CN212608465U - RFID double-label labeling composite die-cutting detection equipment - Google Patents

Abstract

The utility model relates to a paste mark composite die cutting check out test set technical field, specifically disclose a RFID two mark head paste mark composite die cutting check out test set, including the rack, the positive central position department that is close to the right side of rack installs the cutting mechanism, cut first driven voller, cut the second driven voller, cut the third driven voller, finished product is received the material drive roll, the die-cutting mechanism, the cross cutting drive roller, the fifth driven voller, receive the material fourth driven voller, receive the material drive roller, receive the material third driven voller, receive the material second driven voller, receive the material first driven voller, paste mark composite receipt material drive roll, paste mark composite feeding drive roll, paste the mark platform, the rectifier, buffer gear, paste mark second driven voller and paste mark first driven voller, paste the mark head, slidingtype touch-sensitive screen mechanism, connect the mark mechanism, form the second driven vol; the utility model discloses the product precision is high, and production speed is fast, easy operation, and degree of automation is high, is fit for various enterprises and uses.

Description

RFID double-label labeling composite die-cutting detection equipment

Technical Field

The utility model relates to a paste mark composite die cutting check out test set technical field, concretely relates to two mark heads of RFID paste mark composite die cutting check out test set.

Background

With the development of science and technology, the application of the RFID electronic tags is wider and wider, and more enterprises use the labeling machines to produce the electronic tags due to the high additional value and large utilization space of the electronic tags.

However, the existing labeling machine can only label and compound into a semi-finished product, but can not directly mold into a finished product, because the die cutting process is complex, the chip has high required quality, and multiple procedures such as anti-counterfeiting, anti-pressing, bottom part layering and the like need to be performed by one-time die cutting molding, so that general enterprises can only send the labeled and compounded semi-finished product into a special die cutting machine and then prepare the finished product through multiple procedures, thus the labor and time consumption are wasted, and the production of the enterprises is seriously influenced.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art, the utility model provides a two mark heads of RFID paste mark composite die cutting check out test set possesses according to advantages such as one shot forming, process are simple, has solved the low problem of traditional production efficiency.

The utility model discloses a compound cross cutting check out test set of RFID two mark head subsides mark, which comprises a cabinet, the rack openly just is close to the position department at left side top and installs facial tissue pay-off second driven voller, the rack openly just is close to the position department of the central authorities on right side and installs and cuts the mechanism, the rack openly just is close to the position department on cutting the mechanism right side from left to right installs in proper order and cuts first driven voller, cuts the second driven voller and cuts the third driven voller, the rack openly just is close to the position department of cutting the third driven voller bottom and installs the finished product and receive the material drive roller, the rack openly just is close to the left position department of cutting the mechanism and installs the cross cutting drive roller, the rack openly just is close to the left position department of die cutting mechanism and installs in, Receive the material drive roller, receive material third driven voller, receive material second driven voller and receive material first driven voller, the positive and position department that is close to central bottom of rack installs the compound material drive roller of receiving of subsides mark, the positive and left position department of the compound material drive roller of receiving of subsides mark of being close to the mark installs the compound pay-off drive roller of mark, the positive and left position department fixedly connected with mark platform of being close to central of rack, the positive and left side bottom department of left side department of rack installs the ware of rectifying, the positive and position department that is close to around the ware of rectifying installs the first driven voller of rectifying, the second driven voller of rectifying and the third driven voller of rectifying, the positive and position department that is close to the top of the ware of rectifying of rack installs buffer gear, the positive and left position department of mark platform of rack installs the second, the cabinet is characterized in that two labeling heads are installed at the positions, close to the top of the left side, of the cabinet, a sliding type touch screen mechanism is fixedly connected to the positions, close to the front left side, of the top of the cabinet, a labeling receiving mechanism is installed at the positions, close to the top of the receiving driving roller, of the cabinet, a labeling receiving second driven roller and a labeling receiving first driven roller are installed at the positions, close to the left upper corner of the labeling receiving second driven roller, of the cabinet, a paper feeding second driven roller is installed at the positions, close to the top of the paper feeding second driven roller, of the cabinet, a paper feeding swing arm roller is fixedly connected to the positions, close to the top of the labeling receiving first driven roller, of the cabinet, and a tissue receiving driving roller is fixedly connected to the positions, close to the left side of the paper feeding second driving roller, of the cabinet, the rack openly just is close to the position department that the facial tissue was received the material drive roll top and installs the first driven voller of facial tissue pay-off, the rack openly just is close to the position department at central right side top and installs first garbage recovery drive roll, the rack openly just is close to the first garbage recovery driven voller of position department fixedly connected with at cross cutting drive roller top, the rack openly just is close to the position department at first garbage recovery driven voller top and installs first garbage recovery drive roll, the rack openly just is close to the position department of cutting first driven voller top and installs the second garbage recovery driven voller, the rack openly just is close to the position department at right side top and installs the second garbage recovery drive roll.

