying belt (7), and a sorting branch conveying belt (8) is arranged on the left side and the right side of each sorting machine (3) respectively.

7. The shaft weld tape production, delivery, weighing, sorting and packaging system of claim 6, further comprising a sorting controller; a second code scanner (18) is arranged at the tail end of the second main conveying belt (7) close to each sorting machine (3), and the second code scanner (18) and the 180-degree rotary manipulator (302) are electrically connected with the sorting controller.

8. The shaft solder strip production, conveying, weighing, sorting and packaging system according to claim 7, characterized in that the packaging device (4) is arranged at the end of each sorting branch conveyor belt (8); the packaging device (4) comprises a bagging mechanism (401), a packaging conveying belt (402) and a sealing machine (403).

9. The shaft solder strip production, conveying, weighing, sorting and packaging system of claim 8, characterized in that the head end of the packaging conveyor belt (402) is arranged offset to the end of the sorting branch conveyor belt (8), and the butt joint distance between the head end of the packaging conveyor belt (402) and the end of the sorting branch conveyor belt (8) is larger than the diameter of the shaft solder strip (10); the packaging conveying belt (402) is positioned on the right side of the sorting branch conveying belt (8), and a second material pushing cylinder (404) is arranged on the left side of the tail end of the sorting branch conveying belt (8); the bagging mechanism (401) comprises a bagging rack (4011), a packaging bag placing table (4012) located on the right side of the front end of the packaging conveying belt (402) is arranged on the bagging rack (4011), and a plurality of single-opening packaging bags (4013) with openings facing left are stacked on the packaging bag placing table (4012); still be provided with the wrapping bag on bagging-off frame (4011) and take and open a mouthful manipulator, the wrapping bag is taken and is opened a mouthful manipulator can snatch, remove packing transmission band (402) head end and open the opening of single open-ended wrapping bag (4013) with single open-ended wrapping bag (4013) on the wrapping bag storage platform (4012), the second pushes away material cylinder (404) and is used for pushing away the axle dress and welds area (10) from the end of a letter sorting transmission band (8) to in single open-ended wrapping bag (4013).

10. The shaft-mounted welding strip production, conveying, weighing, sorting and packaging system as recited in claim 9, characterized in that the sealing machine (403) is a vacuum-ironing sealing machine (403), and the single-opening packaging bag (4013) is made of PE or PP.

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