The utility model discloses a RFID double heading mark pastes compound cross cutting check out test set, wherein cut the mechanism and include the frame, the central fixedly connected with mounting bracket at frame top, positive top of mounting bracket and bottom are rotated respectively and are connected with and cut drive roll and compression roller, the central fixedly connected with drive gear on compression roller right side, drive gear meshes with the right side of cutting the drive roll mutually, the back fixedly connected with protection frame at frame top, the left central fixedly connected with adjust knob of frame.

The utility model discloses a RFID two mark heads paste mark composite die cutting check out test set, wherein the die cutting mechanism includes cross cutting deflector roll and power transition roller, the cross cutting deflector roll is located the top of power transition roller.

The utility model discloses a RFID two mark head paste mark composite die cutting check out test set, wherein paste the mark platform and include corrosion resistant plate, corrosion resistant plate top and be close to left position department and install first mark thing electric eye that marks, the corrosion resistant plate top just is close to position department on right side and installs light detection platform, the corrosion resistant plate top just is close to light detection platform left position department and installs the second mark thing electric eye that marks.

The utility model discloses a RFID two mark head pastes mark composite die cutting check out test set, wherein buffer gear includes the connecting plate, the connecting plate openly just is close to the first fixed roll of the position punishment difference fixedly connected with and the second fixed roll of right side top and bottom, the connecting plate openly just is close to the square guide rail of the position department fixedly connected with of bottom, square guide rail's surface sliding connection has the cushion roller, the connecting plate openly just is close to the first cylinder of the position department fixedly connected with on central right side, the output and the cushion roller looks fixed connection of first cylinder.

The utility model discloses a RFID two mark head labeling compound cross cutting check out test set, wherein slidingtype touch-sensitive screen mechanism includes cylindrical guide rail, the bottom of cylindrical guide rail is along horizontal direction equidistance fixedly connected with supporting shoe, cylindrical guide rail's surface sliding is connected with the line type bearing frame, the top fixedly connected with swing arm of line type bearing frame, the positive bottom fixedly connected with touch-sensitive screen of swing arm.

The utility model discloses a RFID two mark head labeling compound cross cutting check out test set wherein connects mark mechanism to include the second cylinder, the equal fixedly connected with clamp plate in position department at second cylinder top and near the left and right sides.

The utility model discloses a RFID two mark head paste mark composite die cutting check out test set, the swing arm roller that wherein form advances includes the mounting panel, the mounting panel openly just is close to the position fixedly connected with of central top and form advances first drive roll, the position department that just is close to the back of form advances first drive roll rotates and is connected with the toper even board, the toper is even the board openly and is kept away from one side fixedly connected with of the first drive roll of form advancing first driven voller of form advancing.

Compared with the prior art, the beneficial effects of the utility model are as follows:

1. the product function is many, as long as change label winding direction just can change the product function, has the label to carry out the complex function after the layering, still with upper portion label and lower part label complex function, still carries out the complex function after pasting the mark again, can die cut into individual drop finished product with whole roll of label, can make the label into binary channels product, and the rethread is into many rolls of individual products, and is multiple functional, various, disposable shaping, production efficiency is high.

2. The labeling, film coating, compounding and die cutting are independent from each other, do not interfere with each other, can be decomposed and exchanged at will, can be directly made into a tag product, and can also be made into a rolled product which is then cut into single tag products.

3. The product precision is high, and production speed is fast, easy operation, and degree of automation is high, is fit for various enterprises and uses.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

FIG. 1 is a schematic view of the overall front view structure of the present invention;

FIG. 2 is a schematic view of a three-dimensional structure of the slitting mechanism of the present invention;

FIG. 3 is a schematic view of the three-dimensional structure of the die-cutting mechanism of the present invention;

FIG. 4 is a schematic view of the three-dimensional structure of the labeling platform of the present invention;

FIG. 5 is a schematic view of a three-dimensional structure of the buffering mechanism of the present invention;

fig. 6 is a schematic perspective view of the sliding touch screen mechanism of the present invention;

fig. 7 is a schematic view of the three-dimensional structure of the label receiving mechanism of the present invention;

FIG. 8 is a schematic view of the three-dimensional structure of the swing arm roller for feeding paper of the present invention;

fig. 9 is a schematic view of the overall three-dimensional structure of the present invention.

In the figure: 1. cutting the first driven roller; 2. cutting a second driven roller; 3. cutting a third driven roller; 4. a finished product receiving driving roller; 5. a slitting mechanism; 51. a compression roller; 52. a transmission gear; 53. a machine base; 54. slitting a driving roller; 55. adjusting a knob; 56. a protective frame; 6. die cutting driving roller; 7. a die-cutting mechanism; 71. die cutting guide rollers; 72. a power transition roll; 8. a fifth driven roller for receiving materials; 9. a fourth driven roller for receiving the material; 10. a material receiving driving roller; 11. a third driven roller for receiving materials; 12. a second driven roller for receiving the material; 13. labeling a composite material receiving driving roller; 14. receiving a first driven roller; 15. labeling a composite feeding driving roller; 16. labeling the platform; 161. a light detection platform; 162. a second patch of the map electric eye; 163. a stainless steel plate; 164. a first patch map electric eye; 17. a third driven roller for correcting deviation; 18. a second driven roller for correcting deviation; 19. a first driven roller for correcting deviation; 20. a deviation rectifier; 21. a buffer mechanism; 211. a first fixed roller; 212. a second fixed roller; 213. a buffer roller; 214. a square guide rail; 215. a first cylinder; 216. a connecting plate; 22. labeling a first driven roller; 23. labeling a second driven roller; 24. a cabinet; 25. a second driven roller for feeding the facial tissues; 26. sticking a header; 27. a sliding touch screen mechanism; 271. swinging arms; 272. a touch screen; 273. a support block; 274. a cylindrical guide rail; 275. a linear bearing seat; 28. a facial tissue receiving driving roller; 29. a first driven roller for feeding facial tissues; 30. a second driven roller for feeding paper; 31. a second drive roller for feeding paper; 32. labeling a second driven roller; 33. a label receiving mechanism; 331. a second cylinder; 332. pressing a plate; 34. labeling a first driven roller; 35. a paper feed swing arm roller; 351. a conical connecting plate; 352. a first driven roller for feeding paper; 353. a first drive roller for feeding paper; 354. mounting a plate; 36. a first scrap recovery drive roll; 37. a first waste recovery driven roller; 38. a second waste recovery driven roller; 39. a second scrap recovery drive roll.

Detailed Description

In the following description, for purposes of explanation, numerous specific details are set forth in order to provide a thorough understanding of the present invention. It should be understood, however, that these physical details should not be taken to limit the invention. That is, in some embodiments of the invention, these physical details are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for description purposes, not specifically referring to the order or sequence, and are not intended to limit the present invention, but only to distinguish the components or operations described in the same technical terms, and are not to be construed as indicating or implying any relative importance or implicit indication of the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

Referring to fig. 1-9, the utility model discloses a compound cross cutting detection equipment of RFID two mark head subsides mark, including rack 24, rack 24 openly just is close to the position department at left side top and installs facial tissue pay-off second driven voller 25, rack 24 openly just is close to the central position department on right side and installs cutting mechanism 5, rack 24 openly just is close to the position department on cutting mechanism 5 right side and from left to right installs in proper order and cuts first driven voller 1, cuts second driven voller 2 and cuts third driven voller 3, rack 24 openly just is close to the position department of cutting third driven voller 3 bottom and installs finished product material receiving drive roll 4, rack 24 openly just is close to the left position department of cutting mechanism 5 and installs die cutting mechanism 7, rack 24 openly just is close to die cutting mechanism 7 right side and installs in proper order and receives material drive roller 6, rack 24 openly just is close to die, A fourth receiving driven roller 9, a receiving driving roller 10, a third receiving driven roller 11, a second receiving driven roller 12 and a first receiving driven roller 14, wherein a labeling composite receiving driving roller 13 is arranged on the front surface of a cabinet 24 and close to the bottom of the center, a labeling composite feeding driving roller 15 is arranged on the front surface of the cabinet 24 and close to the left side of the labeling composite receiving driving roller 13, a labeling platform 16 is fixedly connected to the front surface of the cabinet 24 and close to the left side of the center, a deviation rectifier 20 is arranged on the front surface of the cabinet 24 and close to the bottom of the left side, a deviation rectifying first driven roller 19, a deviation rectifying second driven roller 18 and a deviation rectifying third driven roller 17 are arranged on the front surface of the cabinet 24 and close to the periphery of the deviation rectifier 20, a buffer mechanism 21 is arranged on the front surface of the cabinet 24 and close to the top of the deviation rectifier 20, a labeling second driven roller 23 and a labeling first driven roller 22 are, two labeling heads 26 are arranged on the front surface of the machine cabinet 24 and close to the top of the left side, a sliding type touch screen mechanism 27 is fixedly connected to the top of the machine cabinet 24 and close to the left side of the front surface, a labeling mechanism 33 is arranged on the front surface of the machine cabinet 24 and close to the top of the material receiving driving roller 10, a labeling second driven roller 32 and a labeling first driven roller 34 are respectively arranged on the front surface of the machine cabinet 24 and close to the left side and the right side of the labeling mechanism 33, a paper feeding second driven roller 30 is arranged on the front surface of the machine cabinet 24 and close to the top of the labeling second driven roller 32, a paper feeding second driving roller 31 is arranged on the front surface of the machine cabinet 24 and close to the top of the paper feeding second driven roller 30, a paper feeding swing arm roller 35 is fixedly connected to the front surface of the machine cabinet 24 and close to the left side of the paper feeding second driving roller 31, a, the first driven roller 29 for feeding the facial tissue is installed at the position, close to the top of the facial tissue receiving driving roller 28, of the front face of the cabinet 24, the first waste recovery driving roller 36 is installed at the position, close to the top of the right side of the center, of the cabinet 24, the first waste recovery driven roller 37 is fixedly connected to the position, close to the top of the die cutting driving roller 6, of the front face of the cabinet 24, the first waste recovery driving roller 36 is installed at the position, close to the top of the first waste recovery driven roller 37, the second waste recovery driven roller 38 is installed at the position, close to the top of the slitting first driven roller 1, of the front face of the cabinet 24, and the second waste recovery driving roller 39 is installed at the position, close to.

The slitting mechanism 5 comprises a base 53, a mounting frame is fixedly connected to the center of the top of the base 53, a slitting driving roller 54 and a pressing roller 51 are respectively and rotatably connected to the front top and the bottom of the mounting frame, a transmission gear 52 is fixedly connected to the center of the right side of the pressing roller 51, the transmission gear 52 is meshed with the right side of the slitting driving roller 54, a protective frame 56 is fixedly connected to the back of the top of the base 53, and an adjusting knob 55 is fixedly connected to the center of the left side of the base.

The die cutting mechanism 7 comprises a die cutting guide roller 71 and a power transition roller 72, wherein the die cutting guide roller 71 is positioned on the top of the power transition roller 72.

The labeling platform 16 includes a stainless steel plate 163, a first labeling and mapping object electric eye 164 is installed at a position on the top of the stainless steel plate 163 and close to the left side, a light detection platform 161 is installed at a position on the top of the stainless steel plate 163 and close to the right side, and a second labeling and mapping object electric eye 162 is installed at a position on the top of the stainless steel plate 163 and close to the left side of the light detection platform 161.

Buffer gear 21 includes connecting plate 216, and connecting plate 216 is positive and the position punishment that is close to right side top and bottom do not fixedly connected with first fixed roll 211 and second fixed roll 212, and connecting plate 216 is positive and the position punishment fixedly connected with square guide rail 214 that is close to the bottom, and the surperficial sliding connection of square guide rail 214 has buffer roll 213, and connecting plate 216 is positive and the position punishment fixedly connected with first cylinder 215 that is close to the right side of central authorities, and the output of first cylinder 215 is fixed connection mutually with buffer roll 213.

The sliding type touch screen mechanism 27 includes a cylindrical guide rail 274, support blocks 273 are fixedly connected to the bottom of the cylindrical guide rail 274 at equal intervals in the horizontal direction, a linear bearing seat 275 is slidably connected to the surface of the cylindrical guide rail 274, a swing arm 271 is fixedly connected to the top of the linear bearing seat 275, and a touch screen 272 is fixedly connected to the bottom of the front surface of the swing arm 271.

The label receiving mechanism 33 includes a second cylinder 331, and a pressing plate 332 is fixedly connected to the top of the second cylinder 331 and the positions close to the left and right sides.

The paper feeding swing arm roller 35 comprises a mounting plate 354, a paper feeding first driving roller 353 is fixedly connected to the position, close to the top of the center, of the front face of the mounting plate 354, a conical connecting plate 351 is rotatably connected to the position, close to the back face, of the paper feeding first driving roller 353, and a paper feeding first driven roller 352 is fixedly connected to the side, far away from the paper feeding first driving roller 353, of the front face of the conical connecting plate 351.

The working principle is as follows: when a start button of the touch screen 272 is pressed, the paper feeding second driving roller 31 receives a start instruction, a cylinder rod in the paper feeding second driving roller 31 extends to drive the press roller 51 to move downwards and is pressed on the paper feeding second driving roller 31, the paper feeding second driving roller 31 rotates to drive the press roller 51 to rotate, the label is pulled to move forwards, the label on the paper feeding swing arm roller 35 is unreeled, the label moves to the label receiving paper feeding first driven roller 352, passes through the label receiving mechanism 33, passes through the label receiving second driven roller 32, reaches the paper feeding second driving roller 31, separates the surface paper from the base paper through the paper feeding second driven roller 30, divides the label into two paths, one path of the surface paper moves upwards, the other path of the base paper moves downwards, the surface paper moves upwards, passes through the surface paper feeding first driven roller 29 and the surface paper feeding second driven roller 25, passes through the buffer mechanism 21, passes through the deviation correcting first driven roller 19, passes through the deviation corrector 20, passes through, then the paper is labeled on the first driven roller 22 and the second driven roller 23, when the paper is fed to the first labeled marker electric eye 164, the paper is seen by the first labeled marker electric eye 164, the first labeled head 26 of the labeling mechanism is labeled one sheet, the paper is fed to the second labeled head 26, the paper is also seen by the second labeled marker electric eye 162 and labeled one sheet, the paper is continuously fed forwards, when the paper is fed to the light detection platform 161, the light detection is carried out, after the paper is detected to be qualified, the paper is continuously fed forwards through the first receiving driven roller 14 and the second receiving driven roller 12, when the paper is fed to another separated surface paper, the bottom paper and the surface paper are bonded through the third receiving driven roller 11, the bottom paper and the surface paper enter the receiving driving roller 10 to be pulled to continuously feed forwards, the paper enters the die cutting mechanism 7 for die cutting through the fourth receiving driven roller 9 and the fifth receiving driven roller 8, the die cutting is continuously fed forwards through the guide roller 71 and the power, the compound label is cut into strips by the cutting mechanism 5, when the label is cut by the first driven roller 1, cut waste materials travel upwards by the second driven roller 2 and are rolled into a roll by the second waste material recovery driving roller 39, finished labels travel downwards by the third driven roller 3, the finished labels are rolled into a roll by the finished product receiving driving roller 4, and the whole process is continued to repeat the procedures.

The above description is only an embodiment of the present invention, and is not intended to limit the present invention. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims (8)

1. The utility model provides a two mark heads of RFID paste compound cross cutting check out test set, includes rack (24), its characterized in that: rack (24) openly just are close to the position department at left side top and install facial tissue pay-off second driven voller (25), rack (24) openly just is close to the central position department on right side and installs and cut mechanism (5), rack (24) openly just is close to the position department on cut mechanism (5) right side from left to right installs in proper order and cuts first driven voller (1), cuts second driven voller (2) and cuts third driven voller (3), rack (24) openly just is close to the position department of cutting third driven voller (3) bottom and installs finished product receipts material drive roll (4), rack (24) openly just is close to the left position department of cut mechanism (5) and installs die-cutting mechanism (7), rack (24) openly just is close to die-cutting mechanism (7) right side and installs cross-cutting drive roller (6), rack (24) openly just are close to die-cutting mechanism (7) left position department and install in proper order and receive material ) The machine comprises a fourth receiving driven roller (9), a receiving driving roller (10), a third receiving driven roller (11), a second receiving driven roller (12) and a first receiving driven roller (14), wherein a labeling composite receiving driving roller (13) is installed at the position which is on the front side and close to the bottom of the center of the machine cabinet (24), a labeling composite feeding driving roller (15) is installed at the position which is on the front side and close to the left side of the labeling composite receiving driving roller (13) of the machine cabinet (24), a labeling platform (16) is fixedly connected at the position which is on the front side and close to the left side of the center of the machine cabinet (24), a deviation corrector (20) is installed at the position which is on the front side and close to the periphery of the deviation corrector (20) of the machine cabinet (24), and the first deviation correcting driven roller (19), the second deviation correcting driven roller (18) and the third deviation correcting driven, rack (24) openly just are close to position department at rectifier (20) top and install buffer gear (21), rack (24) openly just is close to mark left position department of platform (16) and installs in proper order and paste mark second driven voller (23) and paste mark first driven voller (22), rack (24) openly just is close to position department at left side top and installs two mark heads (26), rack (24) top just is close to positive left position department fixedly connected with slidingtype touch-sensitive screen mechanism (27), rack (24) openly just is close to the position department of receiving material drive roller (10) top and installs and connect mark mechanism (33), rack (24) openly just is close to the position department of connecing mark mechanism (33) left and right sides and installs respectively and connects mark second driven voller (32) and connect mark first driven voller (34), rack (24) openly just is close to the position department of connecing mark second driven voller (32) upper left corner and installs second driven voller (30) of form advancing Cabinet (24) openly just are close to the position department at second driven voller (30) top of form advancing and install second drive roll (31) of form advancing, cabinet (24) openly just is close to the position department fixedly connected with swing arm roller (35) of form advancing that connects mark first driven voller (34) top, cabinet (24) openly just is close to the position department fixedly connected with facial tissue of form advancing second drive roll (31) left and receives material drive roll (28), cabinet (24) openly just is close to the position department at facial tissue receipts material drive roll (28) top and installs first waste recovery drive roll (36), cabinet (24) openly just is close to the position department at central right side top and installs first waste recovery drive roll (36), cabinet (24) openly just is close to the position department fixedly connected with first waste recovery driven voller (37) at cross cutting drive roll (6) top, cabinet (24) openly just is close to the position department at first waste recovery driven voller (37) top and installs the second waste recovery A waste recycling drive roller (36), cabinet (24) openly just are close to the position department of cutting first driven voller (1) top and install second waste recycling driven voller (38), cabinet (24) openly just are close to the position department of right side top and install second waste recycling drive roller (39).

2. The RFID dual-label-head labeling composite die-cutting detection device according to claim 1, wherein: cut mechanism (5) including frame (53), the central fixedly connected with mounting bracket at frame (53) top, the positive top of mounting bracket and bottom rotate respectively and are connected with and cut drive roll (54) and compression roller (51), central fixedly connected with drive gear (52) on compression roller (51) right side, drive gear (52) mesh with the right side of cutting drive roll (54) mutually, the back fixedly connected with protection frame (56) at frame (53) top, frame (53) left central fixedly connected with adjust knob (55).

3. The RFID dual-label-head labeling composite die-cutting detection device according to claim 1, wherein: the die cutting mechanism (7) comprises a die cutting guide roller (71) and a power transition roller (72), and the die cutting guide roller (71) is located at the top of the power transition roller (72).

4. The RFID dual-label-head labeling composite die-cutting detection device according to claim 1, wherein: the labeling platform (16) comprises a stainless steel plate (163), a first labeling and mapping object electric eye (164) is installed at the position, close to the left side, of the top of the stainless steel plate (163), a light detection platform (161) is installed at the position, close to the right side, of the top of the stainless steel plate (163), and a second labeling and mapping object electric eye (162) is installed at the position, close to the left side of the light detection platform (161), of the top of the stainless steel plate (163).

5. The RFID dual-label-head labeling composite die-cutting detection device according to claim 1, wherein: buffer gear (21) includes connecting plate (216), connecting plate (216) are positive and are close to the first fixed roller of fixedly connected with (211) and second fixed roller (212) respectively of position department of right side top and bottom, connecting plate (216) are positive and are close to the square guide rail of position department fixedly connected with (214) of bottom, the surperficial sliding connection of square guide rail (214) has buffer roller (213), connecting plate (216) are positive and are close to the first cylinder (215) of position department fixedly connected with on central right side, the output and the buffer roller (213) looks fixed connection of first cylinder (215).

6. The RFID dual-label-head labeling composite die-cutting detection device according to claim 1, wherein: the sliding type touch screen mechanism (27) comprises a cylindrical guide rail (274), supporting blocks (273) are fixedly connected to the bottom of the cylindrical guide rail (274) at equal intervals along the horizontal direction, a linear bearing seat (275) is connected to the surface of the cylindrical guide rail (274) in a sliding mode, a swing arm (271) is fixedly connected to the top of the linear bearing seat (275), and a touch screen (272) is fixedly connected to the bottom of the front face of the swing arm (271).

7. The RFID dual-label-head labeling composite die-cutting detection device according to claim 1, wherein: connect mark mechanism (33) including second cylinder (331), second cylinder (331) top and be close to the equal fixedly connected with clamp plate (332) in the position department of left and right sides.

8. The RFID dual-label-head labeling composite die-cutting detection device according to claim 1, wherein: swing arm roller form advances (35) include mounting panel (354), mounting panel (354) are positive and be close to the position department fixedly connected with first drive roll of form advancing (353) at central top, first drive roll of form advancing (353) and be close to the position department rotation at the back and be connected with toper even board (351), toper even board (351) are positive and keep away from one side fixedly connected with first driven voller of form advancing (352).

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